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cobalt / cobalt / b15365272e6489fad522fda39eabf582f874017d / . / src / third_party / libxml / src / xmlschemas.c
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/*
* schemas.c : implementation of the XML Schema handling and
* schema validity checking
*
* See Copyright for the status of this software.
*
* Daniel Veillard <veillard@redhat.com>
*/
/*
* TODO:
* - when types are redefined in includes, check that all
* types in the redef list are equal
* -> need a type equality operation.
* - if we don't intend to use the schema for schemas, we
* need to validate all schema attributes (ref, type, name)
* against their types.
* - Eliminate item creation for: ??
*
* URGENT TODO:
* - For xsi-driven schema acquisition, augment the IDCs after every
* acquisition episode (xmlSchemaAugmentIDC).
*
* NOTES:
* - Elimated item creation for: <restriction>, <extension>,
* <simpleContent>, <complexContent>, <list>, <union>
*
* PROBLEMS:
* - http://lists.w3.org/Archives/Public/www-xml-schema-comments/2005JulSep/0337.html
* IDC XPath expression and chameleon includes: the targetNamespace is changed, so
* XPath will have trouble to resolve to this namespace, since not known.
*
*
* CONSTRAINTS:
*
* Schema Component Constraint:
* All Group Limited (cos-all-limited)
* Status: complete
* (1.2)
* In xmlSchemaGroupDefReferenceTermFixup() and
* (2)
* In xmlSchemaParseModelGroup()
* TODO: Actually this should go to component-level checks,
* but is done here due to performance. Move it to an other layer
* is schema construction via an API is implemented.
*/
#define IN_LIBXML
#include "libxml.h"
#ifdef LIBXML_SCHEMAS_ENABLED
#ifdef HAVE_STRING_H
#include <string.h>
#endif
#include <libxml/xmlmemory.h>
#include <libxml/parser.h>
#include <libxml/parserInternals.h>
#include <libxml/hash.h>
#include <libxml/uri.h>
#include <libxml/xmlschemas.h>
#include <libxml/schemasInternals.h>
#include <libxml/xmlschemastypes.h>
#include <libxml/xmlautomata.h>
#include <libxml/xmlregexp.h>
#include <libxml/dict.h>
#include <libxml/encoding.h>
#include <libxml/xmlIO.h>
#ifdef LIBXML_PATTERN_ENABLED
#include <libxml/pattern.h>
#endif
#ifdef LIBXML_READER_ENABLED
#include <libxml/xmlreader.h>
#endif
/* #define DEBUG 1 */
/* #define DEBUG_CONTENT 1 */
/* #define DEBUG_TYPE 1 */
/* #define DEBUG_CONTENT_REGEXP 1 */
/* #define DEBUG_AUTOMATA 1 */
/* #define DEBUG_IDC */
/* #define DEBUG_IDC_NODE_TABLE */
/* #define WXS_ELEM_DECL_CONS_ENABLED */
#ifdef DEBUG_IDC
#ifndef DEBUG_IDC_NODE_TABLE
#define DEBUG_IDC_NODE_TABLE
#endif
#endif
/* #define ENABLE_PARTICLE_RESTRICTION 1 */
#define ENABLE_REDEFINE
/* #define ENABLE_NAMED_LOCALS */
/* #define ENABLE_IDC_NODE_TABLES_TEST */
#define DUMP_CONTENT_MODEL
#ifdef LIBXML_READER_ENABLED
/* #define XML_SCHEMA_READER_ENABLED */
#endif
#define UNBOUNDED (1 << 30)
#define TODO \
xmlGenericError(xmlGenericErrorContext, \
"Unimplemented block at %s:%d\n", \
__FILE__, __LINE__);
#define XML_SCHEMAS_NO_NAMESPACE (const xmlChar *) "##"
/*
* The XML Schemas namespaces
*/
static const xmlChar *xmlSchemaNs = (const xmlChar *)
"http://www.w3.org/2001/XMLSchema";
static const xmlChar *xmlSchemaInstanceNs = (const xmlChar *)
"http://www.w3.org/2001/XMLSchema-instance";
static const xmlChar *xmlNamespaceNs = (const xmlChar *)
"http://www.w3.org/2000/xmlns/";
/*
* Come casting macros.
*/
#define ACTXT_CAST (xmlSchemaAbstractCtxtPtr)
#define PCTXT_CAST (xmlSchemaParserCtxtPtr)
#define VCTXT_CAST (xmlSchemaValidCtxtPtr)
#define WXS_BASIC_CAST (xmlSchemaBasicItemPtr)
#define WXS_TREE_CAST (xmlSchemaTreeItemPtr)
#define WXS_PTC_CAST (xmlSchemaParticlePtr)
#define WXS_TYPE_CAST (xmlSchemaTypePtr)
#define WXS_ELEM_CAST (xmlSchemaElementPtr)
#define WXS_ATTR_GROUP_CAST (xmlSchemaAttributeGroupPtr)
#define WXS_ATTR_CAST (xmlSchemaAttributePtr)
#define WXS_ATTR_USE_CAST (xmlSchemaAttributeUsePtr)
#define WXS_ATTR_PROHIB_CAST (xmlSchemaAttributeUseProhibPtr)
#define WXS_MODEL_GROUPDEF_CAST (xmlSchemaModelGroupDefPtr)
#define WXS_MODEL_GROUP_CAST (xmlSchemaModelGroupPtr)
#define WXS_IDC_CAST (xmlSchemaIDCPtr)
#define WXS_QNAME_CAST (xmlSchemaQNameRefPtr)
#define WXS_LIST_CAST (xmlSchemaItemListPtr)
/*
* Macros to query common properties of components.
*/
#define WXS_ITEM_NODE(i) xmlSchemaGetComponentNode(WXS_BASIC_CAST (i))
#define WXS_ITEM_TYPE_NAME(i) xmlSchemaGetComponentTypeStr(WXS_BASIC_CAST (i))
/*
* Macros for element declarations.
*/
#define WXS_ELEM_TYPEDEF(e) (e)->subtypes
#define WXS_SUBST_HEAD(item) (item)->refDecl
/*
* Macros for attribute declarations.
*/
#define WXS_ATTR_TYPEDEF(a) (a)->subtypes
/*
* Macros for attribute uses.
*/
#define WXS_ATTRUSE_DECL(au) WXS_ATTR_CAST (WXS_ATTR_USE_CAST (au))->attrDecl
#define WXS_ATTRUSE_TYPEDEF(au) WXS_ATTR_TYPEDEF(WXS_ATTRUSE_DECL( WXS_ATTR_USE_CAST au))
#define WXS_ATTRUSE_DECL_NAME(au) (WXS_ATTRUSE_DECL(au))->name
#define WXS_ATTRUSE_DECL_TNS(au) (WXS_ATTRUSE_DECL(au))->targetNamespace
/*
* Macros for attribute groups.
*/
#define WXS_ATTR_GROUP_HAS_REFS(ag) ((WXS_ATTR_GROUP_CAST (ag))->flags & XML_SCHEMAS_ATTRGROUP_HAS_REFS)
#define WXS_ATTR_GROUP_EXPANDED(ag) ((WXS_ATTR_GROUP_CAST (ag))->flags & XML_SCHEMAS_ATTRGROUP_WILDCARD_BUILDED)
/*
* Macros for particles.
*/
#define WXS_PARTICLE(p) WXS_PTC_CAST (p)
#define WXS_PARTICLE_TERM(p) (WXS_PARTICLE(p))->children
#define WXS_PARTICLE_TERM_AS_ELEM(p) (WXS_ELEM_CAST WXS_PARTICLE_TERM(p))
#define WXS_PARTICLE_MODEL(p) WXS_MODEL_GROUP_CAST WXS_PARTICLE(p)->children
/*
* Macros for model groups definitions.
*/
#define WXS_MODELGROUPDEF_MODEL(mgd) (WXS_MODEL_GROUP_CAST (mgd))->children
/*
* Macros for model groups.
*/
#define WXS_IS_MODEL_GROUP(i) \
(((i)->type == XML_SCHEMA_TYPE_SEQUENCE) || \
((i)->type == XML_SCHEMA_TYPE_CHOICE) || \
((i)->type == XML_SCHEMA_TYPE_ALL))
#define WXS_MODELGROUP_PARTICLE(mg) WXS_PTC_CAST (mg)->children
/*
* Macros for schema buckets.
*/
#define WXS_IS_BUCKET_INCREDEF(t) (((t) == XML_SCHEMA_SCHEMA_INCLUDE) || \
((t) == XML_SCHEMA_SCHEMA_REDEFINE))
#define WXS_IS_BUCKET_IMPMAIN(t) (((t) == XML_SCHEMA_SCHEMA_MAIN) || \
((t) == XML_SCHEMA_SCHEMA_IMPORT))
#define WXS_IMPBUCKET(b) ((xmlSchemaImportPtr) (b))
#define WXS_INCBUCKET(b) ((xmlSchemaIncludePtr) (b))
/*
* Macros for complex/simple types.
*/
#define WXS_IS_ANYTYPE(i) \
(( (i)->type == XML_SCHEMA_TYPE_BASIC) && \
( (WXS_TYPE_CAST (i))->builtInType == XML_SCHEMAS_ANYTYPE))
#define WXS_IS_COMPLEX(i) \
(((i)->type == XML_SCHEMA_TYPE_COMPLEX) || \
((i)->builtInType == XML_SCHEMAS_ANYTYPE))
#define WXS_IS_SIMPLE(item) \
((item->type == XML_SCHEMA_TYPE_SIMPLE) || \
((item->type == XML_SCHEMA_TYPE_BASIC) && \
(item->builtInType != XML_SCHEMAS_ANYTYPE)))
#define WXS_IS_ANY_SIMPLE_TYPE(i) \
(((i)->type == XML_SCHEMA_TYPE_BASIC) && \
((i)->builtInType == XML_SCHEMAS_ANYSIMPLETYPE))
#define WXS_IS_RESTRICTION(t) \
((t)->flags & XML_SCHEMAS_TYPE_DERIVATION_METHOD_RESTRICTION)
#define WXS_IS_EXTENSION(t) \
((t)->flags & XML_SCHEMAS_TYPE_DERIVATION_METHOD_EXTENSION)
#define WXS_IS_TYPE_NOT_FIXED(i) \
(((i)->type != XML_SCHEMA_TYPE_BASIC) && \
(((i)->flags & XML_SCHEMAS_TYPE_INTERNAL_RESOLVED) == 0))
#define WXS_IS_TYPE_NOT_FIXED_1(item) \
(((item)->type != XML_SCHEMA_TYPE_BASIC) && \
(((item)->flags & XML_SCHEMAS_TYPE_FIXUP_1) == 0))
#define WXS_TYPE_IS_GLOBAL(t) ((t)->flags & XML_SCHEMAS_TYPE_GLOBAL)
#define WXS_TYPE_IS_LOCAL(t) (((t)->flags & XML_SCHEMAS_TYPE_GLOBAL) == 0)
/*
* Macros for exclusively for complex types.
*/
#define WXS_HAS_COMPLEX_CONTENT(item) \
((item->contentType == XML_SCHEMA_CONTENT_MIXED) || \
(item->contentType == XML_SCHEMA_CONTENT_EMPTY) || \
(item->contentType == XML_SCHEMA_CONTENT_ELEMENTS))
#define WXS_HAS_SIMPLE_CONTENT(item) \
((item->contentType == XML_SCHEMA_CONTENT_SIMPLE) || \
(item->contentType == XML_SCHEMA_CONTENT_BASIC))
#define WXS_HAS_MIXED_CONTENT(item) \
(item->contentType == XML_SCHEMA_CONTENT_MIXED)
#define WXS_EMPTIABLE(t) \
(xmlSchemaIsParticleEmptiable(WXS_PTC_CAST (t)->subtypes))
#define WXS_TYPE_CONTENTTYPE(t) (t)->subtypes
#define WXS_TYPE_PARTICLE(t) WXS_PTC_CAST (t)->subtypes
#define WXS_TYPE_PARTICLE_TERM(t) WXS_PARTICLE_TERM(WXS_TYPE_PARTICLE(t))
/*
* Macros for exclusively for simple types.
*/
#define WXS_LIST_ITEMTYPE(t) (t)->subtypes
#define WXS_IS_ATOMIC(t) (t->flags & XML_SCHEMAS_TYPE_VARIETY_ATOMIC)
#define WXS_IS_LIST(t) (t->flags & XML_SCHEMAS_TYPE_VARIETY_LIST)
#define WXS_IS_UNION(t) (t->flags & XML_SCHEMAS_TYPE_VARIETY_UNION)
/*
* Misc parser context macros.
*/
#define WXS_CONSTRUCTOR(ctx) (ctx)->constructor
#define WXS_HAS_BUCKETS(ctx) \
( (WXS_CONSTRUCTOR((ctx))->buckets != NULL) && \
(WXS_CONSTRUCTOR((ctx))->buckets->nbItems > 0) )
#define WXS_SUBST_GROUPS(ctx) WXS_CONSTRUCTOR((ctx))->substGroups
#define WXS_BUCKET(ctx) WXS_CONSTRUCTOR((ctx))->bucket
#define WXS_SCHEMA(ctx) (ctx)->schema
#define WXS_ADD_LOCAL(ctx, item) \
xmlSchemaAddItemSize(&(WXS_BUCKET(ctx)->locals), 10, item)
#define WXS_ADD_GLOBAL(ctx, item) \
xmlSchemaAddItemSize(&(WXS_BUCKET(ctx)->globals), 5, item)
#define WXS_ADD_PENDING(ctx, item) \
xmlSchemaAddItemSize(&((ctx)->constructor->pending), 10, item)
/*
* xmlSchemaItemList macros.
*/
#define WXS_ILIST_IS_EMPTY(l) ((l == NULL) || ((l)->nbItems == 0))
/*
* Misc macros.
*/
#define IS_SCHEMA(node, type) \
((node != NULL) && (node->ns != NULL) && \
(xmlStrEqual(node->name, (const xmlChar *) type)) && \
(xmlStrEqual(node->ns->href, xmlSchemaNs)))
#define FREE_AND_NULL(str) if ((str) != NULL) { xmlFree((xmlChar *) (str)); str = NULL; }
/*
* Since we put the default/fixed values into the dict, we can
* use pointer comparison for those values.
* REMOVED: (xmlStrEqual((v1), (v2)))
*/
#define WXS_ARE_DEFAULT_STR_EQUAL(v1, v2) ((v1) == (v2))
#define INODE_NILLED(item) (item->flags & XML_SCHEMA_ELEM_INFO_NILLED)
#define CAN_PARSE_SCHEMA(b) (((b)->doc != NULL) && ((b)->parsed == 0))
#define HFAILURE if (res == -1) goto exit_failure;
#define HERROR if (res != 0) goto exit_error;
#define HSTOP(ctx) if ((ctx)->stop) goto exit;
/*
* Some flags used for various schema constraints.
*/
#define SUBSET_RESTRICTION 1<<0
#define SUBSET_EXTENSION 1<<1
#define SUBSET_SUBSTITUTION 1<<2
#define SUBSET_LIST 1<<3
#define SUBSET_UNION 1<<4
typedef struct _xmlSchemaNodeInfo xmlSchemaNodeInfo;
typedef xmlSchemaNodeInfo *xmlSchemaNodeInfoPtr;
typedef struct _xmlSchemaItemList xmlSchemaItemList;
typedef xmlSchemaItemList *xmlSchemaItemListPtr;
struct _xmlSchemaItemList {
void **items; /* used for dynamic addition of schemata */
int nbItems; /* used for dynamic addition of schemata */
int sizeItems; /* used for dynamic addition of schemata */
};
#define XML_SCHEMA_CTXT_PARSER 1
#define XML_SCHEMA_CTXT_VALIDATOR 2
typedef struct _xmlSchemaAbstractCtxt xmlSchemaAbstractCtxt;
typedef xmlSchemaAbstractCtxt *xmlSchemaAbstractCtxtPtr;
struct _xmlSchemaAbstractCtxt {
int type; /* E.g. XML_SCHEMA_CTXT_VALIDATOR */
};
typedef struct _xmlSchemaBucket xmlSchemaBucket;
typedef xmlSchemaBucket *xmlSchemaBucketPtr;
#define XML_SCHEMA_SCHEMA_MAIN 0
#define XML_SCHEMA_SCHEMA_IMPORT 1
#define XML_SCHEMA_SCHEMA_INCLUDE 2
#define XML_SCHEMA_SCHEMA_REDEFINE 3
/**
* xmlSchemaSchemaRelation:
*
* Used to create a graph of schema relationships.
*/
typedef struct _xmlSchemaSchemaRelation xmlSchemaSchemaRelation;
typedef xmlSchemaSchemaRelation *xmlSchemaSchemaRelationPtr;
struct _xmlSchemaSchemaRelation {
xmlSchemaSchemaRelationPtr next;
int type; /* E.g. XML_SCHEMA_SCHEMA_IMPORT */
const xmlChar *importNamespace;
xmlSchemaBucketPtr bucket;
};
#define XML_SCHEMA_BUCKET_MARKED 1<<0
#define XML_SCHEMA_BUCKET_COMPS_ADDED 1<<1
struct _xmlSchemaBucket {
int type;
int flags;
const xmlChar *schemaLocation;
const xmlChar *origTargetNamespace;
const xmlChar *targetNamespace;
xmlDocPtr doc;
xmlSchemaSchemaRelationPtr relations;
int located;
int parsed;
int imported;
int preserveDoc;
xmlSchemaItemListPtr globals; /* Global components. */
xmlSchemaItemListPtr locals; /* Local components. */
};
/**
* xmlSchemaImport:
* (extends xmlSchemaBucket)
*
* Reflects a schema. Holds some information
* about the schema and its toplevel components. Duplicate
* toplevel components are not checked at this level.
*/
typedef struct _xmlSchemaImport xmlSchemaImport;
typedef xmlSchemaImport *xmlSchemaImportPtr;
struct _xmlSchemaImport {
int type; /* Main OR import OR include. */
int flags;
const xmlChar *schemaLocation; /* The URI of the schema document. */
/* For chameleon includes, @origTargetNamespace will be NULL */
const xmlChar *origTargetNamespace;
/*
* For chameleon includes, @targetNamespace will be the
* targetNamespace of the including schema.
*/
const xmlChar *targetNamespace;
xmlDocPtr doc; /* The schema node-tree. */
/* @relations will hold any included/imported/redefined schemas. */
xmlSchemaSchemaRelationPtr relations;
int located;
int parsed;
int imported;
int preserveDoc;
xmlSchemaItemListPtr globals;
xmlSchemaItemListPtr locals;
/* The imported schema. */
xmlSchemaPtr schema;
};
/*
* (extends xmlSchemaBucket)
*/
typedef struct _xmlSchemaInclude xmlSchemaInclude;
typedef xmlSchemaInclude *xmlSchemaIncludePtr;
struct _xmlSchemaInclude {
int type;
int flags;
const xmlChar *schemaLocation;
const xmlChar *origTargetNamespace;
const xmlChar *targetNamespace;
xmlDocPtr doc;
xmlSchemaSchemaRelationPtr relations;
int located;
int parsed;
int imported;
int preserveDoc;
xmlSchemaItemListPtr globals; /* Global components. */
xmlSchemaItemListPtr locals; /* Local components. */
/* The owning main or import schema bucket. */
xmlSchemaImportPtr ownerImport;
};
/**
* xmlSchemaBasicItem:
*
* The abstract base type for schema components.
*/
typedef struct _xmlSchemaBasicItem xmlSchemaBasicItem;
typedef xmlSchemaBasicItem *xmlSchemaBasicItemPtr;
struct _xmlSchemaBasicItem {
xmlSchemaTypeType type;
};
/**
* xmlSchemaAnnotItem:
*
* The abstract base type for annotated schema components.
* (Extends xmlSchemaBasicItem)
*/
typedef struct _xmlSchemaAnnotItem xmlSchemaAnnotItem;
typedef xmlSchemaAnnotItem *xmlSchemaAnnotItemPtr;
struct _xmlSchemaAnnotItem {
xmlSchemaTypeType type;
xmlSchemaAnnotPtr annot;
};
/**
* xmlSchemaTreeItem:
*
* The abstract base type for tree-like structured schema components.
* (Extends xmlSchemaAnnotItem)
*/
typedef struct _xmlSchemaTreeItem xmlSchemaTreeItem;
typedef xmlSchemaTreeItem *xmlSchemaTreeItemPtr;
struct _xmlSchemaTreeItem {
xmlSchemaTypeType type;
xmlSchemaAnnotPtr annot;
xmlSchemaTreeItemPtr next;
xmlSchemaTreeItemPtr children;
};
#define XML_SCHEMA_ATTR_USE_FIXED 1<<0
/**
* xmlSchemaAttributeUsePtr:
*
* The abstract base type for tree-like structured schema components.
* (Extends xmlSchemaTreeItem)
*/
typedef struct _xmlSchemaAttributeUse xmlSchemaAttributeUse;
typedef xmlSchemaAttributeUse *xmlSchemaAttributeUsePtr;
struct _xmlSchemaAttributeUse {
xmlSchemaTypeType type;
xmlSchemaAnnotPtr annot;
xmlSchemaAttributeUsePtr next; /* The next attr. use. */
/*
* The attr. decl. OR a QName-ref. to an attr. decl. OR
* a QName-ref. to an attribute group definition.
*/
xmlSchemaAttributePtr attrDecl;
int flags;
xmlNodePtr node;
int occurs; /* required, optional */
const xmlChar * defValue;
xmlSchemaValPtr defVal;
};
/**
* xmlSchemaAttributeUseProhibPtr:
*
* A helper component to reflect attribute prohibitions.
* (Extends xmlSchemaBasicItem)
*/
typedef struct _xmlSchemaAttributeUseProhib xmlSchemaAttributeUseProhib;
typedef xmlSchemaAttributeUseProhib *xmlSchemaAttributeUseProhibPtr;
struct _xmlSchemaAttributeUseProhib {
xmlSchemaTypeType type; /* == XML_SCHEMA_EXTRA_ATTR_USE_PROHIB */
xmlNodePtr node;
const xmlChar *name;
const xmlChar *targetNamespace;
int isRef;
};
/**
* xmlSchemaRedef:
*/
typedef struct _xmlSchemaRedef xmlSchemaRedef;
typedef xmlSchemaRedef *xmlSchemaRedefPtr;
struct _xmlSchemaRedef {
xmlSchemaRedefPtr next;
xmlSchemaBasicItemPtr item; /* The redefining component. */
xmlSchemaBasicItemPtr reference; /* The referencing component. */
xmlSchemaBasicItemPtr target; /* The to-be-redefined component. */
const xmlChar *refName; /* The name of the to-be-redefined component. */
const xmlChar *refTargetNs; /* The target namespace of the
to-be-redefined comp. */
xmlSchemaBucketPtr targetBucket; /* The redefined schema. */
};
/**
* xmlSchemaConstructionCtxt:
*/
typedef struct _xmlSchemaConstructionCtxt xmlSchemaConstructionCtxt;
typedef xmlSchemaConstructionCtxt *xmlSchemaConstructionCtxtPtr;
struct _xmlSchemaConstructionCtxt {
xmlSchemaPtr mainSchema; /* The main schema. */
xmlSchemaBucketPtr mainBucket; /* The main schema bucket */
xmlDictPtr dict;
xmlSchemaItemListPtr buckets; /* List of schema buckets. */
/* xmlSchemaItemListPtr relations; */ /* List of schema relations. */
xmlSchemaBucketPtr bucket; /* The current schema bucket */
xmlSchemaItemListPtr pending; /* All Components of all schemas that
need to be fixed. */
xmlHashTablePtr substGroups;
xmlSchemaRedefPtr redefs;
xmlSchemaRedefPtr lastRedef;
};
#define XML_SCHEMAS_PARSE_ERROR 1
#define SCHEMAS_PARSE_OPTIONS XML_PARSE_NOENT
struct _xmlSchemaParserCtxt {
int type;
void *errCtxt; /* user specific error context */
xmlSchemaValidityErrorFunc error; /* the callback in case of errors */
xmlSchemaValidityWarningFunc warning; /* the callback in case of warning */
int err;
int nberrors;
xmlStructuredErrorFunc serror;
xmlSchemaConstructionCtxtPtr constructor;
int ownsConstructor; /* TODO: Move this to parser *flags*. */
/* xmlSchemaPtr topschema; */
/* xmlHashTablePtr namespaces; */
xmlSchemaPtr schema; /* The main schema in use */
int counter;
const xmlChar *URL;
xmlDocPtr doc;
int preserve; /* Whether the doc should be freed */
const char *buffer;
int size;
/*
* Used to build complex element content models
*/
xmlAutomataPtr am;
xmlAutomataStatePtr start;
xmlAutomataStatePtr end;
xmlAutomataStatePtr state;
xmlDictPtr dict; /* dictionnary for interned string names */
xmlSchemaTypePtr ctxtType; /* The current context simple/complex type */
int options;
xmlSchemaValidCtxtPtr vctxt;
int isS4S;
int isRedefine;
int xsiAssemble;
int stop; /* If the parser should stop; i.e. a critical error. */
const xmlChar *targetNamespace;
xmlSchemaBucketPtr redefined; /* The schema to be redefined. */
xmlSchemaRedefPtr redef; /* Used for redefinitions. */
int redefCounter; /* Used for redefinitions. */
xmlSchemaItemListPtr attrProhibs;
};
/**
* xmlSchemaQNameRef:
*
* A component reference item (not a schema component)
* (Extends xmlSchemaBasicItem)
*/
typedef struct _xmlSchemaQNameRef xmlSchemaQNameRef;
typedef xmlSchemaQNameRef *xmlSchemaQNameRefPtr;
struct _xmlSchemaQNameRef {
xmlSchemaTypeType type;
xmlSchemaBasicItemPtr item; /* The resolved referenced item. */
xmlSchemaTypeType itemType;
const xmlChar *name;
const xmlChar *targetNamespace;
xmlNodePtr node;
};
/**
* xmlSchemaParticle:
*
* A particle component.
* (Extends xmlSchemaTreeItem)
*/
typedef struct _xmlSchemaParticle xmlSchemaParticle;
typedef xmlSchemaParticle *xmlSchemaParticlePtr;
struct _xmlSchemaParticle {
xmlSchemaTypeType type;
xmlSchemaAnnotPtr annot;
xmlSchemaTreeItemPtr next; /* next particle */
xmlSchemaTreeItemPtr children; /* the "term" (e.g. a model group,
a group definition, a XML_SCHEMA_EXTRA_QNAMEREF (if a reference),
etc.) */
int minOccurs;
int maxOccurs;
xmlNodePtr node;
};
/**
* xmlSchemaModelGroup:
*
* A model group component.
* (Extends xmlSchemaTreeItem)
*/
typedef struct _xmlSchemaModelGroup xmlSchemaModelGroup;
typedef xmlSchemaModelGroup *xmlSchemaModelGroupPtr;
struct _xmlSchemaModelGroup {
xmlSchemaTypeType type; /* XML_SCHEMA_TYPE_SEQUENCE, XML_SCHEMA_TYPE_CHOICE, XML_SCHEMA_TYPE_ALL */
xmlSchemaAnnotPtr annot;
xmlSchemaTreeItemPtr next; /* not used */
xmlSchemaTreeItemPtr children; /* first particle (OR "element decl" OR "wildcard") */
xmlNodePtr node;
};
#define XML_SCHEMA_MODEL_GROUP_DEF_MARKED 1<<0
#define XML_SCHEMA_MODEL_GROUP_DEF_REDEFINED 1<<1
/**
* xmlSchemaModelGroupDef:
*
* A model group definition component.
* (Extends xmlSchemaTreeItem)
*/
typedef struct _xmlSchemaModelGroupDef xmlSchemaModelGroupDef;
typedef xmlSchemaModelGroupDef *xmlSchemaModelGroupDefPtr;
struct _xmlSchemaModelGroupDef {
xmlSchemaTypeType type; /* XML_SCHEMA_TYPE_GROUP */
xmlSchemaAnnotPtr annot;
xmlSchemaTreeItemPtr next; /* not used */
xmlSchemaTreeItemPtr children; /* the "model group" */
const xmlChar *name;
const xmlChar *targetNamespace;
xmlNodePtr node;
int flags;
};
typedef struct _xmlSchemaIDC xmlSchemaIDC;
typedef xmlSchemaIDC *xmlSchemaIDCPtr;
/**
* xmlSchemaIDCSelect:
*
* The identity-constraint "field" and "selector" item, holding the
* XPath expression.
*/
typedef struct _xmlSchemaIDCSelect xmlSchemaIDCSelect;
typedef xmlSchemaIDCSelect *xmlSchemaIDCSelectPtr;
struct _xmlSchemaIDCSelect {
xmlSchemaIDCSelectPtr next;
xmlSchemaIDCPtr idc;
int index; /* an index position if significant for IDC key-sequences */
const xmlChar *xpath; /* the XPath expression */
void *xpathComp; /* the compiled XPath expression */
};
/**
* xmlSchemaIDC:
*
* The identity-constraint definition component.
* (Extends xmlSchemaAnnotItem)
*/
struct _xmlSchemaIDC {
xmlSchemaTypeType type;
xmlSchemaAnnotPtr annot;
xmlSchemaIDCPtr next;
xmlNodePtr node;
const xmlChar *name;
const xmlChar *targetNamespace;
xmlSchemaIDCSelectPtr selector;
xmlSchemaIDCSelectPtr fields;
int nbFields;
xmlSchemaQNameRefPtr ref;
};
/**
* xmlSchemaIDCAug:
*
* The augmented IDC information used for validation.
*/
typedef struct _xmlSchemaIDCAug xmlSchemaIDCAug;
typedef xmlSchemaIDCAug *xmlSchemaIDCAugPtr;
struct _xmlSchemaIDCAug {
xmlSchemaIDCAugPtr next; /* next in a list */
xmlSchemaIDCPtr def; /* the IDC definition */
int keyrefDepth; /* the lowest tree level to which IDC
tables need to be bubbled upwards */
};
/**
* xmlSchemaPSVIIDCKeySequence:
*
* The key sequence of a node table item.
*/
typedef struct _xmlSchemaPSVIIDCKey xmlSchemaPSVIIDCKey;
typedef xmlSchemaPSVIIDCKey *xmlSchemaPSVIIDCKeyPtr;
struct _xmlSchemaPSVIIDCKey {
xmlSchemaTypePtr type;
xmlSchemaValPtr val;
};
/**
* xmlSchemaPSVIIDCNode:
*
* The node table item of a node table.
*/
typedef struct _xmlSchemaPSVIIDCNode xmlSchemaPSVIIDCNode;
typedef xmlSchemaPSVIIDCNode *xmlSchemaPSVIIDCNodePtr;
struct _xmlSchemaPSVIIDCNode {
xmlNodePtr node;
xmlSchemaPSVIIDCKeyPtr *keys;
int nodeLine;
int nodeQNameID;
};
/**
* xmlSchemaPSVIIDCBinding:
*
* The identity-constraint binding item of the [identity-constraint table].
*/
typedef struct _xmlSchemaPSVIIDCBinding xmlSchemaPSVIIDCBinding;
typedef xmlSchemaPSVIIDCBinding *xmlSchemaPSVIIDCBindingPtr;
struct _xmlSchemaPSVIIDCBinding {
xmlSchemaPSVIIDCBindingPtr next; /* next binding of a specific node */
xmlSchemaIDCPtr definition; /* the IDC definition */
xmlSchemaPSVIIDCNodePtr *nodeTable; /* array of key-sequences */
int nbNodes; /* number of entries in the node table */
int sizeNodes; /* size of the node table */
xmlSchemaItemListPtr dupls;
};
#define XPATH_STATE_OBJ_TYPE_IDC_SELECTOR 1
#define XPATH_STATE_OBJ_TYPE_IDC_FIELD 2
#define XPATH_STATE_OBJ_MATCHES -2
#define XPATH_STATE_OBJ_BLOCKED -3
typedef struct _xmlSchemaIDCMatcher xmlSchemaIDCMatcher;
typedef xmlSchemaIDCMatcher *xmlSchemaIDCMatcherPtr;
/**
* xmlSchemaIDCStateObj:
*
* The state object used to evaluate XPath expressions.
*/
typedef struct _xmlSchemaIDCStateObj xmlSchemaIDCStateObj;
typedef xmlSchemaIDCStateObj *xmlSchemaIDCStateObjPtr;
struct _xmlSchemaIDCStateObj {
int type;
xmlSchemaIDCStateObjPtr next; /* next if in a list */
int depth; /* depth of creation */
int *history; /* list of (depth, state-id) tuples */
int nbHistory;
int sizeHistory;
xmlSchemaIDCMatcherPtr matcher; /* the correspondent field/selector
matcher */
xmlSchemaIDCSelectPtr sel;
void *xpathCtxt;
};
#define IDC_MATCHER 0
/**
* xmlSchemaIDCMatcher:
*
* Used to evaluate IDC selectors (and fields).
*/
struct _xmlSchemaIDCMatcher {
int type;
int depth; /* the tree depth at creation time */
xmlSchemaIDCMatcherPtr next; /* next in the list */
xmlSchemaIDCMatcherPtr nextCached; /* next in the cache list */
xmlSchemaIDCAugPtr aidc; /* the augmented IDC item */
int idcType;
xmlSchemaPSVIIDCKeyPtr **keySeqs; /* the key-sequences of the target
elements */
int sizeKeySeqs;
xmlSchemaItemListPtr targets; /* list of target-node
(xmlSchemaPSVIIDCNodePtr) entries */
};
/*
* Element info flags.
*/
#define XML_SCHEMA_NODE_INFO_FLAG_OWNED_NAMES 1<<0
#define XML_SCHEMA_NODE_INFO_FLAG_OWNED_VALUES 1<<1
#define XML_SCHEMA_ELEM_INFO_NILLED 1<<2
#define XML_SCHEMA_ELEM_INFO_LOCAL_TYPE 1<<3
#define XML_SCHEMA_NODE_INFO_VALUE_NEEDED 1<<4
#define XML_SCHEMA_ELEM_INFO_EMPTY 1<<5
#define XML_SCHEMA_ELEM_INFO_HAS_CONTENT 1<<6
#define XML_SCHEMA_ELEM_INFO_HAS_ELEM_CONTENT 1<<7
#define XML_SCHEMA_ELEM_INFO_ERR_BAD_CONTENT 1<<8
#define XML_SCHEMA_NODE_INFO_ERR_NOT_EXPECTED 1<<9
#define XML_SCHEMA_NODE_INFO_ERR_BAD_TYPE 1<<10
/**
* xmlSchemaNodeInfo:
*
* Holds information of an element node.
*/
struct _xmlSchemaNodeInfo {
int nodeType;
xmlNodePtr node;
int nodeLine;
const xmlChar *localName;
const xmlChar *nsName;
const xmlChar *value;
xmlSchemaValPtr val; /* the pre-computed value if any */
xmlSchemaTypePtr typeDef; /* the complex/simple type definition if any */
int flags; /* combination of node info flags */
int valNeeded;
int normVal;
xmlSchemaElementPtr decl; /* the element/attribute declaration */
int depth;
xmlSchemaPSVIIDCBindingPtr idcTable; /* the table of PSVI IDC bindings
for the scope element*/
xmlSchemaIDCMatcherPtr idcMatchers; /* the IDC matchers for the scope
element */
xmlRegExecCtxtPtr regexCtxt;
const xmlChar **nsBindings; /* Namespace bindings on this element */
int nbNsBindings;
int sizeNsBindings;
int hasKeyrefs;
int appliedXPath; /* Indicates that an XPath has been applied. */
};
#define XML_SCHEMAS_ATTR_UNKNOWN 1
#define XML_SCHEMAS_ATTR_ASSESSED 2
#define XML_SCHEMAS_ATTR_PROHIBITED 3
#define XML_SCHEMAS_ATTR_ERR_MISSING 4
#define XML_SCHEMAS_ATTR_INVALID_VALUE 5
#define XML_SCHEMAS_ATTR_ERR_NO_TYPE 6
#define XML_SCHEMAS_ATTR_ERR_FIXED_VALUE 7
#define XML_SCHEMAS_ATTR_DEFAULT 8
#define XML_SCHEMAS_ATTR_VALIDATE_VALUE 9
#define XML_SCHEMAS_ATTR_ERR_WILD_STRICT_NO_DECL 10
#define XML_SCHEMAS_ATTR_HAS_ATTR_USE 11
#define XML_SCHEMAS_ATTR_HAS_ATTR_DECL 12
#define XML_SCHEMAS_ATTR_WILD_SKIP 13
#define XML_SCHEMAS_ATTR_WILD_LAX_NO_DECL 14
#define XML_SCHEMAS_ATTR_ERR_WILD_DUPLICATE_ID 15
#define XML_SCHEMAS_ATTR_ERR_WILD_AND_USE_ID 16
#define XML_SCHEMAS_ATTR_META 17
/*
* @metaType values of xmlSchemaAttrInfo.
*/
#define XML_SCHEMA_ATTR_INFO_META_XSI_TYPE 1
#define XML_SCHEMA_ATTR_INFO_META_XSI_NIL 2
#define XML_SCHEMA_ATTR_INFO_META_XSI_SCHEMA_LOC 3
#define XML_SCHEMA_ATTR_INFO_META_XSI_NO_NS_SCHEMA_LOC 4
#define XML_SCHEMA_ATTR_INFO_META_XMLNS 5
typedef struct _xmlSchemaAttrInfo xmlSchemaAttrInfo;
typedef xmlSchemaAttrInfo *xmlSchemaAttrInfoPtr;
struct _xmlSchemaAttrInfo {
int nodeType;
xmlNodePtr node;
int nodeLine;
const xmlChar *localName;
const xmlChar *nsName;
const xmlChar *value;
xmlSchemaValPtr val; /* the pre-computed value if any */
xmlSchemaTypePtr typeDef; /* the complex/simple type definition if any */
int flags; /* combination of node info flags */
xmlSchemaAttributePtr decl; /* the attribute declaration */
xmlSchemaAttributeUsePtr use; /* the attribute use */
int state;
int metaType;
const xmlChar *vcValue; /* the value constraint value */
xmlSchemaNodeInfoPtr parent;
};
#define XML_SCHEMA_VALID_CTXT_FLAG_STREAM 1
/**
* xmlSchemaValidCtxt:
*
* A Schemas validation context
*/
struct _xmlSchemaValidCtxt {
int type;
void *errCtxt; /* user specific data block */
xmlSchemaValidityErrorFunc error; /* the callback in case of errors */
xmlSchemaValidityWarningFunc warning; /* the callback in case of warning */
xmlStructuredErrorFunc serror;
xmlSchemaPtr schema; /* The schema in use */
xmlDocPtr doc;
xmlParserInputBufferPtr input;
xmlCharEncoding enc;
xmlSAXHandlerPtr sax;
xmlParserCtxtPtr parserCtxt;
void *user_data; /* TODO: What is this for? */
char *filename;
int err;
int nberrors;
xmlNodePtr node;
xmlNodePtr cur;
/* xmlSchemaTypePtr type; */
xmlRegExecCtxtPtr regexp;
xmlSchemaValPtr value;
int valueWS;
int options;
xmlNodePtr validationRoot;
xmlSchemaParserCtxtPtr pctxt;
int xsiAssemble;
int depth;
xmlSchemaNodeInfoPtr *elemInfos; /* array of element informations */
int sizeElemInfos;
xmlSchemaNodeInfoPtr inode; /* the current element information */
xmlSchemaIDCAugPtr aidcs; /* a list of augmented IDC informations */
xmlSchemaIDCStateObjPtr xpathStates; /* first active state object. */
xmlSchemaIDCStateObjPtr xpathStatePool; /* first stored state object. */
xmlSchemaIDCMatcherPtr idcMatcherCache; /* Cache for IDC matcher objects. */
xmlSchemaPSVIIDCNodePtr *idcNodes; /* list of all IDC node-table entries*/
int nbIdcNodes;
int sizeIdcNodes;
xmlSchemaPSVIIDCKeyPtr *idcKeys; /* list of all IDC node-table entries */
int nbIdcKeys;
int sizeIdcKeys;
int flags;
xmlDictPtr dict;
#ifdef LIBXML_READER_ENABLED
xmlTextReaderPtr reader;
#endif
xmlSchemaAttrInfoPtr *attrInfos;
int nbAttrInfos;
int sizeAttrInfos;
int skipDepth;
xmlSchemaItemListPtr nodeQNames;
int hasKeyrefs;
int createIDCNodeTables;
int psviExposeIDCNodeTables;
/* Locator for error reporting in streaming mode */
xmlSchemaValidityLocatorFunc locFunc;
void *locCtxt;
};
/**
* xmlSchemaSubstGroup:
*
*
*/
typedef struct _xmlSchemaSubstGroup xmlSchemaSubstGroup;
typedef xmlSchemaSubstGroup *xmlSchemaSubstGroupPtr;
struct _xmlSchemaSubstGroup {
xmlSchemaElementPtr head;
xmlSchemaItemListPtr members;
};
/************************************************************************
* *
* Some predeclarations *
* *
************************************************************************/
static int xmlSchemaParseInclude(xmlSchemaParserCtxtPtr ctxt,
xmlSchemaPtr schema,
xmlNodePtr node);
static int xmlSchemaParseRedefine(xmlSchemaParserCtxtPtr ctxt,
xmlSchemaPtr schema,
xmlNodePtr node);
static int
xmlSchemaTypeFixup(xmlSchemaTypePtr type,
xmlSchemaAbstractCtxtPtr ctxt);
static const xmlChar *
xmlSchemaFacetTypeToString(xmlSchemaTypeType type);
static int
xmlSchemaParseImport(xmlSchemaParserCtxtPtr ctxt, xmlSchemaPtr schema,
xmlNodePtr node);
static int
xmlSchemaCheckFacetValues(xmlSchemaTypePtr typeDecl,
xmlSchemaParserCtxtPtr ctxt);
static void
xmlSchemaClearValidCtxt(xmlSchemaValidCtxtPtr vctxt);
static xmlSchemaWhitespaceValueType
xmlSchemaGetWhiteSpaceFacetValue(xmlSchemaTypePtr type);
static xmlSchemaTreeItemPtr
xmlSchemaParseModelGroup(xmlSchemaParserCtxtPtr ctxt, xmlSchemaPtr schema,
xmlNodePtr node, xmlSchemaTypeType type,
int withParticle);
static const xmlChar *
xmlSchemaGetComponentTypeStr(xmlSchemaBasicItemPtr item);
static xmlSchemaTypeLinkPtr
xmlSchemaGetUnionSimpleTypeMemberTypes(xmlSchemaTypePtr type);
static void
xmlSchemaInternalErr(xmlSchemaAbstractCtxtPtr actxt,
const char *funcName,
const char *message);
static int
xmlSchemaCheckCOSSTDerivedOK(xmlSchemaAbstractCtxtPtr ctxt,
xmlSchemaTypePtr type,
xmlSchemaTypePtr baseType,
int subset);
static void
xmlSchemaCheckElementDeclComponent(xmlSchemaElementPtr elemDecl,
xmlSchemaParserCtxtPtr ctxt);
static void
xmlSchemaComponentListFree(xmlSchemaItemListPtr list);
static xmlSchemaQNameRefPtr
xmlSchemaParseAttributeGroupRef(xmlSchemaParserCtxtPtr pctxt,
xmlSchemaPtr schema,
xmlNodePtr node);
/************************************************************************
* *
* Helper functions *
* *
************************************************************************/
/**
* xmlSchemaItemTypeToStr:
* @type: the type of the schema item
*
* Returns the component name of a schema item.
*/
static const xmlChar *
xmlSchemaItemTypeToStr(xmlSchemaTypeType type)
{
switch (type) {
case XML_SCHEMA_TYPE_BASIC:
return(BAD_CAST "simple type definition");
case XML_SCHEMA_TYPE_SIMPLE:
return(BAD_CAST "simple type definition");
case XML_SCHEMA_TYPE_COMPLEX:
return(BAD_CAST "complex type definition");
case XML_SCHEMA_TYPE_ELEMENT:
return(BAD_CAST "element declaration");
case XML_SCHEMA_TYPE_ATTRIBUTE_USE:
return(BAD_CAST "attribute use");
case XML_SCHEMA_TYPE_ATTRIBUTE:
return(BAD_CAST "attribute declaration");
case XML_SCHEMA_TYPE_GROUP:
return(BAD_CAST "model group definition");
case XML_SCHEMA_TYPE_ATTRIBUTEGROUP:
return(BAD_CAST "attribute group definition");
case XML_SCHEMA_TYPE_NOTATION:
return(BAD_CAST "notation declaration");
case XML_SCHEMA_TYPE_SEQUENCE:
return(BAD_CAST "model group (sequence)");
case XML_SCHEMA_TYPE_CHOICE:
return(BAD_CAST "model group (choice)");
case XML_SCHEMA_TYPE_ALL:
return(BAD_CAST "model group (all)");
case XML_SCHEMA_TYPE_PARTICLE:
return(BAD_CAST "particle");
case XML_SCHEMA_TYPE_IDC_UNIQUE:
return(BAD_CAST "unique identity-constraint");
/* return(BAD_CAST "IDC (unique)"); */
case XML_SCHEMA_TYPE_IDC_KEY:
return(BAD_CAST "key identity-constraint");
/* return(BAD_CAST "IDC (key)"); */
case XML_SCHEMA_TYPE_IDC_KEYREF:
return(BAD_CAST "keyref identity-constraint");
/* return(BAD_CAST "IDC (keyref)"); */
case XML_SCHEMA_TYPE_ANY:
return(BAD_CAST "wildcard (any)");
case XML_SCHEMA_EXTRA_QNAMEREF:
return(BAD_CAST "[helper component] QName reference");
case XML_SCHEMA_EXTRA_ATTR_USE_PROHIB:
return(BAD_CAST "[helper component] attribute use prohibition");
default:
return(BAD_CAST "Not a schema component");
}
}
/**
* xmlSchemaGetComponentTypeStr:
* @type: the type of the schema item
*
* Returns the component name of a schema item.
*/
static const xmlChar *
xmlSchemaGetComponentTypeStr(xmlSchemaBasicItemPtr item)
{
switch (item->type) {
case XML_SCHEMA_TYPE_BASIC:
if (WXS_IS_COMPLEX(WXS_TYPE_CAST item))
return(BAD_CAST "complex type definition");
else
return(BAD_CAST "simple type definition");
default:
return(xmlSchemaItemTypeToStr(item->type));
}
}
/**
* xmlSchemaGetComponentNode:
* @item: a schema component
*
* Returns node associated with the schema component.
* NOTE that such a node need not be available; plus, a component's
* node need not to reflect the component directly, since there is no
* one-to-one relationship between the XML Schema representation and
* the component representation.
*/
static xmlNodePtr
xmlSchemaGetComponentNode(xmlSchemaBasicItemPtr item)
{
switch (item->type) {
case XML_SCHEMA_TYPE_ELEMENT:
return (((xmlSchemaElementPtr) item)->node);
case XML_SCHEMA_TYPE_ATTRIBUTE:
return (((xmlSchemaAttributePtr) item)->node);
case XML_SCHEMA_TYPE_COMPLEX:
case XML_SCHEMA_TYPE_SIMPLE:
return (((xmlSchemaTypePtr) item)->node);
case XML_SCHEMA_TYPE_ANY:
case XML_SCHEMA_TYPE_ANY_ATTRIBUTE:
return (((xmlSchemaWildcardPtr) item)->node);
case XML_SCHEMA_TYPE_PARTICLE:
return (((xmlSchemaParticlePtr) item)->node);
case XML_SCHEMA_TYPE_SEQUENCE:
case XML_SCHEMA_TYPE_CHOICE:
case XML_SCHEMA_TYPE_ALL:
return (((xmlSchemaModelGroupPtr) item)->node);
case XML_SCHEMA_TYPE_GROUP:
return (((xmlSchemaModelGroupDefPtr) item)->node);
case XML_SCHEMA_TYPE_ATTRIBUTEGROUP:
return (((xmlSchemaAttributeGroupPtr) item)->node);
case XML_SCHEMA_TYPE_IDC_UNIQUE:
case XML_SCHEMA_TYPE_IDC_KEY:
case XML_SCHEMA_TYPE_IDC_KEYREF:
return (((xmlSchemaIDCPtr) item)->node);
case XML_SCHEMA_EXTRA_QNAMEREF:
return(((xmlSchemaQNameRefPtr) item)->node);
/* TODO: What to do with NOTATIONs?
case XML_SCHEMA_TYPE_NOTATION:
return (((xmlSchemaNotationPtr) item)->node);
*/
case XML_SCHEMA_TYPE_ATTRIBUTE_USE:
return (((xmlSchemaAttributeUsePtr) item)->node);
default:
return (NULL);
}
}
#if 0
/**
* xmlSchemaGetNextComponent:
* @item: a schema component
*
* Returns the next sibling of the schema component.
*/
static xmlSchemaBasicItemPtr
xmlSchemaGetNextComponent(xmlSchemaBasicItemPtr item)
{
switch (item->type) {
case XML_SCHEMA_TYPE_ELEMENT:
return ((xmlSchemaBasicItemPtr) ((xmlSchemaElementPtr) item)->next);
case XML_SCHEMA_TYPE_ATTRIBUTE:
return ((xmlSchemaBasicItemPtr) ((xmlSchemaAttributePtr) item)->next);
case XML_SCHEMA_TYPE_COMPLEX:
case XML_SCHEMA_TYPE_SIMPLE:
return ((xmlSchemaBasicItemPtr) ((xmlSchemaTypePtr) item)->next);
case XML_SCHEMA_TYPE_ANY:
case XML_SCHEMA_TYPE_ANY_ATTRIBUTE:
return (NULL);
case XML_SCHEMA_TYPE_PARTICLE:
return ((xmlSchemaBasicItemPtr) ((xmlSchemaParticlePtr) item)->next);
case XML_SCHEMA_TYPE_SEQUENCE:
case XML_SCHEMA_TYPE_CHOICE:
case XML_SCHEMA_TYPE_ALL:
return (NULL);
case XML_SCHEMA_TYPE_GROUP:
return (NULL);
case XML_SCHEMA_TYPE_ATTRIBUTEGROUP:
return ((xmlSchemaBasicItemPtr) ((xmlSchemaAttributeGroupPtr) item)->next);
case XML_SCHEMA_TYPE_IDC_UNIQUE:
case XML_SCHEMA_TYPE_IDC_KEY:
case XML_SCHEMA_TYPE_IDC_KEYREF:
return ((xmlSchemaBasicItemPtr) ((xmlSchemaIDCPtr) item)->next);
default:
return (NULL);
}
}
#endif
/**
* xmlSchemaFormatQName:
* @buf: the string buffer
* @namespaceName: the namespace name
* @localName: the local name
*
* Returns the given QName in the format "{namespaceName}localName" or
* just "localName" if @namespaceName is NULL.
*
* Returns the localName if @namespaceName is NULL, a formatted
* string otherwise.
*/
static const xmlChar*
xmlSchemaFormatQName(xmlChar **buf,
const xmlChar *namespaceName,
const xmlChar *localName)
{
FREE_AND_NULL(*buf)
if (namespaceName != NULL) {
*buf = xmlStrdup(BAD_CAST "{");
*buf = xmlStrcat(*buf, namespaceName);
*buf = xmlStrcat(*buf, BAD_CAST "}");
}
if (localName != NULL) {
if (namespaceName == NULL)
return(localName);
*buf = xmlStrcat(*buf, localName);
} else {
*buf = xmlStrcat(*buf, BAD_CAST "(NULL)");
}
return ((const xmlChar *) *buf);
}
static const xmlChar*
xmlSchemaFormatQNameNs(xmlChar **buf, xmlNsPtr ns, const xmlChar *localName)
{
if (ns != NULL)
return (xmlSchemaFormatQName(buf, ns->href, localName));
else
return (xmlSchemaFormatQName(buf, NULL, localName));
}
static const xmlChar *
xmlSchemaGetComponentName(xmlSchemaBasicItemPtr item)
{
switch (item->type) {
case XML_SCHEMA_TYPE_ELEMENT:
return (((xmlSchemaElementPtr) item)->name);
case XML_SCHEMA_TYPE_ATTRIBUTE:
return (((xmlSchemaAttributePtr) item)->name);
case XML_SCHEMA_TYPE_ATTRIBUTEGROUP:
return (((xmlSchemaAttributeGroupPtr) item)->name);
case XML_SCHEMA_TYPE_BASIC:
case XML_SCHEMA_TYPE_SIMPLE:
case XML_SCHEMA_TYPE_COMPLEX:
return (((xmlSchemaTypePtr) item)->name);
case XML_SCHEMA_TYPE_GROUP:
return (((xmlSchemaModelGroupDefPtr) item)->name);
case XML_SCHEMA_TYPE_IDC_KEY:
case XML_SCHEMA_TYPE_IDC_UNIQUE:
case XML_SCHEMA_TYPE_IDC_KEYREF:
return (((xmlSchemaIDCPtr) item)->name);
case XML_SCHEMA_TYPE_ATTRIBUTE_USE:
if (WXS_ATTRUSE_DECL(item) != NULL) {
return(xmlSchemaGetComponentName(
WXS_BASIC_CAST WXS_ATTRUSE_DECL(item)));
} else
return(NULL);
case XML_SCHEMA_EXTRA_QNAMEREF:
return (((xmlSchemaQNameRefPtr) item)->name);
case XML_SCHEMA_TYPE_NOTATION:
return (((xmlSchemaNotationPtr) item)->name);
default:
/*
* Other components cannot have names.
*/
break;
}
return (NULL);
}
#define xmlSchemaGetQNameRefName(r) (WXS_QNAME_CAST (r))->name
#define xmlSchemaGetQNameRefTargetNs(r) (WXS_QNAME_CAST (r))->targetNamespace
/*
static const xmlChar *
xmlSchemaGetQNameRefName(void *ref)
{
return(((xmlSchemaQNameRefPtr) ref)->name);
}
static const xmlChar *
xmlSchemaGetQNameRefTargetNs(void *ref)
{
return(((xmlSchemaQNameRefPtr) ref)->targetNamespace);
}
*/
static const xmlChar *
xmlSchemaGetComponentTargetNs(xmlSchemaBasicItemPtr item)
{
switch (item->type) {
case XML_SCHEMA_TYPE_ELEMENT:
return (((xmlSchemaElementPtr) item)->targetNamespace);
case XML_SCHEMA_TYPE_ATTRIBUTE:
return (((xmlSchemaAttributePtr) item)->targetNamespace);
case XML_SCHEMA_TYPE_ATTRIBUTEGROUP:
return (((xmlSchemaAttributeGroupPtr) item)->targetNamespace);
case XML_SCHEMA_TYPE_BASIC:
return (BAD_CAST "http://www.w3.org/2001/XMLSchema");
case XML_SCHEMA_TYPE_SIMPLE:
case XML_SCHEMA_TYPE_COMPLEX:
return (((xmlSchemaTypePtr) item)->targetNamespace);
case XML_SCHEMA_TYPE_GROUP:
return (((xmlSchemaModelGroupDefPtr) item)->targetNamespace);
case XML_SCHEMA_TYPE_IDC_KEY:
case XML_SCHEMA_TYPE_IDC_UNIQUE:
case XML_SCHEMA_TYPE_IDC_KEYREF:
return (((xmlSchemaIDCPtr) item)->targetNamespace);
case XML_SCHEMA_TYPE_ATTRIBUTE_USE:
if (WXS_ATTRUSE_DECL(item) != NULL) {
return(xmlSchemaGetComponentTargetNs(
WXS_BASIC_CAST WXS_ATTRUSE_DECL(item)));
}
/* TODO: Will returning NULL break something? */
break;
case XML_SCHEMA_EXTRA_QNAMEREF:
return (((xmlSchemaQNameRefPtr) item)->targetNamespace);
case XML_SCHEMA_TYPE_NOTATION:
return (((xmlSchemaNotationPtr) item)->targetNamespace);
default:
/*
* Other components cannot have names.
*/
break;
}
return (NULL);
}
static const xmlChar*
xmlSchemaGetComponentQName(xmlChar **buf,
void *item)
{
return (xmlSchemaFormatQName(buf,
xmlSchemaGetComponentTargetNs((xmlSchemaBasicItemPtr) item),
xmlSchemaGetComponentName((xmlSchemaBasicItemPtr) item)));
}
static const xmlChar*
xmlSchemaGetComponentDesignation(xmlChar **buf, void *item)
{
xmlChar *str = NULL;
*buf = xmlStrcat(*buf, WXS_ITEM_TYPE_NAME(item));
*buf = xmlStrcat(*buf, BAD_CAST " '");
*buf = xmlStrcat(*buf, xmlSchemaGetComponentQName(&str,
(xmlSchemaBasicItemPtr) item));
*buf = xmlStrcat(*buf, BAD_CAST "'");
FREE_AND_NULL(str);
return(*buf);
}
static const xmlChar*
xmlSchemaGetIDCDesignation(xmlChar **buf, xmlSchemaIDCPtr idc)
{
return(xmlSchemaGetComponentDesignation(buf, idc));
}
/**
* xmlSchemaWildcardPCToString:
* @pc: the type of processContents
*
* Returns a string representation of the type of
* processContents.
*/
static const xmlChar *
xmlSchemaWildcardPCToString(int pc)
{
switch (pc) {
case XML_SCHEMAS_ANY_SKIP:
return (BAD_CAST "skip");
case XML_SCHEMAS_ANY_LAX:
return (BAD_CAST "lax");
case XML_SCHEMAS_ANY_STRICT:
return (BAD_CAST "strict");
default:
return (BAD_CAST "invalid process contents");
}
}
/**
* xmlSchemaGetCanonValueWhtspExt:
* @val: the precomputed value
* @retValue: the returned value
* @ws: the whitespace type of the value
*
* Get a the canonical representation of the value.
* The caller has to free the returned retValue.
*
* Returns 0 if the value could be built and -1 in case of
* API errors or if the value type is not supported yet.
*/
static int
xmlSchemaGetCanonValueWhtspExt(xmlSchemaValPtr val,
xmlSchemaWhitespaceValueType ws,
xmlChar **retValue)
{
int list;
xmlSchemaValType valType;
const xmlChar *value, *value2 = NULL;
if ((retValue == NULL) || (val == NULL))
return (-1);
list = xmlSchemaValueGetNext(val) ? 1 : 0;
*retValue = NULL;
do {
value = NULL;
valType = xmlSchemaGetValType(val);
switch (valType) {
case XML_SCHEMAS_STRING:
case XML_SCHEMAS_NORMSTRING:
case XML_SCHEMAS_ANYSIMPLETYPE:
value = xmlSchemaValueGetAsString(val);
if (value != NULL) {
if (ws == XML_SCHEMA_WHITESPACE_COLLAPSE)
value2 = xmlSchemaCollapseString(value);
else if (ws == XML_SCHEMA_WHITESPACE_REPLACE)
value2 = xmlSchemaWhiteSpaceReplace(value);
if (value2 != NULL)
value = value2;
}
break;
default:
if (xmlSchemaGetCanonValue(val, &value2) == -1) {
if (value2 != NULL)
xmlFree((xmlChar *) value2);
goto internal_error;
}
value = value2;
}
if (*retValue == NULL)
if (value == NULL) {
if (! list)
*retValue = xmlStrdup(BAD_CAST "");
} else
*retValue = xmlStrdup(value);
else if (value != NULL) {
/* List. */
*retValue = xmlStrcat((xmlChar *) *retValue, BAD_CAST " ");
*retValue = xmlStrcat((xmlChar *) *retValue, value);
}
FREE_AND_NULL(value2)
val = xmlSchemaValueGetNext(val);
} while (val != NULL);
return (0);
internal_error:
if (*retValue != NULL)
xmlFree((xmlChar *) (*retValue));
if (value2 != NULL)
xmlFree((xmlChar *) value2);
return (-1);
}
/**
* xmlSchemaFormatItemForReport:
* @buf: the string buffer
* @itemDes: the designation of the item
* @itemName: the name of the item
* @item: the item as an object
* @itemNode: the node of the item
* @local: the local name
* @parsing: if the function is used during the parse
*
* Returns a representation of the given item used
* for error reports.
*
* The following order is used to build the resulting
* designation if the arguments are not NULL:
* 1a. If itemDes not NULL -> itemDes
* 1b. If (itemDes not NULL) and (itemName not NULL)
* -> itemDes + itemName
* 2. If the preceding was NULL and (item not NULL) -> item
* 3. If the preceding was NULL and (itemNode not NULL) -> itemNode
*
* If the itemNode is an attribute node, the name of the attribute
* will be appended to the result.
*
* Returns the formatted string and sets @buf to the resulting value.
*/
static xmlChar*
xmlSchemaFormatItemForReport(xmlChar **buf,
const xmlChar *itemDes,
xmlSchemaBasicItemPtr item,
xmlNodePtr itemNode)
{
xmlChar *str = NULL;
int named = 1;
if (*buf != NULL) {
xmlFree(*buf);
*buf = NULL;
}
if (itemDes != NULL) {
*buf = xmlStrdup(itemDes);
} else if (item != NULL) {
switch (item->type) {
case XML_SCHEMA_TYPE_BASIC: {
xmlSchemaTypePtr type = WXS_TYPE_CAST item;
if (WXS_IS_ATOMIC(type))
*buf = xmlStrdup(BAD_CAST "atomic type 'xs:");
else if (WXS_IS_LIST(type))
*buf = xmlStrdup(BAD_CAST "list type 'xs:");
else if (WXS_IS_UNION(type))
*buf = xmlStrdup(BAD_CAST "union type 'xs:");
else
*buf = xmlStrdup(BAD_CAST "simple type 'xs:");
*buf = xmlStrcat(*buf, type->name);
*buf = xmlStrcat(*buf, BAD_CAST "'");
}
break;
case XML_SCHEMA_TYPE_SIMPLE: {
xmlSchemaTypePtr type = WXS_TYPE_CAST item;
if (type->flags & XML_SCHEMAS_TYPE_GLOBAL) {
*buf = xmlStrdup(BAD_CAST"");
} else {
*buf = xmlStrdup(BAD_CAST "local ");
}
if (WXS_IS_ATOMIC(type))
*buf = xmlStrcat(*buf, BAD_CAST "atomic type");
else if (WXS_IS_LIST(type))
*buf = xmlStrcat(*buf, BAD_CAST "list type");
else if (WXS_IS_UNION(type))
*buf = xmlStrcat(*buf, BAD_CAST "union type");
else
*buf = xmlStrcat(*buf, BAD_CAST "simple type");
if (type->flags & XML_SCHEMAS_TYPE_GLOBAL) {
*buf = xmlStrcat(*buf, BAD_CAST " '");
*buf = xmlStrcat(*buf, type->name);
*buf = xmlStrcat(*buf, BAD_CAST "'");
}
}
break;
case XML_SCHEMA_TYPE_COMPLEX: {
xmlSchemaTypePtr type = WXS_TYPE_CAST item;
if (type->flags & XML_SCHEMAS_TYPE_GLOBAL)
*buf = xmlStrdup(BAD_CAST "");
else
*buf = xmlStrdup(BAD_CAST "local ");
*buf = xmlStrcat(*buf, BAD_CAST "complex type");
if (type->flags & XML_SCHEMAS_TYPE_GLOBAL) {
*buf = xmlStrcat(*buf, BAD_CAST " '");
*buf = xmlStrcat(*buf, type->name);
*buf = xmlStrcat(*buf, BAD_CAST "'");
}
}
break;
case XML_SCHEMA_TYPE_ATTRIBUTE_USE: {
xmlSchemaAttributeUsePtr ause;
ause = WXS_ATTR_USE_CAST item;
*buf = xmlStrdup(BAD_CAST "attribute use ");
if (WXS_ATTRUSE_DECL(ause) != NULL) {
*buf = xmlStrcat(*buf, BAD_CAST "'");
*buf = xmlStrcat(*buf,
xmlSchemaGetComponentQName(&str, WXS_ATTRUSE_DECL(ause)));
FREE_AND_NULL(str)
*buf = xmlStrcat(*buf, BAD_CAST "'");
} else {
*buf = xmlStrcat(*buf, BAD_CAST "(unknown)");
}
}
break;
case XML_SCHEMA_TYPE_ATTRIBUTE: {
xmlSchemaAttributePtr attr;
attr = (xmlSchemaAttributePtr) item;
*buf = xmlStrdup(BAD_CAST "attribute decl.");
*buf = xmlStrcat(*buf, BAD_CAST " '");
*buf = xmlStrcat(*buf, xmlSchemaFormatQName(&str,
attr->targetNamespace, attr->name));
FREE_AND_NULL(str)
*buf = xmlStrcat(*buf, BAD_CAST "'");
}
break;
case XML_SCHEMA_TYPE_ATTRIBUTEGROUP:
xmlSchemaGetComponentDesignation(buf, item);
break;
case XML_SCHEMA_TYPE_ELEMENT: {
xmlSchemaElementPtr elem;
elem = (xmlSchemaElementPtr) item;
*buf = xmlStrdup(BAD_CAST "element decl.");
*buf = xmlStrcat(*buf, BAD_CAST " '");
*buf = xmlStrcat(*buf, xmlSchemaFormatQName(&str,
elem->targetNamespace, elem->name));
*buf = xmlStrcat(*buf, BAD_CAST "'");
}
break;
case XML_SCHEMA_TYPE_IDC_UNIQUE:
case XML_SCHEMA_TYPE_IDC_KEY:
case XML_SCHEMA_TYPE_IDC_KEYREF:
if (item->type == XML_SCHEMA_TYPE_IDC_UNIQUE)
*buf = xmlStrdup(BAD_CAST "unique '");
else if (item->type == XML_SCHEMA_TYPE_IDC_KEY)
*buf = xmlStrdup(BAD_CAST "key '");
else
*buf = xmlStrdup(BAD_CAST "keyRef '");
*buf = xmlStrcat(*buf, ((xmlSchemaIDCPtr) item)->name);
*buf = xmlStrcat(*buf, BAD_CAST "'");
break;
case XML_SCHEMA_TYPE_ANY:
case XML_SCHEMA_TYPE_ANY_ATTRIBUTE:
*buf = xmlStrdup(xmlSchemaWildcardPCToString(
((xmlSchemaWildcardPtr) item)->processContents));
*buf = xmlStrcat(*buf, BAD_CAST " wildcard");
break;
case XML_SCHEMA_FACET_MININCLUSIVE:
case XML_SCHEMA_FACET_MINEXCLUSIVE:
case XML_SCHEMA_FACET_MAXINCLUSIVE:
case XML_SCHEMA_FACET_MAXEXCLUSIVE:
case XML_SCHEMA_FACET_TOTALDIGITS:
case XML_SCHEMA_FACET_FRACTIONDIGITS:
case XML_SCHEMA_FACET_PATTERN:
case XML_SCHEMA_FACET_ENUMERATION:
case XML_SCHEMA_FACET_WHITESPACE:
case XML_SCHEMA_FACET_LENGTH:
case XML_SCHEMA_FACET_MAXLENGTH:
case XML_SCHEMA_FACET_MINLENGTH:
*buf = xmlStrdup(BAD_CAST "facet '");
*buf = xmlStrcat(*buf, xmlSchemaFacetTypeToString(item->type));
*buf = xmlStrcat(*buf, BAD_CAST "'");
break;
case XML_SCHEMA_TYPE_GROUP: {
*buf = xmlStrdup(BAD_CAST "model group def.");
*buf = xmlStrcat(*buf, BAD_CAST " '");
*buf = xmlStrcat(*buf, xmlSchemaGetComponentQName(&str, item));
*buf = xmlStrcat(*buf, BAD_CAST "'");
FREE_AND_NULL(str)
}
break;
case XML_SCHEMA_TYPE_SEQUENCE:
case XML_SCHEMA_TYPE_CHOICE:
case XML_SCHEMA_TYPE_ALL:
case XML_SCHEMA_TYPE_PARTICLE:
*buf = xmlStrdup(WXS_ITEM_TYPE_NAME(item));
break;
case XML_SCHEMA_TYPE_NOTATION: {
*buf = xmlStrdup(WXS_ITEM_TYPE_NAME(item));
*buf = xmlStrcat(*buf, BAD_CAST " '");
*buf = xmlStrcat(*buf, xmlSchemaGetComponentQName(&str, item));
*buf = xmlStrcat(*buf, BAD_CAST "'");
FREE_AND_NULL(str);
}
default:
named = 0;
}
} else
named = 0;
if ((named == 0) && (itemNode != NULL)) {
xmlNodePtr elem;
if (itemNode->type == XML_ATTRIBUTE_NODE)
elem = itemNode->parent;
else
elem = itemNode;
*buf = xmlStrdup(BAD_CAST "Element '");
if (elem->ns != NULL) {
*buf = xmlStrcat(*buf,
xmlSchemaFormatQName(&str, elem->ns->href, elem->name));
FREE_AND_NULL(str)
} else
*buf = xmlStrcat(*buf, elem->name);
*buf = xmlStrcat(*buf, BAD_CAST "'");
}
if ((itemNode != NULL) && (itemNode->type == XML_ATTRIBUTE_NODE)) {
*buf = xmlStrcat(*buf, BAD_CAST ", attribute '");
if (itemNode->ns != NULL) {
*buf = xmlStrcat(*buf, xmlSchemaFormatQName(&str,
itemNode->ns->href, itemNode->name));
FREE_AND_NULL(str)
} else
*buf = xmlStrcat(*buf, itemNode->name);
*buf = xmlStrcat(*buf, BAD_CAST "'");
}
FREE_AND_NULL(str)
return (*buf);
}
/**
* xmlSchemaFormatFacetEnumSet:
* @buf: the string buffer
* @type: the type holding the enumeration facets
*
* Builds a string consisting of all enumeration elements.
*
* Returns a string of all enumeration elements.
*/
static const xmlChar *
xmlSchemaFormatFacetEnumSet(xmlSchemaAbstractCtxtPtr actxt,
xmlChar **buf, xmlSchemaTypePtr type)
{
xmlSchemaFacetPtr facet;
xmlSchemaWhitespaceValueType ws;
xmlChar *value = NULL;
int res, found = 0;
if (*buf != NULL)
xmlFree(*buf);
*buf = NULL;
do {
/*
* Use the whitespace type of the base type.
*/
ws = xmlSchemaGetWhiteSpaceFacetValue(type->baseType);
for (facet = type->facets; facet != NULL; facet = facet->next) {
if (facet->type != XML_SCHEMA_FACET_ENUMERATION)
continue;
found = 1;
res = xmlSchemaGetCanonValueWhtspExt(facet->val,
ws, &value);
if (res == -1) {
xmlSchemaInternalErr(actxt,
"xmlSchemaFormatFacetEnumSet",
"compute the canonical lexical representation");
if (*buf != NULL)
xmlFree(*buf);
*buf = NULL;
return (NULL);
}
if (*buf == NULL)
*buf = xmlStrdup(BAD_CAST "'");
else
*buf = xmlStrcat(*buf, BAD_CAST ", '");
*buf = xmlStrcat(*buf, BAD_CAST value);
*buf = xmlStrcat(*buf, BAD_CAST "'");
if (value != NULL) {
xmlFree((xmlChar *)value);
value = NULL;
}
}
/*
* The enumeration facet of a type restricts the enumeration
* facet of the ancestor type; i.e., such restricted enumerations
* do not belong to the set of the given type. Thus we break
* on the first found enumeration.
*/
if (found)
break;
type = type->baseType;
} while ((type != NULL) && (type->type != XML_SCHEMA_TYPE_BASIC));
return ((const xmlChar *) *buf);
}
/************************************************************************
* *
* Error functions *
* *
************************************************************************/
#if 0
static void
xmlSchemaErrMemory(const char *msg)
{
__xmlSimpleError(XML_FROM_SCHEMASP, XML_ERR_NO_MEMORY, NULL, NULL,
msg);
}
#endif
static void
xmlSchemaPSimpleErr(const char *msg)
{
__xmlSimpleError(XML_FROM_SCHEMASP, XML_ERR_NO_MEMORY, NULL, NULL,
msg);
}
/**
* xmlSchemaPErrMemory:
* @node: a context node
* @extra: extra informations
*
* Handle an out of memory condition
*/
static void
xmlSchemaPErrMemory(xmlSchemaParserCtxtPtr ctxt,
const char *extra, xmlNodePtr node)
{
if (ctxt != NULL)
ctxt->nberrors++;
__xmlSimpleError(XML_FROM_SCHEMASP, XML_ERR_NO_MEMORY, node, NULL,
extra);
}
/**
* xmlSchemaPErr:
* @ctxt: the parsing context
* @node: the context node
* @error: the error code
* @msg: the error message
* @str1: extra data
* @str2: extra data
*
* Handle a parser error
*/
static void
xmlSchemaPErr(xmlSchemaParserCtxtPtr ctxt, xmlNodePtr node, int error,
const char *msg, const xmlChar * str1, const xmlChar * str2)
{
xmlGenericErrorFunc channel = NULL;
xmlStructuredErrorFunc schannel = NULL;
void *data = NULL;
if (ctxt != NULL) {
ctxt->nberrors++;
ctxt->err = error;
channel = ctxt->error;
data = ctxt->errCtxt;
schannel = ctxt->serror;
}
__xmlRaiseError(schannel, channel, data, ctxt, node, XML_FROM_SCHEMASP,
error, XML_ERR_ERROR, NULL, 0,
(const char *) str1, (const char *) str2, NULL, 0, 0,
msg, str1, str2);
}
/**
* xmlSchemaPErr2:
* @ctxt: the parsing context
* @node: the context node
* @node: the current child
* @error: the error code
* @msg: the error message
* @str1: extra data
* @str2: extra data
*
* Handle a parser error
*/
static void
xmlSchemaPErr2(xmlSchemaParserCtxtPtr ctxt, xmlNodePtr node,
xmlNodePtr child, int error,
const char *msg, const xmlChar * str1, const xmlChar * str2)
{
if (child != NULL)
xmlSchemaPErr(ctxt, child, error, msg, str1, str2);
else
xmlSchemaPErr(ctxt, node, error, msg, str1, str2);
}
/**
* xmlSchemaPErrExt:
* @ctxt: the parsing context
* @node: the context node
* @error: the error code
* @strData1: extra data
* @strData2: extra data
* @strData3: extra data
* @msg: the message
* @str1: extra parameter for the message display
* @str2: extra parameter for the message display
* @str3: extra parameter for the message display
* @str4: extra parameter for the message display
* @str5: extra parameter for the message display
*
* Handle a parser error
*/
static void
xmlSchemaPErrExt(xmlSchemaParserCtxtPtr ctxt, xmlNodePtr node, int error,
const xmlChar * strData1, const xmlChar * strData2,
const xmlChar * strData3, const char *msg, const xmlChar * str1,
const xmlChar * str2, const xmlChar * str3, const xmlChar * str4,
const xmlChar * str5)
{
xmlGenericErrorFunc channel = NULL;
xmlStructuredErrorFunc schannel = NULL;
void *data = NULL;
if (ctxt != NULL) {
ctxt->nberrors++;
ctxt->err = error;
channel = ctxt->error;
data = ctxt->errCtxt;
schannel = ctxt->serror;
}
__xmlRaiseError(schannel, channel, data, ctxt, node, XML_FROM_SCHEMASP,
error, XML_ERR_ERROR, NULL, 0,
(const char *) strData1, (const char *) strData2,
(const char *) strData3, 0, 0, msg, str1, str2,
str3, str4, str5);
}
/************************************************************************
* *
* Allround error functions *
* *
************************************************************************/
/**
* xmlSchemaVTypeErrMemory:
* @node: a context node
* @extra: extra informations
*
* Handle an out of memory condition
*/
static void
xmlSchemaVErrMemory(xmlSchemaValidCtxtPtr ctxt,
const char *extra, xmlNodePtr node)
{
if (ctxt != NULL) {
ctxt->nberrors++;
ctxt->err = XML_SCHEMAV_INTERNAL;
}
__xmlSimpleError(XML_FROM_SCHEMASV, XML_ERR_NO_MEMORY, node, NULL,
extra);
}
static void
xmlSchemaPSimpleInternalErr(xmlNodePtr node,
const char *msg, const xmlChar *str)
{
__xmlSimpleError(XML_FROM_SCHEMASP, XML_SCHEMAP_INTERNAL, node,
msg, (const char *) str);
}
#define WXS_ERROR_TYPE_ERROR 1
#define WXS_ERROR_TYPE_WARNING 2
/**
* xmlSchemaErr3:
* @ctxt: the validation context
* @node: the context node
* @error: the error code
* @msg: the error message
* @str1: extra data
* @str2: extra data
* @str3: extra data
*
* Handle a validation error
*/
static void
xmlSchemaErr4Line(xmlSchemaAbstractCtxtPtr ctxt,
xmlErrorLevel errorLevel,
int error, xmlNodePtr node, int line, const char *msg,
const xmlChar *str1, const xmlChar *str2,
const xmlChar *str3, const xmlChar *str4)
{
xmlStructuredErrorFunc schannel = NULL;
xmlGenericErrorFunc channel = NULL;
void *data = NULL;
if (ctxt != NULL) {
if (ctxt->type == XML_SCHEMA_CTXT_VALIDATOR) {
xmlSchemaValidCtxtPtr vctxt = (xmlSchemaValidCtxtPtr) ctxt;
const char *file = NULL;
int col = 0;
if (errorLevel != XML_ERR_WARNING) {
vctxt->nberrors++;
vctxt->err = error;
channel = vctxt->error;
} else {
channel = vctxt->warning;
}
schannel = vctxt->serror;
data = vctxt->errCtxt;
/*
* Error node. If we specify a line number, then
* do not channel any node to the error function.
*/
if (line == 0) {
if ((node == NULL) &&
(vctxt->depth >= 0) &&
(vctxt->inode != NULL)) {
node = vctxt->inode->node;
}
/*
* Get filename and line if no node-tree.
*/
if ((node == NULL) &&
(vctxt->parserCtxt != NULL) &&
(vctxt->parserCtxt->input != NULL)) {
file = vctxt->parserCtxt->input->filename;
line = vctxt->parserCtxt->input->line;
col = vctxt->parserCtxt->input->col;
}
} else {
/*
* Override the given node's (if any) position
* and channel only the given line number.
*/
node = NULL;
/*
* Get filename.
*/
if (vctxt->doc != NULL)
file = (const char *) vctxt->doc->URL;
else if ((vctxt->parserCtxt != NULL) &&
(vctxt->parserCtxt->input != NULL))
file = vctxt->parserCtxt->input->filename;
}
if (vctxt->locFunc != NULL) {
if ((file == NULL) || (line == 0)) {
unsigned long l;
const char *f;
vctxt->locFunc(vctxt->locCtxt, &f, &l);
if (file == NULL)
file = f;
if (line == 0)
line = (int) l;
}
}
if ((file == NULL) && (vctxt->filename != NULL))
file = vctxt->filename;
__xmlRaiseError(schannel, channel, data, ctxt,
node, XML_FROM_SCHEMASV,
error, errorLevel, file, line,
(const char *) str1, (const char *) str2,
(const char *) str3, 0, col, msg, str1, str2, str3, str4);
} else if (ctxt->type == XML_SCHEMA_CTXT_PARSER) {
xmlSchemaParserCtxtPtr pctxt = (xmlSchemaParserCtxtPtr) ctxt;
if (errorLevel != XML_ERR_WARNING) {
pctxt->nberrors++;
pctxt->err = error;
channel = pctxt->error;
} else {
channel = pctxt->warning;
}
schannel = pctxt->serror;
data = pctxt->errCtxt;
__xmlRaiseError(schannel, channel, data, ctxt,
node, XML_FROM_SCHEMASP, error,
errorLevel, NULL, 0,
(const char *) str1, (const char *) str2,
(const char *) str3, 0, 0, msg, str1, str2, str3, str4);
} else {
TODO
}
}
}
/**
* xmlSchemaErr3:
* @ctxt: the validation context
* @node: the context node
* @error: the error code
* @msg: the error message
* @str1: extra data
* @str2: extra data
* @str3: extra data
*
* Handle a validation error
*/
static void
xmlSchemaErr3(xmlSchemaAbstractCtxtPtr actxt,
int error, xmlNodePtr node, const char *msg,
const xmlChar *str1, const xmlChar *str2, const xmlChar *str3)
{
xmlSchemaErr4Line(actxt, XML_ERR_ERROR, error, node, 0,
msg, str1, str2, str3, NULL);
}
static void
xmlSchemaErr4(xmlSchemaAbstractCtxtPtr actxt,
int error, xmlNodePtr node, const char *msg,
const xmlChar *str1, const xmlChar *str2,
const xmlChar *str3, const xmlChar *str4)
{
xmlSchemaErr4Line(actxt, XML_ERR_ERROR, error, node, 0,
msg, str1, str2, str3, str4);
}
static void
xmlSchemaErr(xmlSchemaAbstractCtxtPtr actxt,
int error, xmlNodePtr node, const char *msg,
const xmlChar *str1, const xmlChar *str2)
{
xmlSchemaErr4(actxt, error, node, msg, str1, str2, NULL, NULL);
}
static xmlChar *
xmlSchemaFormatNodeForError(xmlChar ** msg,
xmlSchemaAbstractCtxtPtr actxt,
xmlNodePtr node)
{
xmlChar *str = NULL;
*msg = NULL;
if ((node != NULL) &&
(node->type != XML_ELEMENT_NODE) &&
(node->type != XML_ATTRIBUTE_NODE))
{
/*
* Don't try to format other nodes than element and
* attribute nodes.
* Play save and return an empty string.
*/
*msg = xmlStrdup(BAD_CAST "");
return(*msg);
}
if (node != NULL) {
/*
* Work on tree nodes.
*/
if (node->type == XML_ATTRIBUTE_NODE) {
xmlNodePtr elem = node->parent;
*msg = xmlStrdup(BAD_CAST "Element '");
if (elem->ns != NULL)
*msg = xmlStrcat(*msg, xmlSchemaFormatQName(&str,
elem->ns->href, elem->name));
else
*msg = xmlStrcat(*msg, xmlSchemaFormatQName(&str,
NULL, elem->name));
FREE_AND_NULL(str);
*msg = xmlStrcat(*msg, BAD_CAST "', ");
*msg = xmlStrcat(*msg, BAD_CAST "attribute '");
} else {
*msg = xmlStrdup(BAD_CAST "Element '");
}
if (node->ns != NULL)
*msg = xmlStrcat(*msg, xmlSchemaFormatQName(&str,
node->ns->href, node->name));
else
*msg = xmlStrcat(*msg, xmlSchemaFormatQName(&str,
NULL, node->name));
FREE_AND_NULL(str);
*msg = xmlStrcat(*msg, BAD_CAST "': ");
} else if (actxt->type == XML_SCHEMA_CTXT_VALIDATOR) {
xmlSchemaValidCtxtPtr vctxt = (xmlSchemaValidCtxtPtr) actxt;
/*
* Work on node infos.
*/
if (vctxt->inode->nodeType == XML_ATTRIBUTE_NODE) {
xmlSchemaNodeInfoPtr ielem =
vctxt->elemInfos[vctxt->depth];
*msg = xmlStrdup(BAD_CAST "Element '");
*msg = xmlStrcat(*msg, xmlSchemaFormatQName(&str,
ielem->nsName, ielem->localName));
FREE_AND_NULL(str);
*msg = xmlStrcat(*msg, BAD_CAST "', ");
*msg = xmlStrcat(*msg, BAD_CAST "attribute '");
} else {
*msg = xmlStrdup(BAD_CAST "Element '");
}
*msg = xmlStrcat(*msg, xmlSchemaFormatQName(&str,
vctxt->inode->nsName, vctxt->inode->localName));
FREE_AND_NULL(str);
*msg = xmlStrcat(*msg, BAD_CAST "': ");
} else if (actxt->type == XML_SCHEMA_CTXT_PARSER) {
/*
* Hmm, no node while parsing?
* Return an empty string, in case NULL will break something.
*/
*msg = xmlStrdup(BAD_CAST "");
} else {
TODO
return (NULL);
}
/*
* VAL TODO: The output of the given schema component is currently
* disabled.
*/
#if 0
if ((type != NULL) && (xmlSchemaIsGlobalItem(type))) {
*msg = xmlStrcat(*msg, BAD_CAST " [");
*msg = xmlStrcat(*msg, xmlSchemaFormatItemForReport(&str,
NULL, type, NULL, 0));
FREE_AND_NULL(str)
*msg = xmlStrcat(*msg, BAD_CAST "]");
}
#endif
return (*msg);
}
static void
xmlSchemaInternalErr2(xmlSchemaAbstractCtxtPtr actxt,
const char *funcName,
const char *message,
const xmlChar *str1,
const xmlChar *str2)
{
xmlChar *msg = NULL;
if (actxt == NULL)
return;
msg = xmlStrdup(BAD_CAST "Internal error: ");
msg = xmlStrcat(msg, BAD_CAST funcName);
msg = xmlStrcat(msg, BAD_CAST ", ");
msg = xmlStrcat(msg, BAD_CAST message);
msg = xmlStrcat(msg, BAD_CAST ".\n");
if (actxt->type == XML_SCHEMA_CTXT_VALIDATOR)
xmlSchemaErr(actxt, XML_SCHEMAV_INTERNAL, NULL,
(const char *) msg, str1, str2);
else if (actxt->type == XML_SCHEMA_CTXT_PARSER)
xmlSchemaErr(actxt, XML_SCHEMAP_INTERNAL, NULL,
(const char *) msg, str1, str2);
FREE_AND_NULL(msg)
}
static void
xmlSchemaInternalErr(xmlSchemaAbstractCtxtPtr actxt,
const char *funcName,
const char *message)
{
xmlSchemaInternalErr2(actxt, funcName, message, NULL, NULL);
}
#if 0
static void
xmlSchemaPInternalErr(xmlSchemaParserCtxtPtr pctxt,
const char *funcName,
const char *message,
const xmlChar *str1,
const xmlChar *str2)
{
xmlSchemaInternalErr2(ACTXT_CAST pctxt, funcName, message,
str1, str2);
}
#endif
static void
xmlSchemaCustomErr4(xmlSchemaAbstractCtxtPtr actxt,
xmlParserErrors error,
xmlNodePtr node,
xmlSchemaBasicItemPtr item,
const char *message,
const xmlChar *str1, const xmlChar *str2,
const xmlChar *str3, const xmlChar *str4)
{
xmlChar *msg = NULL;
if ((node == NULL) && (item != NULL) &&
(actxt->type == XML_SCHEMA_CTXT_PARSER)) {
node = WXS_ITEM_NODE(item);
xmlSchemaFormatItemForReport(&msg, NULL, item, NULL);
msg = xmlStrcat(msg, BAD_CAST ": ");
} else
xmlSchemaFormatNodeForError(&msg, actxt, node);
msg = xmlStrcat(msg, (const xmlChar *) message);
msg = xmlStrcat(msg, BAD_CAST ".\n");
xmlSchemaErr4(actxt, error, node,
(const char *) msg, str1, str2, str3, str4);
FREE_AND_NULL(msg)
}
static void
xmlSchemaCustomErr(xmlSchemaAbstractCtxtPtr actxt,
xmlParserErrors error,
xmlNodePtr node,
xmlSchemaBasicItemPtr item,
const char *message,
const xmlChar *str1,
const xmlChar *str2)
{
xmlSchemaCustomErr4(actxt, error, node, item,
message, str1, str2, NULL, NULL);
}
static void
xmlSchemaCustomWarning(xmlSchemaAbstractCtxtPtr actxt,
xmlParserErrors error,
xmlNodePtr node,
xmlSchemaTypePtr type ATTRIBUTE_UNUSED,
const char *message,
const xmlChar *str1,
const xmlChar *str2,
const xmlChar *str3)
{
xmlChar *msg = NULL;
xmlSchemaFormatNodeForError(&msg, actxt, node);
msg = xmlStrcat(msg, (const xmlChar *) message);
msg = xmlStrcat(msg, BAD_CAST ".\n");
/* URGENT TODO: Set the error code to something sane. */
xmlSchemaErr4Line(actxt, XML_ERR_WARNING, error, node, 0,
(const char *) msg, str1, str2, str3, NULL);
FREE_AND_NULL(msg)
}
static void
xmlSchemaKeyrefErr(xmlSchemaValidCtxtPtr vctxt,
xmlParserErrors error,
xmlSchemaPSVIIDCNodePtr idcNode,
xmlSchemaTypePtr type ATTRIBUTE_UNUSED,
const char *message,
const xmlChar *str1,
const xmlChar *str2)
{
xmlChar *msg = NULL, *qname = NULL;
msg = xmlStrdup(BAD_CAST "Element '%s': ");
msg = xmlStrcat(msg, (const xmlChar *) message);
msg = xmlStrcat(msg, BAD_CAST ".\n");
xmlSchemaErr4Line(ACTXT_CAST vctxt, XML_ERR_ERROR,
error, NULL, idcNode->nodeLine, (const char *) msg,
xmlSchemaFormatQName(&qname,
vctxt->nodeQNames->items[idcNode->nodeQNameID +1],
vctxt->nodeQNames->items[idcNode->nodeQNameID]),
str1, str2, NULL);
FREE_AND_NULL(qname);
FREE_AND_NULL(msg);
}
static int
xmlSchemaEvalErrorNodeType(xmlSchemaAbstractCtxtPtr actxt,
xmlNodePtr node)
{
if (node != NULL)
return (node->type);
if ((actxt->type == XML_SCHEMA_CTXT_VALIDATOR) &&
(((xmlSchemaValidCtxtPtr) actxt)->inode != NULL))
return ( ((xmlSchemaValidCtxtPtr) actxt)->inode->nodeType);
return (-1);
}
static int
xmlSchemaIsGlobalItem(xmlSchemaTypePtr item)
{
switch (item->type) {
case XML_SCHEMA_TYPE_COMPLEX:
case XML_SCHEMA_TYPE_SIMPLE:
if (item->flags & XML_SCHEMAS_TYPE_GLOBAL)
return(1);
break;
case XML_SCHEMA_TYPE_GROUP:
return (1);
case XML_SCHEMA_TYPE_ELEMENT:
if ( ((xmlSchemaElementPtr) item)->flags &
XML_SCHEMAS_ELEM_GLOBAL)
return(1);
break;
case XML_SCHEMA_TYPE_ATTRIBUTE:
if ( ((xmlSchemaAttributePtr) item)->flags &
XML_SCHEMAS_ATTR_GLOBAL)
return(1);
break;
/* Note that attribute groups are always global. */
default:
return(1);
}
return (0);
}
static void
xmlSchemaSimpleTypeErr(xmlSchemaAbstractCtxtPtr actxt,
xmlParserErrors error,
xmlNodePtr node,
const xmlChar *value,
xmlSchemaTypePtr type,
int displayValue)
{
xmlChar *msg = NULL;
xmlSchemaFormatNodeForError(&msg, actxt, node);
if (displayValue || (xmlSchemaEvalErrorNodeType(actxt, node) ==
XML_ATTRIBUTE_NODE))
msg = xmlStrcat(msg, BAD_CAST "'%s' is not a valid value of ");
else
msg = xmlStrcat(msg, BAD_CAST "The character content is not a valid "
"value of ");
if (! xmlSchemaIsGlobalItem(type))
msg = xmlStrcat(msg, BAD_CAST "the local ");
else
msg = xmlStrcat(msg, BAD_CAST "the ");
if (WXS_IS_ATOMIC(type))
msg = xmlStrcat(msg, BAD_CAST "atomic type");
else if (WXS_IS_LIST(type))
msg = xmlStrcat(msg, BAD_CAST "list type");
else if (WXS_IS_UNION(type))
msg = xmlStrcat(msg, BAD_CAST "union type");
if (xmlSchemaIsGlobalItem(type)) {
xmlChar *str = NULL;
msg = xmlStrcat(msg, BAD_CAST " '");
if (type->builtInType != 0) {
msg = xmlStrcat(msg, BAD_CAST "xs:");
msg = xmlStrcat(msg, type->name);
} else
msg = xmlStrcat(msg,
xmlSchemaFormatQName(&str,
type->targetNamespace, type->name));
msg = xmlStrcat(msg, BAD_CAST "'");
FREE_AND_NULL(str);
}
msg = xmlStrcat(msg, BAD_CAST ".\n");
if (displayValue || (xmlSchemaEvalErrorNodeType(actxt, node) ==
XML_ATTRIBUTE_NODE))
xmlSchemaErr(actxt, error, node, (const char *) msg, value, NULL);
else
xmlSchemaErr(actxt, error, node, (const char *) msg, NULL, NULL);
FREE_AND_NULL(msg)
}
static const xmlChar *
xmlSchemaFormatErrorNodeQName(xmlChar ** str,
xmlSchemaNodeInfoPtr ni,
xmlNodePtr node)
{
if (node != NULL) {
if (node->ns != NULL)
return (xmlSchemaFormatQName(str, node->ns->href, node->name));
else
return (xmlSchemaFormatQName(str, NULL, node->name));
} else if (ni != NULL)
return (xmlSchemaFormatQName(str, ni->nsName, ni->localName));
return (NULL);
}
static void
xmlSchemaIllegalAttrErr(xmlSchemaAbstractCtxtPtr actxt,
xmlParserErrors error,
xmlSchemaAttrInfoPtr ni,
xmlNodePtr node)
{
xmlChar *msg = NULL, *str = NULL;
xmlSchemaFormatNodeForError(&msg, actxt, node);
msg = xmlStrcat(msg, BAD_CAST "The attribute '%s' is not allowed.\n");
xmlSchemaErr(actxt, error, node, (const char *) msg,
xmlSchemaFormatErrorNodeQName(&str, (xmlSchemaNodeInfoPtr) ni, node),
NULL);
FREE_AND_NULL(str)
FREE_AND_NULL(msg)
}
static void
xmlSchemaComplexTypeErr(xmlSchemaAbstractCtxtPtr actxt,
xmlParserErrors error,
xmlNodePtr node,
xmlSchemaTypePtr type ATTRIBUTE_UNUSED,
const char *message,
int nbval,
int nbneg,
xmlChar **values)
{
xmlChar *str = NULL, *msg = NULL;
xmlChar *localName, *nsName;
const xmlChar *cur, *end;
int i;
xmlSchemaFormatNodeForError(&msg, actxt, node);
msg = xmlStrcat(msg, (const xmlChar *) message);
msg = xmlStrcat(msg, BAD_CAST ".");
/*
* Note that is does not make sense to report that we have a
* wildcard here, since the wildcard might be unfolded into
* multiple transitions.
*/
if (nbval + nbneg > 0) {
if (nbval + nbneg > 1) {
str = xmlStrdup(BAD_CAST " Expected is one of ( ");
} else
str = xmlStrdup(BAD_CAST " Expected is ( ");
nsName = NULL;
for (i = 0; i < nbval + nbneg; i++) {
cur = values[i];
if (cur == NULL)
continue;
if ((cur[0] == 'n') && (cur[1] == 'o') && (cur[2] == 't') &&
(cur[3] == ' ')) {
cur += 4;
str = xmlStrcat(str, BAD_CAST "##other");
}
/*
* Get the local name.
*/
localName = NULL;
end = cur;
if (*end == '*') {
localName = xmlStrdup(BAD_CAST "*");
end++;
} else {
while ((*end != 0) && (*end != '|'))
end++;
localName = xmlStrncat(localName, BAD_CAST cur, end - cur);
}
if (*end != 0) {
end++;
/*
* Skip "*|*" if they come with negated expressions, since
* they represent the same negated wildcard.
*/
if ((nbneg == 0) || (*end != '*') || (*localName != '*')) {
/*
* Get the namespace name.
*/
cur = end;
if (*end == '*') {
nsName = xmlStrdup(BAD_CAST "{*}");
} else {
while (*end != 0)
end++;
if (i >= nbval)
nsName = xmlStrdup(BAD_CAST "{##other:");
else
nsName = xmlStrdup(BAD_CAST "{");
nsName = xmlStrncat(nsName, BAD_CAST cur, end - cur);
nsName = xmlStrcat(nsName, BAD_CAST "}");
}
str = xmlStrcat(str, BAD_CAST nsName);
FREE_AND_NULL(nsName)
} else {
FREE_AND_NULL(localName);
continue;
}
}
str = xmlStrcat(str, BAD_CAST localName);
FREE_AND_NULL(localName);
if (i < nbval + nbneg -1)
str = xmlStrcat(str, BAD_CAST ", ");
}
str = xmlStrcat(str, BAD_CAST " ).\n");
msg = xmlStrcat(msg, BAD_CAST str);
FREE_AND_NULL(str)
} else
msg = xmlStrcat(msg, BAD_CAST "\n");
xmlSchemaErr(actxt, error, node, (const char *) msg, NULL, NULL);
xmlFree(msg);
}
static void
xmlSchemaFacetErr(xmlSchemaAbstractCtxtPtr actxt,
xmlParserErrors error,
xmlNodePtr node,
const xmlChar *value,
unsigned long length,
xmlSchemaTypePtr type,
xmlSchemaFacetPtr facet,
const char *message,
const xmlChar *str1,
const xmlChar *str2)
{
xmlChar *str = NULL, *msg = NULL;
xmlSchemaTypeType facetType;
int nodeType = xmlSchemaEvalErrorNodeType(actxt, node);
xmlSchemaFormatNodeForError(&msg, actxt, node);
if (error == XML_SCHEMAV_CVC_ENUMERATION_VALID) {
facetType = XML_SCHEMA_FACET_ENUMERATION;
/*
* If enumerations are validated, one must not expect the
* facet to be given.
*/
} else
facetType = facet->type;
msg = xmlStrcat(msg, BAD_CAST "[");
msg = xmlStrcat(msg, BAD_CAST "facet '");
msg = xmlStrcat(msg, xmlSchemaFacetTypeToString(facetType));
msg = xmlStrcat(msg, BAD_CAST "'] ");
if (message == NULL) {
/*
* Use a default message.
*/
if ((facetType == XML_SCHEMA_FACET_LENGTH) ||
(facetType == XML_SCHEMA_FACET_MINLENGTH) ||
(facetType == XML_SCHEMA_FACET_MAXLENGTH)) {
char len[25], actLen[25];
/* FIXME, TODO: What is the max expected string length of the
* this value?
*/
if (nodeType == XML_ATTRIBUTE_NODE)
msg = xmlStrcat(msg, BAD_CAST "The value '%s' has a length of '%s'; ");
else
msg = xmlStrcat(msg, BAD_CAST "The value has a length of '%s'; ");
XML_SNPRINTF(len, 24, "%lu", xmlSchemaGetFacetValueAsULong(facet));
XML_SNPRINTF(actLen, 24, "%lu", length);
if (facetType == XML_SCHEMA_FACET_LENGTH)
msg = xmlStrcat(msg,
BAD_CAST "this differs from the allowed length of '%s'.\n");
else if (facetType == XML_SCHEMA_FACET_MAXLENGTH)
msg = xmlStrcat(msg,
BAD_CAST "this exceeds the allowed maximum length of '%s'.\n");
else if (facetType == XML_SCHEMA_FACET_MINLENGTH)
msg = xmlStrcat(msg,
BAD_CAST "this underruns the allowed minimum length of '%s'.\n");
if (nodeType == XML_ATTRIBUTE_NODE)
xmlSchemaErr3(actxt, error, node, (const char *) msg,
value, (const xmlChar *) actLen, (const xmlChar *) len);
else
xmlSchemaErr(actxt, error, node, (const char *) msg,
(const xmlChar *) actLen, (const xmlChar *) len);
} else if (facetType == XML_SCHEMA_FACET_ENUMERATION) {
msg = xmlStrcat(msg, BAD_CAST "The value '%s' is not an element "
"of the set {%s}.\n");
xmlSchemaErr(actxt, error, node, (const char *) msg, value,
xmlSchemaFormatFacetEnumSet(actxt, &str, type));
} else if (facetType == XML_SCHEMA_FACET_PATTERN) {
msg = xmlStrcat(msg, BAD_CAST "The value '%s' is not accepted "
"by the pattern '%s'.\n");
xmlSchemaErr(actxt, error, node, (const char *) msg, value,
facet->value);
} else if (facetType == XML_SCHEMA_FACET_MININCLUSIVE) {
msg = xmlStrcat(msg, BAD_CAST "The value '%s' is less than the "
"minimum value allowed ('%s').\n");
xmlSchemaErr(actxt, error, node, (const char *) msg, value,
facet->value);
} else if (facetType == XML_SCHEMA_FACET_MAXINCLUSIVE) {
msg = xmlStrcat(msg, BAD_CAST "The value '%s' is greater than the "
"maximum value allowed ('%s').\n");
xmlSchemaErr(actxt, error, node, (const char *) msg, value,
facet->value);
} else if (facetType == XML_SCHEMA_FACET_MINEXCLUSIVE) {
msg = xmlStrcat(msg, BAD_CAST "The value '%s' must be greater than "
"'%s'.\n");
xmlSchemaErr(actxt, error, node, (const char *) msg, value,
facet->value);
} else if (facetType == XML_SCHEMA_FACET_MAXEXCLUSIVE) {
msg = xmlStrcat(msg, BAD_CAST "The value '%s' must be less than "
"'%s'.\n");
xmlSchemaErr(actxt, error, node, (const char *) msg, value,
facet->value);
} else if (facetType == XML_SCHEMA_FACET_TOTALDIGITS) {
msg = xmlStrcat(msg, BAD_CAST "The value '%s' has more "
"digits than are allowed ('%s').\n");
xmlSchemaErr(actxt, error, node, (const char*) msg, value,
facet->value);
} else if (facetType == XML_SCHEMA_FACET_FRACTIONDIGITS) {
msg = xmlStrcat(msg, BAD_CAST "The value '%s' has more fractional "
"digits than are allowed ('%s').\n");
xmlSchemaErr(actxt, error, node, (const char*) msg, value,
facet->value);
} else if (nodeType == XML_ATTRIBUTE_NODE) {
msg = xmlStrcat(msg, BAD_CAST "The value '%s' is not facet-valid.\n");
xmlSchemaErr(actxt, error, node, (const char *) msg, value, NULL);
} else {
msg = xmlStrcat(msg, BAD_CAST "The value is not facet-valid.\n");
xmlSchemaErr(actxt, error, node, (const char *) msg, NULL, NULL);
}
} else {
msg = xmlStrcat(msg, (const xmlChar *) message);
msg = xmlStrcat(msg, BAD_CAST ".\n");
xmlSchemaErr(actxt, error, node, (const char *) msg, str1, str2);
}
FREE_AND_NULL(str)
xmlFree(msg);
}
#define VERROR(err, type, msg) \
xmlSchemaCustomErr(ACTXT_CAST vctxt, err, NULL, type, msg, NULL, NULL);
#define VERROR_INT(func, msg) xmlSchemaInternalErr(ACTXT_CAST vctxt, func, msg);
#define PERROR_INT(func, msg) xmlSchemaInternalErr(ACTXT_CAST pctxt, func, msg);
#define PERROR_INT2(func, msg) xmlSchemaInternalErr(ACTXT_CAST ctxt, func, msg);
#define AERROR_INT(func, msg) xmlSchemaInternalErr(actxt, func, msg);
/**
* xmlSchemaPMissingAttrErr:
* @ctxt: the schema validation context
* @ownerDes: the designation of the owner
* @ownerName: the name of the owner
* @ownerItem: the owner as a schema object
* @ownerElem: the owner as an element node
* @node: the parent element node of the missing attribute node
* @type: the corresponding type of the attribute node
*
* Reports an illegal attribute.
*/
static void
xmlSchemaPMissingAttrErr(xmlSchemaParserCtxtPtr ctxt,
xmlParserErrors error,
xmlSchemaBasicItemPtr ownerItem,
xmlNodePtr ownerElem,
const char *name,
const char *message)
{
xmlChar *des = NULL;
xmlSchemaFormatItemForReport(&des, NULL, ownerItem, ownerElem);
if (message != NULL)
xmlSchemaPErr(ctxt, ownerElem, error, "%s: %s.\n", BAD_CAST des, BAD_CAST message);
else
xmlSchemaPErr(ctxt, ownerElem, error,
"%s: The attribute '%s' is required but missing.\n",
BAD_CAST des, BAD_CAST name);
FREE_AND_NULL(des);
}
/**
* xmlSchemaPResCompAttrErr:
* @ctxt: the schema validation context
* @error: the error code
* @ownerDes: the designation of the owner
* @ownerItem: the owner as a schema object
* @ownerElem: the owner as an element node
* @name: the name of the attribute holding the QName
* @refName: the referenced local name
* @refURI: the referenced namespace URI
* @message: optional message
*
* Used to report QName attribute values that failed to resolve
* to schema components.
*/
static void
xmlSchemaPResCompAttrErr(xmlSchemaParserCtxtPtr ctxt,
xmlParserErrors error,
xmlSchemaBasicItemPtr ownerItem,
xmlNodePtr ownerElem,
const char *name,
const xmlChar *refName,
const xmlChar *refURI,
xmlSchemaTypeType refType,
const char *refTypeStr)
{
xmlChar *des = NULL, *strA = NULL;
xmlSchemaFormatItemForReport(&des, NULL, ownerItem, ownerElem);
if (refTypeStr == NULL)
refTypeStr = (const char *) xmlSchemaItemTypeToStr(refType);
xmlSchemaPErrExt(ctxt, ownerElem, error,
NULL, NULL, NULL,
"%s, attribute '%s': The QName value '%s' does not resolve to a(n) "
"%s.\n", BAD_CAST des, BAD_CAST name,
xmlSchemaFormatQName(&strA, refURI, refName),
BAD_CAST refTypeStr, NULL);
FREE_AND_NULL(des)
FREE_AND_NULL(strA)
}
/**
* xmlSchemaPCustomAttrErr:
* @ctxt: the schema parser context
* @error: the error code
* @ownerDes: the designation of the owner
* @ownerItem: the owner as a schema object
* @attr: the illegal attribute node
*
* Reports an illegal attribute during the parse.
*/
static void
xmlSchemaPCustomAttrErr(xmlSchemaParserCtxtPtr ctxt,
xmlParserErrors error,
xmlChar **ownerDes,
xmlSchemaBasicItemPtr ownerItem,
xmlAttrPtr attr,
const char *msg)
{
xmlChar *des = NULL;
if (ownerDes == NULL)
xmlSchemaFormatItemForReport(&des, NULL, ownerItem, attr->parent);
else if (*ownerDes == NULL) {
xmlSchemaFormatItemForReport(ownerDes, NULL, ownerItem, attr->parent);
des = *ownerDes;
} else
des = *ownerDes;
if (attr == NULL) {
xmlSchemaPErrExt(ctxt, NULL, error, NULL, NULL, NULL,
"%s, attribute '%s': %s.\n",
BAD_CAST des, (const xmlChar *) "Unknown",
(const xmlChar *) msg, NULL, NULL);
} else {
xmlSchemaPErrExt(ctxt, (xmlNodePtr) attr, error, NULL, NULL, NULL,
"%s, attribute '%s': %s.\n",
BAD_CAST des, attr->name, (const xmlChar *) msg, NULL, NULL);
}
if (ownerDes == NULL)
FREE_AND_NULL(des);
}
/**
* xmlSchemaPIllegalAttrErr:
* @ctxt: the schema parser context
* @error: the error code
* @ownerDes: the designation of the attribute's owner
* @ownerItem: the attribute's owner item
* @attr: the illegal attribute node
*
* Reports an illegal attribute during the parse.
*/
static void
xmlSchemaPIllegalAttrErr(xmlSchemaParserCtxtPtr ctxt,
xmlParserErrors error,
xmlSchemaBasicItemPtr ownerComp ATTRIBUTE_UNUSED,
xmlAttrPtr attr)
{
xmlChar *strA = NULL, *strB = NULL;
xmlSchemaFormatNodeForError(&strA, ACTXT_CAST ctxt, attr->parent);
xmlSchemaErr4(ACTXT_CAST ctxt, error, (xmlNodePtr) attr,
"%sThe attribute '%s' is not allowed.\n", BAD_CAST strA,
xmlSchemaFormatQNameNs(&strB, attr->ns, attr->name),
NULL, NULL);
FREE_AND_NULL(strA);
FREE_AND_NULL(strB);
}
/**
* xmlSchemaPCustomErr:
* @ctxt: the schema parser context
* @error: the error code
* @itemDes: the designation of the schema item
* @item: the schema item
* @itemElem: the node of the schema item
* @message: the error message
* @str1: an optional param for the error message
* @str2: an optional param for the error message
* @str3: an optional param for the error message
*
* Reports an error during parsing.
*/
static void
xmlSchemaPCustomErrExt(xmlSchemaParserCtxtPtr ctxt,
xmlParserErrors error,
xmlSchemaBasicItemPtr item,
xmlNodePtr itemElem,
const char *message,
const xmlChar *str1,
const xmlChar *str2,
const xmlChar *str3)
{
xmlChar *des = NULL, *msg = NULL;
xmlSchemaFormatItemForReport(&des, NULL, item, itemElem);
msg = xmlStrdup(BAD_CAST "%s: ");
msg = xmlStrcat(msg, (const xmlChar *) message);
msg = xmlStrcat(msg, BAD_CAST ".\n");
if ((itemElem == NULL) && (item != NULL))
itemElem = WXS_ITEM_NODE(item);
xmlSchemaPErrExt(ctxt, itemElem, error, NULL, NULL, NULL,
(const char *) msg, BAD_CAST des, str1, str2, str3, NULL);
FREE_AND_NULL(des);
FREE_AND_NULL(msg);
}
/**
* xmlSchemaPCustomErr:
* @ctxt: the schema parser context
* @error: the error code
* @itemDes: the designation of the schema item
* @item: the schema item
* @itemElem: the node of the schema item
* @message: the error message
* @str1: the optional param for the error message
*
* Reports an error during parsing.
*/
static void
xmlSchemaPCustomErr(xmlSchemaParserCtxtPtr ctxt,
xmlParserErrors error,
xmlSchemaBasicItemPtr item,
xmlNodePtr itemElem,
const char *message,
const xmlChar *str1)
{
xmlSchemaPCustomErrExt(ctxt, error, item, itemElem, message,
str1, NULL, NULL);
}
/**
* xmlSchemaPAttrUseErr:
* @ctxt: the schema parser context
* @error: the error code
* @itemDes: the designation of the schema type
* @item: the schema type
* @itemElem: the node of the schema type
* @attr: the invalid schema attribute
* @message: the error message
* @str1: the optional param for the error message
*
* Reports an attribute use error during parsing.
*/
static void
xmlSchemaPAttrUseErr4(xmlSchemaParserCtxtPtr ctxt,
xmlParserErrors error,
xmlNodePtr node,
xmlSchemaBasicItemPtr ownerItem,
const xmlSchemaAttributeUsePtr attruse,
const char *message,
const xmlChar *str1, const xmlChar *str2,
const xmlChar *str3,const xmlChar *str4)
{
xmlChar *str = NULL, *msg = NULL;
xmlSchemaFormatItemForReport(&msg, NULL, ownerItem, NULL);
msg = xmlStrcat(msg, BAD_CAST ", ");
msg = xmlStrcat(msg,
BAD_CAST xmlSchemaFormatItemForReport(&str, NULL,
WXS_BASIC_CAST attruse, NULL));
FREE_AND_NULL(str);
msg = xmlStrcat(msg, BAD_CAST ": ");
msg = xmlStrcat(msg, (const xmlChar *) message);
msg = xmlStrcat(msg, BAD_CAST ".\n");
xmlSchemaErr4(ACTXT_CAST ctxt, error, node,
(const char *) msg, str1, str2, str3, str4);
xmlFree(msg);
}
/**
* xmlSchemaPIllegalFacetAtomicErr:
* @ctxt: the schema parser context
* @error: the error code
* @type: the schema type
* @baseType: the base type of type
* @facet: the illegal facet
*
* Reports an illegal facet for atomic simple types.
*/
static void
xmlSchemaPIllegalFacetAtomicErr(xmlSchemaParserCtxtPtr ctxt,
xmlParserErrors error,
xmlSchemaTypePtr type,
xmlSchemaTypePtr baseType,
xmlSchemaFacetPtr facet)
{
xmlChar *des = NULL, *strT = NULL;
xmlSchemaFormatItemForReport(&des, NULL, WXS_BASIC_CAST type, type->node);
xmlSchemaPErrExt(ctxt, type->node, error, NULL, NULL, NULL,
"%s: The facet '%s' is not allowed on types derived from the "
"type %s.\n",
BAD_CAST des, xmlSchemaFacetTypeToString(facet->type),
xmlSchemaFormatItemForReport(&strT, NULL, WXS_BASIC_CAST baseType, NULL),
NULL, NULL);
FREE_AND_NULL(des);
FREE_AND_NULL(strT);
}
/**
* xmlSchemaPIllegalFacetListUnionErr:
* @ctxt: the schema parser context
* @error: the error code
* @itemDes: the designation of the schema item involved
* @item: the schema item involved
* @facet: the illegal facet
*
* Reports an illegal facet for <list> and <union>.
*/
static void
xmlSchemaPIllegalFacetListUnionErr(xmlSchemaParserCtxtPtr ctxt,
xmlParserErrors error,
xmlSchemaTypePtr type,
xmlSchemaFacetPtr facet)
{
xmlChar *des = NULL;
xmlSchemaFormatItemForReport(&des, NULL, WXS_BASIC_CAST type,
type->node);
xmlSchemaPErr(ctxt, type->node, error,
"%s: The facet '%s' is not allowed.\n",
BAD_CAST des, xmlSchemaFacetTypeToString(facet->type));
FREE_AND_NULL(des);
}
/**
* xmlSchemaPMutualExclAttrErr:
* @ctxt: the schema validation context
* @error: the error code
* @elemDes: the designation of the parent element node
* @attr: the bad attribute node
* @type: the corresponding type of the attribute node
*
* Reports an illegal attribute.
*/
static void
xmlSchemaPMutualExclAttrErr(xmlSchemaParserCtxtPtr ctxt,
xmlParserErrors error,
xmlSchemaBasicItemPtr ownerItem,
xmlAttrPtr attr,
const char *name1,
const char *name2)
{
xmlChar *des = NULL;
xmlSchemaFormatItemForReport(&des, NULL, WXS_BASIC_CAST ownerItem, attr->parent);
xmlSchemaPErrExt(ctxt, (xmlNodePtr) attr, error, NULL, NULL, NULL,
"%s: The attributes '%s' and '%s' are mutually exclusive.\n",
BAD_CAST des, BAD_CAST name1, BAD_CAST name2, NULL, NULL);
FREE_AND_NULL(des);
}
/**
* xmlSchemaPSimpleTypeErr:
* @ctxt: the schema validation context
* @error: the error code
* @type: the type specifier
* @ownerDes: the designation of the owner
* @ownerItem: the schema object if existent
* @node: the validated node
* @value: the validated value
*
* Reports a simple type validation error.
* TODO: Should this report the value of an element as well?
*/
static void
xmlSchemaPSimpleTypeErr(xmlSchemaParserCtxtPtr ctxt,
xmlParserErrors error,
xmlSchemaBasicItemPtr ownerItem ATTRIBUTE_UNUSED,
xmlNodePtr node,
xmlSchemaTypePtr type,
const char *expected,
const xmlChar *value,
const char *message,
const xmlChar *str1,
const xmlChar *str2)
{
xmlChar *msg = NULL;
xmlSchemaFormatNodeForError(&msg, ACTXT_CAST ctxt, node);
if (message == NULL) {
/*
* Use default messages.
*/
if (type != NULL) {
if (node->type == XML_ATTRIBUTE_NODE)
msg = xmlStrcat(msg, BAD_CAST "'%s' is not a valid value of ");
else
msg = xmlStrcat(msg, BAD_CAST "The character content is not a "
"valid value of ");
if (! xmlSchemaIsGlobalItem(type))
msg = xmlStrcat(msg, BAD_CAST "the local ");
else
msg = xmlStrcat(msg, BAD_CAST "the ");
if (WXS_IS_ATOMIC(type))
msg = xmlStrcat(msg, BAD_CAST "atomic type");
else if (WXS_IS_LIST(type))
msg = xmlStrcat(msg, BAD_CAST "list type");
else if (WXS_IS_UNION(type))
msg = xmlStrcat(msg, BAD_CAST "union type");
if (xmlSchemaIsGlobalItem(type)) {
xmlChar *str = NULL;
msg = xmlStrcat(msg, BAD_CAST " '");
if (type->builtInType != 0) {
msg = xmlStrcat(msg, BAD_CAST "xs:");
msg = xmlStrcat(msg, type->name);
} else
msg = xmlStrcat(msg,
xmlSchemaFormatQName(&str,
type->targetNamespace, type->name));
msg = xmlStrcat(msg, BAD_CAST "'.");
FREE_AND_NULL(str);
}
} else {
if (node->type == XML_ATTRIBUTE_NODE)
msg = xmlStrcat(msg, BAD_CAST "The value '%s' is not valid.");
else
msg = xmlStrcat(msg, BAD_CAST "The character content is not "
"valid.");
}
if (expected) {
msg = xmlStrcat(msg, BAD_CAST " Expected is '");
msg = xmlStrcat(msg, BAD_CAST expected);
msg = xmlStrcat(msg, BAD_CAST "'.\n");
} else
msg = xmlStrcat(msg, BAD_CAST "\n");
if (node->type == XML_ATTRIBUTE_NODE)
xmlSchemaPErr(ctxt, node, error, (const char *) msg, value, NULL);
else
xmlSchemaPErr(ctxt, node, error, (const char *) msg, NULL, NULL);
} else {
msg = xmlStrcat(msg, BAD_CAST message);
msg = xmlStrcat(msg, BAD_CAST ".\n");
xmlSchemaPErrExt(ctxt, node, error, NULL, NULL, NULL,
(const char*) msg, str1, str2, NULL, NULL, NULL);
}
/* Cleanup. */
FREE_AND_NULL(msg)
}
/**
* xmlSchemaPContentErr:
* @ctxt: the schema parser context
* @error: the error code
* @onwerDes: the designation of the holder of the content
* @ownerItem: the owner item of the holder of the content
* @ownerElem: the node of the holder of the content
* @child: the invalid child node
* @message: the optional error message
* @content: the optional string describing the correct content
*
* Reports an error concerning the content of a schema element.
*/
static void
xmlSchemaPContentErr(xmlSchemaParserCtxtPtr ctxt,
xmlParserErrors error,
xmlSchemaBasicItemPtr ownerItem,
xmlNodePtr ownerElem,
xmlNodePtr child,
const char *message,
const char *content)
{
xmlChar *des = NULL;
xmlSchemaFormatItemForReport(&des, NULL, ownerItem, ownerElem);
if (message != NULL)
xmlSchemaPErr2(ctxt, ownerElem, child, error,
"%s: %s.\n",
BAD_CAST des, BAD_CAST message);
else {
if (content != NULL) {
xmlSchemaPErr2(ctxt, ownerElem, child, error,
"%s: The content is not valid. Expected is %s.\n",
BAD_CAST des, BAD_CAST content);
} else {
xmlSchemaPErr2(ctxt, ownerElem, child, error,
"%s: The content is not valid.\n",
BAD_CAST des, NULL);
}
}
FREE_AND_NULL(des)
}
/************************************************************************
* *
* Streamable error functions *
* *
************************************************************************/
/************************************************************************
* *
* Validation helper functions *
* *
************************************************************************/
/************************************************************************
* *
* Allocation functions *
* *
************************************************************************/
/**
* xmlSchemaNewSchemaForParserCtxt:
* @ctxt: a schema validation context
*
* Allocate a new Schema structure.
*
* Returns the newly allocated structure or NULL in case or error
*/
static xmlSchemaPtr
xmlSchemaNewSchema(xmlSchemaParserCtxtPtr ctxt)
{
xmlSchemaPtr ret;
ret = (xmlSchemaPtr) xmlMalloc(sizeof(xmlSchema));
if (ret == NULL) {
xmlSchemaPErrMemory(ctxt, "allocating schema", NULL);
return (NULL);
}
XML_MEMSET(ret, 0, sizeof(xmlSchema));
ret->dict = ctxt->dict;
xmlDictReference(ret->dict);
return (ret);
}
/**
* xmlSchemaNewFacet:
*
* Allocate a new Facet structure.
*
* Returns the newly allocated structure or NULL in case or error
*/
xmlSchemaFacetPtr
xmlSchemaNewFacet(void)
{
xmlSchemaFacetPtr ret;
ret = (xmlSchemaFacetPtr) xmlMalloc(sizeof(xmlSchemaFacet));
if (ret == NULL) {
return (NULL);
}
XML_MEMSET(ret, 0, sizeof(xmlSchemaFacet));
return (ret);
}
/**
* xmlSchemaNewAnnot:
* @ctxt: a schema validation context
* @node: a node
*
* Allocate a new annotation structure.
*
* Returns the newly allocated structure or NULL in case or error
*/
static xmlSchemaAnnotPtr
xmlSchemaNewAnnot(xmlSchemaParserCtxtPtr ctxt, xmlNodePtr node)
{
xmlSchemaAnnotPtr ret;
ret = (xmlSchemaAnnotPtr) xmlMalloc(sizeof(xmlSchemaAnnot));
if (ret == NULL) {
xmlSchemaPErrMemory(ctxt, "allocating annotation", node);
return (NULL);
}
XML_MEMSET(ret, 0, sizeof(xmlSchemaAnnot));
ret->content = node;
return (ret);
}
static xmlSchemaItemListPtr
xmlSchemaItemListCreate(void)
{
xmlSchemaItemListPtr ret;
ret = xmlMalloc(sizeof(xmlSchemaItemList));
if (ret == NULL) {
xmlSchemaPErrMemory(NULL,
"allocating an item list structure", NULL);
return (NULL);
}
XML_MEMSET(ret, 0, sizeof(xmlSchemaItemList));
return (ret);
}
static void
xmlSchemaItemListClear(xmlSchemaItemListPtr list)
{
if (list->items != NULL) {
xmlFree(list->items);
list->items = NULL;
}
list->nbItems = 0;
list->sizeItems = 0;
}
static int
xmlSchemaItemListAdd(xmlSchemaItemListPtr list, void *item)
{
if (list->items == NULL) {
list->items = (void **) xmlMalloc(
20 * sizeof(void *));
if (list->items == NULL) {
xmlSchemaPErrMemory(NULL, "allocating new item list", NULL);
return(-1);
}
list->sizeItems = 20;
} else if (list->sizeItems <= list->nbItems) {
list->sizeItems *= 2;
list->items = (void **) xmlRealloc(list->items,
list->sizeItems * sizeof(void *));
if (list->items == NULL) {
xmlSchemaPErrMemory(NULL, "growing item list", NULL);
list->sizeItems = 0;
return(-1);
}
}
list->items[list->nbItems++] = item;
return(0);
}
static int
xmlSchemaItemListAddSize(xmlSchemaItemListPtr list,
int initialSize,
void *item)
{
if (list->items == NULL) {
if (initialSize <= 0)
initialSize = 1;
list->items = (void **) xmlMalloc(
initialSize * sizeof(void *));
if (list->items == NULL) {
xmlSchemaPErrMemory(NULL, "allocating new item list", NULL);
return(-1);
}
list->sizeItems = initialSize;
} else if (list->sizeItems <= list->nbItems) {
list->sizeItems *= 2;
list->items = (void **) xmlRealloc(list->items,
list->sizeItems * sizeof(void *));
if (list->items == NULL) {
xmlSchemaPErrMemory(NULL, "growing item list", NULL);
list->sizeItems = 0;
return(-1);
}
}
list->items[list->nbItems++] = item;
return(0);
}
static int
xmlSchemaItemListInsert(xmlSchemaItemListPtr list, void *item, int idx)
{
if (list->items == NULL) {
list->items = (void **) xmlMalloc(
20 * sizeof(void *));
if (list->items == NULL) {
xmlSchemaPErrMemory(NULL, "allocating new item list", NULL);
return(-1);
}
list->sizeItems = 20;
} else if (list->sizeItems <= list->nbItems) {
list->sizeItems *= 2;
list->items = (void **) xmlRealloc(list->items,
list->sizeItems * sizeof(void *));
if (list->items == NULL) {
xmlSchemaPErrMemory(NULL, "growing item list", NULL);
list->sizeItems = 0;
return(-1);
}
}
/*
* Just append if the index is greater/equal than the item count.
*/
if (idx >= list->nbItems) {
list->items[list->nbItems++] = item;
} else {
int i;
for (i = list->nbItems; i > idx; i--)
list->items[i] = list->items[i-1];
list->items[idx] = item;
list->nbItems++;
}
return(0);
}
#if 0 /* enable if ever needed */
static int
xmlSchemaItemListInsertSize(xmlSchemaItemListPtr list,
int initialSize,
void *item,
int idx)
{
if (list->items == NULL) {
if (initialSize <= 0)
initialSize = 1;
list->items = (void **) xmlMalloc(
initialSize * sizeof(void *));
if (list->items == NULL) {
xmlSchemaPErrMemory(NULL, "allocating new item list", NULL);
return(-1);
}
list->sizeItems = initialSize;
} else if (list->sizeItems <= list->nbItems) {
list->sizeItems *= 2;
list->items = (void **) xmlRealloc(list->items,
list->sizeItems * sizeof(void *));
if (list->items == NULL) {
xmlSchemaPErrMemory(NULL, "growing item list", NULL);
list->sizeItems = 0;
return(-1);
}
}
/*
* Just append if the index is greater/equal than the item count.
*/
if (idx >= list->nbItems) {
list->items[list->nbItems++] = item;
} else {
int i;
for (i = list->nbItems; i > idx; i--)
list->items[i] = list->items[i-1];
list->items[idx] = item;
list->nbItems++;
}
return(0);
}
#endif
static int
xmlSchemaItemListRemove(xmlSchemaItemListPtr list, int idx)
{
int i;
if ((list->items == NULL) || (idx >= list->nbItems)) {
xmlSchemaPSimpleErr("Internal error: xmlSchemaItemListRemove, "
"index error.\n");
return(-1);
}
if (list->nbItems == 1) {
/* TODO: Really free the list? */
xmlFree(list->items);
list->items = NULL;
list->nbItems = 0;
list->sizeItems = 0;
} else if (list->nbItems -1 == idx) {
list->nbItems--;
} else {
for (i = idx; i < list->nbItems -1; i++)
list->items[i] = list->items[i+1];
list->nbItems--;
}
return(0);
}
/**
* xmlSchemaItemListFree:
* @annot: a schema type structure
*
* Deallocate a annotation structure
*/
static void
xmlSchemaItemListFree(xmlSchemaItemListPtr list)
{
if (list == NULL)
return;
if (list->items != NULL)
xmlFree(list->items);
xmlFree(list);
}
static void
xmlSchemaBucketFree(xmlSchemaBucketPtr bucket)
{
if (bucket == NULL)
return;
if (bucket->globals != NULL) {
xmlSchemaComponentListFree(bucket->globals);
xmlSchemaItemListFree(bucket->globals);
}
if (bucket->locals != NULL) {
xmlSchemaComponentListFree(bucket->locals);
xmlSchemaItemListFree(bucket->locals);
}
if (bucket->relations != NULL) {
xmlSchemaSchemaRelationPtr prev, cur = bucket->relations;
do {
prev = cur;
cur = cur->next;
xmlFree(prev);
} while (cur != NULL);
}
if ((! bucket->preserveDoc) && (bucket->doc != NULL)) {
xmlFreeDoc(bucket->doc);
}
if (bucket->type == XML_SCHEMA_SCHEMA_IMPORT) {
if (WXS_IMPBUCKET(bucket)->schema != NULL)
xmlSchemaFree(WXS_IMPBUCKET(bucket)->schema);
}
xmlFree(bucket);
}
static xmlSchemaBucketPtr
xmlSchemaBucketCreate(xmlSchemaParserCtxtPtr pctxt,
int type, const xmlChar *targetNamespace)
{
xmlSchemaBucketPtr ret;
int size;
xmlSchemaPtr mainSchema;
if (WXS_CONSTRUCTOR(pctxt)->mainSchema == NULL) {
PERROR_INT("xmlSchemaBucketCreate",
"no main schema on constructor");
return(NULL);
}
mainSchema = WXS_CONSTRUCTOR(pctxt)->mainSchema;
/* Create the schema bucket. */
if (WXS_IS_BUCKET_INCREDEF(type))
size = sizeof(xmlSchemaInclude);
else
size = sizeof(xmlSchemaImport);
ret = (xmlSchemaBucketPtr) xmlMalloc(size);
if (ret == NULL) {
xmlSchemaPErrMemory(NULL, "allocating schema bucket", NULL);
return(NULL);
}
XML_MEMSET(ret, 0, size);
ret->targetNamespace = targetNamespace;
ret->type = type;
ret->globals = xmlSchemaItemListCreate();
if (ret->globals == NULL) {
xmlFree(ret);
return(NULL);
}
ret->locals = xmlSchemaItemListCreate();
if (ret->locals == NULL) {
xmlFree(ret);
return(NULL);
}
/*
* The following will assure that only the first bucket is marked as
* XML_SCHEMA_SCHEMA_MAIN and it points to the *main* schema.
* For each following import buckets an xmlSchema will be created.
* An xmlSchema will be created for every distinct targetNamespace.
* We assign the targetNamespace to the schemata here.
*/
if (! WXS_HAS_BUCKETS(pctxt)) {
if (WXS_IS_BUCKET_INCREDEF(type)) {
PERROR_INT("xmlSchemaBucketCreate",
"first bucket but it's an include or redefine");
xmlSchemaBucketFree(ret);
return(NULL);
}
/* Force the type to be XML_SCHEMA_SCHEMA_MAIN. */
ret->type = XML_SCHEMA_SCHEMA_MAIN;
/* Point to the *main* schema. */
WXS_CONSTRUCTOR(pctxt)->mainBucket = ret;
WXS_IMPBUCKET(ret)->schema = mainSchema;
/*
* Ensure that the main schema gets a targetNamespace.
*/
mainSchema->targetNamespace = targetNamespace;
} else {
if (type == XML_SCHEMA_SCHEMA_MAIN) {
PERROR_INT("xmlSchemaBucketCreate",
"main bucket but it's not the first one");
xmlSchemaBucketFree(ret);
return(NULL);
} else if (type == XML_SCHEMA_SCHEMA_IMPORT) {
/*
* Create a schema for imports and assign the
* targetNamespace.
*/
WXS_IMPBUCKET(ret)->schema = xmlSchemaNewSchema(pctxt);
if (WXS_IMPBUCKET(ret)->schema == NULL) {
xmlSchemaBucketFree(ret);
return(NULL);
}
WXS_IMPBUCKET(ret)->schema->targetNamespace = targetNamespace;
}
}
if (WXS_IS_BUCKET_IMPMAIN(type)) {
int res;
/*
* Imports go into the "schemasImports" slot of the main *schema*.
* Note that we create an import entry for the main schema as well; i.e.,
* even if there's only one schema, we'll get an import.
*/
if (mainSchema->schemasImports == NULL) {
mainSchema->schemasImports = xmlHashCreateDict(5,
WXS_CONSTRUCTOR(pctxt)->dict);
if (mainSchema->schemasImports == NULL) {
xmlSchemaBucketFree(ret);
return(NULL);
}
}
if (targetNamespace == NULL)
res = xmlHashAddEntry(mainSchema->schemasImports,
XML_SCHEMAS_NO_NAMESPACE, ret);
else
res = xmlHashAddEntry(mainSchema->schemasImports,
targetNamespace, ret);
if (res != 0) {
PERROR_INT("xmlSchemaBucketCreate",
"failed to add the schema bucket to the hash");
xmlSchemaBucketFree(ret);
return(NULL);
}
} else {
/* Set the @ownerImport of an include bucket. */
if (WXS_IS_BUCKET_IMPMAIN(WXS_CONSTRUCTOR(pctxt)->bucket->type))
WXS_INCBUCKET(ret)->ownerImport =
WXS_IMPBUCKET(WXS_CONSTRUCTOR(pctxt)->bucket);
else
WXS_INCBUCKET(ret)->ownerImport =
WXS_INCBUCKET(WXS_CONSTRUCTOR(pctxt)->bucket)->ownerImport;
/* Includes got into the "includes" slot of the *main* schema. */
if (mainSchema->includes == NULL) {
mainSchema->includes = xmlSchemaItemListCreate();
if (mainSchema->includes == NULL) {
xmlSchemaBucketFree(ret);
return(NULL);
}
}
xmlSchemaItemListAdd(mainSchema->includes, ret);
}
/*
* Add to list of all buckets; this is used for lookup
* during schema construction time only.
*/
if (xmlSchemaItemListAdd(WXS_CONSTRUCTOR(pctxt)->buckets, ret) == -1)
return(NULL);
return(ret);
}
static int
xmlSchemaAddItemSize(xmlSchemaItemListPtr *list, int initialSize, void *item)
{
if (*list == NULL) {
*list = xmlSchemaItemListCreate();
if (*list == NULL)
return(-1);
}
xmlSchemaItemListAddSize(*list, initialSize, item);
return(0);
}
/**
* xmlSchemaFreeAnnot:
* @annot: a schema type structure
*
* Deallocate a annotation structure
*/
static void
xmlSchemaFreeAnnot(xmlSchemaAnnotPtr annot)
{
if (annot == NULL)
return;
if (annot->next == NULL) {
xmlFree(annot);
} else {
xmlSchemaAnnotPtr prev;
do {
prev = annot;
annot = annot->next;
xmlFree(prev);
} while (annot != NULL);
}
}
/**
* xmlSchemaFreeNotation:
* @schema: a schema notation structure
*
* Deallocate a Schema Notation structure.
*/
static void
xmlSchemaFreeNotation(xmlSchemaNotationPtr nota)
{
if (nota == NULL)
return;
xmlFree(nota);
}
/**
* xmlSchemaFreeAttribute:
* @attr: an attribute declaration
*
* Deallocates an attribute declaration structure.
*/
static void
xmlSchemaFreeAttribute(xmlSchemaAttributePtr attr)
{
if (attr == NULL)
return;
if (attr->annot != NULL)
xmlSchemaFreeAnnot(attr->annot);
if (attr->defVal != NULL)
xmlSchemaFreeValue(attr->defVal);
xmlFree(attr);
}
/**
* xmlSchemaFreeAttributeUse:
* @use: an attribute use
*
* Deallocates an attribute use structure.
*/
static void
xmlSchemaFreeAttributeUse(xmlSchemaAttributeUsePtr use)
{
if (use == NULL)
return;
if (use->annot != NULL)
xmlSchemaFreeAnnot(use->annot);
if (use->defVal != NULL)
xmlSchemaFreeValue(use->defVal);
xmlFree(use);
}
/**
* xmlSchemaFreeAttributeUseProhib:
* @prohib: an attribute use prohibition
*
* Deallocates an attribute use structure.
*/
static void
xmlSchemaFreeAttributeUseProhib(xmlSchemaAttributeUseProhibPtr prohib)
{
if (prohib == NULL)
return;
xmlFree(prohib);
}
/**
* xmlSchemaFreeWildcardNsSet:
* set: a schema wildcard namespace
*
* Deallocates a list of wildcard constraint structures.
*/
static void
xmlSchemaFreeWildcardNsSet(xmlSchemaWildcardNsPtr set)
{
xmlSchemaWildcardNsPtr next;
while (set != NULL) {
next = set->next;
xmlFree(set);
set = next;
}
}
/**
* xmlSchemaFreeWildcard:
* @wildcard: a wildcard structure
*
* Deallocates a wildcard structure.
*/
void
xmlSchemaFreeWildcard(xmlSchemaWildcardPtr wildcard)
{
if (wildcard == NULL)
return;
if (wildcard->annot != NULL)
xmlSchemaFreeAnnot(wildcard->annot);
if (wildcard->nsSet != NULL)
xmlSchemaFreeWildcardNsSet(wildcard->nsSet);
if (wildcard->negNsSet != NULL)
xmlFree(wildcard->negNsSet);
xmlFree(wildcard);
}
/**
* xmlSchemaFreeAttributeGroup:
* @schema: a schema attribute group structure
*
* Deallocate a Schema Attribute Group structure.
*/
static void
xmlSchemaFreeAttributeGroup(xmlSchemaAttributeGroupPtr attrGr)
{
if (attrGr == NULL)
return;
if (attrGr->annot != NULL)
xmlSchemaFreeAnnot(attrGr->annot);
if (attrGr->attrUses != NULL)
xmlSchemaItemListFree(WXS_LIST_CAST attrGr->attrUses);
xmlFree(attrGr);
}
/**
* xmlSchemaFreeQNameRef:
* @item: a QName reference structure
*
* Deallocatea a QName reference structure.
*/
static void
xmlSchemaFreeQNameRef(xmlSchemaQNameRefPtr item)
{
xmlFree(item);
}
/**
* xmlSchemaFreeTypeLinkList:
* @alink: a type link
*
* Deallocate a list of types.
*/
static void
xmlSchemaFreeTypeLinkList(xmlSchemaTypeLinkPtr link)
{
xmlSchemaTypeLinkPtr next;
while (link != NULL) {
next = link->next;
xmlFree(link);
link = next;
}
}
static void
xmlSchemaFreeIDCStateObjList(xmlSchemaIDCStateObjPtr sto)
{
xmlSchemaIDCStateObjPtr next;
while (sto != NULL) {
next = sto->next;
if (sto->history != NULL)
xmlFree(sto->history);
if (sto->xpathCtxt != NULL)
xmlFreeStreamCtxt((xmlStreamCtxtPtr) sto->xpathCtxt);
xmlFree(sto);
sto = next;
}
}
/**
* xmlSchemaFreeIDC:
* @idc: a identity-constraint definition
*
* Deallocates an identity-constraint definition.
*/
static void
xmlSchemaFreeIDC(xmlSchemaIDCPtr idcDef)
{
xmlSchemaIDCSelectPtr cur, prev;
if (idcDef == NULL)
return;
if (idcDef->annot != NULL)
xmlSchemaFreeAnnot(idcDef->annot);
/* Selector */
if (idcDef->selector != NULL) {
if (idcDef->selector->xpathComp != NULL)
xmlFreePattern((xmlPatternPtr) idcDef->selector->xpathComp);
xmlFree(idcDef->selector);
}
/* Fields */
if (idcDef->fields != NULL) {
cur = idcDef->fields;
do {
prev = cur;
cur = cur->next;
if (prev->xpathComp != NULL)
xmlFreePattern((xmlPatternPtr) prev->xpathComp);
xmlFree(prev);
} while (cur != NULL);
}
xmlFree(idcDef);
}
/**
* xmlSchemaFreeElement:
* @schema: a schema element structure
*
* Deallocate a Schema Element structure.
*/
static void
xmlSchemaFreeElement(xmlSchemaElementPtr elem)
{
if (elem == NULL)
return;
if (elem->annot != NULL)
xmlSchemaFreeAnnot(elem->annot);
if (elem->contModel != NULL)
xmlRegFreeRegexp(elem->contModel);
if (elem->defVal != NULL)
xmlSchemaFreeValue(elem->defVal);
xmlFree(elem);
}
/**
* xmlSchemaFreeFacet:
* @facet: a schema facet structure
*
* Deallocate a Schema Facet structure.
*/
void
xmlSchemaFreeFacet(xmlSchemaFacetPtr facet)
{
if (facet == NULL)
return;
if (facet->val != NULL)
xmlSchemaFreeValue(facet->val);
if (facet->regexp != NULL)
xmlRegFreeRegexp(facet->regexp);
if (facet->annot != NULL)
xmlSchemaFreeAnnot(facet->annot);
xmlFree(facet);
}
/**
* xmlSchemaFreeType:
* @type: a schema type structure
*
* Deallocate a Schema Type structure.
*/
void
xmlSchemaFreeType(xmlSchemaTypePtr type)
{
if (type == NULL)
return;
if (type->annot != NULL)
xmlSchemaFreeAnnot(type->annot);
if (type->facets != NULL) {
xmlSchemaFacetPtr facet, next;
facet = type->facets;
while (facet != NULL) {
next = facet->next;
xmlSchemaFreeFacet(facet);
facet = next;
}
}
if (type->attrUses != NULL)
xmlSchemaItemListFree((xmlSchemaItemListPtr) type->attrUses);
if (type->memberTypes != NULL)
xmlSchemaFreeTypeLinkList(type->memberTypes);
if (type->facetSet != NULL) {
xmlSchemaFacetLinkPtr next, link;
link = type->facetSet;
do {
next = link->next;
xmlFree(link);
link = next;
} while (link != NULL);
}
if (type->contModel != NULL)
xmlRegFreeRegexp(type->contModel);
xmlFree(type);
}
/**
* xmlSchemaFreeModelGroupDef:
* @item: a schema model group definition
*
* Deallocates a schema model group definition.
*/
static void
xmlSchemaFreeModelGroupDef(xmlSchemaModelGroupDefPtr item)
{
if (item->annot != NULL)
xmlSchemaFreeAnnot(item->annot);
xmlFree(item);
}
/**
* xmlSchemaFreeModelGroup:
* @item: a schema model group
*
* Deallocates a schema model group structure.
*/
static void
xmlSchemaFreeModelGroup(xmlSchemaModelGroupPtr item)
{
if (item->annot != NULL)
xmlSchemaFreeAnnot(item->annot);
xmlFree(item);
}
static void
xmlSchemaComponentListFree(xmlSchemaItemListPtr list)
{
if ((list == NULL) || (list->nbItems == 0))
return;
{
xmlSchemaTreeItemPtr item;
xmlSchemaTreeItemPtr *items = (xmlSchemaTreeItemPtr *) list->items;
int i;
for (i = 0; i < list->nbItems; i++) {
item = items[i];
if (item == NULL)
continue;
switch (item->type) {
case XML_SCHEMA_TYPE_SIMPLE:
case XML_SCHEMA_TYPE_COMPLEX:
xmlSchemaFreeType((xmlSchemaTypePtr) item);
break;
case XML_SCHEMA_TYPE_ATTRIBUTE:
xmlSchemaFreeAttribute((xmlSchemaAttributePtr) item);
break;
case XML_SCHEMA_TYPE_ATTRIBUTE_USE:
xmlSchemaFreeAttributeUse((xmlSchemaAttributeUsePtr) item);
break;
case XML_SCHEMA_EXTRA_ATTR_USE_PROHIB:
xmlSchemaFreeAttributeUseProhib(
(xmlSchemaAttributeUseProhibPtr) item);
break;
case XML_SCHEMA_TYPE_ELEMENT:
xmlSchemaFreeElement((xmlSchemaElementPtr) item);
break;
case XML_SCHEMA_TYPE_PARTICLE:
if (item->annot != NULL)
xmlSchemaFreeAnnot(item->annot);
xmlFree(item);
break;
case XML_SCHEMA_TYPE_SEQUENCE:
case XML_SCHEMA_TYPE_CHOICE:
case XML_SCHEMA_TYPE_ALL:
xmlSchemaFreeModelGroup((xmlSchemaModelGroupPtr) item);
break;
case XML_SCHEMA_TYPE_ATTRIBUTEGROUP:
xmlSchemaFreeAttributeGroup(
(xmlSchemaAttributeGroupPtr) item);
break;
case XML_SCHEMA_TYPE_GROUP:
xmlSchemaFreeModelGroupDef(
(xmlSchemaModelGroupDefPtr) item);
break;
case XML_SCHEMA_TYPE_ANY:
case XML_SCHEMA_TYPE_ANY_ATTRIBUTE:
xmlSchemaFreeWildcard((xmlSchemaWildcardPtr) item);
break;
case XML_SCHEMA_TYPE_IDC_KEY:
case XML_SCHEMA_TYPE_IDC_UNIQUE:
case XML_SCHEMA_TYPE_IDC_KEYREF:
xmlSchemaFreeIDC((xmlSchemaIDCPtr) item);
break;
case XML_SCHEMA_TYPE_NOTATION:
xmlSchemaFreeNotation((xmlSchemaNotationPtr) item);
break;
case XML_SCHEMA_EXTRA_QNAMEREF:
xmlSchemaFreeQNameRef((xmlSchemaQNameRefPtr) item);
break;
default: {
/* TODO: This should never be hit. */
xmlSchemaPSimpleInternalErr(NULL,
"Internal error: xmlSchemaComponentListFree, "
"unexpected component type '%s'\n",
(const xmlChar *) WXS_ITEM_TYPE_NAME(item));
}
break;
}
}
list->nbItems = 0;
}
}
/**
* xmlSchemaFree:
* @schema: a schema structure
*
* Deallocate a Schema structure.
*/
void
xmlSchemaFree(xmlSchemaPtr schema)
{
if (schema == NULL)
return;
/* @volatiles is not used anymore :-/ */
if (schema->volatiles != NULL)
TODO
/*
* Note that those slots are not responsible for freeing
* schema components anymore; this will now be done by
* the schema buckets.
*/
if (schema->notaDecl != NULL)
xmlHashFree(schema->notaDecl, NULL);
if (schema->attrDecl != NULL)
xmlHashFree(schema->attrDecl, NULL);
if (schema->attrgrpDecl != NULL)
xmlHashFree(schema->attrgrpDecl, NULL);
if (schema->elemDecl != NULL)
xmlHashFree(schema->elemDecl, NULL);
if (schema->typeDecl != NULL)
xmlHashFree(schema->typeDecl, NULL);
if (schema->groupDecl != NULL)
xmlHashFree(schema->groupDecl, NULL);
if (schema->idcDef != NULL)
xmlHashFree(schema->idcDef, NULL);
if (schema->schemasImports != NULL)
xmlHashFree(schema->schemasImports,
(xmlHashDeallocator) xmlSchemaBucketFree);
if (schema->includes != NULL) {
xmlSchemaItemListPtr list = (xmlSchemaItemListPtr) schema->includes;
int i;
for (i = 0; i < list->nbItems; i++) {
xmlSchemaBucketFree((xmlSchemaBucketPtr) list->items[i]);
}
xmlSchemaItemListFree(list);
}
if (schema->annot != NULL)
xmlSchemaFreeAnnot(schema->annot);
/* Never free the doc here, since this will be done by the buckets. */
xmlDictFree(schema->dict);
xmlFree(schema);
}
/************************************************************************
* *
* Debug functions *
* *
************************************************************************/
#ifdef LIBXML_OUTPUT_ENABLED
static void
xmlSchemaTypeDump(xmlSchemaTypePtr type, FILE * output); /* forward */
/**
* xmlSchemaElementDump:
* @elem: an element
* @output: the file output
*
* Dump the element
*/
static void
xmlSchemaElementDump(xmlSchemaElementPtr elem, FILE * output,
const xmlChar * name ATTRIBUTE_UNUSED,
const xmlChar * namespace ATTRIBUTE_UNUSED,
const xmlChar * context ATTRIBUTE_UNUSED)
{
if (elem == NULL)
return;
fprintf(output, "Element");
if (elem->flags & XML_SCHEMAS_ELEM_GLOBAL)
fprintf(output, " (global)");
fprintf(output, ": '%s' ", elem->name);
if (namespace != NULL)
fprintf(output, "ns '%s'", namespace);
fprintf(output, "\n");
#if 0
if ((elem->minOccurs != 1) || (elem->maxOccurs != 1)) {
fprintf(output, " min %d ", elem->minOccurs);
if (elem->maxOccurs >= UNBOUNDED)
fprintf(output, "max: unbounded\n");
else if (elem->maxOccurs != 1)
fprintf(output, "max: %d\n", elem->maxOccurs);
else
fprintf(output, "\n");
}
#endif
/*
* Misc other properties.
*/
if ((elem->flags & XML_SCHEMAS_ELEM_NILLABLE) ||
(elem->flags & XML_SCHEMAS_ELEM_ABSTRACT) ||
(elem->flags & XML_SCHEMAS_ELEM_FIXED) ||
(elem->flags & XML_SCHEMAS_ELEM_DEFAULT)) {
fprintf(output, " props: ");
if (elem->flags & XML_SCHEMAS_ELEM_FIXED)
fprintf(output, "[fixed] ");
if (elem->flags & XML_SCHEMAS_ELEM_DEFAULT)
fprintf(output, "[default] ");
if (elem->flags & XML_SCHEMAS_ELEM_ABSTRACT)
fprintf(output, "[abstract] ");
if (elem->flags & XML_SCHEMAS_ELEM_NILLABLE)
fprintf(output, "[nillable] ");
fprintf(output, "\n");
}
/*
* Default/fixed value.
*/
if (elem->value != NULL)
fprintf(output, " value: '%s'\n", elem->value);
/*
* Type.
*/
if (elem->namedType != NULL) {
fprintf(output, " type: '%s' ", elem->namedType);
if (elem->namedTypeNs != NULL)
fprintf(output, "ns '%s'\n", elem->namedTypeNs);
else
fprintf(output, "\n");
} else if (elem->subtypes != NULL) {
/*
* Dump local types.
*/
xmlSchemaTypeDump(elem->subtypes, output);
}
/*
* Substitution group.
*/
if (elem->substGroup != NULL) {
fprintf(output, " substitutionGroup: '%s' ", elem->substGroup);
if (elem->substGroupNs != NULL)
fprintf(output, "ns '%s'\n", elem->substGroupNs);
else
fprintf(output, "\n");
}
}
/**
* xmlSchemaAnnotDump:
* @output: the file output
* @annot: a annotation
*
* Dump the annotation
*/
static void
xmlSchemaAnnotDump(FILE * output, xmlSchemaAnnotPtr annot)
{
xmlChar *content;
if (annot == NULL)
return;
content = xmlNodeGetContent(annot->content);
if (content != NULL) {
fprintf(output, " Annot: %s\n", content);
xmlFree(content);
} else
fprintf(output, " Annot: empty\n");
}
/**
* xmlSchemaContentModelDump:
* @particle: the schema particle
* @output: the file output
* @depth: the depth used for intentation
*
* Dump a SchemaType structure
*/
static void
xmlSchemaContentModelDump(xmlSchemaParticlePtr particle, FILE * output, int depth)
{
xmlChar *str = NULL;
xmlSchemaTreeItemPtr term;
char shift[100];
int i;
if (particle == NULL)
return;
for (i = 0;((i < depth) && (i < 25));i++)
shift[2 * i] = shift[2 * i + 1] = ' ';
shift[2 * i] = shift[2 * i + 1] = 0;
fprintf(output, "%s", shift);
if (particle->children == NULL) {
fprintf(output, "MISSING particle term\n");
return;
}
term = particle->children;
if (term == NULL) {
fprintf(output, "(NULL)");
} else {
switch (term->type) {
case XML_SCHEMA_TYPE_ELEMENT:
fprintf(output, "ELEM '%s'", xmlSchemaFormatQName(&str,
((xmlSchemaElementPtr)term)->targetNamespace,
((xmlSchemaElementPtr)term)->name));
FREE_AND_NULL(str);
break;
case XML_SCHEMA_TYPE_SEQUENCE:
fprintf(output, "SEQUENCE");
break;
case XML_SCHEMA_TYPE_CHOICE:
fprintf(output, "CHOICE");
break;
case XML_SCHEMA_TYPE_ALL:
fprintf(output, "ALL");
break;
case XML_SCHEMA_TYPE_ANY:
fprintf(output, "ANY");
break;
default:
fprintf(output, "UNKNOWN\n");
return;
}
}
if (particle->minOccurs != 1)
fprintf(output, " min: %d", particle->minOccurs);
if (particle->maxOccurs >= UNBOUNDED)
fprintf(output, " max: unbounded");
else if (particle->maxOccurs != 1)
fprintf(output, " max: %d", particle->maxOccurs);
fprintf(output, "\n");
if (term &&
((term->type == XML_SCHEMA_TYPE_SEQUENCE) ||
(term->type == XML_SCHEMA_TYPE_CHOICE) ||
(term->type == XML_SCHEMA_TYPE_ALL)) &&
(term->children != NULL)) {
xmlSchemaContentModelDump((xmlSchemaParticlePtr) term->children,
output, depth +1);
}
if (particle->next != NULL)
xmlSchemaContentModelDump((xmlSchemaParticlePtr) particle->next,
output, depth);
}
/**
* xmlSchemaAttrUsesDump:
* @uses: attribute uses list
* @output: the file output
*
* Dumps a list of attribute use components.
*/
static void
xmlSchemaAttrUsesDump(xmlSchemaItemListPtr uses, FILE * output)
{
xmlSchemaAttributeUsePtr use;
xmlSchemaAttributeUseProhibPtr prohib;
xmlSchemaQNameRefPtr ref;
const xmlChar *name, *tns;
xmlChar *str = NULL;
int i;
if ((uses == NULL) || (uses->nbItems == 0))
return;
fprintf(output, " attributes:\n");
for (i = 0; i < uses->nbItems; i++) {
use = uses->items[i];
if (use->type == XML_SCHEMA_EXTRA_ATTR_USE_PROHIB) {
fprintf(output, " [prohibition] ");
prohib = (xmlSchemaAttributeUseProhibPtr) use;
name = prohib->name;
tns = prohib->targetNamespace;
} else if (use->type == XML_SCHEMA_EXTRA_QNAMEREF) {
fprintf(output, " [reference] ");
ref = (xmlSchemaQNameRefPtr) use;
name = ref->name;
tns = ref->targetNamespace;
} else {
fprintf(output, " [use] ");
name = WXS_ATTRUSE_DECL_NAME(use);
tns = WXS_ATTRUSE_DECL_TNS(use);
}
fprintf(output, "'%s'\n",
(const char *) xmlSchemaFormatQName(&str, tns, name));
FREE_AND_NULL(str);
}
}
/**
* xmlSchemaTypeDump:
* @output: the file output
* @type: a type structure
*
* Dump a SchemaType structure
*/
static void
xmlSchemaTypeDump(xmlSchemaTypePtr type, FILE * output)
{
if (type == NULL) {
fprintf(output, "Type: NULL\n");
return;
}
fprintf(output, "Type: ");
if (type->name != NULL)
fprintf(output, "'%s' ", type->name);
else
fprintf(output, "(no name) ");
if (type->targetNamespace != NULL)
fprintf(output, "ns '%s' ", type->targetNamespace);
switch (type->type) {
case XML_SCHEMA_TYPE_BASIC:
fprintf(output, "[basic] ");
break;
case XML_SCHEMA_TYPE_SIMPLE:
fprintf(output, "[simple] ");
break;
case XML_SCHEMA_TYPE_COMPLEX:
fprintf(output, "[complex] ");
break;
case XML_SCHEMA_TYPE_SEQUENCE:
fprintf(output, "[sequence] ");
break;
case XML_SCHEMA_TYPE_CHOICE:
fprintf(output, "[choice] ");
break;
case XML_SCHEMA_TYPE_ALL:
fprintf(output, "[all] ");
break;
case XML_SCHEMA_TYPE_UR:
fprintf(output, "[ur] ");
break;
case XML_SCHEMA_TYPE_RESTRICTION:
fprintf(output, "[restriction] ");
break;
case XML_SCHEMA_TYPE_EXTENSION:
fprintf(output, "[extension] ");
break;
default:
fprintf(output, "[unknown type %d] ", type->type);
break;
}
fprintf(output, "content: ");
switch (type->contentType) {
case XML_SCHEMA_CONTENT_UNKNOWN:
fprintf(output, "[unknown] ");
break;
case XML_SCHEMA_CONTENT_EMPTY:
fprintf(output, "[empty] ");
break;
case XML_SCHEMA_CONTENT_ELEMENTS:
fprintf(output, "[element] ");
break;
case XML_SCHEMA_CONTENT_MIXED:
fprintf(output, "[mixed] ");
break;
case XML_SCHEMA_CONTENT_MIXED_OR_ELEMENTS:
/* not used. */
break;
case XML_SCHEMA_CONTENT_BASIC:
fprintf(output, "[basic] ");
break;
case XML_SCHEMA_CONTENT_SIMPLE:
fprintf(output, "[simple] ");
break;
case XML_SCHEMA_CONTENT_ANY:
fprintf(output, "[any] ");
break;
}
fprintf(output, "\n");
if (type->base != NULL) {
fprintf(output, " base type: '%s'", type->base);
if (type->baseNs != NULL)
fprintf(output, " ns '%s'\n", type->baseNs);
else
fprintf(output, "\n");
}
if (type->attrUses != NULL)
xmlSchemaAttrUsesDump(type->attrUses, output);
if (type->annot != NULL)
xmlSchemaAnnotDump(output, type->annot);
#ifdef DUMP_CONTENT_MODEL
if ((type->type == XML_SCHEMA_TYPE_COMPLEX) &&
(type->subtypes != NULL)) {
xmlSchemaContentModelDump((xmlSchemaParticlePtr) type->subtypes,
output, 1);
}
#endif
}
/**
* xmlSchemaDump:
* @output: the file output
* @schema: a schema structure
*
* Dump a Schema structure.
*/
void
xmlSchemaDump(FILE * output, xmlSchemaPtr schema)
{
if (output == NULL)
return;
if (schema == NULL) {
fprintf(output, "Schemas: NULL\n");
return;
}
fprintf(output, "Schemas: ");
if (schema->name != NULL)
fprintf(output, "%s, ", schema->name);
else
fprintf(output, "no name, ");
if (schema->targetNamespace != NULL)
fprintf(output, "%s", (const char *) schema->targetNamespace);
else
fprintf(output, "no target namespace");
fprintf(output, "\n");
if (schema->annot != NULL)
xmlSchemaAnnotDump(output, schema->annot);
xmlHashScan(schema->typeDecl, (xmlHashScanner) xmlSchemaTypeDump,
output);
xmlHashScanFull(schema->elemDecl,
(xmlHashScannerFull) xmlSchemaElementDump, output);
}
#ifdef DEBUG_IDC_NODE_TABLE
/**
* xmlSchemaDebugDumpIDCTable:
* @vctxt: the WXS validation context
*
* Displays the current IDC table for debug purposes.
*/
static void
xmlSchemaDebugDumpIDCTable(FILE * output,
const xmlChar *namespaceName,
const xmlChar *localName,
xmlSchemaPSVIIDCBindingPtr bind)
{
xmlChar *str = NULL;
const xmlChar *value;
xmlSchemaPSVIIDCNodePtr tab;
xmlSchemaPSVIIDCKeyPtr key;
int i, j, res;
fprintf(output, "IDC: TABLES on '%s'\n",
xmlSchemaFormatQName(&str, namespaceName, localName));
FREE_AND_NULL(str)
if (bind == NULL)
return;
do {
fprintf(output, "IDC: BINDING '%s' (%d)\n",
xmlSchemaGetComponentQName(&str,
bind->definition), bind->nbNodes);
FREE_AND_NULL(str)
for (i = 0; i < bind->nbNodes; i++) {
tab = bind->nodeTable[i];
fprintf(output, " ( ");
for (j = 0; j < bind->definition->nbFields; j++) {
key = tab->keys[j];
if ((key != NULL) && (key->val != NULL)) {
res = xmlSchemaGetCanonValue(key->val, &value);
if (res >= 0)
fprintf(output, "'%s' ", value);
else
fprintf(output, "CANON-VALUE-FAILED ");
if (res == 0)
FREE_AND_NULL(value)
} else if (key != NULL)
fprintf(output, "(no val), ");
else
fprintf(output, "(key missing), ");
}
fprintf(output, ")\n");
}
if (bind->dupls && bind->dupls->nbItems) {
fprintf(output, "IDC: dupls (%d):\n", bind->dupls->nbItems);
for (i = 0; i < bind->dupls->nbItems; i++) {
tab = bind->dupls->items[i];
fprintf(output, " ( ");
for (j = 0; j < bind->definition->nbFields; j++) {
key = tab->keys[j];
if ((key != NULL) && (key->val != NULL)) {
res = xmlSchemaGetCanonValue(key->val, &value);
if (res >= 0)
fprintf(output, "'%s' ", value);
else
fprintf(output, "CANON-VALUE-FAILED ");
if (res == 0)
FREE_AND_NULL(value)
} else if (key != NULL)
fprintf(output, "(no val), ");
else
fprintf(output, "(key missing), ");
}
fprintf(output, ")\n");
}
}
bind = bind->next;
} while (bind != NULL);
}
#endif /* DEBUG_IDC */
#endif /* LIBXML_OUTPUT_ENABLED */
/************************************************************************
* *
* Utilities *
* *
************************************************************************/
/**
* xmlSchemaGetPropNode:
* @node: the element node
* @name: the name of the attribute
*
* Seeks an attribute with a name of @name in
* no namespace.
*
* Returns the attribute or NULL if not present.
*/
static xmlAttrPtr
xmlSchemaGetPropNode(xmlNodePtr node, const char *name)
{
xmlAttrPtr prop;
if ((node == NULL) || (name == NULL))
return(NULL);
prop = node->properties;
while (prop != NULL) {
if ((prop->ns == NULL) && xmlStrEqual(prop->name, BAD_CAST name))
return(prop);
prop = prop->next;
}
return (NULL);
}
/**
* xmlSchemaGetPropNodeNs:
* @node: the element node
* @uri: the uri
* @name: the name of the attribute
*
* Seeks an attribute with a local name of @name and
* a namespace URI of @uri.
*
* Returns the attribute or NULL if not present.
*/
static xmlAttrPtr
xmlSchemaGetPropNodeNs(xmlNodePtr node, const char *uri, const char *name)
{
xmlAttrPtr prop;
if ((node == NULL) || (name == NULL))
return(NULL);
prop = node->properties;
while (prop != NULL) {
if ((prop->ns != NULL) &&
xmlStrEqual(prop->name, BAD_CAST name) &&
xmlStrEqual(prop->ns->href, BAD_CAST uri))
return(prop);
prop = prop->next;
}
return (NULL);
}
static const xmlChar *
xmlSchemaGetNodeContent(xmlSchemaParserCtxtPtr ctxt, xmlNodePtr node)
{
xmlChar *val;
const xmlChar *ret;
val = xmlNodeGetContent(node);
if (val == NULL)
val = xmlStrdup((xmlChar *)"");
ret = xmlDictLookup(ctxt->dict, val, -1);
xmlFree(val);
return(ret);
}
static const xmlChar *
xmlSchemaGetNodeContentNoDict(xmlNodePtr node)
{
return((const xmlChar*) xmlNodeGetContent(node));
}
/**
* xmlSchemaGetProp:
* @ctxt: the parser context
* @node: the node
* @name: the property name
*
* Read a attribute value and internalize the string
*
* Returns the string or NULL if not present.
*/
static const xmlChar *
xmlSchemaGetProp(xmlSchemaParserCtxtPtr ctxt, xmlNodePtr node,
const char *name)
{
xmlChar *val;
const xmlChar *ret;
val = xmlGetNoNsProp(node, BAD_CAST name);
if (val == NULL)
return(NULL);
ret = xmlDictLookup(ctxt->dict, val, -1);
xmlFree(val);
return(ret);
}
/************************************************************************
* *
* Parsing functions *
* *
************************************************************************/
#define WXS_FIND_GLOBAL_ITEM(slot) \
if (xmlStrEqual(nsName, schema->targetNamespace)) { \
ret = xmlHashLookup(schema->slot, name); \
if (ret != NULL) goto exit; \
} \
if (xmlHashSize(schema->schemasImports) > 1) { \
xmlSchemaImportPtr import; \
if (nsName == NULL) \
import = xmlHashLookup(schema->schemasImports, \
XML_SCHEMAS_NO_NAMESPACE); \
else \
import = xmlHashLookup(schema->schemasImports, nsName); \
if (import == NULL) \
goto exit; \
ret = xmlHashLookup(import->schema->slot, name); \
}
/**
* xmlSchemaGetElem:
* @schema: the schema context
* @name: the element name
* @ns: the element namespace
*
* Lookup a global element declaration in the schema.
*
* Returns the element declaration or NULL if not found.
*/
static xmlSchemaElementPtr
xmlSchemaGetElem(xmlSchemaPtr schema, const xmlChar * name,
const xmlChar * nsName)
{
xmlSchemaElementPtr ret = NULL;
if ((name == NULL) || (schema == NULL))
return(NULL);
if (schema != NULL) {
WXS_FIND_GLOBAL_ITEM(elemDecl)
}
exit:
#ifdef DEBUG
if (ret == NULL) {
if (nsName == NULL)
fprintf(stderr, "Unable to lookup element decl. %s", name);
else
fprintf(stderr, "Unable to lookup element decl. %s:%s", name,
nsName);
}
#endif
return (ret);
}
/**
* xmlSchemaGetType:
* @schema: the main schema
* @name: the type's name
* nsName: the type's namespace
*
* Lookup a type in the schemas or the predefined types
*
* Returns the group definition or NULL if not found.
*/
static xmlSchemaTypePtr
xmlSchemaGetType(xmlSchemaPtr schema, const xmlChar * name,
const xmlChar * nsName)
{
xmlSchemaTypePtr ret = NULL;
if (name == NULL)
return (NULL);
/* First try the built-in types. */
if ((nsName != NULL) && xmlStrEqual(nsName, xmlSchemaNs)) {
ret = xmlSchemaGetPredefinedType(name, nsName);
if (ret != NULL)
goto exit;
/*
* Note that we try the parsed schemas as well here
* since one might have parsed the S4S, which contain more
* than the built-in types.
* TODO: Can we optimize this?
*/
}
if (schema != NULL) {
WXS_FIND_GLOBAL_ITEM(typeDecl)
}
exit:
#ifdef DEBUG
if (ret == NULL) {
if (nsName == NULL)
fprintf(stderr, "Unable to lookup type %s", name);
else
fprintf(stderr, "Unable to lookup type %s:%s", name,
nsName);
}
#endif
return (ret);
}
/**
* xmlSchemaGetAttributeDecl:
* @schema: the context of the schema
* @name: the name of the attribute
* @ns: the target namespace of the attribute
*
* Lookup a an attribute in the schema or imported schemas
*
* Returns the attribute declaration or NULL if not found.
*/
static xmlSchemaAttributePtr
xmlSchemaGetAttributeDecl(xmlSchemaPtr schema, const xmlChar * name,
const xmlChar * nsName)
{
xmlSchemaAttributePtr ret = NULL;
if ((name == NULL) || (schema == NULL))
return (NULL);
if (schema != NULL) {
WXS_FIND_GLOBAL_ITEM(attrDecl)
}
exit:
#ifdef DEBUG
if (ret == NULL) {
if (nsName == NULL)
fprintf(stderr, "Unable to lookup attribute %s", name);
else
fprintf(stderr, "Unable to lookup attribute %s:%s", name,
nsName);
}
#endif
return (ret);
}
/**
* xmlSchemaGetAttributeGroup:
* @schema: the context of the schema
* @name: the name of the attribute group
* @ns: the target namespace of the attribute group
*
* Lookup a an attribute group in the schema or imported schemas
*
* Returns the attribute group definition or NULL if not found.
*/
static xmlSchemaAttributeGroupPtr
xmlSchemaGetAttributeGroup(xmlSchemaPtr schema, const xmlChar * name,
const xmlChar * nsName)
{
xmlSchemaAttributeGroupPtr ret = NULL;
if ((name == NULL) || (schema == NULL))
return (NULL);
if (schema != NULL) {
WXS_FIND_GLOBAL_ITEM(attrgrpDecl)
}
exit:
/* TODO:
if ((ret != NULL) && (ret->redef != NULL)) {
* Return the last redefinition. *
ret = ret->redef;
}
*/
#ifdef DEBUG
if (ret == NULL) {
if (nsName == NULL)
fprintf(stderr, "Unable to lookup attribute group %s", name);
else
fprintf(stderr, "Unable to lookup attribute group %s:%s", name,
nsName);
}
#endif
return (ret);
}
/**
* xmlSchemaGetGroup:
* @schema: the context of the schema
* @name: the name of the group
* @ns: the target namespace of the group
*
* Lookup a group in the schema or imported schemas
*
* Returns the group definition or NULL if not found.
*/
static xmlSchemaModelGroupDefPtr
xmlSchemaGetGroup(xmlSchemaPtr schema, const xmlChar * name,
const xmlChar * nsName)
{
xmlSchemaModelGroupDefPtr ret = NULL;
if ((name == NULL) || (schema == NULL))
return (NULL);
if (schema != NULL) {
WXS_FIND_GLOBAL_ITEM(groupDecl)
}
exit:
#ifdef DEBUG
if (ret == NULL) {
if (nsName == NULL)
fprintf(stderr, "Unable to lookup group %s", name);
else
fprintf(stderr, "Unable to lookup group %s:%s", name,
nsName);
}
#endif
return (ret);
}
static xmlSchemaNotationPtr
xmlSchemaGetNotation(xmlSchemaPtr schema,
const xmlChar *name,
const xmlChar *nsName)
{
xmlSchemaNotationPtr ret = NULL;
if ((name == NULL) || (schema == NULL))
return (NULL);
if (schema != NULL) {
WXS_FIND_GLOBAL_ITEM(notaDecl)
}
exit:
return (ret);
}
static xmlSchemaIDCPtr
xmlSchemaGetIDC(xmlSchemaPtr schema,
const xmlChar *name,
const xmlChar *nsName)
{
xmlSchemaIDCPtr ret = NULL;
if ((name == NULL) || (schema == NULL))
return (NULL);
if (schema != NULL) {
WXS_FIND_GLOBAL_ITEM(idcDef)
}
exit:
return (ret);
}
/**
* xmlSchemaGetNamedComponent:
* @schema: the schema
* @name: the name of the group
* @ns: the target namespace of the group
*
* Lookup a group in the schema or imported schemas
*
* Returns the group definition or NULL if not found.
*/
static xmlSchemaBasicItemPtr
xmlSchemaGetNamedComponent(xmlSchemaPtr schema,
xmlSchemaTypeType itemType,
const xmlChar *name,
const xmlChar *targetNs)
{
switch (itemType) {
case XML_SCHEMA_TYPE_GROUP:
return ((xmlSchemaBasicItemPtr) xmlSchemaGetGroup(schema,
name, targetNs));
case XML_SCHEMA_TYPE_ELEMENT:
return ((xmlSchemaBasicItemPtr) xmlSchemaGetElem(schema,
name, targetNs));
default:
TODO
return (NULL);
}
}
/************************************************************************
* *
* Parsing functions *
* *
************************************************************************/
#define IS_BLANK_NODE(n) \
(((n)->type == XML_TEXT_NODE) && (xmlSchemaIsBlank((n)->content, -1)))
/**
* xmlSchemaIsBlank:
* @str: a string
* @len: the length of the string or -1
*
* Check if a string is ignorable
*
* Returns 1 if the string is NULL or made of blanks chars, 0 otherwise
*/
static int
xmlSchemaIsBlank(xmlChar * str, int len)
{
if (str == NULL)
return (1);
if (len < 0) {
while (*str != 0) {
if (!(IS_BLANK_CH(*str)))
return (0);
str++;
}
} else while ((*str != 0) && (len != 0)) {
if (!(IS_BLANK_CH(*str)))
return (0);
str++;
len--;
}
return (1);
}
#define WXS_COMP_NAME(c, t) ((t) (c))->name
#define WXS_COMP_TNS(c, t) ((t) (c))->targetNamespace
/*
* xmlSchemaFindRedefCompInGraph:
* ATTENTION TODO: This uses pointer comp. for strings.
*/
static xmlSchemaBasicItemPtr
xmlSchemaFindRedefCompInGraph(xmlSchemaBucketPtr bucket,
xmlSchemaTypeType type,
const xmlChar *name,
const xmlChar *nsName)
{
xmlSchemaBasicItemPtr ret;
int i;
if ((bucket == NULL) || (name == NULL))
return(NULL);
if ((bucket->globals == NULL) ||
(bucket->globals->nbItems == 0))
goto subschemas;
/*
* Search in global components.
*/
for (i = 0; i < bucket->globals->nbItems; i++) {
ret = bucket->globals->items[i];
if (ret->type == type) {
switch (type) {
case XML_SCHEMA_TYPE_COMPLEX:
case XML_SCHEMA_TYPE_SIMPLE:
if ((WXS_COMP_NAME(ret, xmlSchemaTypePtr) == name) &&
(WXS_COMP_TNS(ret, xmlSchemaTypePtr) ==
nsName))
{
return(ret);
}
break;
case XML_SCHEMA_TYPE_GROUP:
if ((WXS_COMP_NAME(ret,
xmlSchemaModelGroupDefPtr) == name) &&
(WXS_COMP_TNS(ret,
xmlSchemaModelGroupDefPtr) == nsName))
{
return(ret);
}
break;
case XML_SCHEMA_TYPE_ATTRIBUTEGROUP:
if ((WXS_COMP_NAME(ret,
xmlSchemaAttributeGroupPtr) == name) &&
(WXS_COMP_TNS(ret,
xmlSchemaAttributeGroupPtr) == nsName))
{
return(ret);
}
break;
default:
/* Should not be hit. */
return(NULL);
}
}
}
subschemas:
/*
* Process imported/included schemas.
*/
if (bucket->relations != NULL) {
xmlSchemaSchemaRelationPtr rel = bucket->relations;
/*
* TODO: Marking the bucket will not avoid multiple searches
* in the same schema, but avoids at least circularity.
*/
bucket->flags |= XML_SCHEMA_BUCKET_MARKED;
do {
if ((rel->bucket != NULL) &&
((rel->bucket->flags & XML_SCHEMA_BUCKET_MARKED) == 0)) {
ret = xmlSchemaFindRedefCompInGraph(rel->bucket,
type, name, nsName);
if (ret != NULL)
return(ret);
}
rel = rel->next;
} while (rel != NULL);
bucket->flags ^= XML_SCHEMA_BUCKET_MARKED;
}
return(NULL);
}
/**
* xmlSchemaAddNotation:
* @ctxt: a schema parser context
* @schema: the schema being built
* @name: the item name
*
* Add an XML schema annotation declaration
* *WARNING* this interface is highly subject to change
*
* Returns the new struture or NULL in case of error
*/
static xmlSchemaNotationPtr
xmlSchemaAddNotation(xmlSchemaParserCtxtPtr ctxt, xmlSchemaPtr schema,
const xmlChar *name, const xmlChar *nsName,
xmlNodePtr node ATTRIBUTE_UNUSED)
{
xmlSchemaNotationPtr ret = NULL;
if ((ctxt == NULL) || (schema == NULL) || (name == NULL))
return (NULL);
ret = (xmlSchemaNotationPtr) xmlMalloc(sizeof(xmlSchemaNotation));
if (ret == NULL) {
xmlSchemaPErrMemory(ctxt, "add annotation", NULL);
return (NULL);
}
XML_MEMSET(ret, 0, sizeof(xmlSchemaNotation));
ret->type = XML_SCHEMA_TYPE_NOTATION;
ret->name = name;
ret->targetNamespace = nsName;
/* TODO: do we need the node to be set?
* ret->node = node;*/
WXS_ADD_GLOBAL(ctxt, ret);
return (ret);
}
/**
* xmlSchemaAddAttribute:
* @ctxt: a schema parser context
* @schema: the schema being built
* @name: the item name
* @namespace: the namespace
*
* Add an XML schema Attrribute declaration
* *WARNING* this interface is highly subject to change
*
* Returns the new struture or NULL in case of error
*/
static xmlSchemaAttributePtr
xmlSchemaAddAttribute(xmlSchemaParserCtxtPtr ctxt, xmlSchemaPtr schema,
const xmlChar * name, const xmlChar * nsName,
xmlNodePtr node, int topLevel)
{
xmlSchemaAttributePtr ret = NULL;
if ((ctxt == NULL) || (schema == NULL))
return (NULL);
ret = (xmlSchemaAttributePtr) xmlMalloc(sizeof(xmlSchemaAttribute));
if (ret == NULL) {
xmlSchemaPErrMemory(ctxt, "allocating attribute", NULL);
return (NULL);
}
XML_MEMSET(ret, 0, sizeof(xmlSchemaAttribute));
ret->type = XML_SCHEMA_TYPE_ATTRIBUTE;
ret->node = node;
ret->name = name;
ret->targetNamespace = nsName;
if (topLevel)
WXS_ADD_GLOBAL(ctxt, ret);
else
WXS_ADD_LOCAL(ctxt, ret);
WXS_ADD_PENDING(ctxt, ret);
return (ret);
}
/**
* xmlSchemaAddAttributeUse:
* @ctxt: a schema parser context
* @schema: the schema being built
* @name: the item name
* @namespace: the namespace
*
* Add an XML schema Attrribute declaration
* *WARNING* this interface is highly subject to change
*
* Returns the new struture or NULL in case of error
*/
static xmlSchemaAttributeUsePtr
xmlSchemaAddAttributeUse(xmlSchemaParserCtxtPtr pctxt,
xmlNodePtr node)
{
xmlSchemaAttributeUsePtr ret = NULL;
if (pctxt == NULL)
return (NULL);
ret = (xmlSchemaAttributeUsePtr) xmlMalloc(sizeof(xmlSchemaAttributeUse));
if (ret == NULL) {
xmlSchemaPErrMemory(pctxt, "allocating attribute", NULL);
return (NULL);
}
XML_MEMSET(ret, 0, sizeof(xmlSchemaAttributeUse));
ret->type = XML_SCHEMA_TYPE_ATTRIBUTE_USE;
ret->node = node;
WXS_ADD_LOCAL(pctxt, ret);
return (ret);
}
/*
* xmlSchemaAddRedef:
*
* Adds a redefinition information. This is used at a later stage to:
* resolve references to the redefined components and to check constraints.
*/
static xmlSchemaRedefPtr
xmlSchemaAddRedef(xmlSchemaParserCtxtPtr pctxt,
xmlSchemaBucketPtr targetBucket,
void *item,
const xmlChar *refName,
const xmlChar *refTargetNs)
{
xmlSchemaRedefPtr ret;
ret = (xmlSchemaRedefPtr)
xmlMalloc(sizeof(xmlSchemaRedef));
if (ret == NULL) {
xmlSchemaPErrMemory(pctxt,
"allocating redefinition info", NULL);
return (NULL);
}
XML_MEMSET(ret, 0, sizeof(xmlSchemaRedef));
ret->item = item;
ret->targetBucket = targetBucket;
ret->refName = refName;
ret->refTargetNs = refTargetNs;
if (WXS_CONSTRUCTOR(pctxt)->redefs == NULL)
WXS_CONSTRUCTOR(pctxt)->redefs = ret;
else
WXS_CONSTRUCTOR(pctxt)->lastRedef->next = ret;
WXS_CONSTRUCTOR(pctxt)->lastRedef = ret;
return (ret);
}
/**
* xmlSchemaAddAttributeGroupDefinition:
* @ctxt: a schema parser context
* @schema: the schema being built
* @name: the item name
* @nsName: the target namespace
* @node: the corresponding node
*
* Add an XML schema Attrribute Group definition.
*
* Returns the new struture or NULL in case of error
*/
static xmlSchemaAttributeGroupPtr
xmlSchemaAddAttributeGroupDefinition(xmlSchemaParserCtxtPtr pctxt,
xmlSchemaPtr schema ATTRIBUTE_UNUSED,
const xmlChar *name,
const xmlChar *nsName,
xmlNodePtr node)
{
xmlSchemaAttributeGroupPtr ret = NULL;
if ((pctxt == NULL) || (name == NULL))
return (NULL);
ret = (xmlSchemaAttributeGroupPtr)
xmlMalloc(sizeof(xmlSchemaAttributeGroup));
if (ret == NULL) {
xmlSchemaPErrMemory(pctxt, "allocating attribute group", NULL);
return (NULL);
}
XML_MEMSET(ret, 0, sizeof(xmlSchemaAttributeGroup));
ret->type = XML_SCHEMA_TYPE_ATTRIBUTEGROUP;
ret->name = name;
ret->targetNamespace = nsName;
ret->node = node;
/* TODO: Remove the flag. */
ret->flags |= XML_SCHEMAS_ATTRGROUP_GLOBAL;
if (pctxt->isRedefine) {
pctxt->redef = xmlSchemaAddRedef(pctxt, pctxt->redefined,
ret, name, nsName);
if (pctxt->redef == NULL) {
xmlFree(ret);
return(NULL);
}
pctxt->redefCounter = 0;
}
WXS_ADD_GLOBAL(pctxt, ret);
WXS_ADD_PENDING(pctxt, ret);
return (ret);
}
/**
* xmlSchemaAddElement:
* @ctxt: a schema parser context
* @schema: the schema being built
* @name: the type name
* @namespace: the type namespace
*
* Add an XML schema Element declaration
* *WARNING* this interface is highly subject to change
*
* Returns the new struture or NULL in case of error
*/
static xmlSchemaElementPtr
xmlSchemaAddElement(xmlSchemaParserCtxtPtr ctxt,
const xmlChar * name, const xmlChar * nsName,
xmlNodePtr node, int topLevel)
{
xmlSchemaElementPtr ret = NULL;
if ((ctxt == NULL) || (name == NULL))
return (NULL);
ret = (xmlSchemaElementPtr) xmlMalloc(sizeof(xmlSchemaElement));
if (ret == NULL) {
xmlSchemaPErrMemory(ctxt, "allocating element", NULL);
return (NULL);
}
XML_MEMSET(ret, 0, sizeof(xmlSchemaElement));
ret->type = XML_SCHEMA_TYPE_ELEMENT;
ret->name = name;
ret->targetNamespace = nsName;
ret->node = node;
if (topLevel)
WXS_ADD_GLOBAL(ctxt, ret);
else
WXS_ADD_LOCAL(ctxt, ret);
WXS_ADD_PENDING(ctxt, ret);
return (ret);
}
/**
* xmlSchemaAddType:
* @ctxt: a schema parser context
* @schema: the schema being built
* @name: the item name
* @namespace: the namespace
*
* Add an XML schema item
* *WARNING* this interface is highly subject to change
*
* Returns the new struture or NULL in case of error
*/
static xmlSchemaTypePtr
xmlSchemaAddType(xmlSchemaParserCtxtPtr ctxt, xmlSchemaPtr schema,
xmlSchemaTypeType type,
const xmlChar * name, const xmlChar * nsName,
xmlNodePtr node, int topLevel)
{
xmlSchemaTypePtr ret = NULL;
if ((ctxt == NULL) || (schema == NULL))
return (NULL);
ret = (xmlSchemaTypePtr) xmlMalloc(sizeof(xmlSchemaType));
if (ret == NULL) {
xmlSchemaPErrMemory(ctxt, "allocating type", NULL);
return (NULL);
}
XML_MEMSET(ret, 0, sizeof(xmlSchemaType));
ret->type = type;
ret->name = name;
ret->targetNamespace = nsName;
ret->node = node;
if (topLevel) {
if (ctxt->isRedefine) {
ctxt->redef = xmlSchemaAddRedef(ctxt, ctxt->redefined,
ret, name, nsName);
if (ctxt->redef == NULL) {
xmlFree(ret);
return(NULL);
}
ctxt->redefCounter = 0;
}
WXS_ADD_GLOBAL(ctxt, ret);
} else
WXS_ADD_LOCAL(ctxt, ret);
WXS_ADD_PENDING(ctxt, ret);
return (ret);
}
static xmlSchemaQNameRefPtr
xmlSchemaNewQNameRef(xmlSchemaParserCtxtPtr pctxt,
xmlSchemaTypeType refType,
const xmlChar *refName,
const xmlChar *refNs)
{
xmlSchemaQNameRefPtr ret;
ret = (xmlSchemaQNameRefPtr)
xmlMalloc(sizeof(xmlSchemaQNameRef));
if (ret == NULL) {
xmlSchemaPErrMemory(pctxt,
"allocating QName reference item", NULL);
return (NULL);
}
ret->node = NULL;
ret->type = XML_SCHEMA_EXTRA_QNAMEREF;
ret->name = refName;
ret->targetNamespace = refNs;
ret->item = NULL;
ret->itemType = refType;
/*
* Store the reference item in the schema.
*/
WXS_ADD_LOCAL(pctxt, ret);
return (ret);
}
static xmlSchemaAttributeUseProhibPtr
xmlSchemaAddAttributeUseProhib(xmlSchemaParserCtxtPtr pctxt)
{
xmlSchemaAttributeUseProhibPtr ret;
ret = (xmlSchemaAttributeUseProhibPtr)
xmlMalloc(sizeof(xmlSchemaAttributeUseProhib));
if (ret == NULL) {
xmlSchemaPErrMemory(pctxt,
"allocating attribute use prohibition", NULL);
return (NULL);
}
XML_MEMSET(ret, 0, sizeof(xmlSchemaAttributeUseProhib));
ret->type = XML_SCHEMA_EXTRA_ATTR_USE_PROHIB;
WXS_ADD_LOCAL(pctxt, ret);
return (ret);
}
/**
* xmlSchemaAddModelGroup:
* @ctxt: a schema parser context
* @schema: the schema being built
* @type: the "compositor" type of the model group
* @node: the node in the schema doc
*
* Adds a schema model group
* *WARNING* this interface is highly subject to change
*
* Returns the new struture or NULL in case of error
*/
static xmlSchemaModelGroupPtr
xmlSchemaAddModelGroup(xmlSchemaParserCtxtPtr ctxt,
xmlSchemaPtr schema,
xmlSchemaTypeType type,
xmlNodePtr node)
{
xmlSchemaModelGroupPtr ret = NULL;
if ((ctxt == NULL) || (schema == NULL))
return (NULL);
ret = (xmlSchemaModelGroupPtr)
xmlMalloc(sizeof(xmlSchemaModelGroup));
if (ret == NULL) {
xmlSchemaPErrMemory(ctxt, "allocating model group component",
NULL);
return (NULL);
}
XML_MEMSET(ret, 0, sizeof(xmlSchemaModelGroup));
ret->type = type;
ret->node = node;
WXS_ADD_LOCAL(ctxt, ret);
if ((type == XML_SCHEMA_TYPE_SEQUENCE) ||
(type == XML_SCHEMA_TYPE_CHOICE))
WXS_ADD_PENDING(ctxt, ret);
return (ret);
}
/**
* xmlSchemaAddParticle:
* @ctxt: a schema parser context
* @schema: the schema being built
* @node: the corresponding node in the schema doc
* @min: the minOccurs
* @max: the maxOccurs
*
* Adds an XML schema particle component.
* *WARNING* this interface is highly subject to change
*
* Returns the new struture or NULL in case of error
*/
static xmlSchemaParticlePtr
xmlSchemaAddParticle(xmlSchemaParserCtxtPtr ctxt,
xmlNodePtr node, int min, int max)
{
xmlSchemaParticlePtr ret = NULL;
if (ctxt == NULL)
return (NULL);
#ifdef DEBUG
fprintf(stderr, "Adding particle component\n");
#endif
ret = (xmlSchemaParticlePtr)
xmlMalloc(sizeof(xmlSchemaParticle));
if (ret == NULL) {
xmlSchemaPErrMemory(ctxt, "allocating particle component",
NULL);
return (NULL);
}
ret->type = XML_SCHEMA_TYPE_PARTICLE;
ret->annot = NULL;
ret->node = node;
ret->minOccurs = min;
ret->maxOccurs = max;
ret->next = NULL;
ret->children = NULL;
WXS_ADD_LOCAL(ctxt, ret);
/*
* Note that addition to pending components will be done locally
* to the specific parsing function, since the most particles
* need not to be fixed up (i.e. the reference to be resolved).
* REMOVED: WXS_ADD_PENDING(ctxt, ret);
*/
return (ret);
}
/**
* xmlSchemaAddModelGroupDefinition:
* @ctxt: a schema validation context
* @schema: the schema being built
* @name: the group name
*
* Add an XML schema Group definition
*
* Returns the new struture or NULL in case of error
*/
static xmlSchemaModelGroupDefPtr
xmlSchemaAddModelGroupDefinition(xmlSchemaParserCtxtPtr ctxt,
xmlSchemaPtr schema,
const xmlChar *name,
const xmlChar *nsName,
xmlNodePtr node)
{
xmlSchemaModelGroupDefPtr ret = NULL;
if ((ctxt == NULL) || (schema == NULL) || (name == NULL))
return (NULL);
ret = (xmlSchemaModelGroupDefPtr)
xmlMalloc(sizeof(xmlSchemaModelGroupDef));
if (ret == NULL) {
xmlSchemaPErrMemory(ctxt, "adding group", NULL);
return (NULL);
}
XML_MEMSET(ret, 0, sizeof(xmlSchemaModelGroupDef));
ret->name = name;
ret->type = XML_SCHEMA_TYPE_GROUP;
ret->node = node;
ret->targetNamespace = nsName;
if (ctxt->isRedefine) {
ctxt->redef = xmlSchemaAddRedef(ctxt, ctxt->redefined,
ret, name, nsName);
if (ctxt->redef == NULL) {
xmlFree(ret);
return(NULL);
}
ctxt->redefCounter = 0;
}
WXS_ADD_GLOBAL(ctxt, ret);
WXS_ADD_PENDING(ctxt, ret);
return (ret);
}
/**
* xmlSchemaNewWildcardNs:
* @ctxt: a schema validation context
*
* Creates a new wildcard namespace constraint.
*
* Returns the new struture or NULL in case of error
*/
static xmlSchemaWildcardNsPtr
xmlSchemaNewWildcardNsConstraint(xmlSchemaParserCtxtPtr ctxt)
{
xmlSchemaWildcardNsPtr ret;
ret = (xmlSchemaWildcardNsPtr)
xmlMalloc(sizeof(xmlSchemaWildcardNs));
if (ret == NULL) {
xmlSchemaPErrMemory(ctxt, "creating wildcard namespace constraint", NULL);
return (NULL);
}
ret->value = NULL;
ret->next = NULL;
return (ret);
}
static xmlSchemaIDCPtr
xmlSchemaAddIDC(xmlSchemaParserCtxtPtr ctxt, xmlSchemaPtr schema,
const xmlChar *name, const xmlChar *nsName,
int category, xmlNodePtr node)
{
xmlSchemaIDCPtr ret = NULL;
if ((ctxt == NULL) || (schema == NULL) || (name == NULL))
return (NULL);
ret = (xmlSchemaIDCPtr) xmlMalloc(sizeof(xmlSchemaIDC));
if (ret == NULL) {
xmlSchemaPErrMemory(ctxt,
"allocating an identity-constraint definition", NULL);
return (NULL);
}
XML_MEMSET(ret, 0, sizeof(xmlSchemaIDC));
/* The target namespace of the parent element declaration. */
ret->targetNamespace = nsName;
ret->name = name;
ret->type = category;
ret->node = node;
WXS_ADD_GLOBAL(ctxt, ret);
/*
* Only keyrefs need to be fixup up.
*/
if (category == XML_SCHEMA_TYPE_IDC_KEYREF)
WXS_ADD_PENDING(ctxt, ret);
return (ret);
}
/**
* xmlSchemaAddWildcard:
* @ctxt: a schema validation context
* @schema: a schema
*
* Adds a wildcard.
* It corresponds to a xsd:anyAttribute and xsd:any.
*
* Returns the new struture or NULL in case of error
*/
static xmlSchemaWildcardPtr
xmlSchemaAddWildcard(xmlSchemaParserCtxtPtr ctxt, xmlSchemaPtr schema,
xmlSchemaTypeType type, xmlNodePtr node)
{
xmlSchemaWildcardPtr ret = NULL;
if ((ctxt == NULL) || (schema == NULL))
return (NULL);
ret = (xmlSchemaWildcardPtr) xmlMalloc(sizeof(xmlSchemaWildcard));
if (ret == NULL) {
xmlSchemaPErrMemory(ctxt, "adding wildcard", NULL);
return (NULL);
}
XML_MEMSET(ret, 0, sizeof(xmlSchemaWildcard));
ret->type = type;
ret->node = node;
WXS_ADD_LOCAL(ctxt, ret);
return (ret);
}
static void
xmlSchemaSubstGroupFree(xmlSchemaSubstGroupPtr group)
{
if (group == NULL)
return;
if (group->members != NULL)
xmlSchemaItemListFree(group->members);
xmlFree(group);
}
static xmlSchemaSubstGroupPtr
xmlSchemaSubstGroupAdd(xmlSchemaParserCtxtPtr pctxt,
xmlSchemaElementPtr head)
{
xmlSchemaSubstGroupPtr ret;
/* Init subst group hash. */
if (WXS_SUBST_GROUPS(pctxt) == NULL) {
WXS_SUBST_GROUPS(pctxt) = xmlHashCreateDict(10, pctxt->dict);
if (WXS_SUBST_GROUPS(pctxt) == NULL)
return(NULL);
}
/* Create a new substitution group. */
ret = (xmlSchemaSubstGroupPtr) xmlMalloc(sizeof(xmlSchemaSubstGroup));
if (ret == NULL) {
xmlSchemaPErrMemory(NULL,
"allocating a substitution group container", NULL);
return(NULL);
}
XML_MEMSET(ret, 0, sizeof(xmlSchemaSubstGroup));
ret->head = head;
/* Create list of members. */
ret->members = xmlSchemaItemListCreate();
if (ret->members == NULL) {
xmlSchemaSubstGroupFree(ret);
return(NULL);
}
/* Add subst group to hash. */
if (xmlHashAddEntry2(WXS_SUBST_GROUPS(pctxt),
head->name, head->targetNamespace, ret) != 0) {
PERROR_INT("xmlSchemaSubstGroupAdd",
"failed to add a new substitution container");
xmlSchemaSubstGroupFree(ret);
return(NULL);
}
return(ret);
}
static xmlSchemaSubstGroupPtr
xmlSchemaSubstGroupGet(xmlSchemaParserCtxtPtr pctxt,
xmlSchemaElementPtr head)
{
if (WXS_SUBST_GROUPS(pctxt) == NULL)
return(NULL);
return(xmlHashLookup2(WXS_SUBST_GROUPS(pctxt),
head->name, head->targetNamespace));
}
/**
* xmlSchemaAddElementSubstitutionMember:
* @pctxt: a schema parser context
* @head: the head of the substitution group
* @member: the new member of the substitution group
*
* Allocate a new annotation structure.
*
* Returns the newly allocated structure or NULL in case or error
*/
static int
xmlSchemaAddElementSubstitutionMember(xmlSchemaParserCtxtPtr pctxt,
xmlSchemaElementPtr head,
xmlSchemaElementPtr member)
{
xmlSchemaSubstGroupPtr substGroup = NULL;
if ((pctxt == NULL) || (head == NULL) || (member == NULL))
return (-1);
substGroup = xmlSchemaSubstGroupGet(pctxt, head);
if (substGroup == NULL)
substGroup = xmlSchemaSubstGroupAdd(pctxt, head);
if (substGroup == NULL)
return(-1);
if (xmlSchemaItemListAdd(substGroup->members, member) == -1)
return(-1);
return(0);
}
/************************************************************************
* *
* Utilities for parsing *
* *
************************************************************************/
/**
* xmlSchemaPValAttrNodeQNameValue:
* @ctxt: a schema parser context
* @schema: the schema context
* @ownerDes: the designation of the parent element
* @ownerItem: the parent as a schema object
* @value: the QName value
* @local: the resulting local part if found, the attribute value otherwise
* @uri: the resulting namespace URI if found
*
* Extracts the local name and the URI of a QName value and validates it.
* This one is intended to be used on attribute values that
* should resolve to schema components.
*
* Returns 0, in case the QName is valid, a positive error code
* if not valid and -1 if an internal error occurs.
*/
static int
xmlSchemaPValAttrNodeQNameValue(xmlSchemaParserCtxtPtr ctxt,
xmlSchemaPtr schema,
xmlSchemaBasicItemPtr ownerItem,
xmlAttrPtr attr,
const xmlChar *value,
const xmlChar **uri,
const xmlChar **local)
{
const xmlChar *pref;
xmlNsPtr ns;
int len, ret;
*uri = NULL;
*local = NULL;
ret = xmlValidateQName(value, 1);
if (ret > 0) {
xmlSchemaPSimpleTypeErr(ctxt,
XML_SCHEMAP_S4S_ATTR_INVALID_VALUE,
ownerItem, (xmlNodePtr) attr,
xmlSchemaGetBuiltInType(XML_SCHEMAS_QNAME),
NULL, value, NULL, NULL, NULL);
*local = value;
return (ctxt->err);
} else if (ret < 0)
return (-1);
if (!XML_STRCHR((char *) value, ':')) {
ns = xmlSearchNs(attr->doc, attr->parent, NULL);
if (ns)
*uri = xmlDictLookup(ctxt->dict, ns->href, -1);
else if (schema->flags & XML_SCHEMAS_INCLUDING_CONVERT_NS) {
/* TODO: move XML_SCHEMAS_INCLUDING_CONVERT_NS to the
* parser context. */
/*
* This one takes care of included schemas with no
* target namespace.
*/
*uri = ctxt->targetNamespace;
}
*local = xmlDictLookup(ctxt->dict, value, -1);
return (0);
}
/*
* At this point xmlSplitQName3 has to return a local name.
*/
*local = xmlSplitQName3(value, &len);
*local = xmlDictLookup(ctxt->dict, *local, -1);
pref = xmlDictLookup(ctxt->dict, value, len);
ns = xmlSearchNs(attr->doc, attr->parent, pref);
if (ns == NULL) {
xmlSchemaPSimpleTypeErr(ctxt,
XML_SCHEMAP_S4S_ATTR_INVALID_VALUE,
ownerItem, (xmlNodePtr) attr,
xmlSchemaGetBuiltInType(XML_SCHEMAS_QNAME), NULL, value,
"The value '%s' of simple type 'xs:QName' has no "
"corresponding namespace declaration in scope", value, NULL);
return (ctxt->err);
} else {
*uri = xmlDictLookup(ctxt->dict, ns->href, -1);
}
return (0);
}
/**
* xmlSchemaPValAttrNodeQName:
* @ctxt: a schema parser context
* @schema: the schema context
* @ownerDes: the designation of the owner element
* @ownerItem: the owner as a schema object
* @attr: the attribute node
* @local: the resulting local part if found, the attribute value otherwise
* @uri: the resulting namespace URI if found
*
* Extracts and validates the QName of an attribute value.
* This one is intended to be used on attribute values that
* should resolve to schema components.
*
* Returns 0, in case the QName is valid, a positive error code
* if not valid and -1 if an internal error occurs.
*/
static int
xmlSchemaPValAttrNodeQName(xmlSchemaParserCtxtPtr ctxt,
xmlSchemaPtr schema,
xmlSchemaBasicItemPtr ownerItem,
xmlAttrPtr attr,
const xmlChar **uri,
const xmlChar **local)
{
const xmlChar *value;
value = xmlSchemaGetNodeContent(ctxt, (xmlNodePtr) attr);
return (xmlSchemaPValAttrNodeQNameValue(ctxt, schema,
ownerItem, attr, value, uri, local));
}
/**
* xmlSchemaPValAttrQName:
* @ctxt: a schema parser context
* @schema: the schema context
* @ownerDes: the designation of the parent element
* @ownerItem: the owner as a schema object
* @ownerElem: the parent node of the attribute
* @name: the name of the attribute
* @local: the resulting local part if found, the attribute value otherwise
* @uri: the resulting namespace URI if found
*
* Extracts and validates the QName of an attribute value.
*
* Returns 0, in case the QName is valid, a positive error code
* if not valid and -1 if an internal error occurs.
*/
static int
xmlSchemaPValAttrQName(xmlSchemaParserCtxtPtr ctxt,
xmlSchemaPtr schema,
xmlSchemaBasicItemPtr ownerItem,
xmlNodePtr ownerElem,
const char *name,
const xmlChar **uri,
const xmlChar **local)
{
xmlAttrPtr attr;
attr = xmlSchemaGetPropNode(ownerElem, name);
if (attr == NULL) {
*local = NULL;
*uri = NULL;
return (0);
}
return (xmlSchemaPValAttrNodeQName(ctxt, schema,
ownerItem, attr, uri, local));
}
/**
* xmlSchemaPValAttrID:
* @ctxt: a schema parser context
* @schema: the schema context
* @ownerDes: the designation of the parent element
* @ownerItem: the owner as a schema object
* @ownerElem: the parent node of the attribute
* @name: the name of the attribute
*
* Extracts and validates the ID of an attribute value.
*
* Returns 0, in case the ID is valid, a positive error code
* if not valid and -1 if an internal error occurs.
*/
static int
xmlSchemaPValAttrNodeID(xmlSchemaParserCtxtPtr ctxt, xmlAttrPtr attr)
{
int ret;
const xmlChar *value;
if (attr == NULL)
return(0);
value = xmlSchemaGetNodeContentNoDict((xmlNodePtr) attr);
ret = xmlValidateNCName(value, 1);
if (ret == 0) {
/*
* NOTE: the IDness might have already be declared in the DTD
*/
if (attr->atype != XML_ATTRIBUTE_ID) {
xmlIDPtr res;
xmlChar *strip;
/*
* TODO: Use xmlSchemaStrip here; it's not exported at this
* moment.
*/
strip = xmlSchemaCollapseString(value);
if (strip != NULL) {
xmlFree((xmlChar *) value);
value = strip;
}
res = xmlAddID(NULL, attr->doc, value, attr);
if (res == NULL) {
ret = XML_SCHEMAP_S4S_ATTR_INVALID_VALUE;
xmlSchemaPSimpleTypeErr(ctxt,
XML_SCHEMAP_S4S_ATTR_INVALID_VALUE,
NULL, (xmlNodePtr) attr,
xmlSchemaGetBuiltInType(XML_SCHEMAS_ID),
NULL, NULL, "Duplicate value '%s' of simple "
"type 'xs:ID'", value, NULL);
} else
attr->atype = XML_ATTRIBUTE_ID;
}
} else if (ret > 0) {
ret = XML_SCHEMAP_S4S_ATTR_INVALID_VALUE;
xmlSchemaPSimpleTypeErr(ctxt,
XML_SCHEMAP_S4S_ATTR_INVALID_VALUE,
NULL, (xmlNodePtr) attr,
xmlSchemaGetBuiltInType(XML_SCHEMAS_ID),
NULL, NULL, "The value '%s' of simple type 'xs:ID' is "
"not a valid 'xs:NCName'",
value, NULL);
}
if (value != NULL)
xmlFree((xmlChar *)value);
return (ret);
}
static int
xmlSchemaPValAttrID(xmlSchemaParserCtxtPtr ctxt,
xmlNodePtr ownerElem,
const xmlChar *name)
{
xmlAttrPtr attr;
attr = xmlSchemaGetPropNode(ownerElem, (const char *) name);
if (attr == NULL)
return(0);
return(xmlSchemaPValAttrNodeID(ctxt, attr));
}
/**
* xmlGetMaxOccurs:
* @ctxt: a schema validation context
* @node: a subtree containing XML Schema informations
*
* Get the maxOccurs property
*
* Returns the default if not found, or the value
*/
static int
xmlGetMaxOccurs(xmlSchemaParserCtxtPtr ctxt, xmlNodePtr node,
int min, int max, int def, const char *expected)
{
const xmlChar *val, *cur;
int ret = 0;
xmlAttrPtr attr;
attr = xmlSchemaGetPropNode(node, "maxOccurs");
if (attr == NULL)
return (def);
val = xmlSchemaGetNodeContent(ctxt, (xmlNodePtr) attr);
if (xmlStrEqual(val, (const xmlChar *) "unbounded")) {
if (max != UNBOUNDED) {
xmlSchemaPSimpleTypeErr(ctxt,
XML_SCHEMAP_S4S_ATTR_INVALID_VALUE,
/* XML_SCHEMAP_INVALID_MINOCCURS, */
NULL, (xmlNodePtr) attr, NULL, expected,
val, NULL, NULL, NULL);
return (def);
} else
return (UNBOUNDED); /* encoding it with -1 might be another option */
}
cur = val;
while (IS_BLANK_CH(*cur))
cur++;
if (*cur == 0) {
xmlSchemaPSimpleTypeErr(ctxt,
XML_SCHEMAP_S4S_ATTR_INVALID_VALUE,
/* XML_SCHEMAP_INVALID_MINOCCURS, */
NULL, (xmlNodePtr) attr, NULL, expected,
val, NULL, NULL, NULL);
return (def);
}
while ((*cur >= '0') && (*cur <= '9')) {
ret = ret * 10 + (*cur - '0');
cur++;
}
while (IS_BLANK_CH(*cur))
cur++;
/*
* TODO: Restrict the maximal value to Integer.
*/
if ((*cur != 0) || (ret < min) || ((max != -1) && (ret > max))) {
xmlSchemaPSimpleTypeErr(ctxt,
XML_SCHEMAP_S4S_ATTR_INVALID_VALUE,
/* XML_SCHEMAP_INVALID_MINOCCURS, */
NULL, (xmlNodePtr) attr, NULL, expected,
val, NULL, NULL, NULL);
return (def);
}
return (ret);
}
/**
* xmlGetMinOccurs:
* @ctxt: a schema validation context
* @node: a subtree containing XML Schema informations
*
* Get the minOccurs property
*
* Returns the default if not found, or the value
*/
static int
xmlGetMinOccurs(xmlSchemaParserCtxtPtr ctxt, xmlNodePtr node,
int min, int max, int def, const char *expected)
{
const xmlChar *val, *cur;
int ret = 0;
xmlAttrPtr attr;
attr = xmlSchemaGetPropNode(node, "minOccurs");
if (attr == NULL)
return (def);
val = xmlSchemaGetNodeContent(ctxt, (xmlNodePtr) attr);
cur = val;
while (IS_BLANK_CH(*cur))
cur++;
if (*cur == 0) {
xmlSchemaPSimpleTypeErr(ctxt,
XML_SCHEMAP_S4S_ATTR_INVALID_VALUE,
/* XML_SCHEMAP_INVALID_MINOCCURS, */
NULL, (xmlNodePtr) attr, NULL, expected,
val, NULL, NULL, NULL);
return (def);
}
while ((*cur >= '0') && (*cur <= '9')) {
ret = ret * 10 + (*cur - '0');
cur++;
}
while (IS_BLANK_CH(*cur))
cur++;
/*
* TODO: Restrict the maximal value to Integer.
*/
if ((*cur != 0) || (ret < min) || ((max != -1) && (ret > max))) {
xmlSchemaPSimpleTypeErr(ctxt,
XML_SCHEMAP_S4S_ATTR_INVALID_VALUE,
/* XML_SCHEMAP_INVALID_MINOCCURS, */
NULL, (xmlNodePtr) attr, NULL, expected,
val, NULL, NULL, NULL);
return (def);
}
return (ret);
}
/**
* xmlSchemaPGetBoolNodeValue:
* @ctxt: a schema validation context
* @ownerDes: owner designation
* @ownerItem: the owner as a schema item
* @node: the node holding the value
*
* Converts a boolean string value into 1 or 0.
*
* Returns 0 or 1.
*/
static int
xmlSchemaPGetBoolNodeValue(xmlSchemaParserCtxtPtr ctxt,
xmlSchemaBasicItemPtr ownerItem,
xmlNodePtr node)
{
xmlChar *value = NULL;
int res = 0;
value = xmlNodeGetContent(node);
/*
* 3.2.2.1 Lexical representation
* An instance of a datatype that is defined as `boolean`
* can have the following legal literals {true, false, 1, 0}.
*/
if (xmlStrEqual(BAD_CAST value, BAD_CAST "true"))
res = 1;
else if (xmlStrEqual(BAD_CAST value, BAD_CAST "false"))
res = 0;
else if (xmlStrEqual(BAD_CAST value, BAD_CAST "1"))
res = 1;
else if (xmlStrEqual(BAD_CAST value, BAD_CAST "0"))
res = 0;
else {
xmlSchemaPSimpleTypeErr(ctxt,
XML_SCHEMAP_INVALID_BOOLEAN,
ownerItem, node,
xmlSchemaGetBuiltInType(XML_SCHEMAS_BOOLEAN),
NULL, BAD_CAST value,
NULL, NULL, NULL);
}
if (value != NULL)
xmlFree(value);
return (res);
}
/**
* xmlGetBooleanProp:
* @ctxt: a schema validation context
* @node: a subtree containing XML Schema informations
* @name: the attribute name
* @def: the default value
*
* Evaluate if a boolean property is set
*
* Returns the default if not found, 0 if found to be false,
* 1 if found to be true
*/
static int
xmlGetBooleanProp(xmlSchemaParserCtxtPtr ctxt,
xmlNodePtr node,
const char *name, int def)
{
const xmlChar *val;
val = xmlSchemaGetProp(ctxt, node, name);
if (val == NULL)
return (def);
/*
* 3.2.2.1 Lexical representation
* An instance of a datatype that is defined as `boolean`
* can have the following legal literals {true, false, 1, 0}.
*/
if (xmlStrEqual(val, BAD_CAST "true"))
def = 1;
else if (xmlStrEqual(val, BAD_CAST "false"))
def = 0;
else if (xmlStrEqual(val, BAD_CAST "1"))
def = 1;
else if (xmlStrEqual(val, BAD_CAST "0"))
def = 0;
else {
xmlSchemaPSimpleTypeErr(ctxt,
XML_SCHEMAP_INVALID_BOOLEAN,
NULL,
(xmlNodePtr) xmlSchemaGetPropNode(node, name),
xmlSchemaGetBuiltInType(XML_SCHEMAS_BOOLEAN),
NULL, val, NULL, NULL, NULL);
}
return (def);
}
/************************************************************************
* *
* Shema extraction from an Infoset *
* *
************************************************************************/
static xmlSchemaTypePtr xmlSchemaParseSimpleType(xmlSchemaParserCtxtPtr
ctxt, xmlSchemaPtr schema,
xmlNodePtr node,
int topLevel);
static xmlSchemaTypePtr xmlSchemaParseComplexType(xmlSchemaParserCtxtPtr
ctxt,
xmlSchemaPtr schema,
xmlNodePtr node,
int topLevel);
static xmlSchemaTypePtr xmlSchemaParseRestriction(xmlSchemaParserCtxtPtr
ctxt,
xmlSchemaPtr schema,
xmlNodePtr node,
xmlSchemaTypeType parentType);
static xmlSchemaBasicItemPtr
xmlSchemaParseLocalAttribute(xmlSchemaParserCtxtPtr pctxt,
xmlSchemaPtr schema,
xmlNodePtr node,
xmlSchemaItemListPtr uses,
int parentType);
static xmlSchemaTypePtr xmlSchemaParseList(xmlSchemaParserCtxtPtr ctxt,
xmlSchemaPtr schema,
xmlNodePtr node);
static xmlSchemaWildcardPtr
xmlSchemaParseAnyAttribute(xmlSchemaParserCtxtPtr ctxt,
xmlSchemaPtr schema, xmlNodePtr node);
/**
* xmlSchemaPValAttrNodeValue:
*
* @ctxt: a schema parser context
* @ownerDes: the designation of the parent element
* @ownerItem: the schema object owner if existent
* @attr: the schema attribute node being validated
* @value: the value
* @type: the built-in type to be validated against
*
* Validates a value against the given built-in type.
* This one is intended to be used internally for validation
* of schema attribute values during parsing of the schema.
*
* Returns 0 if the value is valid, a positive error code
* number otherwise and -1 in case of an internal or API error.
*/
static int
xmlSchemaPValAttrNodeValue(xmlSchemaParserCtxtPtr pctxt,
xmlSchemaBasicItemPtr ownerItem,
xmlAttrPtr attr,
const xmlChar *value,
xmlSchemaTypePtr type)
{
int ret = 0;
/*
* NOTE: Should we move this to xmlschematypes.c? Hmm, but this
* one is really meant to be used internally, so better not.
*/
if ((pctxt == NULL) || (type == NULL) || (attr == NULL))
return (-1);
if (type->type != XML_SCHEMA_TYPE_BASIC) {
PERROR_INT("xmlSchemaPValAttrNodeValue",
"the given type is not a built-in type");
return (-1);
}
switch (type->builtInType) {
case XML_SCHEMAS_NCNAME:
case XML_SCHEMAS_QNAME:
case XML_SCHEMAS_ANYURI:
case XML_SCHEMAS_TOKEN:
case XML_SCHEMAS_LANGUAGE:
ret = xmlSchemaValPredefTypeNode(type, value, NULL,
(xmlNodePtr) attr);
break;
default: {
PERROR_INT("xmlSchemaPValAttrNodeValue",
"validation using the given type is not supported while "
"parsing a schema");
return (-1);
}
}
/*
* TODO: Should we use the S4S error codes instead?
*/
if (ret < 0) {
PERROR_INT("xmlSchemaPValAttrNodeValue",
"failed to validate a schema attribute value");
return (-1);
} else if (ret > 0) {
if (WXS_IS_LIST(type))
ret = XML_SCHEMAV_CVC_DATATYPE_VALID_1_2_2;
else
ret = XML_SCHEMAV_CVC_DATATYPE_VALID_1_2_1;
xmlSchemaPSimpleTypeErr(pctxt,
ret, ownerItem, (xmlNodePtr) attr,
type, NULL, value, NULL, NULL, NULL);
}
return (ret);
}
/**
* xmlSchemaPValAttrNode:
*
* @ctxt: a schema parser context
* @ownerDes: the designation of the parent element
* @ownerItem: the schema object owner if existent
* @attr: the schema attribute node being validated
* @type: the built-in type to be validated against
* @value: the resulting value if any
*
* Extracts and validates a value against the given built-in type.
* This one is intended to be used internally for validation
* of schema attribute values during parsing of the schema.
*
* Returns 0 if the value is valid, a positive error code
* number otherwise and -1 in case of an internal or API error.
*/
static int
xmlSchemaPValAttrNode(xmlSchemaParserCtxtPtr ctxt,
xmlSchemaBasicItemPtr ownerItem,
xmlAttrPtr attr,
xmlSchemaTypePtr type,
const xmlChar **value)
{
const xmlChar *val;
if ((ctxt == NULL) || (type == NULL) || (attr == NULL))
return (-1);
val = xmlSchemaGetNodeContent(ctxt, (xmlNodePtr) attr);
if (value != NULL)
*value = val;
return (xmlSchemaPValAttrNodeValue(ctxt, ownerItem, attr,
val, type));
}
/**
* xmlSchemaPValAttr:
*
* @ctxt: a schema parser context
* @node: the element node of the attribute
* @ownerDes: the designation of the parent element
* @ownerItem: the schema object owner if existent
* @ownerElem: the owner element node
* @name: the name of the schema attribute node
* @type: the built-in type to be validated against
* @value: the resulting value if any
*
* Extracts and validates a value against the given built-in type.
* This one is intended to be used internally for validation
* of schema attribute values during parsing of the schema.
*
* Returns 0 if the value is valid, a positive error code
* number otherwise and -1 in case of an internal or API error.
*/
static int
xmlSchemaPValAttr(xmlSchemaParserCtxtPtr ctxt,
xmlSchemaBasicItemPtr ownerItem,
xmlNodePtr ownerElem,
const char *name,
xmlSchemaTypePtr type,
const xmlChar **value)
{
xmlAttrPtr attr;
if ((ctxt == NULL) || (type == NULL)) {
if (value != NULL)
*value = NULL;
return (-1);
}
if (type->type != XML_SCHEMA_TYPE_BASIC) {
if (value != NULL)
*value = NULL;
xmlSchemaPErr(ctxt, ownerElem,
XML_SCHEMAP_INTERNAL,
"Internal error: xmlSchemaPValAttr, the given "
"type '%s' is not a built-in type.\n",
type->name, NULL);
return (-1);
}
attr = xmlSchemaGetPropNode(ownerElem, name);
if (attr == NULL) {
if (value != NULL)
*value = NULL;
return (0);
}
return (xmlSchemaPValAttrNode(ctxt, ownerItem, attr,
type, value));
}
static int
xmlSchemaCheckReference(xmlSchemaParserCtxtPtr pctxt,
xmlSchemaPtr schema ATTRIBUTE_UNUSED,
xmlNodePtr node,
xmlAttrPtr attr,
const xmlChar *namespaceName)
{
/* TODO: Pointer comparison instead? */
if (xmlStrEqual(pctxt->targetNamespace, namespaceName))
return (0);
if (xmlStrEqual(xmlSchemaNs, namespaceName))
return (0);
/*
* Check if the referenced namespace was <import>ed.
*/
if (WXS_BUCKET(pctxt)->relations != NULL) {
xmlSchemaSchemaRelationPtr rel;
rel = WXS_BUCKET(pctxt)->relations;
do {
if (WXS_IS_BUCKET_IMPMAIN(rel->type) &&
xmlStrEqual(namespaceName, rel->importNamespace))
return (0);
rel = rel->next;
} while (rel != NULL);
}
/*
* No matching <import>ed namespace found.
*/
{
xmlNodePtr n = (attr != NULL) ? (xmlNodePtr) attr : node;
if (namespaceName == NULL)
xmlSchemaCustomErr(ACTXT_CAST pctxt,
XML_SCHEMAP_SRC_RESOLVE, n, NULL,
"References from this schema to components in no "
"namespace are not allowed, since not indicated by an "
"import statement", NULL, NULL);
else
xmlSchemaCustomErr(ACTXT_CAST pctxt,
XML_SCHEMAP_SRC_RESOLVE, n, NULL,
"References from this schema to components in the "
"namespace '%s' are not allowed, since not indicated by an "
"import statement", namespaceName, NULL);
}
return (XML_SCHEMAP_SRC_RESOLVE);
}
/**
* xmlSchemaParseLocalAttributes:
* @ctxt: a schema validation context
* @schema: the schema being built
* @node: a subtree containing XML Schema informations
* @type: the hosting type where the attributes will be anchored
*
* Parses attribute uses and attribute declarations and
* attribute group references.
*/
static int
xmlSchemaParseLocalAttributes(xmlSchemaParserCtxtPtr ctxt, xmlSchemaPtr schema,
xmlNodePtr *child, xmlSchemaItemListPtr *list,
int parentType, int *hasRefs)
{
void *item;
while ((IS_SCHEMA((*child), "attribute")) ||
(IS_SCHEMA((*child), "attributeGroup"))) {
if (IS_SCHEMA((*child), "attribute")) {
item = xmlSchemaParseLocalAttribute(ctxt, schema, *child,
*list, parentType);
} else {
item = xmlSchemaParseAttributeGroupRef(ctxt, schema, *child);
if ((item != NULL) && (hasRefs != NULL))
*hasRefs = 1;
}
if (item != NULL) {
if (*list == NULL) {
/* TODO: Customize grow factor. */
*list = xmlSchemaItemListCreate();
if (*list == NULL)
return(-1);
}
if (xmlSchemaItemListAddSize(*list, 2, item) == -1)
return(-1);
}
*child = (*child)->next;
}
return (0);
}
/**
* xmlSchemaParseAnnotation:
* @ctxt: a schema validation context
* @schema: the schema being built
* @node: a subtree containing XML Schema informations
*
* parse a XML schema Attrribute declaration
* *WARNING* this interface is highly subject to change
*
* Returns -1 in case of error, 0 if the declaration is improper and
* 1 in case of success.
*/
static xmlSchemaAnnotPtr
xmlSchemaParseAnnotation(xmlSchemaParserCtxtPtr ctxt, xmlNodePtr node, int needed)
{
xmlSchemaAnnotPtr ret;
xmlNodePtr child = NULL;
xmlAttrPtr attr;
int barked = 0;
/*
* INFO: S4S completed.
*/
/*
* id = ID
* {any attributes with non-schema namespace . . .}>
* Content: (appinfo | documentation)*
*/
if ((ctxt == NULL) || (node == NULL))
return (NULL);
if (needed)
ret = xmlSchemaNewAnnot(ctxt, node);
else
ret = NULL;
attr = node->properties;
while (attr != NULL) {
if (((attr->ns == NULL) &&
(!xmlStrEqual(attr->name, BAD_CAST "id"))) ||
((attr->ns != NULL) &&
xmlStrEqual(attr->ns->href, xmlSchemaNs))) {
xmlSchemaPIllegalAttrErr(ctxt,
XML_SCHEMAP_S4S_ATTR_NOT_ALLOWED, NULL, attr);
}
attr = attr->next;
}
xmlSchemaPValAttrID(ctxt, node, BAD_CAST "id");
/*
* And now for the children...
*/
child = node->children;
while (child != NULL) {
if (IS_SCHEMA(child, "appinfo")) {
/* TODO: make available the content of "appinfo". */
/*
* source = anyURI
* {any attributes with non-schema namespace . . .}>
* Content: ({any})*
*/
attr = child->properties;
while (attr != NULL) {
if (((attr->ns == NULL) &&
(!xmlStrEqual(attr->name, BAD_CAST "source"))) ||
((attr->ns != NULL) &&
xmlStrEqual(attr->ns->href, xmlSchemaNs))) {
xmlSchemaPIllegalAttrErr(ctxt,
XML_SCHEMAP_S4S_ATTR_NOT_ALLOWED, NULL, attr);
}
attr = attr->next;
}
xmlSchemaPValAttr(ctxt, NULL, child, "source",
xmlSchemaGetBuiltInType(XML_SCHEMAS_ANYURI), NULL);
child = child->next;
} else if (IS_SCHEMA(child, "documentation")) {
/* TODO: make available the content of "documentation". */
/*
* source = anyURI
* {any attributes with non-schema namespace . . .}>
* Content: ({any})*
*/
attr = child->properties;
while (attr != NULL) {
if (attr->ns == NULL) {
if (!xmlStrEqual(attr->name, BAD_CAST "source")) {
xmlSchemaPIllegalAttrErr(ctxt,
XML_SCHEMAP_S4S_ATTR_NOT_ALLOWED, NULL, attr);
}
} else {
if (xmlStrEqual(attr->ns->href, xmlSchemaNs) ||
(xmlStrEqual(attr->name, BAD_CAST "lang") &&
(!xmlStrEqual(attr->ns->href, XML_XML_NAMESPACE)))) {
xmlSchemaPIllegalAttrErr(ctxt,
XML_SCHEMAP_S4S_ATTR_NOT_ALLOWED, NULL, attr);
}
}
attr = attr->next;
}
/*
* Attribute "xml:lang".
*/
attr = xmlSchemaGetPropNodeNs(child, (const char *) XML_XML_NAMESPACE, "lang");
if (attr != NULL)
xmlSchemaPValAttrNode(ctxt, NULL, attr,
xmlSchemaGetBuiltInType(XML_SCHEMAS_LANGUAGE), NULL);
child = child->next;
} else {
if (!barked)
xmlSchemaPContentErr(ctxt,
XML_SCHEMAP_S4S_ELEM_NOT_ALLOWED,
NULL, node, child, NULL, "(appinfo | documentation)*");
barked = 1;
child = child->next;
}
}
return (ret);
}
/**
* xmlSchemaParseFacet:
* @ctxt: a schema validation context
* @schema: the schema being built
* @node: a subtree containing XML Schema informations
*
* parse a XML schema Facet declaration
* *WARNING* this interface is highly subject to change
*
* Returns the new type structure or NULL in case of error
*/
static xmlSchemaFacetPtr
xmlSchemaParseFacet(xmlSchemaParserCtxtPtr ctxt, xmlSchemaPtr schema,
xmlNodePtr node)
{
xmlSchemaFacetPtr facet;
xmlNodePtr child = NULL;
const xmlChar *value;
if ((ctxt == NULL) || (schema == NULL) || (node == NULL))
return (NULL);
facet = xmlSchemaNewFacet();
if (facet == NULL) {
xmlSchemaPErrMemory(ctxt, "allocating facet", node);
return (NULL);
}
facet->node = node;
value = xmlSchemaGetProp(ctxt, node, "value");
if (value == NULL) {
xmlSchemaPErr2(ctxt, node, child, XML_SCHEMAP_FACET_NO_VALUE,
"Facet %s has no value\n", node->name, NULL);
xmlSchemaFreeFacet(facet);
return (NULL);
}
if (IS_SCHEMA(node, "minInclusive")) {
facet->type = XML_SCHEMA_FACET_MININCLUSIVE;
} else if (IS_SCHEMA(node, "minExclusive")) {
facet->type = XML_SCHEMA_FACET_MINEXCLUSIVE;
} else if (IS_SCHEMA(node, "maxInclusive")) {
facet->type = XML_SCHEMA_FACET_MAXINCLUSIVE;
} else if (IS_SCHEMA(node, "maxExclusive")) {
facet->type = XML_SCHEMA_FACET_MAXEXCLUSIVE;
} else if (IS_SCHEMA(node, "totalDigits")) {
facet->type = XML_SCHEMA_FACET_TOTALDIGITS;
} else if (IS_SCHEMA(node, "fractionDigits")) {
facet->type = XML_SCHEMA_FACET_FRACTIONDIGITS;
} else if (IS_SCHEMA(node, "pattern")) {
facet->type = XML_SCHEMA_FACET_PATTERN;
} else if (IS_SCHEMA(node, "enumeration")) {
facet->type = XML_SCHEMA_FACET_ENUMERATION;
} else if (IS_SCHEMA(node, "whiteSpace")) {
facet->type = XML_SCHEMA_FACET_WHITESPACE;
} else if (IS_SCHEMA(node, "length")) {
facet->type = XML_SCHEMA_FACET_LENGTH;
} else if (IS_SCHEMA(node, "maxLength")) {
facet->type = XML_SCHEMA_FACET_MAXLENGTH;
} else if (IS_SCHEMA(node, "minLength")) {
facet->type = XML_SCHEMA_FACET_MINLENGTH;
} else {
xmlSchemaPErr2(ctxt, node, child, XML_SCHEMAP_UNKNOWN_FACET_TYPE,
"Unknown facet type %s\n", node->name, NULL);
xmlSchemaFreeFacet(facet);
return (NULL);
}
xmlSchemaPValAttrID(ctxt, node, BAD_CAST "id");
facet->value = value;
if ((facet->type != XML_SCHEMA_FACET_PATTERN) &&
(facet->type != XML_SCHEMA_FACET_ENUMERATION)) {
const xmlChar *fixed;
fixed = xmlSchemaGetProp(ctxt, node, "fixed");
if (fixed != NULL) {
if (xmlStrEqual(fixed, BAD_CAST "true"))
facet->fixed = 1;
}
}
child = node->children;
if (IS_SCHEMA(child, "annotation")) {
facet->annot = xmlSchemaParseAnnotation(ctxt, child, 1);
child = child->next;
}
if (child != NULL) {
xmlSchemaPErr2(ctxt, node, child, XML_SCHEMAP_UNKNOWN_FACET_CHILD,
"Facet %s has unexpected child content\n",
node->name, NULL);
}
return (facet);
}
/**
* xmlSchemaParseWildcardNs:
* @ctxt: a schema parser context
* @wildc: the wildcard, already created
* @node: a subtree containing XML Schema informations
*
* Parses the attribute "processContents" and "namespace"
* of a xsd:anyAttribute and xsd:any.
* *WARNING* this interface is highly subject to change
*
* Returns 0 if everything goes fine, a positive error code
* if something is not valid and -1 if an internal error occurs.
*/
static int
xmlSchemaParseWildcardNs(xmlSchemaParserCtxtPtr ctxt,
xmlSchemaPtr schema ATTRIBUTE_UNUSED,
xmlSchemaWildcardPtr wildc,
xmlNodePtr node)
{
const xmlChar *pc, *ns, *dictnsItem;
int ret = 0;
xmlChar *nsItem;
xmlSchemaWildcardNsPtr tmp, lastNs = NULL;
xmlAttrPtr attr;
pc = xmlSchemaGetProp(ctxt, node, "processContents");
if ((pc == NULL)
|| (xmlStrEqual(pc, (const xmlChar *) "strict"))) {
wildc->processContents = XML_SCHEMAS_ANY_STRICT;
} else if (xmlStrEqual(pc, (const xmlChar *) "skip")) {
wildc->processContents = XML_SCHEMAS_ANY_SKIP;
} else if (xmlStrEqual(pc, (const xmlChar *) "lax")) {
wildc->processContents = XML_SCHEMAS_ANY_LAX;
} else {
xmlSchemaPSimpleTypeErr(ctxt,
XML_SCHEMAP_S4S_ATTR_INVALID_VALUE,
NULL, node,
NULL, "(strict | skip | lax)", pc,
NULL, NULL, NULL);
wildc->processContents = XML_SCHEMAS_ANY_STRICT;
ret = XML_SCHEMAP_S4S_ATTR_INVALID_VALUE;
}
/*
* Build the namespace constraints.
*/
attr = xmlSchemaGetPropNode(node, "namespace");
ns = xmlSchemaGetNodeContent(ctxt, (xmlNodePtr) attr);
if ((attr == NULL) || (xmlStrEqual(ns, BAD_CAST "##any")))
wildc->any = 1;
else if (xmlStrEqual(ns, BAD_CAST "##other")) {
wildc->negNsSet = xmlSchemaNewWildcardNsConstraint(ctxt);
if (wildc->negNsSet == NULL) {
return (-1);
}
wildc->negNsSet->value = ctxt->targetNamespace;
} else {
const xmlChar *end, *cur;
cur = ns;
do {
while (IS_BLANK_CH(*cur))
cur++;
end = cur;
while ((*end != 0) && (!(IS_BLANK_CH(*end))))
end++;
if (end == cur)
break;
nsItem = xmlStrndup(cur, end - cur);
if ((xmlStrEqual(nsItem, BAD_CAST "##other")) ||
(xmlStrEqual(nsItem, BAD_CAST "##any"))) {
xmlSchemaPSimpleTypeErr(ctxt,
XML_SCHEMAP_WILDCARD_INVALID_NS_MEMBER,
NULL, (xmlNodePtr) attr,
NULL,
"((##any | ##other) | List of (xs:anyURI | "
"(##targetNamespace | ##local)))",
nsItem, NULL, NULL, NULL);
ret = XML_SCHEMAP_WILDCARD_INVALID_NS_MEMBER;
} else {
if (xmlStrEqual(nsItem, BAD_CAST "##targetNamespace")) {
dictnsItem = ctxt->targetNamespace;
} else if (xmlStrEqual(nsItem, BAD_CAST "##local")) {
dictnsItem = NULL;
} else {
/*
* Validate the item (anyURI).
*/
xmlSchemaPValAttrNodeValue(ctxt, NULL, attr,
nsItem, xmlSchemaGetBuiltInType(XML_SCHEMAS_ANYURI));
dictnsItem = xmlDictLookup(ctxt->dict, nsItem, -1);
}
/*
* Avoid dublicate namespaces.
*/
tmp = wildc->nsSet;
while (tmp != NULL) {
if (dictnsItem == tmp->value)
break;
tmp = tmp->next;
}
if (tmp == NULL) {
tmp = xmlSchemaNewWildcardNsConstraint(ctxt);
if (tmp == NULL) {
xmlFree(nsItem);
return (-1);
}
tmp->value = dictnsItem;
tmp->next = NULL;
if (wildc->nsSet == NULL)
wildc->nsSet = tmp;
else if (lastNs != NULL)
lastNs->next = tmp;
lastNs = tmp;
}
}
xmlFree(nsItem);
cur = end;
} while (*cur != 0);
}
return (ret);
}
static int
xmlSchemaPCheckParticleCorrect_2(xmlSchemaParserCtxtPtr ctxt,
xmlSchemaParticlePtr item ATTRIBUTE_UNUSED,
xmlNodePtr node,
int minOccurs,
int maxOccurs) {
if ((maxOccurs == 0) && ( minOccurs == 0))
return (0);
if (maxOccurs != UNBOUNDED) {
/*
* TODO: Maybe we should better not create the particle,
* if min/max is invalid, since it could confuse the build of the
* content model.
*/
/*
* 3.9.6 Schema Component Constraint: Particle Correct
*
*/
if (maxOccurs < 1) {
/*
* 2.2 {max occurs} must be greater than or equal to 1.
*/
xmlSchemaPCustomAttrErr(ctxt,
XML_SCHEMAP_P_PROPS_CORRECT_2_2,
NULL, NULL,
xmlSchemaGetPropNode(node, "maxOccurs"),
"The value must be greater than or equal to 1");
return (XML_SCHEMAP_P_PROPS_CORRECT_2_2);
} else if (minOccurs > maxOccurs) {
/*
* 2.1 {min occurs} must not be greater than {max occurs}.
*/
xmlSchemaPCustomAttrErr(ctxt,
XML_SCHEMAP_P_PROPS_CORRECT_2_1,
NULL, NULL,
xmlSchemaGetPropNode(node, "minOccurs"),
"The value must not be greater than the value of 'maxOccurs'");
return (XML_SCHEMAP_P_PROPS_CORRECT_2_1);
}
}
return (0);
}
/**
* xmlSchemaParseAny:
* @ctxt: a schema validation context
* @schema: the schema being built
* @node: a subtree containing XML Schema informations
*
* Parsea a XML schema <any> element. A particle and wildcard
* will be created (except if minOccurs==maxOccurs==0, in this case
* nothing will be created).
* *WARNING* this interface is highly subject to change
*
* Returns the particle or NULL in case of error or if minOccurs==maxOccurs==0
*/
static xmlSchemaParticlePtr
xmlSchemaParseAny(xmlSchemaParserCtxtPtr ctxt, xmlSchemaPtr schema,
xmlNodePtr node)
{
xmlSchemaParticlePtr particle;
xmlNodePtr child = NULL;
xmlSchemaWildcardPtr wild;
int min, max;
xmlAttrPtr attr;
xmlSchemaAnnotPtr annot = NULL;
if ((ctxt == NULL) || (schema == NULL) || (node == NULL))
return (NULL);
/*
* Check for illegal attributes.
*/
attr = node->properties;
while (attr != NULL) {
if (attr->ns == NULL) {
if ((!xmlStrEqual(attr->name, BAD_CAST "id")) &&
(!xmlStrEqual(attr->name, BAD_CAST "minOccurs")) &&
(!xmlStrEqual(attr->name, BAD_CAST "maxOccurs")) &&
(!xmlStrEqual(attr->name, BAD_CAST "namespace")) &&
(!xmlStrEqual(attr->name, BAD_CAST "processContents"))) {
xmlSchemaPIllegalAttrErr(ctxt,
XML_SCHEMAP_S4S_ATTR_NOT_ALLOWED, NULL, attr);
}
} else if (xmlStrEqual(attr->ns->href, xmlSchemaNs)) {
xmlSchemaPIllegalAttrErr(ctxt,
XML_SCHEMAP_S4S_ATTR_NOT_ALLOWED, NULL, attr);
}
attr = attr->next;
}
xmlSchemaPValAttrID(ctxt, node, BAD_CAST "id");
/*
* minOccurs/maxOccurs.
*/
max = xmlGetMaxOccurs(ctxt, node, 0, UNBOUNDED, 1,
"(xs:nonNegativeInteger | unbounded)");
min = xmlGetMinOccurs(ctxt, node, 0, -1, 1,
"xs:nonNegativeInteger");
xmlSchemaPCheckParticleCorrect_2(ctxt, NULL, node, min, max);
/*
* Create & parse the wildcard.
*/
wild = xmlSchemaAddWildcard(ctxt, schema, XML_SCHEMA_TYPE_ANY, node);
if (wild == NULL)
return (NULL);
xmlSchemaParseWildcardNs(ctxt, schema, wild, node);
/*
* And now for the children...
*/
child = node->children;
if (IS_SCHEMA(child, "annotation")) {
annot = xmlSchemaParseAnnotation(ctxt, child, 1);
child = child->next;
}
if (child != NULL) {
xmlSchemaPContentErr(ctxt,
XML_SCHEMAP_S4S_ELEM_NOT_ALLOWED,
NULL, node, child,
NULL, "(annotation?)");
}
/*
* No component if minOccurs==maxOccurs==0.
*/
if ((min == 0) && (max == 0)) {
/* Don't free the wildcard, since it's already on the list. */
return (NULL);
}
/*
* Create the particle.
*/
particle = xmlSchemaAddParticle(ctxt, node, min, max);
if (particle == NULL)
return (NULL);
particle->annot = annot;
particle->children = (xmlSchemaTreeItemPtr) wild;
return (particle);
}
/**
* xmlSchemaParseNotation:
* @ctxt: a schema validation context
* @schema: the schema being built
* @node: a subtree containing XML Schema informations
*
* parse a XML schema Notation declaration
*
* Returns the new structure or NULL in case of error
*/
static xmlSchemaNotationPtr
xmlSchemaParseNotation(xmlSchemaParserCtxtPtr ctxt, xmlSchemaPtr schema,
xmlNodePtr node)
{
const xmlChar *name;
xmlSchemaNotationPtr ret;
xmlNodePtr child = NULL;
if ((ctxt == NULL) || (schema == NULL) || (node == NULL))
return (NULL);
name = xmlSchemaGetProp(ctxt, node, "name");
if (name == NULL) {
xmlSchemaPErr2(ctxt, node, child, XML_SCHEMAP_NOTATION_NO_NAME,
"Notation has no name\n", NULL, NULL);
return (NULL);
}
ret = xmlSchemaAddNotation(ctxt, schema, name,
ctxt->targetNamespace, node);
if (ret == NULL)
return (NULL);
xmlSchemaPValAttrID(ctxt, node, BAD_CAST "id");
child = node->children;
if (IS_SCHEMA(child, "annotation")) {
ret->annot = xmlSchemaParseAnnotation(ctxt, child, 1);
child = child->next;
}
if (child != NULL) {
xmlSchemaPContentErr(ctxt,
XML_SCHEMAP_S4S_ELEM_NOT_ALLOWED,
NULL, node, child,
NULL, "(annotation?)");
}
return (ret);
}
/**
* xmlSchemaParseAnyAttribute:
* @ctxt: a schema validation context
* @schema: the schema being built
* @node: a subtree containing XML Schema informations
*
* parse a XML schema AnyAttrribute declaration
* *WARNING* this interface is highly subject to change
*
* Returns a wildcard or NULL.
*/
static xmlSchemaWildcardPtr
xmlSchemaParseAnyAttribute(xmlSchemaParserCtxtPtr ctxt,
xmlSchemaPtr schema, xmlNodePtr node)
{
xmlSchemaWildcardPtr ret;
xmlNodePtr child = NULL;
xmlAttrPtr attr;
if ((ctxt == NULL) || (schema == NULL) || (node == NULL))
return (NULL);
ret = xmlSchemaAddWildcard(ctxt, schema, XML_SCHEMA_TYPE_ANY_ATTRIBUTE,
node);
if (ret == NULL) {
return (NULL);
}
/*
* Check for illegal attributes.
*/
attr = node->properties;
while (attr != NULL) {
if (attr->ns == NULL) {
if ((!xmlStrEqual(attr->name, BAD_CAST "id")) &&
(!xmlStrEqual(attr->name, BAD_CAST "namespace")) &&
(!xmlStrEqual(attr->name, BAD_CAST "processContents"))) {
xmlSchemaPIllegalAttrErr(ctxt,
XML_SCHEMAP_S4S_ATTR_NOT_ALLOWED, NULL, attr);
}
} else if (xmlStrEqual(attr->ns->href, xmlSchemaNs)) {
xmlSchemaPIllegalAttrErr(ctxt,
XML_SCHEMAP_S4S_ATTR_NOT_ALLOWED, NULL, attr);
}
attr = attr->next;
}
xmlSchemaPValAttrID(ctxt, node, BAD_CAST "id");
/*
* Parse the namespace list.
*/
if (xmlSchemaParseWildcardNs(ctxt, schema, ret, node) != 0)
return (NULL);
/*
* And now for the children...
*/
child = node->children;
if (IS_SCHEMA(child, "annotation")) {
ret->annot = xmlSchemaParseAnnotation(ctxt, child, 1);
child = child->next;
}
if (child != NULL) {
xmlSchemaPContentErr(ctxt,
XML_SCHEMAP_S4S_ELEM_NOT_ALLOWED,
NULL, node, child,
NULL, "(annotation?)");
}
return (ret);
}
/**
* xmlSchemaParseAttribute:
* @ctxt: a schema validation context
* @schema: the schema being built
* @node: a subtree containing XML Schema informations
*
* parse a XML schema Attrribute declaration
* *WARNING* this interface is highly subject to change
*
* Returns the attribute declaration.
*/
static xmlSchemaBasicItemPtr
xmlSchemaParseLocalAttribute(xmlSchemaParserCtxtPtr pctxt,
xmlSchemaPtr schema,
xmlNodePtr node,
xmlSchemaItemListPtr uses,
int parentType)
{
const xmlChar *attrValue, *name = NULL, *ns = NULL;
xmlSchemaAttributeUsePtr use = NULL;
xmlNodePtr child = NULL;
xmlAttrPtr attr;
const xmlChar *tmpNs = NULL, *tmpName = NULL, *defValue = NULL;
int isRef = 0, occurs = XML_SCHEMAS_ATTR_USE_OPTIONAL;
int nberrors, hasForm = 0, defValueType = 0;
#define WXS_ATTR_DEF_VAL_DEFAULT 1
#define WXS_ATTR_DEF_VAL_FIXED 2
/*
* 3.2.3 Constraints on XML Representations of Attribute Declarations
*/
if ((pctxt == NULL) || (schema == NULL) || (node == NULL))
return (NULL);
attr = xmlSchemaGetPropNode(node, "ref");
if (attr != NULL) {
if (xmlSchemaPValAttrNodeQName(pctxt, schema,
NULL, attr, &tmpNs, &tmpName) != 0) {
return (NULL);
}
if (xmlSchemaCheckReference(pctxt, schema, node, attr, tmpNs) != 0)
return(NULL);
isRef = 1;
}
nberrors = pctxt->nberrors;
/*
* Check for illegal attributes.
*/
attr = node->properties;
while (attr != NULL) {
if (attr->ns == NULL) {
if (isRef) {
if (xmlStrEqual(attr->name, BAD_CAST "id")) {
xmlSchemaPValAttrNodeID(pctxt, attr);
goto attr_next;
} else if (xmlStrEqual(attr->name, BAD_CAST "ref")) {
goto attr_next;
}
} else {
if (xmlStrEqual(attr->name, BAD_CAST "name")) {
goto attr_next;
} else if (xmlStrEqual(attr->name, BAD_CAST "id")) {
xmlSchemaPValAttrNodeID(pctxt, attr);
goto attr_next;
} else if (xmlStrEqual(attr->name, BAD_CAST "type")) {
xmlSchemaPValAttrNodeQName(pctxt, schema, NULL,
attr, &tmpNs, &tmpName);
goto attr_next;
} else if (xmlStrEqual(attr->name, BAD_CAST "form")) {
/*
* Evaluate the target namespace
*/
hasForm = 1;
attrValue = xmlSchemaGetNodeContent(pctxt,
(xmlNodePtr) attr);
if (xmlStrEqual(attrValue, BAD_CAST "qualified")) {
ns = pctxt->targetNamespace;
} else if (!xmlStrEqual(attrValue, BAD_CAST "unqualified"))
{
xmlSchemaPSimpleTypeErr(pctxt,
XML_SCHEMAP_S4S_ATTR_INVALID_VALUE,
NULL, (xmlNodePtr) attr,
NULL, "(qualified | unqualified)",
attrValue, NULL, NULL, NULL);
}
goto attr_next;
}
}
if (xmlStrEqual(attr->name, BAD_CAST "use")) {
attrValue = xmlSchemaGetNodeContent(pctxt, (xmlNodePtr) attr);
/* TODO: Maybe we need to normalize the value beforehand. */
if (xmlStrEqual(attrValue, BAD_CAST "optional"))
occurs = XML_SCHEMAS_ATTR_USE_OPTIONAL;
else if (xmlStrEqual(attrValue, BAD_CAST "prohibited"))
occurs = XML_SCHEMAS_ATTR_USE_PROHIBITED;
else if (xmlStrEqual(attrValue, BAD_CAST "required"))
occurs = XML_SCHEMAS_ATTR_USE_REQUIRED;
else {
xmlSchemaPSimpleTypeErr(pctxt,
XML_SCHEMAP_INVALID_ATTR_USE,
NULL, (xmlNodePtr) attr,
NULL, "(optional | prohibited | required)",
attrValue, NULL, NULL, NULL);
}
goto attr_next;
} else if (xmlStrEqual(attr->name, BAD_CAST "default")) {
/*
* 3.2.3 : 1
* default and fixed must not both be present.
*/
if (defValue) {
xmlSchemaPMutualExclAttrErr(pctxt,
XML_SCHEMAP_SRC_ATTRIBUTE_1,
NULL, attr, "default", "fixed");
} else {
defValue = xmlSchemaGetNodeContent(pctxt, (xmlNodePtr) attr);
defValueType = WXS_ATTR_DEF_VAL_DEFAULT;
}
goto attr_next;
} else if (xmlStrEqual(attr->name, BAD_CAST "fixed")) {
/*
* 3.2.3 : 1
* default and fixed must not both be present.
*/
if (defValue) {
xmlSchemaPMutualExclAttrErr(pctxt,
XML_SCHEMAP_SRC_ATTRIBUTE_1,
NULL, attr, "default", "fixed");
} else {
defValue = xmlSchemaGetNodeContent(pctxt, (xmlNodePtr) attr);
defValueType = WXS_ATTR_DEF_VAL_FIXED;
}
goto attr_next;
}
} else if (! xmlStrEqual(attr->ns->href, xmlSchemaNs))
goto attr_next;
xmlSchemaPIllegalAttrErr(pctxt,
XML_SCHEMAP_S4S_ATTR_NOT_ALLOWED, NULL, attr);
attr_next:
attr = attr->next;
}
/*
* 3.2.3 : 2
* If default and use are both present, use must have
* the actual value optional.
*/
if ((defValueType == WXS_ATTR_DEF_VAL_DEFAULT) &&
(occurs != XML_SCHEMAS_ATTR_USE_OPTIONAL)) {
xmlSchemaPSimpleTypeErr(pctxt,
XML_SCHEMAP_SRC_ATTRIBUTE_2,
NULL, node, NULL,
"(optional | prohibited | required)", NULL,
"The value of the attribute 'use' must be 'optional' "
"if the attribute 'default' is present",
NULL, NULL);
}
/*
* We want correct attributes.
*/
if (nberrors != pctxt->nberrors)
return(NULL);
if (! isRef) {
xmlSchemaAttributePtr attrDecl;
/* TODO: move XML_SCHEMAS_QUALIF_ATTR to the parser. */
if ((! hasForm) && (schema->flags & XML_SCHEMAS_QUALIF_ATTR))
ns = pctxt->targetNamespace;
/*
* 3.2.6 Schema Component Constraint: xsi: Not Allowed
* TODO: Move this to the component layer.
*/
if (xmlStrEqual(ns, xmlSchemaInstanceNs)) {
xmlSchemaCustomErr(ACTXT_CAST pctxt,
XML_SCHEMAP_NO_XSI,
node, NULL,
"The target namespace must not match '%s'",
xmlSchemaInstanceNs, NULL);
}
attr = xmlSchemaGetPropNode(node, "name");
if (attr == NULL) {
xmlSchemaPMissingAttrErr(pctxt, XML_SCHEMAP_S4S_ATTR_MISSING,
NULL, node, "name", NULL);
return (NULL);
}
if (xmlSchemaPValAttrNode(pctxt, NULL, attr,
xmlSchemaGetBuiltInType(XML_SCHEMAS_NCNAME), &name) != 0) {
return (NULL);
}
/*
* 3.2.6 Schema Component Constraint: xmlns Not Allowed
* TODO: Move this to the component layer.
*/
if (xmlStrEqual(name, BAD_CAST "xmlns")) {
xmlSchemaPSimpleTypeErr(pctxt,
XML_SCHEMAP_NO_XMLNS,
NULL, (xmlNodePtr) attr,
xmlSchemaGetBuiltInType(XML_SCHEMAS_NCNAME), NULL, NULL,
"The value of the attribute must not match 'xmlns'",
NULL, NULL);
return (NULL);
}
if (occurs == XML_SCHEMAS_ATTR_USE_PROHIBITED)
goto check_children;
/*
* Create the attribute use component.
*/
use = xmlSchemaAddAttributeUse(pctxt, node);
if (use == NULL)
return(NULL);
use->occurs = occurs;
/*
* Create the attribute declaration.
*/
attrDecl = xmlSchemaAddAttribute(pctxt, schema, name, ns, node, 0);
if (attrDecl == NULL)
return (NULL);
if (tmpName != NULL) {
attrDecl->typeName = tmpName;
attrDecl->typeNs = tmpNs;
}
use->attrDecl = attrDecl;
/*
* Value constraint.
*/
if (defValue != NULL) {
attrDecl->defValue = defValue;
if (defValueType == WXS_ATTR_DEF_VAL_FIXED)
attrDecl->flags |= XML_SCHEMAS_ATTR_FIXED;
}
} else if (occurs != XML_SCHEMAS_ATTR_USE_PROHIBITED) {
xmlSchemaQNameRefPtr ref;
/*
* Create the attribute use component.
*/
use = xmlSchemaAddAttributeUse(pctxt, node);
if (use == NULL)
return(NULL);
/*
* We need to resolve the reference at later stage.
*/
WXS_ADD_PENDING(pctxt, use);
use->occurs = occurs;
/*
* Create a QName reference to the attribute declaration.
*/
ref = xmlSchemaNewQNameRef(pctxt, XML_SCHEMA_TYPE_ATTRIBUTE,
tmpName, tmpNs);
if (ref == NULL)
return(NULL);
/*
* Assign the reference. This will be substituted for the
* referenced attribute declaration when the QName is resolved.
*/
use->attrDecl = WXS_ATTR_CAST ref;
/*
* Value constraint.
*/
if (defValue != NULL)
use->defValue = defValue;
if (defValueType == WXS_ATTR_DEF_VAL_FIXED)
use->flags |= XML_SCHEMA_ATTR_USE_FIXED;
}
check_children:
/*
* And now for the children...
*/
child = node->children;
if (occurs == XML_SCHEMAS_ATTR_USE_PROHIBITED) {
xmlSchemaAttributeUseProhibPtr prohib;
if (IS_SCHEMA(child, "annotation")) {
xmlSchemaParseAnnotation(pctxt, child, 0);
child = child->next;
}
if (child != NULL) {
xmlSchemaPContentErr(pctxt,
XML_SCHEMAP_S4S_ELEM_NOT_ALLOWED,
NULL, node, child, NULL,
"(annotation?)");
}
/*
* Check for pointlessness of attribute prohibitions.
*/
if (parentType == XML_SCHEMA_TYPE_ATTRIBUTEGROUP) {
xmlSchemaCustomWarning(ACTXT_CAST pctxt,
XML_SCHEMAP_WARN_ATTR_POINTLESS_PROH,
node, NULL,
"Skipping attribute use prohibition, since it is "
"pointless inside an <attributeGroup>",
NULL, NULL, NULL);
return(NULL);
} else if (parentType == XML_SCHEMA_TYPE_EXTENSION) {
xmlSchemaCustomWarning(ACTXT_CAST pctxt,
XML_SCHEMAP_WARN_ATTR_POINTLESS_PROH,
node, NULL,
"Skipping attribute use prohibition, since it is "
"pointless when extending a type",
NULL, NULL, NULL);
return(NULL);
}
if (! isRef) {
tmpName = name;
tmpNs = ns;
}
/*
* Check for duplicate attribute prohibitions.
*/
if (uses) {
int i;
for (i = 0; i < uses->nbItems; i++) {
use = uses->items[i];
if ((use->type == XML_SCHEMA_EXTRA_ATTR_USE_PROHIB) &&
(tmpName == (WXS_ATTR_PROHIB_CAST use)->name) &&
(tmpNs == (WXS_ATTR_PROHIB_CAST use)->targetNamespace))
{
xmlChar *str = NULL;
xmlSchemaCustomWarning(ACTXT_CAST pctxt,
XML_SCHEMAP_WARN_ATTR_POINTLESS_PROH,
node, NULL,
"Skipping duplicate attribute use prohibition '%s'",
xmlSchemaFormatQName(&str, tmpNs, tmpName),
NULL, NULL);
FREE_AND_NULL(str)
return(NULL);
}
}
}
/*
* Create the attribute prohibition helper component.
*/
prohib = xmlSchemaAddAttributeUseProhib(pctxt);
if (prohib == NULL)
return(NULL);
prohib->node = node;
prohib->name = tmpName;
prohib->targetNamespace = tmpNs;
if (isRef) {
/*
* We need at least to resolve to the attribute declaration.
*/
WXS_ADD_PENDING(pctxt, prohib);
}
return(WXS_BASIC_CAST prohib);
} else {
if (IS_SCHEMA(child, "annotation")) {
/*
* TODO: Should this go into the attr decl?
*/
use->annot = xmlSchemaParseAnnotation(pctxt, child, 1);
child = child->next;
}
if (isRef) {
if (child != NULL) {
if (IS_SCHEMA(child, "simpleType"))
/*
* 3.2.3 : 3.2
* If ref is present, then all of <simpleType>,
* form and type must be absent.
*/
xmlSchemaPContentErr(pctxt,
XML_SCHEMAP_SRC_ATTRIBUTE_3_2,
NULL, node, child, NULL,
"(annotation?)");
else
xmlSchemaPContentErr(pctxt,
XML_SCHEMAP_S4S_ELEM_NOT_ALLOWED,
NULL, node, child, NULL,
"(annotation?)");
}
} else {
if (IS_SCHEMA(child, "simpleType")) {
if (WXS_ATTRUSE_DECL(use)->typeName != NULL) {
/*
* 3.2.3 : 4
* type and <simpleType> must not both be present.
*/
xmlSchemaPContentErr(pctxt, XML_SCHEMAP_SRC_ATTRIBUTE_4,
NULL, node, child,
"The attribute 'type' and the <simpleType> child "
"are mutually exclusive", NULL);
} else
WXS_ATTRUSE_TYPEDEF(use) =
xmlSchemaParseSimpleType(pctxt, schema, child, 0);
child = child->next;
}
if (child != NULL)
xmlSchemaPContentErr(pctxt, XML_SCHEMAP_S4S_ELEM_NOT_ALLOWED,
NULL, node, child, NULL,
"(annotation?, simpleType?)");
}
}
return (WXS_BASIC_CAST use);
}
static xmlSchemaAttributePtr
xmlSchemaParseGlobalAttribute(xmlSchemaParserCtxtPtr pctxt,
xmlSchemaPtr schema,
xmlNodePtr node)
{
const xmlChar *attrValue;
xmlSchemaAttributePtr ret;
xmlNodePtr child = NULL;
xmlAttrPtr attr;
/*
* Note that the w3c spec assumes the schema to be validated with schema
* for schemas beforehand.
*
* 3.2.3 Constraints on XML Representations of Attribute Declarations
*/
if ((pctxt == NULL) || (schema == NULL) || (node == NULL))
return (NULL);
/*
* 3.2.3 : 3.1
* One of ref or name must be present, but not both
*/
attr = xmlSchemaGetPropNode(node, "name");
if (attr == NULL) {
xmlSchemaPMissingAttrErr(pctxt, XML_SCHEMAP_S4S_ATTR_MISSING,
NULL, node, "name", NULL);
return (NULL);
}
if (xmlSchemaPValAttrNode(pctxt, NULL, attr,
xmlSchemaGetBuiltInType(XML_SCHEMAS_NCNAME), &attrValue) != 0) {
return (NULL);
}
/*
* 3.2.6 Schema Component Constraint: xmlns Not Allowed
* TODO: Move this to the component layer.
*/
if (xmlStrEqual(attrValue, BAD_CAST "xmlns")) {
xmlSchemaPSimpleTypeErr(pctxt,
XML_SCHEMAP_NO_XMLNS,
NULL, (xmlNodePtr) attr,
xmlSchemaGetBuiltInType(XML_SCHEMAS_NCNAME), NULL, NULL,
"The value of the attribute must not match 'xmlns'",
NULL, NULL);
return (NULL);
}
/*
* 3.2.6 Schema Component Constraint: xsi: Not Allowed
* TODO: Move this to the component layer.
* Or better leave it here and add it to the component layer
* if we have a schema construction API.
*/
if (xmlStrEqual(pctxt->targetNamespace, xmlSchemaInstanceNs)) {
xmlSchemaCustomErr(ACTXT_CAST pctxt,
XML_SCHEMAP_NO_XSI, node, NULL,
"The target namespace must not match '%s'",
xmlSchemaInstanceNs, NULL);
}
ret = xmlSchemaAddAttribute(pctxt, schema, attrValue,
pctxt->targetNamespace, node, 1);
if (ret == NULL)
return (NULL);
ret->flags |= XML_SCHEMAS_ATTR_GLOBAL;
/*
* Check for illegal attributes.
*/
attr = node->properties;
while (attr != NULL) {
if (attr->ns == NULL) {
if ((!xmlStrEqual(attr->name, BAD_CAST "id")) &&
(!xmlStrEqual(attr->name, BAD_CAST "default")) &&
(!xmlStrEqual(attr->name, BAD_CAST "fixed")) &&
(!xmlStrEqual(attr->name, BAD_CAST "name")) &&
(!xmlStrEqual(attr->name, BAD_CAST "type")))
{
xmlSchemaPIllegalAttrErr(pctxt,
XML_SCHEMAP_S4S_ATTR_NOT_ALLOWED, NULL, attr);
}
} else if (xmlStrEqual(attr->ns->href, xmlSchemaNs)) {
xmlSchemaPIllegalAttrErr(pctxt,
XML_SCHEMAP_S4S_ATTR_NOT_ALLOWED, NULL, attr);
}
attr = attr->next;
}
xmlSchemaPValAttrQName(pctxt, schema, NULL,
node, "type", &ret->typeNs, &ret->typeName);
xmlSchemaPValAttrID(pctxt, node, BAD_CAST "id");
/*
* Attribute "fixed".
*/
ret->defValue = xmlSchemaGetProp(pctxt, node, "fixed");
if (ret->defValue != NULL)
ret->flags |= XML_SCHEMAS_ATTR_FIXED;
/*
* Attribute "default".
*/
attr = xmlSchemaGetPropNode(node, "default");
if (attr != NULL) {
/*
* 3.2.3 : 1
* default and fixed must not both be present.
*/
if (ret->flags & XML_SCHEMAS_ATTR_FIXED) {
xmlSchemaPMutualExclAttrErr(pctxt, XML_SCHEMAP_SRC_ATTRIBUTE_1,
WXS_BASIC_CAST ret, attr, "default", "fixed");
} else
ret->defValue = xmlSchemaGetNodeContent(pctxt, (xmlNodePtr) attr);
}
/*
* And now for the children...
*/
child = node->children;
if (IS_SCHEMA(child, "annotation")) {
ret->annot = xmlSchemaParseAnnotation(pctxt, child, 1);
child = child->next;
}
if (IS_SCHEMA(child, "simpleType")) {
if (ret->typeName != NULL) {
/*
* 3.2.3 : 4
* type and <simpleType> must not both be present.
*/
xmlSchemaPContentErr(pctxt, XML_SCHEMAP_SRC_ATTRIBUTE_4,
NULL, node, child,
"The attribute 'type' and the <simpleType> child "
"are mutually exclusive", NULL);
} else
ret->subtypes = xmlSchemaParseSimpleType(pctxt, schema, child, 0);
child = child->next;
}
if (child != NULL)
xmlSchemaPContentErr(pctxt, XML_SCHEMAP_S4S_ELEM_NOT_ALLOWED,
NULL, node, child, NULL,
"(annotation?, simpleType?)");
return (ret);
}
/**
* xmlSchemaParseAttributeGroupRef:
* @ctxt: a schema validation context
* @schema: the schema being built
* @node: a subtree containing XML Schema informations
*
* Parse an attribute group definition reference.
* Note that a reference to an attribute group does not
* correspond to any component at all.
* *WARNING* this interface is highly subject to change
*
* Returns the attribute group or NULL in case of error.
*/
static xmlSchemaQNameRefPtr
xmlSchemaParseAttributeGroupRef(xmlSchemaParserCtxtPtr pctxt,
xmlSchemaPtr schema,
xmlNodePtr node)
{
xmlSchemaQNameRefPtr ret;
xmlNodePtr child = NULL;
xmlAttrPtr attr;
const xmlChar *refNs = NULL, *ref = NULL;
if ((pctxt == NULL) || (schema == NULL) || (node == NULL))
return (NULL);
attr = xmlSchemaGetPropNode(node, "ref");
if (attr == NULL) {
xmlSchemaPMissingAttrErr(pctxt,
XML_SCHEMAP_S4S_ATTR_MISSING,
NULL, node, "ref", NULL);
return (NULL);
}
xmlSchemaPValAttrNodeQName(pctxt, schema,
NULL, attr, &refNs, &ref);
if (xmlSchemaCheckReference(pctxt, schema, node, attr, refNs) != 0)
return(NULL);
/*
* Check for illegal attributes.
*/
attr = node->properties;
while (attr != NULL) {
if (attr->ns == NULL) {
if ((!xmlStrEqual(attr->name, BAD_CAST "ref")) &&
(!xmlStrEqual(attr->name, BAD_CAST "id")))
{
xmlSchemaPIllegalAttrErr(pctxt,
XML_SCHEMAP_S4S_ATTR_NOT_ALLOWED, NULL, attr);
}
} else if (xmlStrEqual(attr->ns->href, xmlSchemaNs)) {
xmlSchemaPIllegalAttrErr(pctxt,
XML_SCHEMAP_S4S_ATTR_NOT_ALLOWED, NULL, attr);
}
attr = attr->next;
}
/* Attribute ID */
xmlSchemaPValAttrID(pctxt, node, BAD_CAST "id");
/*
* And now for the children...
*/
child = node->children;
if (IS_SCHEMA(child, "annotation")) {
/*
* TODO: We do not have a place to store the annotation, do we?
*/
xmlSchemaParseAnnotation(pctxt, child, 0);
child = child->next;
}
if (child != NULL) {
xmlSchemaPContentErr(pctxt,
XML_SCHEMAP_S4S_ELEM_NOT_ALLOWED,
NULL, node, child, NULL,
"(annotation?)");
}
/*
* Handle attribute group redefinitions.
*/
if (pctxt->isRedefine && pctxt->redef &&
(pctxt->redef->item->type ==
XML_SCHEMA_TYPE_ATTRIBUTEGROUP) &&
(ref == pctxt->redef->refName) &&
(refNs == pctxt->redef->refTargetNs))
{
/*
* SPEC src-redefine:
* (7.1) "If it has an <attributeGroup> among its contents
* the `actual value` of whose ref [attribute] is the same
* as the `actual value` of its own name attribute plus
* target namespace, then it must have exactly one such group."
*/
if (pctxt->redefCounter != 0) {
xmlChar *str = NULL;
xmlSchemaCustomErr(ACTXT_CAST pctxt,
XML_SCHEMAP_SRC_REDEFINE, node, NULL,
"The redefining attribute group definition "
"'%s' must not contain more than one "
"reference to the redefined definition",
xmlSchemaFormatQName(&str, refNs, ref), NULL);
FREE_AND_NULL(str);
return(NULL);
}
pctxt->redefCounter++;
/*
* URGENT TODO: How to ensure that the reference will not be
* handled by the normal component resolution mechanism?
*/
ret = xmlSchemaNewQNameRef(pctxt,
XML_SCHEMA_TYPE_ATTRIBUTEGROUP, ref, refNs);
if (ret == NULL)
return(NULL);
ret->node = node;
pctxt->redef->reference = WXS_BASIC_CAST ret;
} else {
/*
* Create a QName-reference helper component. We will substitute this
* component for the attribute uses of the referenced attribute group
* definition.
*/
ret = xmlSchemaNewQNameRef(pctxt,
XML_SCHEMA_TYPE_ATTRIBUTEGROUP, ref, refNs);
if (ret == NULL)
return(NULL);
ret->node = node;
/* Add to pending items, to be able to resolve the reference. */
WXS_ADD_PENDING(pctxt, ret);
}
return (ret);
}
/**
* xmlSchemaParseAttributeGroupDefinition:
* @pctxt: a schema validation context
* @schema: the schema being built
* @node: a subtree containing XML Schema informations
*
* parse a XML schema Attribute Group declaration
* *WARNING* this interface is highly subject to change
*
* Returns the attribute group definition or NULL in case of error.
*/
static xmlSchemaAttributeGroupPtr
xmlSchemaParseAttributeGroupDefinition(xmlSchemaParserCtxtPtr pctxt,
xmlSchemaPtr schema,
xmlNodePtr node)
{
const xmlChar *name;
xmlSchemaAttributeGroupPtr ret;
xmlNodePtr child = NULL;
xmlAttrPtr attr;
int hasRefs = 0;
if ((pctxt == NULL) || (schema == NULL) || (node == NULL))
return (NULL);
attr = xmlSchemaGetPropNode(node, "name");
if (attr == NULL) {
xmlSchemaPMissingAttrErr(pctxt,
XML_SCHEMAP_S4S_ATTR_MISSING,
NULL, node, "name", NULL);
return (NULL);
}
/*
* The name is crucial, exit if invalid.
*/
if (xmlSchemaPValAttrNode(pctxt,
NULL, attr,
xmlSchemaGetBuiltInType(XML_SCHEMAS_NCNAME), &name) != 0) {
return (NULL);
}
ret = xmlSchemaAddAttributeGroupDefinition(pctxt, schema,
name, pctxt->targetNamespace, node);
if (ret == NULL)
return (NULL);
/*
* Check for illegal attributes.
*/
attr = node->properties;
while (attr != NULL) {
if (attr->ns == NULL) {
if ((!xmlStrEqual(attr->name, BAD_CAST "name")) &&
(!xmlStrEqual(attr->name, BAD_CAST "id")))
{
xmlSchemaPIllegalAttrErr(pctxt,
XML_SCHEMAP_S4S_ATTR_NOT_ALLOWED, NULL, attr);
}
} else if (xmlStrEqual(attr->ns->href, xmlSchemaNs)) {
xmlSchemaPIllegalAttrErr(pctxt,
XML_SCHEMAP_S4S_ATTR_NOT_ALLOWED, NULL, attr);
}
attr = attr->next;
}
/* Attribute ID */
xmlSchemaPValAttrID(pctxt, node, BAD_CAST "id");
/*
* And now for the children...
*/
child = node->children;
if (IS_SCHEMA(child, "annotation")) {
ret->annot = xmlSchemaParseAnnotation(pctxt, child, 1);
child = child->next;
}
/*
* Parse contained attribute decls/refs.
*/
if (xmlSchemaParseLocalAttributes(pctxt, schema, &child,
(xmlSchemaItemListPtr *) &(ret->attrUses),
XML_SCHEMA_TYPE_ATTRIBUTEGROUP, &hasRefs) == -1)
return(NULL);
if (hasRefs)
ret->flags |= XML_SCHEMAS_ATTRGROUP_HAS_REFS;
/*
* Parse the attribute wildcard.
*/
if (IS_SCHEMA(child, "anyAttribute")) {
ret->attributeWildcard = xmlSchemaParseAnyAttribute(pctxt,
schema, child);
child = child->next;
}
if (child != NULL) {
xmlSchemaPContentErr(pctxt,
XML_SCHEMAP_S4S_ELEM_NOT_ALLOWED,
NULL, node, child, NULL,
"(annotation?, ((attribute | attributeGroup)*, anyAttribute?))");
}
return (ret);
}
/**
* xmlSchemaPValAttrFormDefault:
* @value: the value
* @flags: the flags to be modified
* @flagQualified: the specific flag for "qualified"
*
* Returns 0 if the value is valid, 1 otherwise.
*/
static int
xmlSchemaPValAttrFormDefault(const xmlChar *value,
int *flags,
int flagQualified)
{
if (xmlStrEqual(value, BAD_CAST "qualified")) {
if ((*flags & flagQualified) == 0)
*flags |= flagQualified;
} else if (!xmlStrEqual(value, BAD_CAST "unqualified"))
return (1);
return (0);
}
/**
* xmlSchemaPValAttrBlockFinal:
* @value: the value
* @flags: the flags to be modified
* @flagAll: the specific flag for "#all"
* @flagExtension: the specific flag for "extension"
* @flagRestriction: the specific flag for "restriction"
* @flagSubstitution: the specific flag for "substitution"
* @flagList: the specific flag for "list"
* @flagUnion: the specific flag for "union"
*
* Validates the value of the attribute "final" and "block". The value
* is converted into the specified flag values and returned in @flags.
*
* Returns 0 if the value is valid, 1 otherwise.
*/
static int
xmlSchemaPValAttrBlockFinal(const xmlChar *value,
int *flags,
int flagAll,
int flagExtension,
int flagRestriction,
int flagSubstitution,
int flagList,
int flagUnion)
{
int ret = 0;
/*
* TODO: This does not check for dublicate entries.
*/
if ((flags == NULL) || (value == NULL))
return (-1);
if (value[0] == 0)
return (0);
if (xmlStrEqual(value, BAD_CAST "#all")) {
if (flagAll != -1)
*flags |= flagAll;
else {
if (flagExtension != -1)
*flags |= flagExtension;
if (flagRestriction != -1)
*flags |= flagRestriction;
if (flagSubstitution != -1)
*flags |= flagSubstitution;
if (flagList != -1)
*flags |= flagList;
if (flagUnion != -1)
*flags |= flagUnion;
}
} else {
const xmlChar *end, *cur = value;
xmlChar *item;
do {
while (IS_BLANK_CH(*cur))
cur++;
end = cur;
while ((*end != 0) && (!(IS_BLANK_CH(*end))))
end++;
if (end == cur)
break;
item = xmlStrndup(cur, end - cur);
if (xmlStrEqual(item, BAD_CAST "extension")) {
if (flagExtension != -1) {
if ((*flags & flagExtension) == 0)
*flags |= flagExtension;
} else
ret = 1;
} else if (xmlStrEqual(item, BAD_CAST "restriction")) {
if (flagRestriction != -1) {
if ((*flags & flagRestriction) == 0)
*flags |= flagRestriction;
} else
ret = 1;
} else if (xmlStrEqual(item, BAD_CAST "substitution")) {
if (flagSubstitution != -1) {
if ((*flags & flagSubstitution) == 0)
*flags |= flagSubstitution;
} else
ret = 1;
} else if (xmlStrEqual(item, BAD_CAST "list")) {
if (flagList != -1) {
if ((*flags & flagList) == 0)
*flags |= flagList;
} else
ret = 1;
} else if (xmlStrEqual(item, BAD_CAST "union")) {
if (flagUnion != -1) {
if ((*flags & flagUnion) == 0)
*flags |= flagUnion;
} else
ret = 1;
} else
ret = 1;
if (item != NULL)
xmlFree(item);
cur = end;
} while ((ret == 0) && (*cur != 0));
}
return (ret);
}
static int
xmlSchemaCheckCSelectorXPath(xmlSchemaParserCtxtPtr ctxt,
xmlSchemaIDCPtr idc,
xmlSchemaIDCSelectPtr selector,
xmlAttrPtr attr,
int isField)
{
xmlNodePtr node;
/*
* c-selector-xpath:
* Schema Component Constraint: Selector Value OK
*
* TODO: 1 The {selector} must be a valid XPath expression, as defined
* in [XPath].
*/
if (selector == NULL) {
xmlSchemaPErr(ctxt, idc->node,
XML_SCHEMAP_INTERNAL,
"Internal error: xmlSchemaCheckCSelectorXPath, "
"the selector is not specified.\n", NULL, NULL);
return (-1);
}
if (attr == NULL)
node = idc->node;
else
node = (xmlNodePtr) attr;
if (selector->xpath == NULL) {
xmlSchemaPCustomErr(ctxt,
/* TODO: Adjust error code. */
XML_SCHEMAP_S4S_ATTR_INVALID_VALUE,
NULL, node,
"The XPath expression of the selector is not valid", NULL);
return (XML_SCHEMAP_S4S_ATTR_INVALID_VALUE);
} else {
const xmlChar **nsArray = NULL;
xmlNsPtr *nsList = NULL;
/*
* Compile the XPath expression.
*/
/*
* TODO: We need the array of in-scope namespaces for compilation.
* TODO: Call xmlPatterncompile with different options for selector/
* field.
*/
if (attr == NULL)
nsList = NULL;
else
nsList = xmlGetNsList(attr->doc, attr->parent);
/*
* Build an array of prefixes and namespaces.
*/
if (nsList != NULL) {
int i, count = 0;
for (i = 0; nsList[i] != NULL; i++)
count++;
nsArray = (const xmlChar **) xmlMalloc(
(count * 2 + 1) * sizeof(const xmlChar *));
if (nsArray == NULL) {
xmlSchemaPErrMemory(ctxt, "allocating a namespace array",
NULL);
xmlFree(nsList);
return (-1);
}
for (i = 0; i < count; i++) {
nsArray[2 * i] = nsList[i]->href;
nsArray[2 * i + 1] = nsList[i]->prefix;
}
nsArray[count * 2] = NULL;
xmlFree(nsList);
}
/*
* TODO: Differentiate between "selector" and "field".
*/
if (isField)
selector->xpathComp = (void *) xmlPatterncompile(selector->xpath,
NULL, XML_PATTERN_XSFIELD, nsArray);
else
selector->xpathComp = (void *) xmlPatterncompile(selector->xpath,
NULL, XML_PATTERN_XSSEL, nsArray);
if (nsArray != NULL)
xmlFree((xmlChar **) nsArray);
if (selector->xpathComp == NULL) {
xmlSchemaPCustomErr(ctxt,
/* TODO: Adjust error code? */
XML_SCHEMAP_S4S_ATTR_INVALID_VALUE,
NULL, node,
"The XPath expression '%s' could not be "
"compiled", selector->xpath);
return (XML_SCHEMAP_S4S_ATTR_INVALID_VALUE);
}
}
return (0);
}
#define ADD_ANNOTATION(annot) \
xmlSchemaAnnotPtr cur = item->annot; \
if (item->annot == NULL) { \
item->annot = annot; \
return (annot); \
} \
cur = item->annot; \
if (cur->next != NULL) { \
cur = cur->next; \
} \
cur->next = annot;
/**
* xmlSchemaAssignAnnotation:
* @item: the schema component
* @annot: the annotation
*
* Adds the annotation to the given schema component.
*
* Returns the given annotaion.
*/
static xmlSchemaAnnotPtr
xmlSchemaAddAnnotation(xmlSchemaAnnotItemPtr annItem,
xmlSchemaAnnotPtr annot)
{
if ((annItem == NULL) || (annot == NULL))
return (NULL);
switch (annItem->type) {
case XML_SCHEMA_TYPE_ELEMENT: {
xmlSchemaElementPtr item = (xmlSchemaElementPtr) annItem;
ADD_ANNOTATION(annot)
}
break;
case XML_SCHEMA_TYPE_ATTRIBUTE: {
xmlSchemaAttributePtr item = (xmlSchemaAttributePtr) annItem;
ADD_ANNOTATION(annot)
}
break;
case XML_SCHEMA_TYPE_ANY_ATTRIBUTE:
case XML_SCHEMA_TYPE_ANY: {
xmlSchemaWildcardPtr item = (xmlSchemaWildcardPtr) annItem;
ADD_ANNOTATION(annot)
}
break;
case XML_SCHEMA_TYPE_PARTICLE:
case XML_SCHEMA_TYPE_IDC_KEY:
case XML_SCHEMA_TYPE_IDC_KEYREF:
case XML_SCHEMA_TYPE_IDC_UNIQUE: {
xmlSchemaAnnotItemPtr item = (xmlSchemaAnnotItemPtr) annItem;
ADD_ANNOTATION(annot)
}
break;
case XML_SCHEMA_TYPE_ATTRIBUTEGROUP: {
xmlSchemaAttributeGroupPtr item =
(xmlSchemaAttributeGroupPtr) annItem;
ADD_ANNOTATION(annot)
}
break;
case XML_SCHEMA_TYPE_NOTATION: {
xmlSchemaNotationPtr item = (xmlSchemaNotationPtr) annItem;
ADD_ANNOTATION(annot)
}
break;
case XML_SCHEMA_FACET_MININCLUSIVE:
case XML_SCHEMA_FACET_MINEXCLUSIVE:
case XML_SCHEMA_FACET_MAXINCLUSIVE:
case XML_SCHEMA_FACET_MAXEXCLUSIVE:
case XML_SCHEMA_FACET_TOTALDIGITS:
case XML_SCHEMA_FACET_FRACTIONDIGITS:
case XML_SCHEMA_FACET_PATTERN:
case XML_SCHEMA_FACET_ENUMERATION:
case XML_SCHEMA_FACET_WHITESPACE:
case XML_SCHEMA_FACET_LENGTH:
case XML_SCHEMA_FACET_MAXLENGTH:
case XML_SCHEMA_FACET_MINLENGTH: {
xmlSchemaFacetPtr item = (xmlSchemaFacetPtr) annItem;
ADD_ANNOTATION(annot)
}
break;
case XML_SCHEMA_TYPE_SIMPLE:
case XML_SCHEMA_TYPE_COMPLEX: {
xmlSchemaTypePtr item = (xmlSchemaTypePtr) annItem;
ADD_ANNOTATION(annot)
}
break;
case XML_SCHEMA_TYPE_GROUP: {
xmlSchemaModelGroupDefPtr item = (xmlSchemaModelGroupDefPtr) annItem;
ADD_ANNOTATION(annot)
}
break;
case XML_SCHEMA_TYPE_SEQUENCE:
case XML_SCHEMA_TYPE_CHOICE:
case XML_SCHEMA_TYPE_ALL: {
xmlSchemaModelGroupPtr item = (xmlSchemaModelGroupPtr) annItem;
ADD_ANNOTATION(annot)
}
break;
default:
xmlSchemaPCustomErr(NULL,
XML_SCHEMAP_INTERNAL,
NULL, NULL,
"Internal error: xmlSchemaAddAnnotation, "
"The item is not a annotated schema component", NULL);
break;
}
return (annot);
}
/**
* xmlSchemaParseIDCSelectorAndField:
* @ctxt: a schema validation context
* @schema: the schema being built
* @node: a subtree containing XML Schema informations
*
* Parses a XML Schema identity-contraint definition's
* <selector> and <field> elements.
*
* Returns the parsed identity-constraint definition.
*/
static xmlSchemaIDCSelectPtr
xmlSchemaParseIDCSelectorAndField(xmlSchemaParserCtxtPtr ctxt,
xmlSchemaIDCPtr idc,
xmlNodePtr node,
int isField)
{
xmlSchemaIDCSelectPtr item;
xmlNodePtr child = NULL;
xmlAttrPtr attr;
/*
* Check for illegal attributes.
*/
attr = node->properties;
while (attr != NULL) {
if (attr->ns == NULL) {
if ((!xmlStrEqual(attr->name, BAD_CAST "id")) &&
(!xmlStrEqual(attr->name, BAD_CAST "xpath"))) {
xmlSchemaPIllegalAttrErr(ctxt,
XML_SCHEMAP_S4S_ATTR_NOT_ALLOWED, NULL, attr);
}
} else if (xmlStrEqual(attr->ns->href, xmlSchemaNs)) {
xmlSchemaPIllegalAttrErr(ctxt,
XML_SCHEMAP_S4S_ATTR_NOT_ALLOWED, NULL, attr);
}
attr = attr->next;
}
/*
* Create the item.
*/
item = (xmlSchemaIDCSelectPtr) xmlMalloc(sizeof(xmlSchemaIDCSelect));
if (item == NULL) {
xmlSchemaPErrMemory(ctxt,
"allocating a 'selector' of an identity-constraint definition",
NULL);
return (NULL);
}
XML_MEMSET(item, 0, sizeof(xmlSchemaIDCSelect));
/*
* Attribute "xpath" (mandatory).
*/
attr = xmlSchemaGetPropNode(node, "xpath");
if (attr == NULL) {
xmlSchemaPMissingAttrErr(ctxt,
XML_SCHEMAP_S4S_ATTR_MISSING,
NULL, node,
"name", NULL);
} else {
item->xpath = xmlSchemaGetNodeContent(ctxt, (xmlNodePtr) attr);
/*
* URGENT TODO: "field"s have an other syntax than "selector"s.
*/
if (xmlSchemaCheckCSelectorXPath(ctxt, idc, item, attr,
isField) == -1) {
xmlSchemaPErr(ctxt,
(xmlNodePtr) attr,
XML_SCHEMAP_INTERNAL,
"Internal error: xmlSchemaParseIDCSelectorAndField, "
"validating the XPath expression of a IDC selector.\n",
NULL, NULL);
}
}
xmlSchemaPValAttrID(ctxt, node, BAD_CAST "id");
/*
* And now for the children...
*/
child = node->children;
if (IS_SCHEMA(child, "annotation")) {
/*
* Add the annotation to the parent IDC.
*/
xmlSchemaAddAnnotation((xmlSchemaAnnotItemPtr) idc,
xmlSchemaParseAnnotation(ctxt, child, 1));
child = child->next;
}
if (child != NULL) {
xmlSchemaPContentErr(ctxt,
XML_SCHEMAP_S4S_ELEM_NOT_ALLOWED,
NULL, node, child,
NULL, "(annotation?)");
}
return (item);
}
/**
* xmlSchemaParseIDC:
* @ctxt: a schema validation context
* @schema: the schema being built
* @node: a subtree containing XML Schema informations
*
* Parses a XML Schema identity-contraint definition.
*
* Returns the parsed identity-constraint definition.
*/
static xmlSchemaIDCPtr
xmlSchemaParseIDC(xmlSchemaParserCtxtPtr ctxt,
xmlSchemaPtr schema,
xmlNodePtr node,
xmlSchemaTypeType idcCategory,
const xmlChar *targetNamespace)
{
xmlSchemaIDCPtr item = NULL;
xmlNodePtr child = NULL;
xmlAttrPtr attr;
const xmlChar *name = NULL;
xmlSchemaIDCSelectPtr field = NULL, lastField = NULL;
/*
* Check for illegal attributes.
*/
attr = node->properties;
while (attr != NULL) {
if (attr->ns == NULL) {
if ((!xmlStrEqual(attr->name, BAD_CAST "id")) &&
(!xmlStrEqual(attr->name, BAD_CAST "name")) &&
((idcCategory != XML_SCHEMA_TYPE_IDC_KEYREF) ||
(!xmlStrEqual(attr->name, BAD_CAST "refer")))) {
xmlSchemaPIllegalAttrErr(ctxt,
XML_SCHEMAP_S4S_ATTR_NOT_ALLOWED, NULL, attr);
}
} else if (xmlStrEqual(attr->ns->href, xmlSchemaNs)) {
xmlSchemaPIllegalAttrErr(ctxt,
XML_SCHEMAP_S4S_ATTR_NOT_ALLOWED, NULL, attr);
}
attr = attr->next;
}
/*
* Attribute "name" (mandatory).
*/
attr = xmlSchemaGetPropNode(node, "name");
if (attr == NULL) {
xmlSchemaPMissingAttrErr(ctxt,
XML_SCHEMAP_S4S_ATTR_MISSING,
NULL, node,
"name", NULL);
return (NULL);
} else if (xmlSchemaPValAttrNode(ctxt,
NULL, attr,
xmlSchemaGetBuiltInType(XML_SCHEMAS_NCNAME), &name) != 0) {
return (NULL);
}
/* Create the component. */
item = xmlSchemaAddIDC(ctxt, schema, name, targetNamespace,
idcCategory, node);
if (item == NULL)
return(NULL);
xmlSchemaPValAttrID(ctxt, node, BAD_CAST "id");
if (idcCategory == XML_SCHEMA_TYPE_IDC_KEYREF) {
/*
* Attribute "refer" (mandatory).
*/
attr = xmlSchemaGetPropNode(node, "refer");
if (attr == NULL) {
xmlSchemaPMissingAttrErr(ctxt,
XML_SCHEMAP_S4S_ATTR_MISSING,
NULL, node,
"refer", NULL);
} else {
/*
* Create a reference item.
*/
item->ref = xmlSchemaNewQNameRef(ctxt, XML_SCHEMA_TYPE_IDC_KEY,
NULL, NULL);
if (item->ref == NULL)
return (NULL);
xmlSchemaPValAttrNodeQName(ctxt, schema,
NULL, attr,
&(item->ref->targetNamespace),
&(item->ref->name));
xmlSchemaCheckReference(ctxt, schema, node, attr,
item->ref->targetNamespace);
}
}
/*
* And now for the children...
*/
child = node->children;
if (IS_SCHEMA(child, "annotation")) {
item->annot = xmlSchemaParseAnnotation(ctxt, child, 1);
child = child->next;
}
if (child == NULL) {
xmlSchemaPContentErr(ctxt,
XML_SCHEMAP_S4S_ELEM_MISSING,
NULL, node, child,
"A child element is missing",
"(annotation?, (selector, field+))");
}
/*
* Child element <selector>.
*/
if (IS_SCHEMA(child, "selector")) {
item->selector = xmlSchemaParseIDCSelectorAndField(ctxt,
item, child, 0);
child = child->next;
/*
* Child elements <field>.
*/
if (IS_SCHEMA(child, "field")) {
do {
field = xmlSchemaParseIDCSelectorAndField(ctxt,
item, child, 1);
if (field != NULL) {
field->index = item->nbFields;
item->nbFields++;
if (lastField != NULL)
lastField->next = field;
else
item->fields = field;
lastField = field;
}
child = child->next;
} while (IS_SCHEMA(child, "field"));
} else {
xmlSchemaPContentErr(ctxt,
XML_SCHEMAP_S4S_ELEM_NOT_ALLOWED,
NULL, node, child,
NULL, "(annotation?, (selector, field+))");
}
}
if (child != NULL) {
xmlSchemaPContentErr(ctxt,
XML_SCHEMAP_S4S_ELEM_NOT_ALLOWED,
NULL, node, child,
NULL, "(annotation?, (selector, field+))");
}
return (item);
}
/**
* xmlSchemaParseElement:
* @ctxt: a schema validation context
* @schema: the schema being built
* @node: a subtree containing XML Schema informations
* @topLevel: indicates if this is global declaration
*
* Parses a XML schema element declaration.
* *WARNING* this interface is highly subject to change
*
* Returns the element declaration or a particle; NULL in case
* of an error or if the particle has minOccurs==maxOccurs==0.
*/
static xmlSchemaBasicItemPtr
xmlSchemaParseElement(xmlSchemaParserCtxtPtr ctxt, xmlSchemaPtr schema,
xmlNodePtr node, int *isElemRef, int topLevel)
{
xmlSchemaElementPtr decl = NULL;
xmlSchemaParticlePtr particle = NULL;
xmlSchemaAnnotPtr annot = NULL;
xmlNodePtr child = NULL;
xmlAttrPtr attr, nameAttr;
int min, max, isRef = 0;
xmlChar *des = NULL;
/* 3.3.3 Constraints on XML Representations of Element Declarations */
/* TODO: Complete implementation of 3.3.6 */
if ((ctxt == NULL) || (schema == NULL) || (node == NULL))
return (NULL);
if (isElemRef != NULL)
*isElemRef = 0;
/*
* If we get a "ref" attribute on a local <element> we will assume it's
* a reference - even if there's a "name" attribute; this seems to be more
* robust.
*/
nameAttr = xmlSchemaGetPropNode(node, "name");
attr = xmlSchemaGetPropNode(node, "ref");
if ((topLevel) || (attr == NULL)) {
if (nameAttr == NULL) {
xmlSchemaPMissingAttrErr(ctxt,
XML_SCHEMAP_S4S_ATTR_MISSING,
NULL, node, "name", NULL);
return (NULL);
}
} else
isRef = 1;
xmlSchemaPValAttrID(ctxt, node, BAD_CAST "id");
child = node->children;
if (IS_SCHEMA(child, "annotation")) {
annot = xmlSchemaParseAnnotation(ctxt, child, 1);
child = child->next;
}
/*
* Skip particle part if a global declaration.
*/
if (topLevel)
goto declaration_part;
/*
* The particle part ==================================================
*/
min = xmlGetMinOccurs(ctxt, node, 0, -1, 1, "xs:nonNegativeInteger");
max = xmlGetMaxOccurs(ctxt, node, 0, UNBOUNDED, 1, "(xs:nonNegativeInteger | unbounded)");
xmlSchemaPCheckParticleCorrect_2(ctxt, NULL, node, min, max);
particle = xmlSchemaAddParticle(ctxt, node, min, max);
if (particle == NULL)
goto return_null;
/* ret->flags |= XML_SCHEMAS_ELEM_REF; */
if (isRef) {
const xmlChar *refNs = NULL, *ref = NULL;
xmlSchemaQNameRefPtr refer = NULL;
/*
* The reference part =============================================
*/
if (isElemRef != NULL)
*isElemRef = 1;
xmlSchemaPValAttrNodeQName(ctxt, schema,
NULL, attr, &refNs, &ref);
xmlSchemaCheckReference(ctxt, schema, node, attr, refNs);
/*
* SPEC (3.3.3 : 2.1) "One of ref or name must be present, but not both"
*/
if (nameAttr != NULL) {
xmlSchemaPMutualExclAttrErr(ctxt,
XML_SCHEMAP_SRC_ELEMENT_2_1, NULL, nameAttr, "ref", "name");
}
/*
* Check for illegal attributes.
*/
attr = node->properties;
while (attr != NULL) {
if (attr->ns == NULL) {
if (xmlStrEqual(attr->name, BAD_CAST "ref") ||
xmlStrEqual(attr->name, BAD_CAST "name") ||
xmlStrEqual(attr->name, BAD_CAST "id") ||
xmlStrEqual(attr->name, BAD_CAST "maxOccurs") ||
xmlStrEqual(attr->name, BAD_CAST "minOccurs"))
{
attr = attr->next;
continue;
} else {
/* SPEC (3.3.3 : 2.2) */
xmlSchemaPCustomAttrErr(ctxt,
XML_SCHEMAP_SRC_ELEMENT_2_2,
NULL, NULL, attr,
"Only the attributes 'minOccurs', 'maxOccurs' and "
"'id' are allowed in addition to 'ref'");
break;
}
} else if (xmlStrEqual(attr->ns->href, xmlSchemaNs)) {
xmlSchemaPIllegalAttrErr(ctxt,
XML_SCHEMAP_S4S_ATTR_NOT_ALLOWED, NULL, attr);
}
attr = attr->next;
}
/*
* No children except <annotation> expected.
*/
if (child != NULL) {
xmlSchemaPContentErr(ctxt, XML_SCHEMAP_S4S_ELEM_NOT_ALLOWED,
NULL, node, child, NULL, "(annotation?)");
}
if ((min == 0) && (max == 0))
goto return_null;
/*
* Create the reference item and attach it to the particle.
*/
refer = xmlSchemaNewQNameRef(ctxt, XML_SCHEMA_TYPE_ELEMENT,
ref, refNs);
if (refer == NULL)
goto return_null;
particle->children = (xmlSchemaTreeItemPtr) refer;
particle->annot = annot;
/*
* Add the particle to pending components, since the reference
* need to be resolved.
*/
WXS_ADD_PENDING(ctxt, particle);
return ((xmlSchemaBasicItemPtr) particle);
}
/*
* The declaration part ===============================================
*/
declaration_part:
{
const xmlChar *ns = NULL, *fixed, *name, *attrValue;
xmlSchemaIDCPtr curIDC = NULL, lastIDC = NULL;
if (xmlSchemaPValAttrNode(ctxt, NULL, nameAttr,
xmlSchemaGetBuiltInType(XML_SCHEMAS_NCNAME), &name) != 0)
goto return_null;
/*
* Evaluate the target namespace.
*/
if (topLevel) {
ns = ctxt->targetNamespace;
} else {
attr = xmlSchemaGetPropNode(node, "form");
if (attr != NULL) {
attrValue = xmlSchemaGetNodeContent(ctxt, (xmlNodePtr) attr);
if (xmlStrEqual(attrValue, BAD_CAST "qualified")) {
ns = ctxt->targetNamespace;
} else if (!xmlStrEqual(attrValue, BAD_CAST "unqualified")) {
xmlSchemaPSimpleTypeErr(ctxt,
XML_SCHEMAP_S4S_ATTR_INVALID_VALUE,
NULL, (xmlNodePtr) attr,
NULL, "(qualified | unqualified)",
attrValue, NULL, NULL, NULL);
}
} else if (schema->flags & XML_SCHEMAS_QUALIF_ELEM)
ns = ctxt->targetNamespace;
}
decl = xmlSchemaAddElement(ctxt, name, ns, node, topLevel);
if (decl == NULL) {
goto return_null;
}
/*
* Check for illegal attributes.
*/
attr = node->properties;
while (attr != NULL) {
if (attr->ns == NULL) {
if ((!xmlStrEqual(attr->name, BAD_CAST "name")) &&
(!xmlStrEqual(attr->name, BAD_CAST "type")) &&
(!xmlStrEqual(attr->name, BAD_CAST "id")) &&
(!xmlStrEqual(attr->name, BAD_CAST "default")) &&
(!xmlStrEqual(attr->name, BAD_CAST "fixed")) &&
(!xmlStrEqual(attr->name, BAD_CAST "block")) &&
(!xmlStrEqual(attr->name, BAD_CAST "nillable")))
{
if (topLevel == 0) {
if ((!xmlStrEqual(attr->name, BAD_CAST "maxOccurs")) &&
(!xmlStrEqual(attr->name, BAD_CAST "minOccurs")) &&
(!xmlStrEqual(attr->name, BAD_CAST "form")))
{
xmlSchemaPIllegalAttrErr(ctxt,
XML_SCHEMAP_S4S_ATTR_NOT_ALLOWED, NULL, attr);
}
} else if ((!xmlStrEqual(attr->name, BAD_CAST "final")) &&
(!xmlStrEqual(attr->name, BAD_CAST "abstract")) &&
(!xmlStrEqual(attr->name, BAD_CAST "substitutionGroup"))) {
xmlSchemaPIllegalAttrErr(ctxt,
XML_SCHEMAP_S4S_ATTR_NOT_ALLOWED, NULL, attr);
}
}
} else if (xmlStrEqual(attr->ns->href, xmlSchemaNs)) {
xmlSchemaPIllegalAttrErr(ctxt,
XML_SCHEMAP_S4S_ATTR_NOT_ALLOWED, NULL, attr);
}
attr = attr->next;
}
/*
* Extract/validate attributes.
*/
if (topLevel) {
/*
* Process top attributes of global element declarations here.
*/
decl->flags |= XML_SCHEMAS_ELEM_GLOBAL;
decl->flags |= XML_SCHEMAS_ELEM_TOPLEVEL;
xmlSchemaPValAttrQName(ctxt, schema,
NULL, node, "substitutionGroup",
&(decl->substGroupNs), &(decl->substGroup));
if (xmlGetBooleanProp(ctxt, node, "abstract", 0))
decl->flags |= XML_SCHEMAS_ELEM_ABSTRACT;
/*
* Attribute "final".
*/
attr = xmlSchemaGetPropNode(node, "final");
if (attr == NULL) {
if (schema->flags & XML_SCHEMAS_FINAL_DEFAULT_EXTENSION)
decl->flags |= XML_SCHEMAS_ELEM_FINAL_EXTENSION;
if (schema->flags & XML_SCHEMAS_FINAL_DEFAULT_RESTRICTION)
decl->flags |= XML_SCHEMAS_ELEM_FINAL_RESTRICTION;
} else {
attrValue = xmlSchemaGetNodeContent(ctxt, (xmlNodePtr) attr);
if (xmlSchemaPValAttrBlockFinal(attrValue, &(decl->flags),
-1,
XML_SCHEMAS_ELEM_FINAL_EXTENSION,
XML_SCHEMAS_ELEM_FINAL_RESTRICTION, -1, -1, -1) != 0) {
xmlSchemaPSimpleTypeErr(ctxt,
XML_SCHEMAP_S4S_ATTR_INVALID_VALUE,
NULL, (xmlNodePtr) attr,
NULL, "(#all | List of (extension | restriction))",
attrValue, NULL, NULL, NULL);
}
}
}
/*
* Attribute "block".
*/
attr = xmlSchemaGetPropNode(node, "block");
if (attr == NULL) {
/*
* Apply default "block" values.
*/
if (schema->flags & XML_SCHEMAS_BLOCK_DEFAULT_RESTRICTION)
decl->flags |= XML_SCHEMAS_ELEM_BLOCK_RESTRICTION;
if (schema->flags & XML_SCHEMAS_BLOCK_DEFAULT_EXTENSION)
decl->flags |= XML_SCHEMAS_ELEM_BLOCK_EXTENSION;
if (schema->flags & XML_SCHEMAS_BLOCK_DEFAULT_SUBSTITUTION)
decl->flags |= XML_SCHEMAS_ELEM_BLOCK_SUBSTITUTION;
} else {
attrValue = xmlSchemaGetNodeContent(ctxt, (xmlNodePtr) attr);
if (xmlSchemaPValAttrBlockFinal(attrValue, &(decl->flags),
-1,
XML_SCHEMAS_ELEM_BLOCK_EXTENSION,
XML_SCHEMAS_ELEM_BLOCK_RESTRICTION,
XML_SCHEMAS_ELEM_BLOCK_SUBSTITUTION, -1, -1) != 0) {
xmlSchemaPSimpleTypeErr(ctxt,
XML_SCHEMAP_S4S_ATTR_INVALID_VALUE,
NULL, (xmlNodePtr) attr,
NULL, "(#all | List of (extension | "
"restriction | substitution))", attrValue,
NULL, NULL, NULL);
}
}
if (xmlGetBooleanProp(ctxt, node, "nillable", 0))
decl->flags |= XML_SCHEMAS_ELEM_NILLABLE;
attr = xmlSchemaGetPropNode(node, "type");
if (attr != NULL) {
xmlSchemaPValAttrNodeQName(ctxt, schema,
NULL, attr,
&(decl->namedTypeNs), &(decl->namedType));
xmlSchemaCheckReference(ctxt, schema, node,
attr, decl->namedTypeNs);
}
decl->value = xmlSchemaGetProp(ctxt, node, "default");
attr = xmlSchemaGetPropNode(node, "fixed");
if (attr != NULL) {
fixed = xmlSchemaGetNodeContent(ctxt, (xmlNodePtr) attr);
if (decl->value != NULL) {
/*
* 3.3.3 : 1
* default and fixed must not both be present.
*/
xmlSchemaPMutualExclAttrErr(ctxt,
XML_SCHEMAP_SRC_ELEMENT_1,
NULL, attr, "default", "fixed");
} else {
decl->flags |= XML_SCHEMAS_ELEM_FIXED;
decl->value = fixed;
}
}
/*
* And now for the children...
*/
if (IS_SCHEMA(child, "complexType")) {
/*
* 3.3.3 : 3
* "type" and either <simpleType> or <complexType> are mutually
* exclusive
*/
if (decl->namedType != NULL) {
xmlSchemaPContentErr(ctxt,
XML_SCHEMAP_SRC_ELEMENT_3,
NULL, node, child,
"The attribute 'type' and the <complexType> child are "
"mutually exclusive", NULL);
} else
WXS_ELEM_TYPEDEF(decl) = xmlSchemaParseComplexType(ctxt, schema, child, 0);
child = child->next;
} else if (IS_SCHEMA(child, "simpleType")) {
/*
* 3.3.3 : 3
* "type" and either <simpleType> or <complexType> are
* mutually exclusive
*/
if (decl->namedType != NULL) {
xmlSchemaPContentErr(ctxt,
XML_SCHEMAP_SRC_ELEMENT_3,
NULL, node, child,
"The attribute 'type' and the <simpleType> child are "
"mutually exclusive", NULL);
} else
WXS_ELEM_TYPEDEF(decl) = xmlSchemaParseSimpleType(ctxt, schema, child, 0);
child = child->next;
}
while ((IS_SCHEMA(child, "unique")) ||
(IS_SCHEMA(child, "key")) || (IS_SCHEMA(child, "keyref"))) {
if (IS_SCHEMA(child, "unique")) {
curIDC = xmlSchemaParseIDC(ctxt, schema, child,
XML_SCHEMA_TYPE_IDC_UNIQUE, decl->targetNamespace);
} else if (IS_SCHEMA(child, "key")) {
curIDC = xmlSchemaParseIDC(ctxt, schema, child,
XML_SCHEMA_TYPE_IDC_KEY, decl->targetNamespace);
} else if (IS_SCHEMA(child, "keyref")) {
curIDC = xmlSchemaParseIDC(ctxt, schema, child,
XML_SCHEMA_TYPE_IDC_KEYREF, decl->targetNamespace);
}
if (lastIDC != NULL)
lastIDC->next = curIDC;
else
decl->idcs = (void *) curIDC;
lastIDC = curIDC;
child = child->next;
}
if (child != NULL) {
xmlSchemaPContentErr(ctxt,
XML_SCHEMAP_S4S_ELEM_NOT_ALLOWED,
NULL, node, child,
NULL, "(annotation?, ((simpleType | complexType)?, "
"(unique | key | keyref)*))");
}
decl->annot = annot;
}
/*
* NOTE: Element Declaration Representation OK 4. will be checked at a
* different layer.
*/
FREE_AND_NULL(des)
if (topLevel)
return ((xmlSchemaBasicItemPtr) decl);
else {
particle->children = (xmlSchemaTreeItemPtr) decl;
return ((xmlSchemaBasicItemPtr) particle);
}
return_null:
FREE_AND_NULL(des);
if (annot != NULL) {
if (particle != NULL)
particle->annot = NULL;
if (decl != NULL)
decl->annot = NULL;
xmlSchemaFreeAnnot(annot);
}
return (NULL);
}
/**
* xmlSchemaParseUnion:
* @ctxt: a schema validation context
* @schema: the schema being built
* @node: a subtree containing XML Schema informations
*
* parse a XML schema Union definition
* *WARNING* this interface is highly subject to change
*
* Returns -1 in case of internal error, 0 in case of success and a positive
* error code otherwise.
*/
static int
xmlSchemaParseUnion(xmlSchemaParserCtxtPtr ctxt, xmlSchemaPtr schema,
xmlNodePtr node)
{
xmlSchemaTypePtr type;
xmlNodePtr child = NULL;
xmlAttrPtr attr;
const xmlChar *cur = NULL;
if ((ctxt == NULL) || (schema == NULL) || (node == NULL))
return (-1);
/* Not a component, don't create it. */
type = ctxt->ctxtType;
/*
* Mark the simple type as being of variety "union".
*/
type->flags |= XML_SCHEMAS_TYPE_VARIETY_UNION;
/*
* SPEC (Base type) (2) "If the <list> or <union> alternative is chosen,
* then the `simple ur-type definition`."
*/
type->baseType = xmlSchemaGetBuiltInType(XML_SCHEMAS_ANYSIMPLETYPE);
/*
* Check for illegal attributes.
*/
attr = node->properties;
while (attr != NULL) {
if (attr->ns == NULL) {
if ((!xmlStrEqual(attr->name, BAD_CAST "id")) &&
(!xmlStrEqual(attr->name, BAD_CAST "memberTypes"))) {
xmlSchemaPIllegalAttrErr(ctxt,
XML_SCHEMAP_S4S_ATTR_NOT_ALLOWED, NULL, attr);
}
} else if (xmlStrEqual(attr->ns->href, xmlSchemaNs)) {
xmlSchemaPIllegalAttrErr(ctxt,
XML_SCHEMAP_S4S_ATTR_NOT_ALLOWED, NULL, attr);
}
attr = attr->next;
}
xmlSchemaPValAttrID(ctxt, node, BAD_CAST "id");
/*
* Attribute "memberTypes". This is a list of QNames.
* TODO: Check the value to contain anything.
*/
attr = xmlSchemaGetPropNode(node, "memberTypes");
if (attr != NULL) {
const xmlChar *end;
xmlChar *tmp;
const xmlChar *localName, *nsName;
xmlSchemaTypeLinkPtr link, lastLink = NULL;
xmlSchemaQNameRefPtr ref;
cur = xmlSchemaGetNodeContent(ctxt, (xmlNodePtr) attr);
type->base = cur;
do {
while (IS_BLANK_CH(*cur))
cur++;
end = cur;
while ((*end != 0) && (!(IS_BLANK_CH(*end))))
end++;
if (end == cur)
break;
tmp = xmlStrndup(cur, end - cur);
if (xmlSchemaPValAttrNodeQNameValue(ctxt, schema,
NULL, attr, BAD_CAST tmp, &nsName, &localName) == 0) {
/*
* Create the member type link.
*/
link = (xmlSchemaTypeLinkPtr)
xmlMalloc(sizeof(xmlSchemaTypeLink));
if (link == NULL) {
xmlSchemaPErrMemory(ctxt, "xmlSchemaParseUnion, "
"allocating a type link", NULL);
return (-1);
}
link->type = NULL;
link->next = NULL;
if (lastLink == NULL)
type->memberTypes = link;
else
lastLink->next = link;
lastLink = link;
/*
* Create a reference item.
*/
ref = xmlSchemaNewQNameRef(ctxt, XML_SCHEMA_TYPE_SIMPLE,
localName, nsName);
if (ref == NULL) {
FREE_AND_NULL(tmp)
return (-1);
}
/*
* Assign the reference to the link, it will be resolved
* later during fixup of the union simple type.
*/
link->type = (xmlSchemaTypePtr) ref;
}
FREE_AND_NULL(tmp)
cur = end;
} while (*cur != 0);
}
/*
* And now for the children...
*/
child = node->children;
if (IS_SCHEMA(child, "annotation")) {
/*
* Add the annotation to the simple type ancestor.
*/
xmlSchemaAddAnnotation((xmlSchemaAnnotItemPtr) type,
xmlSchemaParseAnnotation(ctxt, child, 1));
child = child->next;
}
if (IS_SCHEMA(child, "simpleType")) {
xmlSchemaTypePtr subtype, last = NULL;
/*
* Anchor the member types in the "subtypes" field of the
* simple type.
*/
while (IS_SCHEMA(child, "simpleType")) {
subtype = (xmlSchemaTypePtr)
xmlSchemaParseSimpleType(ctxt, schema, child, 0);
if (subtype != NULL) {
if (last == NULL) {
type->subtypes = subtype;
last = subtype;
} else {
last->next = subtype;
last = subtype;
}
last->next = NULL;
}
child = child->next;
}
}
if (child != NULL) {
xmlSchemaPContentErr(ctxt,
XML_SCHEMAP_S4S_ELEM_NOT_ALLOWED,
NULL, node, child, NULL, "(annotation?, simpleType*)");
}
if ((attr == NULL) && (type->subtypes == NULL)) {
/*
* src-union-memberTypes-or-simpleTypes
* Either the memberTypes [attribute] of the <union> element must
* be non-empty or there must be at least one simpleType [child].
*/
xmlSchemaPCustomErr(ctxt,
XML_SCHEMAP_SRC_UNION_MEMBERTYPES_OR_SIMPLETYPES,
NULL, node,
"Either the attribute 'memberTypes' or "
"at least one <simpleType> child must be present", NULL);
}
return (0);
}
/**
* xmlSchemaParseList:
* @ctxt: a schema validation context
* @schema: the schema being built
* @node: a subtree containing XML Schema informations
*
* parse a XML schema List definition
* *WARNING* this interface is highly subject to change
*
* Returns -1 in case of error, 0 if the declaration is improper and
* 1 in case of success.
*/
static xmlSchemaTypePtr
xmlSchemaParseList(xmlSchemaParserCtxtPtr ctxt, xmlSchemaPtr schema,
xmlNodePtr node)
{
xmlSchemaTypePtr type;
xmlNodePtr child = NULL;
xmlAttrPtr attr;
if ((ctxt == NULL) || (schema == NULL) || (node == NULL))
return (NULL);
/* Not a component, don't create it. */
type = ctxt->ctxtType;
/*
* Mark the type as being of variety "list".
*/
type->flags |= XML_SCHEMAS_TYPE_VARIETY_LIST;
/*
* SPEC (Base type) (2) "If the <list> or <union> alternative is chosen,
* then the `simple ur-type definition`."
*/
type->baseType = xmlSchemaGetBuiltInType(XML_SCHEMAS_ANYSIMPLETYPE);
/*
* Check for illegal attributes.
*/
attr = node->properties;
while (attr != NULL) {
if (attr->ns == NULL) {
if ((!xmlStrEqual(attr->name, BAD_CAST "id")) &&
(!xmlStrEqual(attr->name, BAD_CAST "itemType"))) {
xmlSchemaPIllegalAttrErr(ctxt,
XML_SCHEMAP_S4S_ATTR_NOT_ALLOWED, NULL, attr);
}
} else if (xmlStrEqual(attr->ns->href, xmlSchemaNs)) {
xmlSchemaPIllegalAttrErr(ctxt,
XML_SCHEMAP_S4S_ATTR_NOT_ALLOWED, NULL, attr);
}
attr = attr->next;
}
xmlSchemaPValAttrID(ctxt, node, BAD_CAST "id");
/*
* Attribute "itemType". NOTE that we will use the "ref" and "refNs"
* fields for holding the reference to the itemType.
*
* REVAMP TODO: Use the "base" and "baseNs" fields, since we will remove
* the "ref" fields.
*/
xmlSchemaPValAttrQName(ctxt, schema, NULL,
node, "itemType", &(type->baseNs), &(type->base));
/*
* And now for the children...
*/
child = node->children;
if (IS_SCHEMA(child, "annotation")) {
xmlSchemaAddAnnotation((xmlSchemaAnnotItemPtr) type,
xmlSchemaParseAnnotation(ctxt, child, 1));
child = child->next;
}
if (IS_SCHEMA(child, "simpleType")) {
/*
* src-list-itemType-or-simpleType
* Either the itemType [attribute] or the <simpleType> [child] of
* the <list> element must be present, but not both.
*/
if (type->base != NULL) {
xmlSchemaPCustomErr(ctxt,
XML_SCHEMAP_SRC_SIMPLE_TYPE_1,
NULL, node,
"The attribute 'itemType' and the <simpleType> child "
"are mutually exclusive", NULL);
} else {
type->subtypes = xmlSchemaParseSimpleType(ctxt, schema, child, 0);
}
child = child->next;
} else if (type->base == NULL) {
xmlSchemaPCustomErr(ctxt,
XML_SCHEMAP_SRC_SIMPLE_TYPE_1,
NULL, node,
"Either the attribute 'itemType' or the <simpleType> child "
"must be present", NULL);
}
if (child != NULL) {
xmlSchemaPContentErr(ctxt,
XML_SCHEMAP_S4S_ELEM_NOT_ALLOWED,
NULL, node, child, NULL, "(annotation?, simpleType?)");
}
if ((type->base == NULL) &&
(type->subtypes == NULL) &&
(xmlSchemaGetPropNode(node, "itemType") == NULL)) {
xmlSchemaPCustomErr(ctxt,
XML_SCHEMAP_SRC_SIMPLE_TYPE_1,
NULL, node,
"Either the attribute 'itemType' or the <simpleType> child "
"must be present", NULL);
}
return (NULL);
}
/**
* xmlSchemaParseSimpleType:
* @ctxt: a schema validation context
* @schema: the schema being built
* @node: a subtree containing XML Schema informations
*
* parse a XML schema Simple Type definition
* *WARNING* this interface is highly subject to change
*
* Returns -1 in case of error, 0 if the declaration is improper and
* 1 in case of success.
*/
static xmlSchemaTypePtr
xmlSchemaParseSimpleType(xmlSchemaParserCtxtPtr ctxt, xmlSchemaPtr schema,
xmlNodePtr node, int topLevel)
{
xmlSchemaTypePtr type, oldCtxtType;
xmlNodePtr child = NULL;
const xmlChar *attrValue = NULL;
xmlAttrPtr attr;
int hasRestriction = 0;
if ((ctxt == NULL) || (schema == NULL) || (node == NULL))
return (NULL);
if (topLevel) {
attr = xmlSchemaGetPropNode(node, "name");
if (attr == NULL) {
xmlSchemaPMissingAttrErr(ctxt,
XML_SCHEMAP_S4S_ATTR_MISSING,
NULL, node,
"name", NULL);
return (NULL);
} else {
if (xmlSchemaPValAttrNode(ctxt,
NULL, attr,
xmlSchemaGetBuiltInType(XML_SCHEMAS_NCNAME), &attrValue) != 0)
return (NULL);
/*
* Skip built-in types.
*/
if (ctxt->isS4S) {
xmlSchemaTypePtr biType;
if (ctxt->isRedefine) {
/*
* REDEFINE: Disallow redefinition of built-in-types.
* TODO: It seems that the spec does not say anything
* about this case.
*/
xmlSchemaPCustomErr(ctxt, XML_SCHEMAP_SRC_REDEFINE,
NULL, node,
"Redefinition of built-in simple types is not "
"supported", NULL);
return(NULL);
}
biType = xmlSchemaGetPredefinedType(attrValue, xmlSchemaNs);
if (biType != NULL)
return (biType);
}
}
}
/*
* TargetNamespace:
* SPEC "The `actual value` of the targetNamespace [attribute]
* of the <schema> ancestor element information item if present,
* otherwise `absent`.
*/
if (topLevel == 0) {
#ifdef ENABLE_NAMED_LOCALS
char buf[40];
#endif
/*
* Parse as local simple type definition.
*/
#ifdef ENABLE_NAMED_LOCALS
XML_SNPRINTF(buf, 39, "#ST%d", ctxt->counter++ + 1);
type = xmlSchemaAddType(ctxt, schema,
XML_SCHEMA_TYPE_SIMPLE,
xmlDictLookup(ctxt->dict, (const xmlChar *)buf, -1),
ctxt->targetNamespace, node, 0);
#else
type = xmlSchemaAddType(ctxt, schema,
XML_SCHEMA_TYPE_SIMPLE,
NULL, ctxt->targetNamespace, node, 0);
#endif
if (type == NULL)
return (NULL);
type->type = XML_SCHEMA_TYPE_SIMPLE;
type->contentType = XML_SCHEMA_CONTENT_SIMPLE;
/*
* Check for illegal attributes.
*/
attr = node->properties;
while (attr != NULL) {
if (attr->ns == NULL) {
if (!xmlStrEqual(attr->name, BAD_CAST "id")) {
xmlSchemaPIllegalAttrErr(ctxt,
XML_SCHEMAP_S4S_ATTR_NOT_ALLOWED, NULL, attr);
}
} else if (xmlStrEqual(attr->ns->href, xmlSchemaNs)) {
xmlSchemaPIllegalAttrErr(ctxt,
XML_SCHEMAP_S4S_ATTR_NOT_ALLOWED, NULL, attr);
}
attr = attr->next;
}
} else {
/*
* Parse as global simple type definition.
*
* Note that attrValue is the value of the attribute "name" here.
*/
type = xmlSchemaAddType(ctxt, schema, XML_SCHEMA_TYPE_SIMPLE,
attrValue, ctxt->targetNamespace, node, 1);
if (type == NULL)
return (NULL);
type->type = XML_SCHEMA_TYPE_SIMPLE;
type->contentType = XML_SCHEMA_CONTENT_SIMPLE;
type->flags |= XML_SCHEMAS_TYPE_GLOBAL;
/*
* Check for illegal attributes.
*/
attr = node->properties;
while (attr != NULL) {
if (attr->ns == NULL) {
if ((!xmlStrEqual(attr->name, BAD_CAST "id")) &&
(!xmlStrEqual(attr->name, BAD_CAST "name")) &&
(!xmlStrEqual(attr->name, BAD_CAST "final"))) {
xmlSchemaPIllegalAttrErr(ctxt,
XML_SCHEMAP_S4S_ATTR_NOT_ALLOWED, NULL, attr);
}
} else if (xmlStrEqual(attr->ns->href, xmlSchemaNs)) {
xmlSchemaPIllegalAttrErr(ctxt,
XML_SCHEMAP_S4S_ATTR_NOT_ALLOWED, NULL, attr);
}
attr = attr->next;
}
/*
* Attribute "final".
*/
attr = xmlSchemaGetPropNode(node, "final");
if (attr == NULL) {
if (schema->flags & XML_SCHEMAS_FINAL_DEFAULT_RESTRICTION)
type->flags |= XML_SCHEMAS_TYPE_FINAL_RESTRICTION;
if (schema->flags & XML_SCHEMAS_FINAL_DEFAULT_LIST)
type->flags |= XML_SCHEMAS_TYPE_FINAL_LIST;
if (schema->flags & XML_SCHEMAS_FINAL_DEFAULT_UNION)
type->flags |= XML_SCHEMAS_TYPE_FINAL_UNION;
} else {
attrValue = xmlSchemaGetProp(ctxt, node, "final");
if (xmlSchemaPValAttrBlockFinal(attrValue, &(type->flags),
-1, -1, XML_SCHEMAS_TYPE_FINAL_RESTRICTION, -1,
XML_SCHEMAS_TYPE_FINAL_LIST,
XML_SCHEMAS_TYPE_FINAL_UNION) != 0) {
xmlSchemaPSimpleTypeErr(ctxt,
XML_SCHEMAP_S4S_ATTR_INVALID_VALUE,
WXS_BASIC_CAST type, (xmlNodePtr) attr,
NULL, "(#all | List of (list | union | restriction)",
attrValue, NULL, NULL, NULL);
}
}
}
type->targetNamespace = ctxt->targetNamespace;
xmlSchemaPValAttrID(ctxt, node, BAD_CAST "id");
/*
* And now for the children...
*/
oldCtxtType = ctxt->ctxtType;
ctxt->ctxtType = type;
child = node->children;
if (IS_SCHEMA(child, "annotation")) {
type->annot = xmlSchemaParseAnnotation(ctxt, child, 1);
child = child->next;
}
if (child == NULL) {
xmlSchemaPContentErr(ctxt, XML_SCHEMAP_S4S_ELEM_MISSING,
NULL, node, child, NULL,
"(annotation?, (restriction | list | union))");
} else if (IS_SCHEMA(child, "restriction")) {
xmlSchemaParseRestriction(ctxt, schema, child,
XML_SCHEMA_TYPE_SIMPLE);
hasRestriction = 1;
child = child->next;
} else if (IS_SCHEMA(child, "list")) {
xmlSchemaParseList(ctxt, schema, child);
child = child->next;
} else if (IS_SCHEMA(child, "union")) {
xmlSchemaParseUnion(ctxt, schema, child);
child = child->next;
}
if (child != NULL) {
xmlSchemaPContentErr(ctxt, XML_SCHEMAP_S4S_ELEM_NOT_ALLOWED,
NULL, node, child, NULL,
"(annotation?, (restriction | list | union))");
}
/*
* REDEFINE: SPEC src-redefine (5)
* "Within the [children], each <simpleType> must have a
* <restriction> among its [children] ... the `actual value` of whose
* base [attribute] must be the same as the `actual value` of its own
* name attribute plus target namespace;"
*/
if (topLevel && ctxt->isRedefine && (! hasRestriction)) {
xmlSchemaPCustomErr(ctxt, XML_SCHEMAP_SRC_REDEFINE,
NULL, node, "This is a redefinition, thus the "
"<simpleType> must have a <restriction> child", NULL);
}
ctxt->ctxtType = oldCtxtType;
return (type);
}
/**
* xmlSchemaParseModelGroupDefRef:
* @ctxt: the parser context
* @schema: the schema being built
* @node: the node
*
* Parses a reference to a model group definition.
*
* We will return a particle component with a qname-component or
* NULL in case of an error.
*/
static xmlSchemaTreeItemPtr
xmlSchemaParseModelGroupDefRef(xmlSchemaParserCtxtPtr ctxt,
xmlSchemaPtr schema,
xmlNodePtr node)
{
xmlSchemaParticlePtr item;
xmlNodePtr child = NULL;
xmlAttrPtr attr;
const xmlChar *ref = NULL, *refNs = NULL;
int min, max;
if ((ctxt == NULL) || (schema == NULL) || (node == NULL))
return (NULL);
attr = xmlSchemaGetPropNode(node, "ref");
if (attr == NULL) {
xmlSchemaPMissingAttrErr(ctxt,
XML_SCHEMAP_S4S_ATTR_MISSING,
NULL, node, "ref", NULL);
return (NULL);
} else if (xmlSchemaPValAttrNodeQName(ctxt, schema, NULL,
attr, &refNs, &ref) != 0) {
return (NULL);
}
xmlSchemaCheckReference(ctxt, schema, node, attr, refNs);
min = xmlGetMinOccurs(ctxt, node, 0, -1, 1, "xs:nonNegativeInteger");
max = xmlGetMaxOccurs(ctxt, node, 0, UNBOUNDED, 1,
"(xs:nonNegativeInteger | unbounded)");
/*
* Check for illegal attributes.
*/
attr = node->properties;
while (attr != NULL) {
if (attr->ns == NULL) {
if ((!xmlStrEqual(attr->name, BAD_CAST "ref")) &&
(!xmlStrEqual(attr->name, BAD_CAST "id")) &&
(!xmlStrEqual(attr->name, BAD_CAST "minOccurs")) &&
(!xmlStrEqual(attr->name, BAD_CAST "maxOccurs"))) {
xmlSchemaPIllegalAttrErr(ctxt,
XML_SCHEMAP_S4S_ATTR_NOT_ALLOWED, NULL, attr);
}
} else if (xmlStrEqual(attr->ns->href, xmlSchemaNs)) {
xmlSchemaPIllegalAttrErr(ctxt,
XML_SCHEMAP_S4S_ATTR_NOT_ALLOWED, NULL, attr);
}
attr = attr->next;
}
xmlSchemaPValAttrID(ctxt, node, BAD_CAST "id");
item = xmlSchemaAddParticle(ctxt, node, min, max);
if (item == NULL)
return (NULL);
/*
* Create a qname-reference and set as the term; it will be substituted
* for the model group after the reference has been resolved.
*/
item->children = (xmlSchemaTreeItemPtr)
xmlSchemaNewQNameRef(ctxt, XML_SCHEMA_TYPE_GROUP, ref, refNs);
xmlSchemaPCheckParticleCorrect_2(ctxt, item, node, min, max);
/*
* And now for the children...
*/
child = node->children;
/* TODO: Is annotation even allowed for a model group reference? */
if (IS_SCHEMA(child, "annotation")) {
/*
* TODO: What to do exactly with the annotation?
*/
item->annot = xmlSchemaParseAnnotation(ctxt, child, 1);
child = child->next;
}
if (child != NULL) {
xmlSchemaPContentErr(ctxt,
XML_SCHEMAP_S4S_ELEM_NOT_ALLOWED,
NULL, node, child, NULL,
"(annotation?)");
}
/*
* Corresponds to no component at all if minOccurs==maxOccurs==0.
*/
if ((min == 0) && (max == 0))
return (NULL);
return ((xmlSchemaTreeItemPtr) item);
}
/**
* xmlSchemaParseModelGroupDefinition:
* @ctxt: a schema validation context
* @schema: the schema being built
* @node: a subtree containing XML Schema informations
*
* Parses a XML schema model group definition.
*
* Note that the contraint src-redefine (6.2) can't be applied until
* references have been resolved. So we will do this at the
* component fixup level.
*
* *WARNING* this interface is highly subject to change
*
* Returns -1 in case of error, 0 if the declaration is improper and
* 1 in case of success.
*/
static xmlSchemaModelGroupDefPtr
xmlSchemaParseModelGroupDefinition(xmlSchemaParserCtxtPtr ctxt,
xmlSchemaPtr schema,
xmlNodePtr node)
{
xmlSchemaModelGroupDefPtr item;
xmlNodePtr child = NULL;
xmlAttrPtr attr;
const xmlChar *name;
if ((ctxt == NULL) || (schema == NULL) || (node == NULL))
return (NULL);
attr = xmlSchemaGetPropNode(node, "name");
if (attr == NULL) {
xmlSchemaPMissingAttrErr(ctxt,
XML_SCHEMAP_S4S_ATTR_MISSING,
NULL, node,
"name", NULL);
return (NULL);
} else if (xmlSchemaPValAttrNode(ctxt, NULL, attr,
xmlSchemaGetBuiltInType(XML_SCHEMAS_NCNAME), &name) != 0) {
return (NULL);
}
item = xmlSchemaAddModelGroupDefinition(ctxt, schema, name,
ctxt->targetNamespace, node);
if (item == NULL)
return (NULL);
/*
* Check for illegal attributes.
*/
attr = node->properties;
while (attr != NULL) {
if (attr->ns == NULL) {
if ((!xmlStrEqual(attr->name, BAD_CAST "name")) &&
(!xmlStrEqual(attr->name, BAD_CAST "id"))) {
xmlSchemaPIllegalAttrErr(ctxt,
XML_SCHEMAP_S4S_ATTR_NOT_ALLOWED, NULL, attr);
}
} else if (xmlStrEqual(attr->ns->href, xmlSchemaNs)) {
xmlSchemaPIllegalAttrErr(ctxt,
XML_SCHEMAP_S4S_ATTR_NOT_ALLOWED, NULL, attr);
}
attr = attr->next;
}
xmlSchemaPValAttrID(ctxt, node, BAD_CAST "id");
/*
* And now for the children...
*/
child = node->children;
if (IS_SCHEMA(child, "annotation")) {
item->annot = xmlSchemaParseAnnotation(ctxt, child, 1);
child = child->next;
}
if (IS_SCHEMA(child, "all")) {
item->children = xmlSchemaParseModelGroup(ctxt, schema, child,
XML_SCHEMA_TYPE_ALL, 0);
child = child->next;
} else if (IS_SCHEMA(child, "choice")) {
item->children = xmlSchemaParseModelGroup(ctxt, schema, child,
XML_SCHEMA_TYPE_CHOICE, 0);
child = child->next;
} else if (IS_SCHEMA(child, "sequence")) {
item->children = xmlSchemaParseModelGroup(ctxt, schema, child,
XML_SCHEMA_TYPE_SEQUENCE, 0);
child = child->next;
}
if (child != NULL) {
xmlSchemaPContentErr(ctxt,
XML_SCHEMAP_S4S_ELEM_NOT_ALLOWED,
NULL, node, child, NULL,
"(annotation?, (all | choice | sequence)?)");
}
return (item);
}
/**
* xmlSchemaCleanupDoc:
* @ctxt: a schema validation context
* @node: the root of the document.
*
* removes unwanted nodes in a schemas document tree
*/
static void
xmlSchemaCleanupDoc(xmlSchemaParserCtxtPtr ctxt, xmlNodePtr root)
{
xmlNodePtr delete, cur;
if ((ctxt == NULL) || (root == NULL)) return;
/*
* Remove all the blank text nodes
*/
delete = NULL;
cur = root;
while (cur != NULL) {
if (delete != NULL) {
xmlUnlinkNode(delete);
xmlFreeNode(delete);
delete = NULL;
}
if (cur->type == XML_TEXT_NODE) {
if (IS_BLANK_NODE(cur)) {
if (xmlNodeGetSpacePreserve(cur) != 1) {
delete = cur;
}
}
} else if ((cur->type != XML_ELEMENT_NODE) &&
(cur->type != XML_CDATA_SECTION_NODE)) {
delete = cur;
goto skip_children;
}
/*
* Skip to next node
*/
if (cur->children != NULL) {
if ((cur->children->type != XML_ENTITY_DECL) &&
(cur->children->type != XML_ENTITY_REF_NODE) &&
(cur->children->type != XML_ENTITY_NODE)) {
cur = cur->children;
continue;
}
}
skip_children:
if (cur->next != NULL) {
cur = cur->next;
continue;
}
do {
cur = cur->parent;
if (cur == NULL)
break;
if (cur == root) {
cur = NULL;
break;
}
if (cur->next != NULL) {
cur = cur->next;
break;
}
} while (cur != NULL);
}
if (delete != NULL) {
xmlUnlinkNode(delete);
xmlFreeNode(delete);
delete = NULL;
}
}
static void
xmlSchemaClearSchemaDefaults(xmlSchemaPtr schema)
{
if (schema->flags & XML_SCHEMAS_QUALIF_ELEM)
schema->flags ^= XML_SCHEMAS_QUALIF_ELEM;
if (schema->flags & XML_SCHEMAS_QUALIF_ATTR)
schema->flags ^= XML_SCHEMAS_QUALIF_ATTR;
if (schema->flags & XML_SCHEMAS_FINAL_DEFAULT_EXTENSION)
schema->flags ^= XML_SCHEMAS_FINAL_DEFAULT_EXTENSION;
if (schema->flags & XML_SCHEMAS_FINAL_DEFAULT_RESTRICTION)
schema->flags ^= XML_SCHEMAS_FINAL_DEFAULT_RESTRICTION;
if (schema->flags & XML_SCHEMAS_FINAL_DEFAULT_LIST)
schema->flags ^= XML_SCHEMAS_FINAL_DEFAULT_LIST;
if (schema->flags & XML_SCHEMAS_FINAL_DEFAULT_UNION)
schema->flags ^= XML_SCHEMAS_FINAL_DEFAULT_UNION;
if (schema->flags & XML_SCHEMAS_BLOCK_DEFAULT_EXTENSION)
schema->flags ^= XML_SCHEMAS_BLOCK_DEFAULT_EXTENSION;
if (schema->flags & XML_SCHEMAS_BLOCK_DEFAULT_RESTRICTION)
schema->flags ^= XML_SCHEMAS_BLOCK_DEFAULT_RESTRICTION;
if (schema->flags & XML_SCHEMAS_BLOCK_DEFAULT_SUBSTITUTION)
schema->flags ^= XML_SCHEMAS_BLOCK_DEFAULT_SUBSTITUTION;
}
static int
xmlSchemaParseSchemaElement(xmlSchemaParserCtxtPtr ctxt,
xmlSchemaPtr schema,
xmlNodePtr node)
{
xmlAttrPtr attr;
const xmlChar *val;
int res = 0, oldErrs = ctxt->nberrors;
/*
* Those flags should be moved to the parser context flags,
* since they are not visible at the component level. I.e.
* they are used if processing schema *documents* only.
*/
res = xmlSchemaPValAttrID(ctxt, node, BAD_CAST "id");
HFAILURE;
/*
* Since the version is of type xs:token, we won't bother to
* check it.
*/
/* REMOVED:
attr = xmlSchemaGetPropNode(node, "version");
if (attr != NULL) {
res = xmlSchemaPValAttrNode(ctxt, NULL, NULL, attr,
xmlSchemaGetBuiltInType(XML_SCHEMAS_TOKEN), &val);
HFAILURE;
}
*/
attr = xmlSchemaGetPropNode(node, "targetNamespace");
if (attr != NULL) {
res = xmlSchemaPValAttrNode(ctxt, NULL, attr,
xmlSchemaGetBuiltInType(XML_SCHEMAS_ANYURI), NULL);
HFAILURE;
if (res != 0) {
ctxt->stop = XML_SCHEMAP_S4S_ATTR_INVALID_VALUE;
goto exit;
}
}
attr = xmlSchemaGetPropNode(node, "elementFormDefault");
if (attr != NULL) {
val = xmlSchemaGetNodeContent(ctxt, (xmlNodePtr) attr);
res = xmlSchemaPValAttrFormDefault(val, &schema->flags,
XML_SCHEMAS_QUALIF_ELEM);
HFAILURE;
if (res != 0) {
xmlSchemaPSimpleTypeErr(ctxt,
XML_SCHEMAP_ELEMFORMDEFAULT_VALUE,
NULL, (xmlNodePtr) attr, NULL,
"(qualified | unqualified)", val, NULL, NULL, NULL);
}
}
attr = xmlSchemaGetPropNode(node, "attributeFormDefault");
if (attr != NULL) {
val = xmlSchemaGetNodeContent(ctxt, (xmlNodePtr) attr);
res = xmlSchemaPValAttrFormDefault(val, &schema->flags,
XML_SCHEMAS_QUALIF_ATTR);
HFAILURE;
if (res != 0) {
xmlSchemaPSimpleTypeErr(ctxt,
XML_SCHEMAP_ATTRFORMDEFAULT_VALUE,
NULL, (xmlNodePtr) attr, NULL,
"(qualified | unqualified)", val, NULL, NULL, NULL);
}
}
attr = xmlSchemaGetPropNode(node, "finalDefault");
if (attr != NULL) {
val = xmlSchemaGetNodeContent(ctxt, (xmlNodePtr) attr);
res = xmlSchemaPValAttrBlockFinal(val, &(schema->flags), -1,
XML_SCHEMAS_FINAL_DEFAULT_EXTENSION,
XML_SCHEMAS_FINAL_DEFAULT_RESTRICTION,
-1,
XML_SCHEMAS_FINAL_DEFAULT_LIST,
XML_SCHEMAS_FINAL_DEFAULT_UNION);
HFAILURE;
if (res != 0) {
xmlSchemaPSimpleTypeErr(ctxt,
XML_SCHEMAP_S4S_ATTR_INVALID_VALUE,
NULL, (xmlNodePtr) attr, NULL,
"(#all | List of (extension | restriction | list | union))",
val, NULL, NULL, NULL);
}
}
attr = xmlSchemaGetPropNode(node, "blockDefault");
if (attr != NULL) {
val = xmlSchemaGetNodeContent(ctxt, (xmlNodePtr) attr);
res = xmlSchemaPValAttrBlockFinal(val, &(schema->flags), -1,
XML_SCHEMAS_BLOCK_DEFAULT_EXTENSION,
XML_SCHEMAS_BLOCK_DEFAULT_RESTRICTION,
XML_SCHEMAS_BLOCK_DEFAULT_SUBSTITUTION, -1, -1);
HFAILURE;
if (res != 0) {
xmlSchemaPSimpleTypeErr(ctxt,
XML_SCHEMAP_S4S_ATTR_INVALID_VALUE,
NULL, (xmlNodePtr) attr, NULL,
"(#all | List of (extension | restriction | substitution))",
val, NULL, NULL, NULL);
}
}
exit:
if (oldErrs != ctxt->nberrors)
res = ctxt->err;
return(res);
exit_failure:
return(-1);
}
/**
* xmlSchemaParseSchemaTopLevel:
* @ctxt: a schema validation context
* @schema: the schemas
* @nodes: the list of top level nodes
*
* Returns the internal XML Schema structure built from the resource or
* NULL in case of error
*/
static int
xmlSchemaParseSchemaTopLevel(xmlSchemaParserCtxtPtr ctxt,
xmlSchemaPtr schema, xmlNodePtr nodes)
{
xmlNodePtr child;
xmlSchemaAnnotPtr annot;
int res = 0, oldErrs, tmpOldErrs;
if ((ctxt == NULL) || (schema == NULL) || (nodes == NULL))
return(-1);
oldErrs = ctxt->nberrors;
child = nodes;
while ((IS_SCHEMA(child, "include")) ||
(IS_SCHEMA(child, "import")) ||
(IS_SCHEMA(child, "redefine")) ||
(IS_SCHEMA(child, "annotation"))) {
if (IS_SCHEMA(child, "annotation")) {
annot = xmlSchemaParseAnnotation(ctxt, child, 1);
if (schema->annot == NULL)
schema->annot = annot;
else
xmlSchemaFreeAnnot(annot);
} else if (IS_SCHEMA(child, "import")) {
tmpOldErrs = ctxt->nberrors;
res = xmlSchemaParseImport(ctxt, schema, child);
HFAILURE;
HSTOP(ctxt);
if (tmpOldErrs != ctxt->nberrors)
goto exit;
} else if (IS_SCHEMA(child, "include")) {
tmpOldErrs = ctxt->nberrors;
res = xmlSchemaParseInclude(ctxt, schema, child);
HFAILURE;
HSTOP(ctxt);
if (tmpOldErrs != ctxt->nberrors)
goto exit;
} else if (IS_SCHEMA(child, "redefine")) {
tmpOldErrs = ctxt->nberrors;
res = xmlSchemaParseRedefine(ctxt, schema, child);
HFAILURE;
HSTOP(ctxt);
if (tmpOldErrs != ctxt->nberrors)
goto exit;
}
child = child->next;
}
/*
* URGENT TODO: Change the functions to return int results.
* We need especially to catch internal errors.
*/
while (child != NULL) {
if (IS_SCHEMA(child, "complexType")) {
xmlSchemaParseComplexType(ctxt, schema, child, 1);
child = child->next;
} else if (IS_SCHEMA(child, "simpleType")) {
xmlSchemaParseSimpleType(ctxt, schema, child, 1);
child = child->next;
} else if (IS_SCHEMA(child, "element")) {
xmlSchemaParseElement(ctxt, schema, child, NULL, 1);
child = child->next;
} else if (IS_SCHEMA(child, "attribute")) {
xmlSchemaParseGlobalAttribute(ctxt, schema, child);
child = child->next;
} else if (IS_SCHEMA(child, "attributeGroup")) {
xmlSchemaParseAttributeGroupDefinition(ctxt, schema, child);
child = child->next;
} else if (IS_SCHEMA(child, "group")) {
xmlSchemaParseModelGroupDefinition(ctxt, schema, child);
child = child->next;
} else if (IS_SCHEMA(child, "notation")) {
xmlSchemaParseNotation(ctxt, schema, child);
child = child->next;
} else {
xmlSchemaPContentErr(ctxt,
XML_SCHEMAP_S4S_ELEM_NOT_ALLOWED,
NULL, child->parent, child,
NULL, "((include | import | redefine | annotation)*, "
"(((simpleType | complexType | group | attributeGroup) "
"| element | attribute | notation), annotation*)*)");
child = child->next;
}
while (IS_SCHEMA(child, "annotation")) {
/*
* TODO: We should add all annotations.
*/
annot = xmlSchemaParseAnnotation(ctxt, child, 1);
if (schema->annot == NULL)
schema->annot = annot;
else
xmlSchemaFreeAnnot(annot);
child = child->next;
}
}
exit:
ctxt->ctxtType = NULL;
if (oldErrs != ctxt->nberrors)
res = ctxt->err;
return(res);
exit_failure:
return(-1);
}
static xmlSchemaSchemaRelationPtr
xmlSchemaSchemaRelationCreate(void)
{
xmlSchemaSchemaRelationPtr ret;
ret = (xmlSchemaSchemaRelationPtr)
xmlMalloc(sizeof(xmlSchemaSchemaRelation));
if (ret == NULL) {
xmlSchemaPErrMemory(NULL, "allocating schema relation", NULL);
return(NULL);
}
XML_MEMSET(ret, 0, sizeof(xmlSchemaSchemaRelation));
return(ret);
}
#if 0
static void
xmlSchemaSchemaRelationFree(xmlSchemaSchemaRelationPtr rel)
{
xmlFree(rel);
}
#endif
static void
xmlSchemaRedefListFree(xmlSchemaRedefPtr redef)
{
xmlSchemaRedefPtr prev;
while (redef != NULL) {
prev = redef;
redef = redef->next;
xmlFree(prev);
}
}
static void
xmlSchemaConstructionCtxtFree(xmlSchemaConstructionCtxtPtr con)
{
/*
* After the construction context has been freed, there will be
* no schema graph available any more. Only the schema buckets
* will stay alive, which are put into the "schemasImports" and
* "includes" slots of the xmlSchema.
*/
if (con->buckets != NULL)
xmlSchemaItemListFree(con->buckets);
if (con->pending != NULL)
xmlSchemaItemListFree(con->pending);
if (con->substGroups != NULL)
xmlHashFree(con->substGroups,
(xmlHashDeallocator) xmlSchemaSubstGroupFree);
if (con->redefs != NULL)
xmlSchemaRedefListFree(con->redefs);
if (con->dict != NULL)
xmlDictFree(con->dict);
xmlFree(con);
}
static xmlSchemaConstructionCtxtPtr
xmlSchemaConstructionCtxtCreate(xmlDictPtr dict)
{
xmlSchemaConstructionCtxtPtr ret;
ret = (xmlSchemaConstructionCtxtPtr)
xmlMalloc(sizeof(xmlSchemaConstructionCtxt));
if (ret == NULL) {
xmlSchemaPErrMemory(NULL,
"allocating schema construction context", NULL);
return (NULL);
}
XML_MEMSET(ret, 0, sizeof(xmlSchemaConstructionCtxt));
ret->buckets = xmlSchemaItemListCreate();
if (ret->buckets == NULL) {
xmlSchemaPErrMemory(NULL,
"allocating list of schema buckets", NULL);
xmlFree(ret);
return (NULL);
}
ret->pending = xmlSchemaItemListCreate();
if (ret->pending == NULL) {
xmlSchemaPErrMemory(NULL,
"allocating list of pending global components", NULL);
xmlSchemaConstructionCtxtFree(ret);
return (NULL);
}
ret->dict = dict;
xmlDictReference(dict);
return(ret);
}
static xmlSchemaParserCtxtPtr
xmlSchemaParserCtxtCreate(void)
{
xmlSchemaParserCtxtPtr ret;
ret = (xmlSchemaParserCtxtPtr) xmlMalloc(sizeof(xmlSchemaParserCtxt));
if (ret == NULL) {
xmlSchemaPErrMemory(NULL, "allocating schema parser context",
NULL);
return (NULL);
}
XML_MEMSET(ret, 0, sizeof(xmlSchemaParserCtxt));
ret->type = XML_SCHEMA_CTXT_PARSER;
ret->attrProhibs = xmlSchemaItemListCreate();
if (ret->attrProhibs == NULL) {
xmlFree(ret);
return(NULL);
}
return(ret);
}
/**
* xmlSchemaNewParserCtxtUseDict:
* @URL: the location of the schema
* @dict: the dictionary to be used
*
* Create an XML Schemas parse context for that file/resource expected
* to contain an XML Schemas file.
*
* Returns the parser context or NULL in case of error
*/
static xmlSchemaParserCtxtPtr
xmlSchemaNewParserCtxtUseDict(const char *URL, xmlDictPtr dict)
{
xmlSchemaParserCtxtPtr ret;
ret = xmlSchemaParserCtxtCreate();
if (ret == NULL)
return (NULL);
ret->dict = dict;
xmlDictReference(dict);
if (URL != NULL)
ret->URL = xmlDictLookup(dict, (const xmlChar *) URL, -1);
return (ret);
}
static int
xmlSchemaCreatePCtxtOnVCtxt(xmlSchemaValidCtxtPtr vctxt)
{
if (vctxt->pctxt == NULL) {
if (vctxt->schema != NULL)
vctxt->pctxt =
xmlSchemaNewParserCtxtUseDict("*", vctxt->schema->dict);
else
vctxt->pctxt = xmlSchemaNewParserCtxt("*");
if (vctxt->pctxt == NULL) {
VERROR_INT("xmlSchemaCreatePCtxtOnVCtxt",
"failed to create a temp. parser context");
return (-1);
}
/* TODO: Pass user data. */
xmlSchemaSetParserErrors(vctxt->pctxt, vctxt->error,
vctxt->warning, vctxt->errCtxt);
xmlSchemaSetParserStructuredErrors(vctxt->pctxt, vctxt->serror,
vctxt->errCtxt);
}
return (0);
}
/**
* xmlSchemaGetSchemaBucket:
* @pctxt: the schema parser context
* @schemaLocation: the URI of the schema document
*
* Returns a schema bucket if it was already parsed.
*
* Returns a schema bucket if it was already parsed from
* @schemaLocation, NULL otherwise.
*/
static xmlSchemaBucketPtr
xmlSchemaGetSchemaBucket(xmlSchemaParserCtxtPtr pctxt,
const xmlChar *schemaLocation)
{
xmlSchemaBucketPtr cur;
xmlSchemaItemListPtr list;
list = pctxt->constructor->buckets;
if (list->nbItems == 0)
return(NULL);
else {
int i;
for (i = 0; i < list->nbItems; i++) {
cur = (xmlSchemaBucketPtr) list->items[i];
/* Pointer comparison! */
if (cur->schemaLocation == schemaLocation)
return(cur);
}
}
return(NULL);
}
static xmlSchemaBucketPtr
xmlSchemaGetChameleonSchemaBucket(xmlSchemaParserCtxtPtr pctxt,
const xmlChar *schemaLocation,
const xmlChar *targetNamespace)
{
xmlSchemaBucketPtr cur;
xmlSchemaItemListPtr list;
list = pctxt->constructor->buckets;
if (list->nbItems == 0)
return(NULL);
else {
int i;
for (i = 0; i < list->nbItems; i++) {
cur = (xmlSchemaBucketPtr) list->items[i];
/* Pointer comparison! */
if ((cur->origTargetNamespace == NULL) &&
(cur->schemaLocation == schemaLocation) &&
(cur->targetNamespace == targetNamespace))
return(cur);
}
}
return(NULL);
}
#define IS_BAD_SCHEMA_DOC(b) \
(((b)->doc == NULL) && ((b)->schemaLocation != NULL))
static xmlSchemaBucketPtr
xmlSchemaGetSchemaBucketByTNS(xmlSchemaParserCtxtPtr pctxt,
const xmlChar *targetNamespace,
int imported)
{
xmlSchemaBucketPtr cur;
xmlSchemaItemListPtr list;
list = pctxt->constructor->buckets;
if (list->nbItems == 0)
return(NULL);
else {
int i;
for (i = 0; i < list->nbItems; i++) {
cur = (xmlSchemaBucketPtr) list->items[i];
if ((! IS_BAD_SCHEMA_DOC(cur)) &&
(cur->origTargetNamespace == targetNamespace) &&
((imported && cur->imported) ||
((!imported) && (!cur->imported))))
return(cur);
}
}
return(NULL);
}
static int
xmlSchemaParseNewDocWithContext(xmlSchemaParserCtxtPtr pctxt,
xmlSchemaPtr schema,
xmlSchemaBucketPtr bucket)
{
int oldFlags;
xmlDocPtr oldDoc;
xmlNodePtr node;
int ret, oldErrs;
xmlSchemaBucketPtr oldbucket = pctxt->constructor->bucket;
/*
* Save old values; reset the *main* schema.
* URGENT TODO: This is not good; move the per-document information
* to the parser. Get rid of passing the main schema to the
* parsing functions.
*/
oldFlags = schema->flags;
oldDoc = schema->doc;
if (schema->flags != 0)
xmlSchemaClearSchemaDefaults(schema);
schema->doc = bucket->doc;
pctxt->schema = schema;
/*
* Keep the current target namespace on the parser *not* on the
* main schema.
*/
pctxt->targetNamespace = bucket->targetNamespace;
WXS_CONSTRUCTOR(pctxt)->bucket = bucket;
if ((bucket->targetNamespace != NULL) &&
xmlStrEqual(bucket->targetNamespace, xmlSchemaNs)) {
/*
* We are parsing the schema for schemas!
*/
pctxt->isS4S = 1;
}
/* Mark it as parsed, even if parsing fails. */
bucket->parsed++;
/* Compile the schema doc. */
node = xmlDocGetRootElement(bucket->doc);
ret = xmlSchemaParseSchemaElement(pctxt, schema, node);
if (ret != 0)
goto exit;
/* An empty schema; just get out. */
if (node->children == NULL)
goto exit;
oldErrs = pctxt->nberrors;
ret = xmlSchemaParseSchemaTopLevel(pctxt, schema, node->children);
if (ret != 0)
goto exit;
/*
* TODO: Not nice, but I'm not 100% sure we will get always an error
* as a result of the obove functions; so better rely on pctxt->err
* as well.
*/
if ((ret == 0) && (oldErrs != pctxt->nberrors)) {
ret = pctxt->err;
goto exit;
}
exit:
WXS_CONSTRUCTOR(pctxt)->bucket = oldbucket;
/* Restore schema values. */
schema->doc = oldDoc;
schema->flags = oldFlags;
return(ret);
}
static int
xmlSchemaParseNewDoc(xmlSchemaParserCtxtPtr pctxt,
xmlSchemaPtr schema,
xmlSchemaBucketPtr bucket)
{
xmlSchemaParserCtxtPtr newpctxt;
int res = 0;
if (bucket == NULL)
return(0);
if (bucket->parsed) {
PERROR_INT("xmlSchemaParseNewDoc",
"reparsing a schema doc");
return(-1);
}
if (bucket->doc == NULL) {
PERROR_INT("xmlSchemaParseNewDoc",
"parsing a schema doc, but there's no doc");
return(-1);
}
if (pctxt->constructor == NULL) {
PERROR_INT("xmlSchemaParseNewDoc",
"no constructor");
return(-1);
}
/* Create and init the temporary parser context. */
newpctxt = xmlSchemaNewParserCtxtUseDict(
(const char *) bucket->schemaLocation, pctxt->dict);
if (newpctxt == NULL)
return(-1);
newpctxt->constructor = pctxt->constructor;
/*
* TODO: Can we avoid that the parser knows about the main schema?
* It would be better if he knows about the current schema bucket
* only.
*/
newpctxt->schema = schema;
xmlSchemaSetParserErrors(newpctxt, pctxt->error, pctxt->warning,
pctxt->errCtxt);
xmlSchemaSetParserStructuredErrors(newpctxt, pctxt->serror,
pctxt->errCtxt);
newpctxt->counter = pctxt->counter;
res = xmlSchemaParseNewDocWithContext(newpctxt, schema, bucket);
/* Channel back errors and cleanup the temporary parser context. */
if (res != 0)
pctxt->err = res;
pctxt->nberrors += newpctxt->nberrors;
pctxt->counter = newpctxt->counter;
newpctxt->constructor = NULL;
/* Free the parser context. */
xmlSchemaFreeParserCtxt(newpctxt);
return(res);
}
static void
xmlSchemaSchemaRelationAddChild(xmlSchemaBucketPtr bucket,
xmlSchemaSchemaRelationPtr rel)
{
xmlSchemaSchemaRelationPtr cur = bucket->relations;
if (cur == NULL) {
bucket->relations = rel;
return;
}
while (cur->next != NULL)
cur = cur->next;
cur->next = rel;
}
static const xmlChar *
xmlSchemaBuildAbsoluteURI(xmlDictPtr dict, const xmlChar* location,
xmlNodePtr ctxtNode)
{
/*
* Build an absolue location URI.
*/
if (location != NULL) {
if (ctxtNode == NULL)
return(location);
else {
xmlChar *base, *URI;
const xmlChar *ret = NULL;
base = xmlNodeGetBase(ctxtNode->doc, ctxtNode);
if (base == NULL) {
URI = xmlBuildURI(location, ctxtNode->doc->URL);
} else {
URI = xmlBuildURI(location, base);
xmlFree(base);
}
if (URI != NULL) {
ret = xmlDictLookup(dict, URI, -1);
xmlFree(URI);
return(ret);
}
}
}
return(NULL);
}
/**
* xmlSchemaAddSchemaDoc:
* @pctxt: a schema validation context
* @schema: the schema being built
* @node: a subtree containing XML Schema informations
*
* Parse an included (and to-be-redefined) XML schema document.
*
* Returns 0 on success, a positive error code on errors and
* -1 in case of an internal or API error.
*/
static int
xmlSchemaAddSchemaDoc(xmlSchemaParserCtxtPtr pctxt,
int type, /* import or include or redefine */
const xmlChar *schemaLocation,
xmlDocPtr schemaDoc,
const char *schemaBuffer,
int schemaBufferLen,
xmlNodePtr invokingNode,
const xmlChar *sourceTargetNamespace,
const xmlChar *importNamespace,
xmlSchemaBucketPtr *bucket)
{
const xmlChar *targetNamespace = NULL;
xmlSchemaSchemaRelationPtr relation = NULL;
xmlDocPtr doc = NULL;
int res = 0, err = 0, located = 0, preserveDoc = 0;
xmlSchemaBucketPtr bkt = NULL;
if (bucket != NULL)
*bucket = NULL;
switch (type) {
case XML_SCHEMA_SCHEMA_IMPORT:
case XML_SCHEMA_SCHEMA_MAIN:
err = XML_SCHEMAP_SRC_IMPORT;
break;
case XML_SCHEMA_SCHEMA_INCLUDE:
err = XML_SCHEMAP_SRC_INCLUDE;
break;
case XML_SCHEMA_SCHEMA_REDEFINE:
err = XML_SCHEMAP_SRC_REDEFINE;
break;
}
/* Special handling for the main schema:
* skip the location and relation logic and just parse the doc.
* We need just a bucket to be returned in this case.
*/
if ((type == XML_SCHEMA_SCHEMA_MAIN) || (! WXS_HAS_BUCKETS(pctxt)))
goto doc_load;
/* Note that we expect the location to be an absulute URI. */
if (schemaLocation != NULL) {
bkt = xmlSchemaGetSchemaBucket(pctxt, schemaLocation);
if ((bkt != NULL) &&
(pctxt->constructor->bucket == bkt)) {
/* Report self-imports/inclusions/redefinitions. */
xmlSchemaCustomErr(ACTXT_CAST pctxt, err,
invokingNode, NULL,
"The schema must not import/include/redefine itself",
NULL, NULL);
goto exit;
}
}
/*
* Create a relation for the graph of schemas.
*/
relation = xmlSchemaSchemaRelationCreate();
if (relation == NULL)
return(-1);
xmlSchemaSchemaRelationAddChild(pctxt->constructor->bucket,
relation);
relation->type = type;
/*
* Save the namespace import information.
*/
if (WXS_IS_BUCKET_IMPMAIN(type)) {
relation->importNamespace = importNamespace;
if (schemaLocation == NULL) {
/*
* No location; this is just an import of the namespace.
* Note that we don't assign a bucket to the relation
* in this case.
*/
goto exit;
}
targetNamespace = importNamespace;
}
/* Did we already fetch the doc? */
if (bkt != NULL) {
if ((WXS_IS_BUCKET_IMPMAIN(type)) && (! bkt->imported)) {
/*
* We included/redefined and then try to import a schema,
* but the new location provided for import was different.
*/
if (schemaLocation == NULL)
schemaLocation = BAD_CAST "in_memory_buffer";
if (!xmlStrEqual(schemaLocation,
bkt->schemaLocation)) {
xmlSchemaCustomErr(ACTXT_CAST pctxt, err,
invokingNode, NULL,
"The schema document '%s' cannot be imported, since "
"it was already included or redefined",
schemaLocation, NULL);
goto exit;
}
} else if ((! WXS_IS_BUCKET_IMPMAIN(type)) && (bkt->imported)) {
/*
* We imported and then try to include/redefine a schema,
* but the new location provided for the include/redefine
* was different.
*/
if (schemaLocation == NULL)
schemaLocation = BAD_CAST "in_memory_buffer";
if (!xmlStrEqual(schemaLocation,
bkt->schemaLocation)) {
xmlSchemaCustomErr(ACTXT_CAST pctxt, err,
invokingNode, NULL,
"The schema document '%s' cannot be included or "
"redefined, since it was already imported",
schemaLocation, NULL);
goto exit;
}
}
}
if (WXS_IS_BUCKET_IMPMAIN(type)) {
/*
* Given that the schemaLocation [attribute] is only a hint, it is open
* to applications to ignore all but the first <import> for a given
* namespace, regardless of the `actual value` of schemaLocation, but
* such a strategy risks missing useful information when new
* schemaLocations are offered.
*
* We will use the first <import> that comes with a location.
* Further <import>s *with* a location, will result in an error.
* TODO: Better would be to just report a warning here, but
* we'll try it this way until someone complains.
*
* Schema Document Location Strategy:
* 3 Based on the namespace name, identify an existing schema document,
* either as a resource which is an XML document or a <schema> element
* information item, in some local schema repository;
* 5 Attempt to resolve the namespace name to locate such a resource.
*
* NOTE: (3) and (5) are not supported.
*/
if (bkt != NULL) {
relation->bucket = bkt;
goto exit;
}
bkt = xmlSchemaGetSchemaBucketByTNS(pctxt,
importNamespace, 1);
if (bkt != NULL) {
relation->bucket = bkt;
if (bkt->schemaLocation == NULL) {
/* First given location of the schema; load the doc. */
bkt->schemaLocation = schemaLocation;
} else {
if (!xmlStrEqual(schemaLocation,
bkt->schemaLocation)) {
/*
* Additional location given; just skip it.
* URGENT TODO: We should report a warning here.
* res = XML_SCHEMAP_SRC_IMPORT;
*/
if (schemaLocation == NULL)
schemaLocation = BAD_CAST "in_memory_buffer";
xmlSchemaCustomWarning(ACTXT_CAST pctxt,
XML_SCHEMAP_WARN_SKIP_SCHEMA,
invokingNode, NULL,
"Skipping import of schema located at '%s' for the "
"namespace '%s', since this namespace was already "
"imported with the schema located at '%s'",
schemaLocation, importNamespace, bkt->schemaLocation);
}
goto exit;
}
}
/*
* No bucket + first location: load the doc and create a
* bucket.
*/
} else {
/* <include> and <redefine> */
if (bkt != NULL) {
if ((bkt->origTargetNamespace == NULL) &&
(bkt->targetNamespace != sourceTargetNamespace)) {
xmlSchemaBucketPtr chamel;
/*
* Chameleon include/redefine: skip loading only if it was
* aleady build for the targetNamespace of the including
* schema.
*/
/*
* URGENT TODO: If the schema is a chameleon-include then copy
* the components into the including schema and modify the
* targetNamespace of those components, do nothing otherwise.
* NOTE: This is currently worked-around by compiling the
* chameleon for every destinct including targetNamespace; thus
* not performant at the moment.
* TODO: Check when the namespace in wildcards for chameleons
* needs to be converted: before we built wildcard intersections
* or after.
* Answer: after!
*/
chamel = xmlSchemaGetChameleonSchemaBucket(pctxt,
schemaLocation, sourceTargetNamespace);
if (chamel != NULL) {
/* A fitting chameleon was already parsed; NOP. */
relation->bucket = chamel;
goto exit;
}
/*
* We need to parse the chameleon again for a different
* targetNamespace.
* CHAMELEON TODO: Optimize this by only parsing the
* chameleon once, and then copying the components to
* the new targetNamespace.
*/
bkt = NULL;
} else {
relation->bucket = bkt;
goto exit;
}
}
}
if ((bkt != NULL) && (bkt->doc != NULL)) {
PERROR_INT("xmlSchemaAddSchemaDoc",
"trying to load a schema doc, but a doc is already "
"assigned to the schema bucket");
goto exit_failure;
}
doc_load:
/*
* Load the document.
*/
if (schemaDoc != NULL) {
doc = schemaDoc;
/* Don' free this one, since it was provided by the caller. */
preserveDoc = 1;
/* TODO: Does the context or the doc hold the location? */
if (schemaDoc->URL != NULL)
schemaLocation = xmlDictLookup(pctxt->dict,
schemaDoc->URL, -1);
else
schemaLocation = BAD_CAST "in_memory_buffer";
} else if ((schemaLocation != NULL) || (schemaBuffer != NULL)) {
xmlParserCtxtPtr parserCtxt;
parserCtxt = xmlNewParserCtxt();
if (parserCtxt == NULL) {
xmlSchemaPErrMemory(NULL, "xmlSchemaGetDoc, "
"allocating a parser context", NULL);
goto exit_failure;
}
if ((pctxt->dict != NULL) && (parserCtxt->dict != NULL)) {
/*
* TODO: Do we have to burden the schema parser dict with all
* the content of the schema doc?
*/
xmlDictFree(parserCtxt->dict);
parserCtxt->dict = pctxt->dict;
xmlDictReference(parserCtxt->dict);
}
if (schemaLocation != NULL) {
/* Parse from file. */
doc = xmlCtxtReadFile(parserCtxt, (const char *) schemaLocation,
NULL, SCHEMAS_PARSE_OPTIONS);
} else if (schemaBuffer != NULL) {
/* Parse from memory buffer. */
doc = xmlCtxtReadMemory(parserCtxt, schemaBuffer, schemaBufferLen,
NULL, NULL, SCHEMAS_PARSE_OPTIONS);
schemaLocation = BAD_CAST "in_memory_buffer";
if (doc != NULL)
doc->URL = xmlStrdup(schemaLocation);
}
/*
* For <import>:
* 2.1 The referent is (a fragment of) a resource which is an
* XML document (see clause 1.1), which in turn corresponds to
* a <schema> element information item in a well-formed information
* set, which in turn corresponds to a valid schema.
* TODO: (2.1) fragments of XML documents are not supported.
*
* 2.2 The referent is a <schema> element information item in
* a well-formed information set, which in turn corresponds
* to a valid schema.
* TODO: (2.2) is not supported.
*/
if (doc == NULL) {
xmlErrorPtr lerr;
lerr = xmlGetLastError();
/*
* Check if this a parser error, or if the document could
* just not be located.
* TODO: Try to find specific error codes to react only on
* localisation failures.
*/
if ((lerr == NULL) || (lerr->domain != XML_FROM_IO)) {
/*
* We assume a parser error here.
*/
located = 1;
/* TODO: Error code ?? */
res = XML_SCHEMAP_SRC_IMPORT_2_1;
xmlSchemaCustomErr(ACTXT_CAST pctxt, res,
invokingNode, NULL,
"Failed to parse the XML resource '%s'",
schemaLocation, NULL);
}
}
xmlFreeParserCtxt(parserCtxt);
if ((doc == NULL) && located)
goto exit_error;
} else {
xmlSchemaPErr(pctxt, NULL,
XML_SCHEMAP_NOTHING_TO_PARSE,
"No information for parsing was provided with the "
"given schema parser context.\n",
NULL, NULL);
goto exit_failure;
}
/*
* Preprocess the document.
*/
if (doc != NULL) {
xmlNodePtr docElem = NULL;
located = 1;
docElem = xmlDocGetRootElement(doc);
if (docElem == NULL) {
xmlSchemaCustomErr(ACTXT_CAST pctxt, XML_SCHEMAP_NOROOT,
invokingNode, NULL,
"The document '%s' has no document element",
schemaLocation, NULL);
goto exit_error;
}
/*
* Remove all the blank text nodes.
*/
xmlSchemaCleanupDoc(pctxt, docElem);
/*
* Check the schema's top level element.
*/
if (!IS_SCHEMA(docElem, "schema")) {
xmlSchemaCustomErr(ACTXT_CAST pctxt, XML_SCHEMAP_NOT_SCHEMA,
invokingNode, NULL,
"The XML document '%s' is not a schema document",
schemaLocation, NULL);
goto exit_error;
}
/*
* Note that we don't apply a type check for the
* targetNamespace value here.
*/
targetNamespace = xmlSchemaGetProp(pctxt, docElem,
"targetNamespace");
}
/* after_doc_loading: */
if ((bkt == NULL) && located) {
/* Only create a bucket if the schema was located. */
bkt = xmlSchemaBucketCreate(pctxt, type,
targetNamespace);
if (bkt == NULL)
goto exit_failure;
}
if (bkt != NULL) {
bkt->schemaLocation = schemaLocation;
bkt->located = located;
if (doc != NULL) {
bkt->doc = doc;
bkt->targetNamespace = targetNamespace;
bkt->origTargetNamespace = targetNamespace;
if (preserveDoc)
bkt->preserveDoc = 1;
}
if (WXS_IS_BUCKET_IMPMAIN(type))
bkt->imported++;
/*
* Add it to the graph of schemas.
*/
if (relation != NULL)
relation->bucket = bkt;
}
exit:
/*
* Return the bucket explicitely; this is needed for the
* main schema.
*/
if (bucket != NULL)
*bucket = bkt;
return (0);
exit_error:
if ((doc != NULL) && (! preserveDoc)) {
xmlFreeDoc(doc);
if (bkt != NULL)
bkt->doc = NULL;
}
return(pctxt->err);
exit_failure:
if ((doc != NULL) && (! preserveDoc)) {
xmlFreeDoc(doc);
if (bkt != NULL)
bkt->doc = NULL;
}
return (-1);
}
/**
* xmlSchemaParseImport:
* @ctxt: a schema validation context
* @schema: the schema being built
* @node: a subtree containing XML Schema informations
*
* parse a XML schema Import definition
* *WARNING* this interface is highly subject to change
*
* Returns 0 in case of success, a positive error code if
* not valid and -1 in case of an internal error.
*/
static int
xmlSchemaParseImport(xmlSchemaParserCtxtPtr pctxt, xmlSchemaPtr schema,
xmlNodePtr node)
{
xmlNodePtr child;
const xmlChar *namespaceName = NULL, *schemaLocation = NULL;
const xmlChar *thisTargetNamespace;
xmlAttrPtr attr;
int ret = 0;
xmlSchemaBucketPtr bucket = NULL;
if ((pctxt == NULL) || (schema == NULL) || (node == NULL))
return (-1);
/*
* Check for illegal attributes.
*/
attr = node->properties;
while (attr != NULL) {
if (attr->ns == NULL) {
if ((!xmlStrEqual(attr->name, BAD_CAST "id")) &&
(!xmlStrEqual(attr->name, BAD_CAST "namespace")) &&
(!xmlStrEqual(attr->name, BAD_CAST "schemaLocation"))) {
xmlSchemaPIllegalAttrErr(pctxt,
XML_SCHEMAP_S4S_ATTR_NOT_ALLOWED, NULL, attr);
}
} else if (xmlStrEqual(attr->ns->href, xmlSchemaNs)) {
xmlSchemaPIllegalAttrErr(pctxt,
XML_SCHEMAP_S4S_ATTR_NOT_ALLOWED, NULL, attr);
}
attr = attr->next;
}
/*
* Extract and validate attributes.
*/
if (xmlSchemaPValAttr(pctxt, NULL, node,
"namespace", xmlSchemaGetBuiltInType(XML_SCHEMAS_ANYURI),
&namespaceName) != 0) {
xmlSchemaPSimpleTypeErr(pctxt,
XML_SCHEMAP_S4S_ATTR_INVALID_VALUE,
NULL, node,
xmlSchemaGetBuiltInType(XML_SCHEMAS_ANYURI),
NULL, namespaceName, NULL, NULL, NULL);
return (pctxt->err);
}
if (xmlSchemaPValAttr(pctxt, NULL, node,
"schemaLocation", xmlSchemaGetBuiltInType(XML_SCHEMAS_ANYURI),
&schemaLocation) != 0) {
xmlSchemaPSimpleTypeErr(pctxt,
XML_SCHEMAP_S4S_ATTR_INVALID_VALUE,
NULL, node,
xmlSchemaGetBuiltInType(XML_SCHEMAS_ANYURI),
NULL, schemaLocation, NULL, NULL, NULL);
return (pctxt->err);
}
/*
* And now for the children...
*/
child = node->children;
if (IS_SCHEMA(child, "annotation")) {
/*
* the annotation here is simply discarded ...
* TODO: really?
*/
child = child->next;
}
if (child != NULL) {
xmlSchemaPContentErr(pctxt,
XML_SCHEMAP_S4S_ELEM_NOT_ALLOWED,
NULL, node, child, NULL,
"(annotation?)");
}
/*
* Apply additional constraints.
*
* Note that it is important to use the original @targetNamespace
* (or none at all), to rule out imports of schemas _with_ a
* @targetNamespace if the importing schema is a chameleon schema
* (with no @targetNamespace).
*/
thisTargetNamespace = WXS_BUCKET(pctxt)->origTargetNamespace;
if (namespaceName != NULL) {
/*
* 1.1 If the namespace [attribute] is present, then its `actual value`
* must not match the `actual value` of the enclosing <schema>'s
* targetNamespace [attribute].
*/
if (xmlStrEqual(thisTargetNamespace, namespaceName)) {
xmlSchemaPCustomErr(pctxt,
XML_SCHEMAP_SRC_IMPORT_1_1,
NULL, node,
"The value of the attribute 'namespace' must not match "
"the target namespace '%s' of the importing schema",
thisTargetNamespace);
return (pctxt->err);
}
} else {
/*
* 1.2 If the namespace [attribute] is not present, then the enclosing
* <schema> must have a targetNamespace [attribute].
*/
if (thisTargetNamespace == NULL) {
xmlSchemaPCustomErr(pctxt,
XML_SCHEMAP_SRC_IMPORT_1_2,
NULL, node,
"The attribute 'namespace' must be existent if "
"the importing schema has no target namespace",
NULL);
return (pctxt->err);
}
}
/*
* Locate and acquire the schema document.
*/
if (schemaLocation != NULL)
schemaLocation = xmlSchemaBuildAbsoluteURI(pctxt->dict,
schemaLocation, node);
ret = xmlSchemaAddSchemaDoc(pctxt, XML_SCHEMA_SCHEMA_IMPORT,
schemaLocation, NULL, NULL, 0, node, thisTargetNamespace,
namespaceName, &bucket);
if (ret != 0)
return(ret);
/*
* For <import>: "It is *not* an error for the application
* schema reference strategy to fail."
* So just don't parse if no schema document was found.
* Note that we will get no bucket if the schema could not be
* located or if there was no schemaLocation.
*/
if ((bucket == NULL) && (schemaLocation != NULL)) {
xmlSchemaCustomWarning(ACTXT_CAST pctxt,
XML_SCHEMAP_WARN_UNLOCATED_SCHEMA,
node, NULL,
"Failed to locate a schema at location '%s'. "
"Skipping the import", schemaLocation, NULL, NULL);
}
if ((bucket != NULL) && CAN_PARSE_SCHEMA(bucket)) {
ret = xmlSchemaParseNewDoc(pctxt, schema, bucket);
}
return (ret);
}
static int
xmlSchemaParseIncludeOrRedefineAttrs(xmlSchemaParserCtxtPtr pctxt,
xmlSchemaPtr schema,
xmlNodePtr node,
xmlChar **schemaLocation,
int type)
{
xmlAttrPtr attr;
if ((pctxt == NULL) || (schema == NULL) || (node == NULL) ||
(schemaLocation == NULL))
return (-1);
*schemaLocation = NULL;
/*
* Check for illegal attributes.
* Applies for both <include> and <redefine>.
*/
attr = node->properties;
while (attr != NULL) {
if (attr->ns == NULL) {
if ((!xmlStrEqual(attr->name, BAD_CAST "id")) &&
(!xmlStrEqual(attr->name, BAD_CAST "schemaLocation"))) {
xmlSchemaPIllegalAttrErr(pctxt,
XML_SCHEMAP_S4S_ATTR_NOT_ALLOWED, NULL, attr);
}
} else if (xmlStrEqual(attr->ns->href, xmlSchemaNs)) {
xmlSchemaPIllegalAttrErr(pctxt,
XML_SCHEMAP_S4S_ATTR_NOT_ALLOWED, NULL, attr);
}
attr = attr->next;
}
xmlSchemaPValAttrID(pctxt, node, BAD_CAST "id");
/*
* Preliminary step, extract the URI-Reference and make an URI
* from the base.
*/
/*
* Attribute "schemaLocation" is mandatory.
*/
attr = xmlSchemaGetPropNode(node, "schemaLocation");
if (attr != NULL) {
xmlChar *base = NULL;
xmlChar *uri = NULL;
if (xmlSchemaPValAttrNode(pctxt, NULL, attr,
xmlSchemaGetBuiltInType(XML_SCHEMAS_ANYURI),
(const xmlChar **) schemaLocation) != 0)
goto exit_error;
base = xmlNodeGetBase(node->doc, node);
if (base == NULL) {
uri = xmlBuildURI(*schemaLocation, node->doc->URL);
} else {
uri = xmlBuildURI(*schemaLocation, base);
xmlFree(base);
}
if (uri == NULL) {
PERROR_INT("xmlSchemaParseIncludeOrRedefine",
"could not build an URI from the schemaLocation")
goto exit_failure;
}
(*schemaLocation) = (xmlChar *) xmlDictLookup(pctxt->dict, uri, -1);
xmlFree(uri);
} else {
xmlSchemaPMissingAttrErr(pctxt,
XML_SCHEMAP_S4S_ATTR_MISSING,
NULL, node, "schemaLocation", NULL);
goto exit_error;
}
/*
* Report self-inclusion and self-redefinition.
*/
if (xmlStrEqual(*schemaLocation, pctxt->URL)) {
if (type == XML_SCHEMA_SCHEMA_REDEFINE) {
xmlSchemaPCustomErr(pctxt,
XML_SCHEMAP_SRC_REDEFINE,
NULL, node,
"The schema document '%s' cannot redefine itself.",
*schemaLocation);
} else {
xmlSchemaPCustomErr(pctxt,
XML_SCHEMAP_SRC_INCLUDE,
NULL, node,
"The schema document '%s' cannot include itself.",
*schemaLocation);
}
goto exit_error;
}
return(0);
exit_error:
return(pctxt->err);
exit_failure:
return(-1);
}
static int
xmlSchemaParseIncludeOrRedefine(xmlSchemaParserCtxtPtr pctxt,
xmlSchemaPtr schema,
xmlNodePtr node,
int type)
{
xmlNodePtr child = NULL;
const xmlChar *schemaLocation = NULL;
int res = 0; /* hasRedefinitions = 0 */
int isChameleon = 0, wasChameleon = 0;
xmlSchemaBucketPtr bucket = NULL;
if ((pctxt == NULL) || (schema == NULL) || (node == NULL))
return (-1);
/*
* Parse attributes. Note that the returned schemaLocation will
* be already converted to an absolute URI.
*/
res = xmlSchemaParseIncludeOrRedefineAttrs(pctxt, schema,
node, (xmlChar **) (&schemaLocation), type);
if (res != 0)
return(res);
/*
* Load and add the schema document.
*/
res = xmlSchemaAddSchemaDoc(pctxt, type, schemaLocation, NULL,
NULL, 0, node, pctxt->targetNamespace, NULL, &bucket);
if (res != 0)
return(res);
/*
* If we get no schema bucket back, then this means that the schema
* document could not be located or was broken XML or was not
* a schema document.
*/
if ((bucket == NULL) || (bucket->doc == NULL)) {
if (type == XML_SCHEMA_SCHEMA_INCLUDE) {
/*
* WARNING for <include>:
* We will raise an error if the schema cannot be located
* for inclusions, since the that was the feedback from the
* schema people. I.e. the following spec piece will *not* be
* satisfied:
* SPEC src-include: "It is not an error for the `actual value` of the
* schemaLocation [attribute] to fail to resolve it all, in which
* case no corresponding inclusion is performed.
* So do we need a warning report here?"
*/
res = XML_SCHEMAP_SRC_INCLUDE;
xmlSchemaCustomErr(ACTXT_CAST pctxt, res,
node, NULL,
"Failed to load the document '%s' for inclusion",
schemaLocation, NULL);
} else {
/*
* NOTE: This was changed to raise an error even if no redefinitions
* are specified.
*
* SPEC src-redefine (1)
* "If there are any element information items among the [children]
* other than <annotation> then the `actual value` of the
* schemaLocation [attribute] must successfully resolve."
* TODO: Ask the WG if a the location has always to resolve
* here as well!
*/
res = XML_SCHEMAP_SRC_REDEFINE;
xmlSchemaCustomErr(ACTXT_CAST pctxt, res,
node, NULL,
"Failed to load the document '%s' for redefinition",
schemaLocation, NULL);
}
} else {
/*
* Check targetNamespace sanity before parsing the new schema.
* TODO: Note that we won't check further content if the
* targetNamespace was bad.
*/
if (bucket->origTargetNamespace != NULL) {
/*
* SPEC src-include (2.1)
* "SII has a targetNamespace [attribute], and its `actual
* value` is identical to the `actual value` of the targetNamespace
* [attribute] of SII' (which must have such an [attribute])."
*/
if (pctxt->targetNamespace == NULL) {
xmlSchemaCustomErr(ACTXT_CAST pctxt,
XML_SCHEMAP_SRC_INCLUDE,
node, NULL,
"The target namespace of the included/redefined schema "
"'%s' has to be absent, since the including/redefining "
"schema has no target namespace",
schemaLocation, NULL);
goto exit_error;
} else if (!xmlStrEqual(bucket->origTargetNamespace,
pctxt->targetNamespace)) {
/* TODO: Change error function. */
xmlSchemaPCustomErrExt(pctxt,
XML_SCHEMAP_SRC_INCLUDE,
NULL, node,
"The target namespace '%s' of the included/redefined "
"schema '%s' differs from '%s' of the "
"including/redefining schema",
bucket->origTargetNamespace, schemaLocation,
pctxt->targetNamespace);
goto exit_error;
}
} else if (pctxt->targetNamespace != NULL) {
/*
* Chameleons: the original target namespace will
* differ from the resulting namespace.
*/
isChameleon = 1;
if (bucket->parsed &&
bucket->origTargetNamespace != NULL) {
xmlSchemaCustomErr(ACTXT_CAST pctxt,
XML_SCHEMAP_SRC_INCLUDE,
node, NULL,
"The target namespace of the included/redefined schema "
"'%s' has to be absent or the same as the "
"including/redefining schema's target namespace",
schemaLocation, NULL);
goto exit_error;
}
bucket->targetNamespace = pctxt->targetNamespace;
}
}
/*
* Parse the schema.
*/
if (bucket && (!bucket->parsed) && (bucket->doc != NULL)) {
if (isChameleon) {
/* TODO: Get rid of this flag on the schema itself. */
if ((schema->flags & XML_SCHEMAS_INCLUDING_CONVERT_NS) == 0) {
schema->flags |= XML_SCHEMAS_INCLUDING_CONVERT_NS;
} else
wasChameleon = 1;
}
xmlSchemaParseNewDoc(pctxt, schema, bucket);
/* Restore chameleon flag. */
if (isChameleon && (!wasChameleon))
schema->flags ^= XML_SCHEMAS_INCLUDING_CONVERT_NS;
}
/*
* And now for the children...
*/
child = node->children;
if (type == XML_SCHEMA_SCHEMA_REDEFINE) {
/*
* Parse (simpleType | complexType | group | attributeGroup))*
*/
pctxt->redefined = bucket;
/*
* How to proceed if the redefined schema was not located?
*/
pctxt->isRedefine = 1;
while (IS_SCHEMA(child, "annotation") ||
IS_SCHEMA(child, "simpleType") ||
IS_SCHEMA(child, "complexType") ||
IS_SCHEMA(child, "group") ||
IS_SCHEMA(child, "attributeGroup")) {
if (IS_SCHEMA(child, "annotation")) {
/*
* TODO: discard or not?
*/
} else if (IS_SCHEMA(child, "simpleType")) {
xmlSchemaParseSimpleType(pctxt, schema, child, 1);
} else if (IS_SCHEMA(child, "complexType")) {
xmlSchemaParseComplexType(pctxt, schema, child, 1);
/* hasRedefinitions = 1; */
} else if (IS_SCHEMA(child, "group")) {
/* hasRedefinitions = 1; */
xmlSchemaParseModelGroupDefinition(pctxt,
schema, child);
} else if (IS_SCHEMA(child, "attributeGroup")) {
/* hasRedefinitions = 1; */
xmlSchemaParseAttributeGroupDefinition(pctxt, schema,
child);
}
child = child->next;
}
pctxt->redefined = NULL;
pctxt->isRedefine = 0;
} else {
if (IS_SCHEMA(child, "annotation")) {
/*
* TODO: discard or not?
*/
child = child->next;
}
}
if (child != NULL) {
res = XML_SCHEMAP_S4S_ELEM_NOT_ALLOWED;
if (type == XML_SCHEMA_SCHEMA_REDEFINE) {
xmlSchemaPContentErr(pctxt, res,
NULL, node, child, NULL,
"(annotation | (simpleType | complexType | group | attributeGroup))*");
} else {
xmlSchemaPContentErr(pctxt, res,
NULL, node, child, NULL,
"(annotation?)");
}
}
return(res);
exit_error:
return(pctxt->err);
}
static int
xmlSchemaParseRedefine(xmlSchemaParserCtxtPtr pctxt, xmlSchemaPtr schema,
xmlNodePtr node)
{
int res;
#ifndef ENABLE_REDEFINE
TODO
return(0);
#endif
res = xmlSchemaParseIncludeOrRedefine(pctxt, schema, node,
XML_SCHEMA_SCHEMA_REDEFINE);
if (res != 0)
return(res);
return(0);
}
static int
xmlSchemaParseInclude(xmlSchemaParserCtxtPtr pctxt, xmlSchemaPtr schema,
xmlNodePtr node)
{
int res;
res = xmlSchemaParseIncludeOrRedefine(pctxt, schema, node,
XML_SCHEMA_SCHEMA_INCLUDE);
if (res != 0)
return(res);
return(0);
}
/**
* xmlSchemaParseModelGroup:
* @ctxt: a schema validation context
* @schema: the schema being built
* @node: a subtree containing XML Schema informations
* @type: the "compositor" type
* @particleNeeded: if a a model group with a particle
*
* parse a XML schema Sequence definition.
* Applies parts of:
* Schema Representation Constraint:
* Redefinition Constraints and Semantics (src-redefine)
* (6.1), (6.1.1), (6.1.2)
*
* Schema Component Constraint:
* All Group Limited (cos-all-limited) (2)
* TODO: Actually this should go to component-level checks,
* but is done here due to performance. Move it to an other layer
* is schema construction via an API is implemented.
*
* *WARNING* this interface is highly subject to change
*
* Returns -1 in case of error, 0 if the declaration is improper and
* 1 in case of success.
*/
static xmlSchemaTreeItemPtr
xmlSchemaParseModelGroup(xmlSchemaParserCtxtPtr ctxt, xmlSchemaPtr schema,
xmlNodePtr node, xmlSchemaTypeType type,
int withParticle)
{
xmlSchemaModelGroupPtr item;
xmlSchemaParticlePtr particle = NULL;
xmlNodePtr child = NULL;
xmlAttrPtr attr;
int min = 1, max = 1, isElemRef, hasRefs = 0;
if ((ctxt == NULL) || (schema == NULL) || (node == NULL))
return (NULL);
/*
* Create a model group with the given compositor.
*/
item = xmlSchemaAddModelGroup(ctxt, schema, type, node);
if (item == NULL)
return (NULL);
if (withParticle) {
if (type == XML_SCHEMA_TYPE_ALL) {
min = xmlGetMinOccurs(ctxt, node, 0, 1, 1, "(0 | 1)");
max = xmlGetMaxOccurs(ctxt, node, 1, 1, 1, "1");
} else {
/* choice + sequence */
min = xmlGetMinOccurs(ctxt, node, 0, -1, 1, "xs:nonNegativeInteger");
max = xmlGetMaxOccurs(ctxt, node, 0, UNBOUNDED, 1,
"(xs:nonNegativeInteger | unbounded)");
}
xmlSchemaPCheckParticleCorrect_2(ctxt, NULL, node, min, max);
/*
* Create a particle
*/
particle = xmlSchemaAddParticle(ctxt, node, min, max);
if (particle == NULL)
return (NULL);
particle->children = (xmlSchemaTreeItemPtr) item;
/*
* Check for illegal attributes.
*/
attr = node->properties;
while (attr != NULL) {
if (attr->ns == NULL) {
if ((!xmlStrEqual(attr->name, BAD_CAST "id")) &&
(!xmlStrEqual(attr->name, BAD_CAST "maxOccurs")) &&
(!xmlStrEqual(attr->name, BAD_CAST "minOccurs"))) {
xmlSchemaPIllegalAttrErr(ctxt,
XML_SCHEMAP_S4S_ATTR_NOT_ALLOWED, NULL, attr);
}
} else if (xmlStrEqual(attr->ns->href, xmlSchemaNs)) {
xmlSchemaPIllegalAttrErr(ctxt,
XML_SCHEMAP_S4S_ATTR_NOT_ALLOWED, NULL, attr);
}
attr = attr->next;
}
} else {
/*
* Check for illegal attributes.
*/
attr = node->properties;
while (attr != NULL) {
if (attr->ns == NULL) {
if (!xmlStrEqual(attr->name, BAD_CAST "id")) {
xmlSchemaPIllegalAttrErr(ctxt,
XML_SCHEMAP_S4S_ATTR_NOT_ALLOWED, NULL, attr);
}
} else if (xmlStrEqual(attr->ns->href, xmlSchemaNs)) {
xmlSchemaPIllegalAttrErr(ctxt,
XML_SCHEMAP_S4S_ATTR_NOT_ALLOWED, NULL, attr);
}
attr = attr->next;
}
}
/*
* Extract and validate attributes.
*/
xmlSchemaPValAttrID(ctxt, node, BAD_CAST "id");
/*
* And now for the children...
*/
child = node->children;
if (IS_SCHEMA(child, "annotation")) {
item->annot = xmlSchemaParseAnnotation(ctxt, child, 1);
child = child->next;
}
if (type == XML_SCHEMA_TYPE_ALL) {
xmlSchemaParticlePtr part, last = NULL;
while (IS_SCHEMA(child, "element")) {
part = (xmlSchemaParticlePtr) xmlSchemaParseElement(ctxt,
schema, child, &isElemRef, 0);
/*
* SPEC cos-all-limited (2)
* "The {max occurs} of all the particles in the {particles}
* of the ('all') group must be 0 or 1.
*/
if (part != NULL) {
if (isElemRef)
hasRefs++;
if (part->minOccurs > 1) {
xmlSchemaPCustomErr(ctxt,
XML_SCHEMAP_COS_ALL_LIMITED,
NULL, child,
"Invalid value for minOccurs (must be 0 or 1)",
NULL);
/* Reset to 1. */
part->minOccurs = 1;
}
if (part->maxOccurs > 1) {
xmlSchemaPCustomErr(ctxt,
XML_SCHEMAP_COS_ALL_LIMITED,
NULL, child,
"Invalid value for maxOccurs (must be 0 or 1)",
NULL);
/* Reset to 1. */
part->maxOccurs = 1;
}
if (last == NULL)
item->children = (xmlSchemaTreeItemPtr) part;
else
last->next = (xmlSchemaTreeItemPtr) part;
last = part;
}
child = child->next;
}
if (child != NULL) {
xmlSchemaPContentErr(ctxt,
XML_SCHEMAP_S4S_ELEM_NOT_ALLOWED,
NULL, node, child, NULL,
"(annotation?, (annotation?, element*)");
}
} else {
/* choice + sequence */
xmlSchemaTreeItemPtr part = NULL, last = NULL;
while ((IS_SCHEMA(child, "element")) ||
(IS_SCHEMA(child, "group")) ||
(IS_SCHEMA(child, "any")) ||
(IS_SCHEMA(child, "choice")) ||
(IS_SCHEMA(child, "sequence"))) {
if (IS_SCHEMA(child, "element")) {
part = (xmlSchemaTreeItemPtr)
xmlSchemaParseElement(ctxt, schema, child, &isElemRef, 0);
if (part && isElemRef)
hasRefs++;
} else if (IS_SCHEMA(child, "group")) {
part =
xmlSchemaParseModelGroupDefRef(ctxt, schema, child);
if (part != NULL)
hasRefs++;
/*
* Handle redefinitions.
*/
if (ctxt->isRedefine && ctxt->redef &&
(ctxt->redef->item->type == XML_SCHEMA_TYPE_GROUP) &&
part && part->children)
{
if ((xmlSchemaGetQNameRefName(part->children) ==
ctxt->redef->refName) &&
(xmlSchemaGetQNameRefTargetNs(part->children) ==
ctxt->redef->refTargetNs))
{
/*
* SPEC src-redefine:
* (6.1) "If it has a <group> among its contents at
* some level the `actual value` of whose ref
* [attribute] is the same as the `actual value` of
* its own name attribute plus target namespace, then
* all of the following must be true:"
* (6.1.1) "It must have exactly one such group."
*/
if (ctxt->redefCounter != 0) {
xmlChar *str = NULL;
xmlSchemaCustomErr(ACTXT_CAST ctxt,
XML_SCHEMAP_SRC_REDEFINE, child, NULL,
"The redefining model group definition "
"'%s' must not contain more than one "
"reference to the redefined definition",
xmlSchemaFormatQName(&str,
ctxt->redef->refTargetNs,
ctxt->redef->refName),
NULL);
FREE_AND_NULL(str)
part = NULL;
} else if (((WXS_PARTICLE(part))->minOccurs != 1) ||
((WXS_PARTICLE(part))->maxOccurs != 1))
{
xmlChar *str = NULL;
/*
* SPEC src-redefine:
* (6.1.2) "The `actual value` of both that
* group's minOccurs and maxOccurs [attribute]
* must be 1 (or `absent`).
*/
xmlSchemaCustomErr(ACTXT_CAST ctxt,
XML_SCHEMAP_SRC_REDEFINE, child, NULL,
"The redefining model group definition "
"'%s' must not contain a reference to the "
"redefined definition with a "
"maxOccurs/minOccurs other than 1",
xmlSchemaFormatQName(&str,
ctxt->redef->refTargetNs,
ctxt->redef->refName),
NULL);
FREE_AND_NULL(str)
part = NULL;
}
ctxt->redef->reference = WXS_BASIC_CAST part;
ctxt->redefCounter++;
}
}
} else if (IS_SCHEMA(child, "any")) {
part = (xmlSchemaTreeItemPtr)
xmlSchemaParseAny(ctxt, schema, child);
} else if (IS_SCHEMA(child, "choice")) {
part = xmlSchemaParseModelGroup(ctxt, schema, child,
XML_SCHEMA_TYPE_CHOICE, 1);
} else if (IS_SCHEMA(child, "sequence")) {
part = xmlSchemaParseModelGroup(ctxt, schema, child,
XML_SCHEMA_TYPE_SEQUENCE, 1);
}
if (part != NULL) {
if (last == NULL)
item->children = part;
else
last->next = part;
last = part;
}
child = child->next;
}
if (child != NULL) {
xmlSchemaPContentErr(ctxt,
XML_SCHEMAP_S4S_ELEM_NOT_ALLOWED,
NULL, node, child, NULL,
"(annotation?, (element | group | choice | sequence | any)*)");
}
}
if ((max == 0) && (min == 0))
return (NULL);
if (hasRefs) {
/*
* We need to resolve references.
*/
WXS_ADD_PENDING(ctxt, item);
}
if (withParticle)
return ((xmlSchemaTreeItemPtr) particle);
else
return ((xmlSchemaTreeItemPtr) item);
}
/**
* xmlSchemaParseRestriction:
* @ctxt: a schema validation context
* @schema: the schema being built
* @node: a subtree containing XML Schema informations
*
* parse a XML schema Restriction definition
* *WARNING* this interface is highly subject to change
*
* Returns the type definition or NULL in case of error
*/
static xmlSchemaTypePtr
xmlSchemaParseRestriction(xmlSchemaParserCtxtPtr ctxt, xmlSchemaPtr schema,
xmlNodePtr node, xmlSchemaTypeType parentType)
{
xmlSchemaTypePtr type;
xmlNodePtr child = NULL;
xmlAttrPtr attr;
if ((ctxt == NULL) || (schema == NULL) || (node == NULL))
return (NULL);
/* Not a component, don't create it. */
type = ctxt->ctxtType;
type->flags |= XML_SCHEMAS_TYPE_DERIVATION_METHOD_RESTRICTION;
/*
* Check for illegal attributes.
*/
attr = node->properties;
while (attr != NULL) {
if (attr->ns == NULL) {
if ((!xmlStrEqual(attr->name, BAD_CAST "id")) &&
(!xmlStrEqual(attr->name, BAD_CAST "base"))) {
xmlSchemaPIllegalAttrErr(ctxt,
XML_SCHEMAP_S4S_ATTR_NOT_ALLOWED, NULL, attr);
}
} else if (xmlStrEqual(attr->ns->href, xmlSchemaNs)) {
xmlSchemaPIllegalAttrErr(ctxt,
XML_SCHEMAP_S4S_ATTR_NOT_ALLOWED, NULL, attr);
}
attr = attr->next;
}
/*
* Extract and validate attributes.
*/
xmlSchemaPValAttrID(ctxt, node, BAD_CAST "id");
/*
* Attribute
*/
/*
* Extract the base type. The "base" attribute is mandatory if inside
* a complex type or if redefining.
*
* SPEC (1.2) "...otherwise (<restriction> has no <simpleType> "
* among its [children]), the simple type definition which is
* the {content type} of the type definition `resolved` to by
* the `actual value` of the base [attribute]"
*/
if (xmlSchemaPValAttrQName(ctxt, schema, NULL, node, "base",
&(type->baseNs), &(type->base)) == 0)
{
if ((type->base == NULL) && (type->type == XML_SCHEMA_TYPE_COMPLEX)) {
xmlSchemaPMissingAttrErr(ctxt,
XML_SCHEMAP_S4S_ATTR_MISSING,
NULL, node, "base", NULL);
} else if ((ctxt->isRedefine) &&
(type->flags & XML_SCHEMAS_TYPE_GLOBAL))
{
if (type->base == NULL) {
xmlSchemaPMissingAttrErr(ctxt,
XML_SCHEMAP_S4S_ATTR_MISSING,
NULL, node, "base", NULL);
} else if ((! xmlStrEqual(type->base, type->name)) ||
(! xmlStrEqual(type->baseNs, type->targetNamespace)))
{
xmlChar *str1 = NULL, *str2 = NULL;
/*
* REDEFINE: SPEC src-redefine (5)
* "Within the [children], each <simpleType> must have a
* <restriction> among its [children] ... the `actual value` of
* whose base [attribute] must be the same as the `actual value`
* of its own name attribute plus target namespace;"
*/
xmlSchemaPCustomErrExt(ctxt, XML_SCHEMAP_SRC_REDEFINE,
NULL, node, "This is a redefinition, but the QName "
"value '%s' of the 'base' attribute does not match the "
"type's designation '%s'",
xmlSchemaFormatQName(&str1, type->baseNs, type->base),
xmlSchemaFormatQName(&str2, type->targetNamespace,
type->name), NULL);
FREE_AND_NULL(str1);
FREE_AND_NULL(str2);
/* Avoid confusion and erase the values. */
type->base = NULL;
type->baseNs = NULL;
}
}
}
/*
* And now for the children...
*/
child = node->children;
if (IS_SCHEMA(child, "annotation")) {
/*
* Add the annotation to the simple type ancestor.
*/
xmlSchemaAddAnnotation((xmlSchemaAnnotItemPtr) type,
xmlSchemaParseAnnotation(ctxt, child, 1));
child = child->next;
}
if (parentType == XML_SCHEMA_TYPE_SIMPLE) {
/*
* Corresponds to <simpleType><restriction><simpleType>.
*/
if (IS_SCHEMA(child, "simpleType")) {
if (type->base != NULL) {
/*
* src-restriction-base-or-simpleType
* Either the base [attribute] or the simpleType [child] of the
* <restriction> element must be present, but not both.
*/
xmlSchemaPContentErr(ctxt,
XML_SCHEMAP_SRC_RESTRICTION_BASE_OR_SIMPLETYPE,
NULL, node, child,
"The attribute 'base' and the <simpleType> child are "
"mutually exclusive", NULL);
} else {
type->baseType = (xmlSchemaTypePtr)
xmlSchemaParseSimpleType(ctxt, schema, child, 0);
}
child = child->next;
} else if (type->base == NULL) {
xmlSchemaPContentErr(ctxt,
XML_SCHEMAP_SRC_RESTRICTION_BASE_OR_SIMPLETYPE,
NULL, node, child,
"Either the attribute 'base' or a <simpleType> child "
"must be present", NULL);
}
} else if (parentType == XML_SCHEMA_TYPE_COMPLEX_CONTENT) {
/*
* Corresponds to <complexType><complexContent><restriction>...
* followed by:
*
* Model groups <all>, <choice> and <sequence>.
*/
if (IS_SCHEMA(child, "all")) {
type->subtypes = (xmlSchemaTypePtr)
xmlSchemaParseModelGroup(ctxt, schema, child,
XML_SCHEMA_TYPE_ALL, 1);
child = child->next;
} else if (IS_SCHEMA(child, "choice")) {
type->subtypes = (xmlSchemaTypePtr)
xmlSchemaParseModelGroup(ctxt,
schema, child, XML_SCHEMA_TYPE_CHOICE, 1);
child = child->next;
} else if (IS_SCHEMA(child, "sequence")) {
type->subtypes = (xmlSchemaTypePtr)
xmlSchemaParseModelGroup(ctxt, schema, child,
XML_SCHEMA_TYPE_SEQUENCE, 1);
child = child->next;
/*
* Model group reference <group>.
*/
} else if (IS_SCHEMA(child, "group")) {
type->subtypes = (xmlSchemaTypePtr)
xmlSchemaParseModelGroupDefRef(ctxt, schema, child);
/*
* Note that the reference will be resolved in
* xmlSchemaResolveTypeReferences();
*/
child = child->next;
}
} else if (parentType == XML_SCHEMA_TYPE_SIMPLE_CONTENT) {
/*
* Corresponds to <complexType><simpleContent><restriction>...
*
* "1.1 the simple type definition corresponding to the <simpleType>
* among the [children] of <restriction> if there is one;"
*/
if (IS_SCHEMA(child, "simpleType")) {
/*
* We will store the to-be-restricted simple type in
* type->contentTypeDef *temporarily*.
*/
type->contentTypeDef = (xmlSchemaTypePtr)
xmlSchemaParseSimpleType(ctxt, schema, child, 0);
if ( type->contentTypeDef == NULL)
return (NULL);
child = child->next;
}
}
if ((parentType == XML_SCHEMA_TYPE_SIMPLE) ||
(parentType == XML_SCHEMA_TYPE_SIMPLE_CONTENT)) {
xmlSchemaFacetPtr facet, lastfacet = NULL;
/*
* Corresponds to <complexType><simpleContent><restriction>...
* <simpleType><restriction>...
*/
/*
* Add the facets to the simple type ancestor.
*/
/*
* TODO: Datatypes: 4.1.3 Constraints on XML Representation of
* Simple Type Definition Schema Representation Constraint:
* *Single Facet Value*
*/
while ((IS_SCHEMA(child, "minInclusive")) ||
(IS_SCHEMA(child, "minExclusive")) ||
(IS_SCHEMA(child, "maxInclusive")) ||
(IS_SCHEMA(child, "maxExclusive")) ||
(IS_SCHEMA(child, "totalDigits")) ||
(IS_SCHEMA(child, "fractionDigits")) ||
(IS_SCHEMA(child, "pattern")) ||
(IS_SCHEMA(child, "enumeration")) ||
(IS_SCHEMA(child, "whiteSpace")) ||
(IS_SCHEMA(child, "length")) ||
(IS_SCHEMA(child, "maxLength")) ||
(IS_SCHEMA(child, "minLength"))) {
facet = xmlSchemaParseFacet(ctxt, schema, child);
if (facet != NULL) {
if (lastfacet == NULL)
type->facets = facet;
else
lastfacet->next = facet;
lastfacet = facet;
lastfacet->next = NULL;
}
child = child->next;
}
/*
* Create links for derivation and validation.
*/
if (type->facets != NULL) {
xmlSchemaFacetLinkPtr facetLink, lastFacetLink = NULL;
facet = type->facets;
do {
facetLink = (xmlSchemaFacetLinkPtr)
xmlMalloc(sizeof(xmlSchemaFacetLink));
if (facetLink == NULL) {
xmlSchemaPErrMemory(ctxt, "allocating a facet link", NULL);
xmlFree(facetLink);
return (NULL);
}
facetLink->facet = facet;
facetLink->next = NULL;
if (lastFacetLink == NULL)
type->facetSet = facetLink;
else
lastFacetLink->next = facetLink;
lastFacetLink = facetLink;
facet = facet->next;
} while (facet != NULL);
}
}
if (type->type == XML_SCHEMA_TYPE_COMPLEX) {
/*
* Attribute uses/declarations.
*/
if (xmlSchemaParseLocalAttributes(ctxt, schema, &child,
(xmlSchemaItemListPtr *) &(type->attrUses),
XML_SCHEMA_TYPE_RESTRICTION, NULL) == -1)
return(NULL);
/*
* Attribute wildcard.
*/
if (IS_SCHEMA(child, "anyAttribute")) {
type->attributeWildcard =
xmlSchemaParseAnyAttribute(ctxt, schema, child);
child = child->next;
}
}
if (child != NULL) {
if (parentType == XML_SCHEMA_TYPE_COMPLEX_CONTENT) {
xmlSchemaPContentErr(ctxt,
XML_SCHEMAP_S4S_ELEM_NOT_ALLOWED,
NULL, node, child, NULL,
"annotation?, (group | all | choice | sequence)?, "
"((attribute | attributeGroup)*, anyAttribute?))");
} else if (parentType == XML_SCHEMA_TYPE_SIMPLE_CONTENT) {
xmlSchemaPContentErr(ctxt,
XML_SCHEMAP_S4S_ELEM_NOT_ALLOWED,
NULL, node, child, NULL,
"(annotation?, (simpleType?, (minExclusive | minInclusive | "
"maxExclusive | maxInclusive | totalDigits | fractionDigits | "
"length | minLength | maxLength | enumeration | whiteSpace | "
"pattern)*)?, ((attribute | attributeGroup)*, anyAttribute?))");
} else {
/* Simple type */
xmlSchemaPContentErr(ctxt,
XML_SCHEMAP_S4S_ELEM_NOT_ALLOWED,
NULL, node, child, NULL,
"(annotation?, (simpleType?, (minExclusive | minInclusive | "
"maxExclusive | maxInclusive | totalDigits | fractionDigits | "
"length | minLength | maxLength | enumeration | whiteSpace | "
"pattern)*))");
}
}
return (NULL);
}
/**
* xmlSchemaParseExtension:
* @ctxt: a schema validation context
* @schema: the schema being built
* @node: a subtree containing XML Schema informations
*
* Parses an <extension>, which is found inside a
* <simpleContent> or <complexContent>.
* *WARNING* this interface is highly subject to change.
*
* TODO: Returns the type definition or NULL in case of error
*/
static xmlSchemaTypePtr
xmlSchemaParseExtension(xmlSchemaParserCtxtPtr ctxt, xmlSchemaPtr schema,
xmlNodePtr node, xmlSchemaTypeType parentType)
{
xmlSchemaTypePtr type;
xmlNodePtr child = NULL;
xmlAttrPtr attr;
if ((ctxt == NULL) || (schema == NULL) || (node == NULL))
return (NULL);
/* Not a component, don't create it. */
type = ctxt->ctxtType;
type->flags |= XML_SCHEMAS_TYPE_DERIVATION_METHOD_EXTENSION;
/*
* Check for illegal attributes.
*/
attr = node->properties;
while (attr != NULL) {
if (attr->ns == NULL) {
if ((!xmlStrEqual(attr->name, BAD_CAST "id")) &&
(!xmlStrEqual(attr->name, BAD_CAST "base"))) {
xmlSchemaPIllegalAttrErr(ctxt,
XML_SCHEMAP_S4S_ATTR_NOT_ALLOWED, NULL, attr);
}
} else if (xmlStrEqual(attr->ns->href, xmlSchemaNs)) {
xmlSchemaPIllegalAttrErr(ctxt,
XML_SCHEMAP_S4S_ATTR_NOT_ALLOWED, NULL, attr);
}
attr = attr->next;
}
xmlSchemaPValAttrID(ctxt, node, BAD_CAST "id");
/*
* Attribute "base" - mandatory.
*/
if ((xmlSchemaPValAttrQName(ctxt, schema, NULL, node,
"base", &(type->baseNs), &(type->base)) == 0) &&
(type->base == NULL)) {
xmlSchemaPMissingAttrErr(ctxt,
XML_SCHEMAP_S4S_ATTR_MISSING,
NULL, node, "base", NULL);
}
/*
* And now for the children...
*/
child = node->children;
if (IS_SCHEMA(child, "annotation")) {
/*
* Add the annotation to the type ancestor.
*/
xmlSchemaAddAnnotation((xmlSchemaAnnotItemPtr) type,
xmlSchemaParseAnnotation(ctxt, child, 1));
child = child->next;
}
if (parentType == XML_SCHEMA_TYPE_COMPLEX_CONTENT) {
/*
* Corresponds to <complexType><complexContent><extension>... and:
*
* Model groups <all>, <choice>, <sequence> and <group>.
*/
if (IS_SCHEMA(child, "all")) {
type->subtypes = (xmlSchemaTypePtr)
xmlSchemaParseModelGroup(ctxt, schema,
child, XML_SCHEMA_TYPE_ALL, 1);
child = child->next;
} else if (IS_SCHEMA(child, "choice")) {
type->subtypes = (xmlSchemaTypePtr)
xmlSchemaParseModelGroup(ctxt, schema,
child, XML_SCHEMA_TYPE_CHOICE, 1);
child = child->next;
} else if (IS_SCHEMA(child, "sequence")) {
type->subtypes = (xmlSchemaTypePtr)
xmlSchemaParseModelGroup(ctxt, schema,
child, XML_SCHEMA_TYPE_SEQUENCE, 1);
child = child->next;
} else if (IS_SCHEMA(child, "group")) {
type->subtypes = (xmlSchemaTypePtr)
xmlSchemaParseModelGroupDefRef(ctxt, schema, child);
/*
* Note that the reference will be resolved in
* xmlSchemaResolveTypeReferences();
*/
child = child->next;
}
}
if (child != NULL) {
/*
* Attribute uses/declarations.
*/
if (xmlSchemaParseLocalAttributes(ctxt, schema, &child,
(xmlSchemaItemListPtr *) &(type->attrUses),
XML_SCHEMA_TYPE_EXTENSION, NULL) == -1)
return(NULL);
/*
* Attribute wildcard.
*/
if (IS_SCHEMA(child, "anyAttribute")) {
ctxt->ctxtType->attributeWildcard =
xmlSchemaParseAnyAttribute(ctxt, schema, child);
child = child->next;
}
}
if (child != NULL) {
if (parentType == XML_SCHEMA_TYPE_COMPLEX_CONTENT) {
/* Complex content extension. */
xmlSchemaPContentErr(ctxt,
XML_SCHEMAP_S4S_ELEM_NOT_ALLOWED,
NULL, node, child, NULL,
"(annotation?, ((group | all | choice | sequence)?, "
"((attribute | attributeGroup)*, anyAttribute?)))");
} else {
/* Simple content extension. */
xmlSchemaPContentErr(ctxt,
XML_SCHEMAP_S4S_ELEM_NOT_ALLOWED,
NULL, node, child, NULL,
"(annotation?, ((attribute | attributeGroup)*, "
"anyAttribute?))");
}
}
return (NULL);
}
/**
* xmlSchemaParseSimpleContent:
* @ctxt: a schema validation context
* @schema: the schema being built
* @node: a subtree containing XML Schema informations
*
* parse a XML schema SimpleContent definition
* *WARNING* this interface is highly subject to change
*
* Returns the type definition or NULL in case of error
*/
static int
xmlSchemaParseSimpleContent(xmlSchemaParserCtxtPtr ctxt,
xmlSchemaPtr schema, xmlNodePtr node,
int *hasRestrictionOrExtension)
{
xmlSchemaTypePtr type;
xmlNodePtr child = NULL;
xmlAttrPtr attr;
if ((ctxt == NULL) || (schema == NULL) || (node == NULL) ||
(hasRestrictionOrExtension == NULL))
return (-1);
*hasRestrictionOrExtension = 0;
/* Not a component, don't create it. */
type = ctxt->ctxtType;
type->contentType = XML_SCHEMA_CONTENT_SIMPLE;
/*
* Check for illegal attributes.
*/
attr = node->properties;
while (attr != NULL) {
if (attr->ns == NULL) {
if ((!xmlStrEqual(attr->name, BAD_CAST "id"))) {
xmlSchemaPIllegalAttrErr(ctxt,
XML_SCHEMAP_S4S_ATTR_NOT_ALLOWED, NULL, attr);
}
} else if (xmlStrEqual(attr->ns->href, xmlSchemaNs)) {
xmlSchemaPIllegalAttrErr(ctxt,
XML_SCHEMAP_S4S_ATTR_NOT_ALLOWED, NULL, attr);
}
attr = attr->next;
}
xmlSchemaPValAttrID(ctxt, node, BAD_CAST "id");
/*
* And now for the children...
*/
child = node->children;
if (IS_SCHEMA(child, "annotation")) {
/*
* Add the annotation to the complex type ancestor.
*/
xmlSchemaAddAnnotation((xmlSchemaAnnotItemPtr) type,
xmlSchemaParseAnnotation(ctxt, child, 1));
child = child->next;
}
if (child == NULL) {
xmlSchemaPContentErr(ctxt,
XML_SCHEMAP_S4S_ELEM_MISSING,
NULL, node, NULL, NULL,
"(annotation?, (restriction | extension))");
}
if (child == NULL) {
xmlSchemaPContentErr(ctxt,
XML_SCHEMAP_S4S_ELEM_MISSING,
NULL, node, NULL, NULL,
"(annotation?, (restriction | extension))");
}
if (IS_SCHEMA(child, "restriction")) {
xmlSchemaParseRestriction(ctxt, schema, child,
XML_SCHEMA_TYPE_SIMPLE_CONTENT);
(*hasRestrictionOrExtension) = 1;
child = child->next;
} else if (IS_SCHEMA(child, "extension")) {
xmlSchemaParseExtension(ctxt, schema, child,
XML_SCHEMA_TYPE_SIMPLE_CONTENT);
(*hasRestrictionOrExtension) = 1;
child = child->next;
}
if (child != NULL) {
xmlSchemaPContentErr(ctxt,
XML_SCHEMAP_S4S_ELEM_NOT_ALLOWED,
NULL, node, child, NULL,
"(annotation?, (restriction | extension))");
}
return (0);
}
/**
* xmlSchemaParseComplexContent:
* @ctxt: a schema validation context
* @schema: the schema being built
* @node: a subtree containing XML Schema informations
*
* parse a XML schema ComplexContent definition
* *WARNING* this interface is highly subject to change
*
* Returns the type definition or NULL in case of error
*/
static int
xmlSchemaParseComplexContent(xmlSchemaParserCtxtPtr ctxt,
xmlSchemaPtr schema, xmlNodePtr node,
int *hasRestrictionOrExtension)
{
xmlSchemaTypePtr type;
xmlNodePtr child = NULL;
xmlAttrPtr attr;
if ((ctxt == NULL) || (schema == NULL) || (node == NULL) ||
(hasRestrictionOrExtension == NULL))
return (-1);
*hasRestrictionOrExtension = 0;
/* Not a component, don't create it. */
type = ctxt->ctxtType;
/*
* Check for illegal attributes.
*/
attr = node->properties;
while (attr != NULL) {
if (attr->ns == NULL) {
if ((!xmlStrEqual(attr->name, BAD_CAST "id")) &&
(!xmlStrEqual(attr->name, BAD_CAST "mixed")))
{
xmlSchemaPIllegalAttrErr(ctxt,
XML_SCHEMAP_S4S_ATTR_NOT_ALLOWED, NULL, attr);
}
} else if (xmlStrEqual(attr->ns->href, xmlSchemaNs)) {
xmlSchemaPIllegalAttrErr(ctxt,
XML_SCHEMAP_S4S_ATTR_NOT_ALLOWED, NULL, attr);
}
attr = attr->next;
}
xmlSchemaPValAttrID(ctxt, node, BAD_CAST "id");
/*
* Set the 'mixed' on the complex type ancestor.
*/
if (xmlGetBooleanProp(ctxt, node, "mixed", 0)) {
if ((type->flags & XML_SCHEMAS_TYPE_MIXED) == 0)
type->flags |= XML_SCHEMAS_TYPE_MIXED;
}
child = node->children;
if (IS_SCHEMA(child, "annotation")) {
/*
* Add the annotation to the complex type ancestor.
*/
xmlSchemaAddAnnotation((xmlSchemaAnnotItemPtr) type,
xmlSchemaParseAnnotation(ctxt, child, 1));
child = child->next;
}
if (child == NULL) {
xmlSchemaPContentErr(ctxt,
XML_SCHEMAP_S4S_ELEM_MISSING,
NULL, node, NULL,
NULL, "(annotation?, (restriction | extension))");
}
if (child == NULL) {
xmlSchemaPContentErr(ctxt,
XML_SCHEMAP_S4S_ELEM_MISSING,
NULL, node, NULL,
NULL, "(annotation?, (restriction | extension))");
}
if (IS_SCHEMA(child, "restriction")) {
xmlSchemaParseRestriction(ctxt, schema, child,
XML_SCHEMA_TYPE_COMPLEX_CONTENT);
(*hasRestrictionOrExtension) = 1;
child = child->next;
} else if (IS_SCHEMA(child, "extension")) {
xmlSchemaParseExtension(ctxt, schema, child,
XML_SCHEMA_TYPE_COMPLEX_CONTENT);
(*hasRestrictionOrExtension) = 1;
child = child->next;
}
if (child != NULL) {
xmlSchemaPContentErr(ctxt,
XML_SCHEMAP_S4S_ELEM_NOT_ALLOWED,
NULL, node, child,
NULL, "(annotation?, (restriction | extension))");
}
return (0);
}
/**
* xmlSchemaParseComplexType:
* @ctxt: a schema validation context
* @schema: the schema being built
* @node: a subtree containing XML Schema informations
*
* parse a XML schema Complex Type definition
* *WARNING* this interface is highly subject to change
*
* Returns the type definition or NULL in case of error
*/
static xmlSchemaTypePtr
xmlSchemaParseComplexType(xmlSchemaParserCtxtPtr ctxt, xmlSchemaPtr schema,
xmlNodePtr node, int topLevel)
{
xmlSchemaTypePtr type, ctxtType;
xmlNodePtr child = NULL;
const xmlChar *name = NULL;
xmlAttrPtr attr;
const xmlChar *attrValue;
#ifdef ENABLE_NAMED_LOCALS
char buf[40];
#endif
int final = 0, block = 0, hasRestrictionOrExtension = 0;
if ((ctxt == NULL) || (schema == NULL) || (node == NULL))
return (NULL);
ctxtType = ctxt->ctxtType;
if (topLevel) {
attr = xmlSchemaGetPropNode(node, "name");
if (attr == NULL) {
xmlSchemaPMissingAttrErr(ctxt,
XML_SCHEMAP_S4S_ATTR_MISSING, NULL, node, "name", NULL);
return (NULL);
} else if (xmlSchemaPValAttrNode(ctxt, NULL, attr,
xmlSchemaGetBuiltInType(XML_SCHEMAS_NCNAME), &name) != 0) {
return (NULL);
}
}
if (topLevel == 0) {
/*
* Parse as local complex type definition.
*/
#ifdef ENABLE_NAMED_LOCALS
XML_SNPRINTF(buf, 39, "#CT%d", ctxt->counter++ + 1);
type = xmlSchemaAddType(ctxt, schema,
XML_SCHEMA_TYPE_COMPLEX,
xmlDictLookup(ctxt->dict, (const xmlChar *)buf, -1),
ctxt->targetNamespace, node, 0);
#else
type = xmlSchemaAddType(ctxt, schema,
XML_SCHEMA_TYPE_COMPLEX,
NULL, ctxt->targetNamespace, node, 0);
#endif
if (type == NULL)
return (NULL);
name = type->name;
type->node = node;
type->type = XML_SCHEMA_TYPE_COMPLEX;
/*
* TODO: We need the target namespace.
*/
} else {
/*
* Parse as global complex type definition.
*/
type = xmlSchemaAddType(ctxt, schema,
XML_SCHEMA_TYPE_COMPLEX,
name, ctxt->targetNamespace, node, 1);
if (type == NULL)
return (NULL);
type->node = node;
type->type = XML_SCHEMA_TYPE_COMPLEX;
type->flags |= XML_SCHEMAS_TYPE_GLOBAL;
}
type->targetNamespace = ctxt->targetNamespace;
/*
* Handle attributes.
*/
attr = node->properties;
while (attr != NULL) {
if (attr->ns == NULL) {
if (xmlStrEqual(attr->name, BAD_CAST "id")) {
/*
* Attribute "id".
*/
xmlSchemaPValAttrID(ctxt, node, BAD_CAST "id");
} else if (xmlStrEqual(attr->name, BAD_CAST "mixed")) {
/*
* Attribute "mixed".
*/
if (xmlSchemaPGetBoolNodeValue(ctxt,
NULL, (xmlNodePtr) attr))
type->flags |= XML_SCHEMAS_TYPE_MIXED;
} else if (topLevel) {
/*
* Attributes of global complex type definitions.
*/
if (xmlStrEqual(attr->name, BAD_CAST "name")) {
/* Pass. */
} else if (xmlStrEqual(attr->name, BAD_CAST "abstract")) {
/*
* Attribute "abstract".
*/
if (xmlSchemaPGetBoolNodeValue(ctxt,
NULL, (xmlNodePtr) attr))
type->flags |= XML_SCHEMAS_TYPE_ABSTRACT;
} else if (xmlStrEqual(attr->name, BAD_CAST "final")) {
/*
* Attribute "final".
*/
attrValue = xmlSchemaGetNodeContent(ctxt,
(xmlNodePtr) attr);
if (xmlSchemaPValAttrBlockFinal(attrValue,
&(type->flags),
-1,
XML_SCHEMAS_TYPE_FINAL_EXTENSION,
XML_SCHEMAS_TYPE_FINAL_RESTRICTION,
-1, -1, -1) != 0)
{
xmlSchemaPSimpleTypeErr(ctxt,
XML_SCHEMAP_S4S_ATTR_INVALID_VALUE,
NULL, (xmlNodePtr) attr, NULL,
"(#all | List of (extension | restriction))",
attrValue, NULL, NULL, NULL);
} else
final = 1;
} else if (xmlStrEqual(attr->name, BAD_CAST "block")) {
/*
* Attribute "block".
*/
attrValue = xmlSchemaGetNodeContent(ctxt,
(xmlNodePtr) attr);
if (xmlSchemaPValAttrBlockFinal(attrValue, &(type->flags),
-1,
XML_SCHEMAS_TYPE_BLOCK_EXTENSION,
XML_SCHEMAS_TYPE_BLOCK_RESTRICTION,
-1, -1, -1) != 0) {
xmlSchemaPSimpleTypeErr(ctxt,
XML_SCHEMAP_S4S_ATTR_INVALID_VALUE,
NULL, (xmlNodePtr) attr, NULL,
"(#all | List of (extension | restriction)) ",
attrValue, NULL, NULL, NULL);
} else
block = 1;
} else {
xmlSchemaPIllegalAttrErr(ctxt,
XML_SCHEMAP_S4S_ATTR_NOT_ALLOWED, NULL, attr);
}
} else {
xmlSchemaPIllegalAttrErr(ctxt,
XML_SCHEMAP_S4S_ATTR_NOT_ALLOWED, NULL, attr);
}
} else if (xmlStrEqual(attr->ns->href, xmlSchemaNs)) {
xmlSchemaPIllegalAttrErr(ctxt,
XML_SCHEMAP_S4S_ATTR_NOT_ALLOWED, NULL, attr);
}
attr = attr->next;
}
if (! block) {
/*
* Apply default "block" values.
*/
if (schema->flags & XML_SCHEMAS_BLOCK_DEFAULT_RESTRICTION)
type->flags |= XML_SCHEMAS_TYPE_BLOCK_RESTRICTION;
if (schema->flags & XML_SCHEMAS_BLOCK_DEFAULT_EXTENSION)
type->flags |= XML_SCHEMAS_TYPE_BLOCK_EXTENSION;
}
if (! final) {
/*
* Apply default "block" values.
*/
if (schema->flags & XML_SCHEMAS_FINAL_DEFAULT_RESTRICTION)
type->flags |= XML_SCHEMAS_TYPE_FINAL_RESTRICTION;
if (schema->flags & XML_SCHEMAS_FINAL_DEFAULT_EXTENSION)
type->flags |= XML_SCHEMAS_TYPE_FINAL_EXTENSION;
}
/*
* And now for the children...
*/
child = node->children;
if (IS_SCHEMA(child, "annotation")) {
type->annot = xmlSchemaParseAnnotation(ctxt, child, 1);
child = child->next;
}
ctxt->ctxtType = type;
if (IS_SCHEMA(child, "simpleContent")) {
/*
* <complexType><simpleContent>...
* 3.4.3 : 2.2
* Specifying mixed='true' when the <simpleContent>
* alternative is chosen has no effect
*/
if (type->flags & XML_SCHEMAS_TYPE_MIXED)
type->flags ^= XML_SCHEMAS_TYPE_MIXED;
xmlSchemaParseSimpleContent(ctxt, schema, child,
&hasRestrictionOrExtension);
child = child->next;
} else if (IS_SCHEMA(child, "complexContent")) {
/*
* <complexType><complexContent>...
*/
type->contentType = XML_SCHEMA_CONTENT_EMPTY;
xmlSchemaParseComplexContent(ctxt, schema, child,
&hasRestrictionOrExtension);
child = child->next;
} else {
/*
* E.g <complexType><sequence>... or <complexType><attribute>... etc.
*
* SPEC
* "...the third alternative (neither <simpleContent> nor
* <complexContent>) is chosen. This case is understood as shorthand
* for complex content restricting the `ur-type definition`, and the
* details of the mappings should be modified as necessary.
*/
type->baseType = xmlSchemaGetBuiltInType(XML_SCHEMAS_ANYTYPE);
type->flags |= XML_SCHEMAS_TYPE_DERIVATION_METHOD_RESTRICTION;
/*
* Parse model groups.
*/
if (IS_SCHEMA(child, "all")) {
type->subtypes = (xmlSchemaTypePtr)
xmlSchemaParseModelGroup(ctxt, schema, child,
XML_SCHEMA_TYPE_ALL, 1);
child = child->next;
} else if (IS_SCHEMA(child, "choice")) {
type->subtypes = (xmlSchemaTypePtr)
xmlSchemaParseModelGroup(ctxt, schema, child,
XML_SCHEMA_TYPE_CHOICE, 1);
child = child->next;
} else if (IS_SCHEMA(child, "sequence")) {
type->subtypes = (xmlSchemaTypePtr)
xmlSchemaParseModelGroup(ctxt, schema, child,
XML_SCHEMA_TYPE_SEQUENCE, 1);
child = child->next;
} else if (IS_SCHEMA(child, "group")) {
type->subtypes = (xmlSchemaTypePtr)
xmlSchemaParseModelGroupDefRef(ctxt, schema, child);
/*
* Note that the reference will be resolved in
* xmlSchemaResolveTypeReferences();
*/
child = child->next;
}
/*
* Parse attribute decls/refs.
*/
if (xmlSchemaParseLocalAttributes(ctxt, schema, &child,
(xmlSchemaItemListPtr *) &(type->attrUses),
XML_SCHEMA_TYPE_RESTRICTION, NULL) == -1)
return(NULL);
/*
* Parse attribute wildcard.
*/
if (IS_SCHEMA(child, "anyAttribute")) {
type->attributeWildcard = xmlSchemaParseAnyAttribute(ctxt, schema, child);
child = child->next;
}
}
if (child != NULL) {
xmlSchemaPContentErr(ctxt,
XML_SCHEMAP_S4S_ELEM_NOT_ALLOWED,
NULL, node, child,
NULL, "(annotation?, (simpleContent | complexContent | "
"((group | all | choice | sequence)?, ((attribute | "
"attributeGroup)*, anyAttribute?))))");
}
/*
* REDEFINE: SPEC src-redefine (5)
*/
if (topLevel && ctxt->isRedefine && (! hasRestrictionOrExtension)) {
xmlSchemaPCustomErr(ctxt, XML_SCHEMAP_SRC_REDEFINE,
NULL, node, "This is a redefinition, thus the "
"<complexType> must have a <restriction> or <extension> "
"grand-child", NULL);
}
ctxt->ctxtType = ctxtType;
return (type);
}
/************************************************************************
* *
* Validating using Schemas *
* *
************************************************************************/
/************************************************************************
* *
* Reading/Writing Schemas *
* *
************************************************************************/
#if 0 /* Will be enabled if it is clear what options are needed. */
/**
* xmlSchemaParserCtxtSetOptions:
* @ctxt: a schema parser context
* @options: a combination of xmlSchemaParserOption
*
* Sets the options to be used during the parse.
*
* Returns 0 in case of success, -1 in case of an
* API error.
*/
static int
xmlSchemaParserCtxtSetOptions(xmlSchemaParserCtxtPtr ctxt,
int options)
{
int i;
if (ctxt == NULL)
return (-1);
/*
* WARNING: Change the start value if adding to the
* xmlSchemaParseOption.
*/
for (i = 1; i < (int) sizeof(int) * 8; i++) {
if (options & 1<<i) {
return (-1);
}
}
ctxt->options = options;
return (0);
}
/**
* xmlSchemaValidCtxtGetOptions:
* @ctxt: a schema parser context
*
* Returns the option combination of the parser context.
*/
static int
xmlSchemaParserCtxtGetOptions(xmlSchemaParserCtxtPtr ctxt)
{
if (ctxt == NULL)
return (-1);
else
return (ctxt->options);
}
#endif
/**
* xmlSchemaNewParserCtxt:
* @URL: the location of the schema
*
* Create an XML Schemas parse context for that file/resource expected
* to contain an XML Schemas file.
*
* Returns the parser context or NULL in case of error
*/
xmlSchemaParserCtxtPtr
xmlSchemaNewParserCtxt(const char *URL)
{
xmlSchemaParserCtxtPtr ret;
if (URL == NULL)
return (NULL);
ret = xmlSchemaParserCtxtCreate();
if (ret == NULL)
return(NULL);
ret->dict = xmlDictCreate();
ret->URL = xmlDictLookup(ret->dict, (const xmlChar *) URL, -1);
return (ret);
}
/**
* xmlSchemaNewMemParserCtxt:
* @buffer: a pointer to a char array containing the schemas
* @size: the size of the array
*
* Create an XML Schemas parse context for that memory buffer expected
* to contain an XML Schemas file.
*
* Returns the parser context or NULL in case of error
*/
xmlSchemaParserCtxtPtr
xmlSchemaNewMemParserCtxt(const char *buffer, int size)
{
xmlSchemaParserCtxtPtr ret;
if ((buffer == NULL) || (size <= 0))
return (NULL);
ret = xmlSchemaParserCtxtCreate();
if (ret == NULL)
return(NULL);
ret->buffer = buffer;
ret->size = size;
ret->dict = xmlDictCreate();
return (ret);
}
/**
* xmlSchemaNewDocParserCtxt:
* @doc: a preparsed document tree
*
* Create an XML Schemas parse context for that document.
* NB. The document may be modified during the parsing process.
*
* Returns the parser context or NULL in case of error
*/
xmlSchemaParserCtxtPtr
xmlSchemaNewDocParserCtxt(xmlDocPtr doc)
{
xmlSchemaParserCtxtPtr ret;
if (doc == NULL)
return (NULL);
ret = xmlSchemaParserCtxtCreate();
if (ret == NULL)
return(NULL);
ret->doc = doc;
ret->dict = xmlDictCreate();
/* The application has responsibility for the document */
ret->preserve = 1;
return (ret);
}
/**
* xmlSchemaFreeParserCtxt:
* @ctxt: the schema parser context
*
* Free the resources associated to the schema parser context
*/
void
xmlSchemaFreeParserCtxt(xmlSchemaParserCtxtPtr ctxt)
{
if (ctxt == NULL)
return;
if (ctxt->doc != NULL && !ctxt->preserve)
xmlFreeDoc(ctxt->doc);
if (ctxt->vctxt != NULL) {
xmlSchemaFreeValidCtxt(ctxt->vctxt);
}
if (ctxt->ownsConstructor && (ctxt->constructor != NULL)) {
xmlSchemaConstructionCtxtFree(ctxt->constructor);
ctxt->constructor = NULL;
ctxt->ownsConstructor = 0;
}
if (ctxt->attrProhibs != NULL)
xmlSchemaItemListFree(ctxt->attrProhibs);
xmlDictFree(ctxt->dict);
xmlFree(ctxt);
}
/************************************************************************
* *
* Building the content models *
* *
************************************************************************/
/**
* xmlSchemaBuildContentModelForSubstGroup:
*
* Returns 1 if nillable, 0 otherwise
*/
static int
xmlSchemaBuildContentModelForSubstGroup(xmlSchemaParserCtxtPtr pctxt,
xmlSchemaParticlePtr particle, int counter, xmlAutomataStatePtr end)
{
xmlAutomataStatePtr start, tmp;
xmlSchemaElementPtr elemDecl, member;
xmlSchemaSubstGroupPtr substGroup;
int i;
int ret = 0;
elemDecl = (xmlSchemaElementPtr) particle->children;
/*
* Wrap the substitution group with a CHOICE.
*/
start = pctxt->state;
if (end == NULL)
end = xmlAutomataNewState(pctxt->am);
substGroup = xmlSchemaSubstGroupGet(pctxt, elemDecl);
if (substGroup == NULL) {
xmlSchemaPErr(pctxt, WXS_ITEM_NODE(particle),
XML_SCHEMAP_INTERNAL,
"Internal error: xmlSchemaBuildContentModelForSubstGroup, "
"declaration is marked having a subst. group but none "
"available.\n", elemDecl->name, NULL);
return(0);
}
if (counter >= 0) {
/*
* NOTE that we put the declaration in, even if it's abstract.
* However, an error will be raised during *validation* if an element
* information item shall be validated against an abstract element
* declaration.
*/
tmp = xmlAutomataNewCountedTrans(pctxt->am, start, NULL, counter);
xmlAutomataNewTransition2(pctxt->am, tmp, end,
elemDecl->name, elemDecl->targetNamespace, elemDecl);
/*
* Add subst. group members.
*/
for (i = 0; i < substGroup->members->nbItems; i++) {
member = (xmlSchemaElementPtr) substGroup->members->items[i];
xmlAutomataNewTransition2(pctxt->am, tmp, end,
member->name, member->targetNamespace, member);
}
} else if (particle->maxOccurs == 1) {
/*
* NOTE that we put the declaration in, even if it's abstract,
*/
xmlAutomataNewEpsilon(pctxt->am,
xmlAutomataNewTransition2(pctxt->am,
start, NULL,
elemDecl->name, elemDecl->targetNamespace, elemDecl), end);
/*
* Add subst. group members.
*/
for (i = 0; i < substGroup->members->nbItems; i++) {
member = (xmlSchemaElementPtr) substGroup->members->items[i];
/*
* NOTE: This fixes bug #341150. xmlAutomataNewOnceTrans2()
* was incorrectly used instead of xmlAutomataNewTransition2()
* (seems like a copy&paste bug from the XML_SCHEMA_TYPE_ALL
* section in xmlSchemaBuildAContentModel() ).
* TODO: Check if xmlAutomataNewOnceTrans2() was instead
* intended for the above "counter" section originally. I.e.,
* check xs:all with subst-groups.
*
* tmp = xmlAutomataNewOnceTrans2(pctxt->am, start, NULL,
* member->name, member->targetNamespace,
* 1, 1, member);
*/
tmp = xmlAutomataNewTransition2(pctxt->am, start, NULL,
member->name, member->targetNamespace, member);
xmlAutomataNewEpsilon(pctxt->am, tmp, end);
}
} else {
xmlAutomataStatePtr hop;
int maxOccurs = particle->maxOccurs == UNBOUNDED ?
UNBOUNDED : particle->maxOccurs - 1;
int minOccurs = particle->minOccurs < 1 ? 0 : particle->minOccurs - 1;
counter =
xmlAutomataNewCounter(pctxt->am, minOccurs,
maxOccurs);
hop = xmlAutomataNewState(pctxt->am);
xmlAutomataNewEpsilon(pctxt->am,
xmlAutomataNewTransition2(pctxt->am,
start, NULL,
elemDecl->name, elemDecl->targetNamespace, elemDecl),
hop);
/*
* Add subst. group members.
*/
for (i = 0; i < substGroup->members->nbItems; i++) {
member = (xmlSchemaElementPtr) substGroup->members->items[i];
xmlAutomataNewEpsilon(pctxt->am,
xmlAutomataNewTransition2(pctxt->am,
start, NULL,
member->name, member->targetNamespace, member),
hop);
}
xmlAutomataNewCountedTrans(pctxt->am, hop, start, counter);
xmlAutomataNewCounterTrans(pctxt->am, hop, end, counter);
}
if (particle->minOccurs == 0) {
xmlAutomataNewEpsilon(pctxt->am, start, end);
ret = 1;
}
pctxt->state = end;
return(ret);
}
/**
* xmlSchemaBuildContentModelForElement:
*
* Returns 1 if nillable, 0 otherwise
*/
static int
xmlSchemaBuildContentModelForElement(xmlSchemaParserCtxtPtr ctxt,
xmlSchemaParticlePtr particle)
{
int ret = 0;
if (((xmlSchemaElementPtr) particle->children)->flags &
XML_SCHEMAS_ELEM_SUBST_GROUP_HEAD) {
/*
* Substitution groups.
*/
ret = xmlSchemaBuildContentModelForSubstGroup(ctxt, particle, -1, NULL);
} else {
xmlSchemaElementPtr elemDecl;
xmlAutomataStatePtr start;
elemDecl = (xmlSchemaElementPtr) particle->children;
if (elemDecl->flags & XML_SCHEMAS_ELEM_ABSTRACT)
return(0);
if (particle->maxOccurs == 1) {
start = ctxt->state;
ctxt->state = xmlAutomataNewTransition2(ctxt->am, start, NULL,
elemDecl->name, elemDecl->targetNamespace, elemDecl);
} else if ((particle->maxOccurs >= UNBOUNDED) &&
(particle->minOccurs < 2)) {
/* Special case. */
start = ctxt->state;
ctxt->state = xmlAutomataNewTransition2(ctxt->am, start, NULL,
elemDecl->name, elemDecl->targetNamespace, elemDecl);
ctxt->state = xmlAutomataNewTransition2(ctxt->am, ctxt->state, ctxt->state,
elemDecl->name, elemDecl->targetNamespace, elemDecl);
} else {
int counter;
int maxOccurs = particle->maxOccurs == UNBOUNDED ?
UNBOUNDED : particle->maxOccurs - 1;
int minOccurs = particle->minOccurs < 1 ?
0 : particle->minOccurs - 1;
start = xmlAutomataNewEpsilon(ctxt->am, ctxt->state, NULL);
counter = xmlAutomataNewCounter(ctxt->am, minOccurs, maxOccurs);
ctxt->state = xmlAutomataNewTransition2(ctxt->am, start, NULL,
elemDecl->name, elemDecl->targetNamespace, elemDecl);
xmlAutomataNewCountedTrans(ctxt->am, ctxt->state, start, counter);
ctxt->state = xmlAutomataNewCounterTrans(ctxt->am, ctxt->state,
NULL, counter);
}
if (particle->minOccurs == 0) {
xmlAutomataNewEpsilon(ctxt->am, start, ctxt->state);
ret = 1;
}
}
return(ret);
}
/**
* xmlSchemaBuildAContentModel:
* @ctxt: the schema parser context
* @particle: the particle component
* @name: the complex type's name whose content is being built
*
* Create the automaton for the {content type} of a complex type.
*
* Returns 1 if the content is nillable, 0 otherwise
*/
static int
xmlSchemaBuildAContentModel(xmlSchemaParserCtxtPtr pctxt,
xmlSchemaParticlePtr particle)
{
int ret = 0, tmp2;
if (particle == NULL) {
PERROR_INT("xmlSchemaBuildAContentModel", "particle is NULL");
return(1);
}
if (particle->children == NULL) {
/*
* Just return in this case. A missing "term" of the particle
* might arise due to an invalid "term" component.
*/
return(1);
}
switch (particle->children->type) {
case XML_SCHEMA_TYPE_ANY: {
xmlAutomataStatePtr start, end;
xmlSchemaWildcardPtr wild;
xmlSchemaWildcardNsPtr ns;
wild = (xmlSchemaWildcardPtr) particle->children;
start = pctxt->state;
end = xmlAutomataNewState(pctxt->am);
if (particle->maxOccurs == 1) {
if (wild->any == 1) {
/*
* We need to add both transitions:
*
* 1. the {"*", "*"} for elements in a namespace.
*/
pctxt->state =
xmlAutomataNewTransition2(pctxt->am,
start, NULL, BAD_CAST "*", BAD_CAST "*", wild);
xmlAutomataNewEpsilon(pctxt->am, pctxt->state, end);
/*
* 2. the {"*"} for elements in no namespace.
*/
pctxt->state =
xmlAutomataNewTransition2(pctxt->am,
start, NULL, BAD_CAST "*", NULL, wild);
xmlAutomataNewEpsilon(pctxt->am, pctxt->state, end);
} else if (wild->nsSet != NULL) {
ns = wild->nsSet;
do {
pctxt->state = start;
pctxt->state = xmlAutomataNewTransition2(pctxt->am,
pctxt->state, NULL, BAD_CAST "*", ns->value, wild);
xmlAutomataNewEpsilon(pctxt->am, pctxt->state, end);
ns = ns->next;
} while (ns != NULL);
} else if (wild->negNsSet != NULL) {
pctxt->state = xmlAutomataNewNegTrans(pctxt->am,
start, end, BAD_CAST "*", wild->negNsSet->value,
wild);
}
} else {
int counter;
xmlAutomataStatePtr hop;
int maxOccurs =
particle->maxOccurs == UNBOUNDED ? UNBOUNDED :
particle->maxOccurs - 1;
int minOccurs =
particle->minOccurs < 1 ? 0 : particle->minOccurs - 1;
counter = xmlAutomataNewCounter(pctxt->am, minOccurs, maxOccurs);
hop = xmlAutomataNewState(pctxt->am);
if (wild->any == 1) {
pctxt->state =
xmlAutomataNewTransition2(pctxt->am,
start, NULL, BAD_CAST "*", BAD_CAST "*", wild);
xmlAutomataNewEpsilon(pctxt->am, pctxt->state, hop);
pctxt->state =
xmlAutomataNewTransition2(pctxt->am,
start, NULL, BAD_CAST "*", NULL, wild);
xmlAutomataNewEpsilon(pctxt->am, pctxt->state, hop);
} else if (wild->nsSet != NULL) {
ns = wild->nsSet;
do {
pctxt->state =
xmlAutomataNewTransition2(pctxt->am,
start, NULL, BAD_CAST "*", ns->value, wild);
xmlAutomataNewEpsilon(pctxt->am, pctxt->state, hop);
ns = ns->next;
} while (ns != NULL);
} else if (wild->negNsSet != NULL) {
pctxt->state = xmlAutomataNewNegTrans(pctxt->am,
start, hop, BAD_CAST "*", wild->negNsSet->value,
wild);
}
xmlAutomataNewCountedTrans(pctxt->am, hop, start, counter);
xmlAutomataNewCounterTrans(pctxt->am, hop, end, counter);
}
if (particle->minOccurs == 0) {
xmlAutomataNewEpsilon(pctxt->am, start, end);
ret = 1;
}
pctxt->state = end;
break;
}
case XML_SCHEMA_TYPE_ELEMENT:
ret = xmlSchemaBuildContentModelForElement(pctxt, particle);
break;
case XML_SCHEMA_TYPE_SEQUENCE:{
xmlSchemaTreeItemPtr sub;
ret = 1;
/*
* If max and min occurances are default (1) then
* simply iterate over the particles of the <sequence>.
*/
if ((particle->minOccurs == 1) && (particle->maxOccurs == 1)) {
sub = particle->children->children;
while (sub != NULL) {
tmp2 = xmlSchemaBuildAContentModel(pctxt,
(xmlSchemaParticlePtr) sub);
if (tmp2 != 1) ret = 0;
sub = sub->next;
}
} else {
xmlAutomataStatePtr oldstate = pctxt->state;
if (particle->maxOccurs >= UNBOUNDED) {
if (particle->minOccurs > 1) {
xmlAutomataStatePtr tmp;
int counter;
pctxt->state = xmlAutomataNewEpsilon(pctxt->am,
oldstate, NULL);
oldstate = pctxt->state;
counter = xmlAutomataNewCounter(pctxt->am,
particle->minOccurs - 1, UNBOUNDED);
sub = particle->children->children;
while (sub != NULL) {
tmp2 = xmlSchemaBuildAContentModel(pctxt,
(xmlSchemaParticlePtr) sub);
if (tmp2 != 1) ret = 0;
sub = sub->next;
}
tmp = pctxt->state;
xmlAutomataNewCountedTrans(pctxt->am, tmp,
oldstate, counter);
pctxt->state =
xmlAutomataNewCounterTrans(pctxt->am, tmp,
NULL, counter);
if (ret == 1)
xmlAutomataNewEpsilon(pctxt->am,
oldstate, pctxt->state);
} else {
pctxt->state = xmlAutomataNewEpsilon(pctxt->am,
oldstate, NULL);
oldstate = pctxt->state;
sub = particle->children->children;
while (sub != NULL) {
tmp2 = xmlSchemaBuildAContentModel(pctxt,
(xmlSchemaParticlePtr) sub);
if (tmp2 != 1) ret = 0;
sub = sub->next;
}
xmlAutomataNewEpsilon(pctxt->am, pctxt->state,
oldstate);
/*
* epsilon needed to block previous trans from
* being allowed to enter back from another
* construct
*/
pctxt->state = xmlAutomataNewEpsilon(pctxt->am,
pctxt->state, NULL);
if (particle->minOccurs == 0) {
xmlAutomataNewEpsilon(pctxt->am,
oldstate, pctxt->state);
ret = 1;
}
}
} else if ((particle->maxOccurs > 1)
|| (particle->minOccurs > 1)) {
xmlAutomataStatePtr tmp;
int counter;
pctxt->state = xmlAutomataNewEpsilon(pctxt->am,
oldstate, NULL);
oldstate = pctxt->state;
counter = xmlAutomataNewCounter(pctxt->am,
particle->minOccurs - 1,
particle->maxOccurs - 1);
sub = particle->children->children;
while (sub != NULL) {
tmp2 = xmlSchemaBuildAContentModel(pctxt,
(xmlSchemaParticlePtr) sub);
if (tmp2 != 1) ret = 0;
sub = sub->next;
}
tmp = pctxt->state;
xmlAutomataNewCountedTrans(pctxt->am,
tmp, oldstate, counter);
pctxt->state =
xmlAutomataNewCounterTrans(pctxt->am, tmp, NULL,
counter);
if ((particle->minOccurs == 0) || (ret == 1)) {
xmlAutomataNewEpsilon(pctxt->am,
oldstate, pctxt->state);
ret = 1;
}
} else {
sub = particle->children->children;
while (sub != NULL) {
tmp2 = xmlSchemaBuildAContentModel(pctxt,
(xmlSchemaParticlePtr) sub);
if (tmp2 != 1) ret = 0;
sub = sub->next;
}
/*
* epsilon needed to block previous trans from
* being allowed to enter back from another
* construct
*/
pctxt->state = xmlAutomataNewEpsilon(pctxt->am,
pctxt->state, NULL);
if (particle->minOccurs == 0) {
xmlAutomataNewEpsilon(pctxt->am, oldstate,
pctxt->state);
ret = 1;
}
}
}
break;
}
case XML_SCHEMA_TYPE_CHOICE:{
xmlSchemaTreeItemPtr sub;
xmlAutomataStatePtr start, end;
ret = 0;
start = pctxt->state;
end = xmlAutomataNewState(pctxt->am);
/*
* iterate over the subtypes and remerge the end with an
* epsilon transition
*/
if (particle->maxOccurs == 1) {
sub = particle->children->children;
while (sub != NULL) {
pctxt->state = start;
tmp2 = xmlSchemaBuildAContentModel(pctxt,
(xmlSchemaParticlePtr) sub);
if (tmp2 == 1) ret = 1;
xmlAutomataNewEpsilon(pctxt->am, pctxt->state, end);
sub = sub->next;
}
} else {
int counter;
xmlAutomataStatePtr hop, base;
int maxOccurs = particle->maxOccurs == UNBOUNDED ?
UNBOUNDED : particle->maxOccurs - 1;
int minOccurs =
particle->minOccurs < 1 ? 0 : particle->minOccurs - 1;
/*
* use a counter to keep track of the number of transtions
* which went through the choice.
*/
counter =
xmlAutomataNewCounter(pctxt->am, minOccurs, maxOccurs);
hop = xmlAutomataNewState(pctxt->am);
base = xmlAutomataNewState(pctxt->am);
sub = particle->children->children;
while (sub != NULL) {
pctxt->state = base;
tmp2 = xmlSchemaBuildAContentModel(pctxt,
(xmlSchemaParticlePtr) sub);
if (tmp2 == 1) ret = 1;
xmlAutomataNewEpsilon(pctxt->am, pctxt->state, hop);
sub = sub->next;
}
xmlAutomataNewEpsilon(pctxt->am, start, base);
xmlAutomataNewCountedTrans(pctxt->am, hop, base, counter);
xmlAutomataNewCounterTrans(pctxt->am, hop, end, counter);
if (ret == 1)
xmlAutomataNewEpsilon(pctxt->am, base, end);
}
if (particle->minOccurs == 0) {
xmlAutomataNewEpsilon(pctxt->am, start, end);
ret = 1;
}
pctxt->state = end;
break;
}
case XML_SCHEMA_TYPE_ALL:{
xmlAutomataStatePtr start, tmp;
xmlSchemaParticlePtr sub;
xmlSchemaElementPtr elemDecl;
ret = 1;
sub = (xmlSchemaParticlePtr) particle->children->children;
if (sub == NULL)
break;
ret = 0;
start = pctxt->state;
tmp = xmlAutomataNewState(pctxt->am);
xmlAutomataNewEpsilon(pctxt->am, pctxt->state, tmp);
pctxt->state = tmp;
while (sub != NULL) {
pctxt->state = tmp;
elemDecl = (xmlSchemaElementPtr) sub->children;
if (elemDecl == NULL) {
PERROR_INT("xmlSchemaBuildAContentModel",
"<element> particle has no term");
return(ret);
};
/*
* NOTE: The {max occurs} of all the particles in the
* {particles} of the group must be 0 or 1; this is
* already ensured during the parse of the content of
* <all>.
*/
if (elemDecl->flags & XML_SCHEMAS_ELEM_SUBST_GROUP_HEAD) {
int counter;
/*
* This is an abstract group, we need to share
* the same counter for all the element transitions
* derived from the group
*/
counter = xmlAutomataNewCounter(pctxt->am,
sub->minOccurs, sub->maxOccurs);
xmlSchemaBuildContentModelForSubstGroup(pctxt,
sub, counter, pctxt->state);
} else {
if ((sub->minOccurs == 1) &&
(sub->maxOccurs == 1)) {
xmlAutomataNewOnceTrans2(pctxt->am, pctxt->state,
pctxt->state,
elemDecl->name,
elemDecl->targetNamespace,
1, 1, elemDecl);
} else if ((sub->minOccurs == 0) &&
(sub->maxOccurs == 1)) {
xmlAutomataNewCountTrans2(pctxt->am, pctxt->state,
pctxt->state,
elemDecl->name,
elemDecl->targetNamespace,
0,
1,
elemDecl);
}
}
sub = (xmlSchemaParticlePtr) sub->next;
}
pctxt->state =
xmlAutomataNewAllTrans(pctxt->am, pctxt->state, NULL, 0);
if (particle->minOccurs == 0) {
xmlAutomataNewEpsilon(pctxt->am, start, pctxt->state);
ret = 1;
}
break;
}
case XML_SCHEMA_TYPE_GROUP:
/*
* If we hit a model group definition, then this means that
* it was empty, thus was not substituted for the containing
* model group. Just do nothing in this case.
* TODO: But the group should be substituted and not occur at
* all in the content model at this point. Fix this.
*/
ret = 1;
break;
default:
xmlSchemaInternalErr2(ACTXT_CAST pctxt,
"xmlSchemaBuildAContentModel",
"found unexpected term of type '%s' in content model",
WXS_ITEM_TYPE_NAME(particle->children), NULL);
return(ret);
}
return(ret);
}
/**
* xmlSchemaBuildContentModel:
* @ctxt: the schema parser context
* @type: the complex type definition
* @name: the element name
*
* Builds the content model of the complex type.
*/
static void
xmlSchemaBuildContentModel(xmlSchemaTypePtr type,
xmlSchemaParserCtxtPtr ctxt)
{
if ((type->type != XML_SCHEMA_TYPE_COMPLEX) ||
(type->contModel != NULL) ||
((type->contentType != XML_SCHEMA_CONTENT_ELEMENTS) &&
(type->contentType != XML_SCHEMA_CONTENT_MIXED)))
return;
#ifdef DEBUG_CONTENT
xmlGenericError(xmlGenericErrorContext,
"Building content model for %s\n", name);
#endif
ctxt->am = NULL;
ctxt->am = xmlNewAutomata();
if (ctxt->am == NULL) {
xmlGenericError(xmlGenericErrorContext,
"Cannot create automata for complex type %s\n", type->name);
return;
}
ctxt->state = xmlAutomataGetInitState(ctxt->am);
/*
* Build the automaton.
*/
xmlSchemaBuildAContentModel(ctxt, WXS_TYPE_PARTICLE(type));
xmlAutomataSetFinalState(ctxt->am, ctxt->state);
type->contModel = xmlAutomataCompile(ctxt->am);
if (type->contModel == NULL) {
xmlSchemaPCustomErr(ctxt,
XML_SCHEMAP_INTERNAL,
WXS_BASIC_CAST type, type->node,
"Failed to compile the content model", NULL);
} else if (xmlRegexpIsDeterminist(type->contModel) != 1) {
xmlSchemaPCustomErr(ctxt,
XML_SCHEMAP_NOT_DETERMINISTIC,
/* XML_SCHEMAS_ERR_NOTDETERMINIST, */
WXS_BASIC_CAST type, type->node,
"The content model is not determinist", NULL);
} else {
#ifdef DEBUG_CONTENT_REGEXP
xmlGenericError(xmlGenericErrorContext,
"Content model of %s:\n", type->name);
xmlRegexpPrint(stderr, type->contModel);
#endif
}
ctxt->state = NULL;
xmlFreeAutomata(ctxt->am);
ctxt->am = NULL;
}
/**
* xmlSchemaResolveElementReferences:
* @elem: the schema element context
* @ctxt: the schema parser context
*
* Resolves the references of an element declaration
* or particle, which has an element declaration as it's
* term.
*/
static void
xmlSchemaResolveElementReferences(xmlSchemaElementPtr elemDecl,
xmlSchemaParserCtxtPtr ctxt)
{
if ((ctxt == NULL) || (elemDecl == NULL) ||
((elemDecl != NULL) &&
(elemDecl->flags & XML_SCHEMAS_ELEM_INTERNAL_RESOLVED)))
return;
elemDecl->flags |= XML_SCHEMAS_ELEM_INTERNAL_RESOLVED;
if ((elemDecl->subtypes == NULL) && (elemDecl->namedType != NULL)) {
xmlSchemaTypePtr type;
/* (type definition) ... otherwise the type definition `resolved`
* to by the `actual value` of the type [attribute] ...
*/
type = xmlSchemaGetType(ctxt->schema, elemDecl->namedType,
elemDecl->namedTypeNs);
if (type == NULL) {
xmlSchemaPResCompAttrErr(ctxt,
XML_SCHEMAP_SRC_RESOLVE,
WXS_BASIC_CAST elemDecl, elemDecl->node,
"type", elemDecl->namedType, elemDecl->namedTypeNs,
XML_SCHEMA_TYPE_BASIC, "type definition");
} else
elemDecl->subtypes = type;
}
if (elemDecl->substGroup != NULL) {
xmlSchemaElementPtr substHead;
/*
* FIXME TODO: Do we need a new field in _xmlSchemaElement for
* substitutionGroup?
*/
substHead = xmlSchemaGetElem(ctxt->schema, elemDecl->substGroup,
elemDecl->substGroupNs);
if (substHead == NULL) {
xmlSchemaPResCompAttrErr(ctxt,
XML_SCHEMAP_SRC_RESOLVE,
WXS_BASIC_CAST elemDecl, NULL,
"substitutionGroup", elemDecl->substGroup,
elemDecl->substGroupNs, XML_SCHEMA_TYPE_ELEMENT, NULL);
} else {
xmlSchemaResolveElementReferences(substHead, ctxt);
/*
* Set the "substitution group affiliation".
* NOTE that now we use the "refDecl" field for this.
*/
WXS_SUBST_HEAD(elemDecl) = substHead;
/*
* The type definitions is set to:
* SPEC "...the {type definition} of the element
* declaration `resolved` to by the `actual value`
* of the substitutionGroup [attribute], if present"
*/
if (elemDecl->subtypes == NULL)
elemDecl->subtypes = substHead->subtypes;
}
}
/*
* SPEC "The definition of anyType serves as the default type definition
* for element declarations whose XML representation does not specify one."
*/
if ((elemDecl->subtypes == NULL) &&
(elemDecl->namedType == NULL) &&
(elemDecl->substGroup == NULL))
elemDecl->subtypes = xmlSchemaGetBuiltInType(XML_SCHEMAS_ANYTYPE);
}
/**
* xmlSchemaResolveUnionMemberTypes:
* @ctxt: the schema parser context
* @type: the schema simple type definition
*
* Checks and builds the "member type definitions" property of the union
* simple type. This handles part (1), part (2) is done in
* xmlSchemaFinishMemberTypeDefinitionsProperty()
*
* Returns -1 in case of an internal error, 0 otherwise.
*/
static int
xmlSchemaResolveUnionMemberTypes(xmlSchemaParserCtxtPtr ctxt,
xmlSchemaTypePtr type)
{
xmlSchemaTypeLinkPtr link, lastLink, newLink;
xmlSchemaTypePtr memberType;
/*
* SPEC (1) "If the <union> alternative is chosen, then [Definition:]
* define the explicit members as the type definitions `resolved`
* to by the items in the `actual value` of the memberTypes [attribute],
* if any, followed by the type definitions corresponding to the
* <simpleType>s among the [children] of <union>, if any."
*/
/*
* Resolve references.
*/
link = type->memberTypes;
lastLink = NULL;
while (link != NULL) {
const xmlChar *name, *nsName;
name = ((xmlSchemaQNameRefPtr) link->type)->name;
nsName = ((xmlSchemaQNameRefPtr) link->type)->targetNamespace;
memberType = xmlSchemaGetType(ctxt->schema, name, nsName);
if ((memberType == NULL) || (! WXS_IS_SIMPLE(memberType))) {
xmlSchemaPResCompAttrErr(ctxt, XML_SCHEMAP_SRC_RESOLVE,
WXS_BASIC_CAST type, type->node, "memberTypes",
name, nsName, XML_SCHEMA_TYPE_SIMPLE, NULL);
/*
* Remove the member type link.
*/
if (lastLink == NULL)
type->memberTypes = link->next;
else
lastLink->next = link->next;
newLink = link;
link = link->next;
xmlFree(newLink);
} else {
link->type = memberType;
lastLink = link;
link = link->next;
}
}
/*
* Add local simple types,
*/
memberType = type->subtypes;
while (memberType != NULL) {
link = (xmlSchemaTypeLinkPtr) xmlMalloc(sizeof(xmlSchemaTypeLink));
if (link == NULL) {
xmlSchemaPErrMemory(ctxt, "allocating a type link", NULL);
return (-1);
}
link->type = memberType;
link->next = NULL;
if (lastLink == NULL)
type->memberTypes = link;
else
lastLink->next = link;
lastLink = link;
memberType = memberType->next;
}
return (0);
}
/**
* xmlSchemaIsDerivedFromBuiltInType:
* @ctxt: the schema parser context
* @type: the type definition
* @valType: the value type
*
*
* Returns 1 if the type has the given value type, or
* is derived from such a type.
*/
static int
xmlSchemaIsDerivedFromBuiltInType(xmlSchemaTypePtr type, int valType)
{
if (type == NULL)
return (0);
if (WXS_IS_COMPLEX(type))
return (0);
if (type->type == XML_SCHEMA_TYPE_BASIC) {
if (type->builtInType == valType)
return(1);
if ((type->builtInType == XML_SCHEMAS_ANYSIMPLETYPE) ||
(type->builtInType == XML_SCHEMAS_ANYTYPE))
return (0);
return(xmlSchemaIsDerivedFromBuiltInType(type->subtypes, valType));
}
return(xmlSchemaIsDerivedFromBuiltInType(type->subtypes, valType));
}
#if 0
/**
* xmlSchemaIsDerivedFromBuiltInType:
* @ctxt: the schema parser context
* @type: the type definition
* @valType: the value type
*
*
* Returns 1 if the type has the given value type, or
* is derived from such a type.
*/
static int
xmlSchemaIsUserDerivedFromBuiltInType(xmlSchemaTypePtr type, int valType)
{
if (type == NULL)
return (0);
if (WXS_IS_COMPLEX(type))
return (0);
if (type->type == XML_SCHEMA_TYPE_BASIC) {
if (type->builtInType == valType)
return(1);
return (0);
} else
return(xmlSchemaIsDerivedFromBuiltInType(type->subtypes, valType));
return (0);
}
static xmlSchemaTypePtr
xmlSchemaQueryBuiltInType(xmlSchemaTypePtr type)
{
if (type == NULL)
return (NULL);
if (WXS_IS_COMPLEX(type))
return (NULL);
if (type->type == XML_SCHEMA_TYPE_BASIC)
return(type);
return(xmlSchemaQueryBuiltInType(type->subtypes));
}
#endif
/**
* xmlSchemaGetPrimitiveType:
* @type: the simpleType definition
*
* Returns the primitive type of the given type or
* NULL in case of error.
*/
static xmlSchemaTypePtr
xmlSchemaGetPrimitiveType(xmlSchemaTypePtr type)
{
while (type != NULL) {
/*
* Note that anySimpleType is actually not a primitive type
* but we need that here.
*/
if ((type->builtInType == XML_SCHEMAS_ANYSIMPLETYPE) ||
(type->flags & XML_SCHEMAS_TYPE_BUILTIN_PRIMITIVE))
return (type);
type = type->baseType;
}
return (NULL);
}
#if 0
/**
* xmlSchemaGetBuiltInTypeAncestor:
* @type: the simpleType definition
*
* Returns the primitive type of the given type or
* NULL in case of error.
*/
static xmlSchemaTypePtr
xmlSchemaGetBuiltInTypeAncestor(xmlSchemaTypePtr type)
{
if (WXS_IS_LIST(type) || WXS_IS_UNION(type))
return (0);
while (type != NULL) {
if (type->type == XML_SCHEMA_TYPE_BASIC)
return (type);
type = type->baseType;
}
return (NULL);
}
#endif
/**
* xmlSchemaCloneWildcardNsConstraints:
* @ctxt: the schema parser context
* @dest: the destination wildcard
* @source: the source wildcard
*
* Clones the namespace constraints of source
* and assignes them to dest.
* Returns -1 on internal error, 0 otherwise.
*/
static int
xmlSchemaCloneWildcardNsConstraints(xmlSchemaParserCtxtPtr ctxt,
xmlSchemaWildcardPtr dest,
xmlSchemaWildcardPtr source)
{
xmlSchemaWildcardNsPtr cur, tmp, last;
if ((source == NULL) || (dest == NULL))
return(-1);
dest->any = source->any;
cur = source->nsSet;
last = NULL;
while (cur != NULL) {
tmp = xmlSchemaNewWildcardNsConstraint(ctxt);
if (tmp == NULL)
return(-1);
tmp->value = cur->value;
if (last == NULL)
dest->nsSet = tmp;
else
last->next = tmp;
last = tmp;
cur = cur->next;
}
if (dest->negNsSet != NULL)
xmlSchemaFreeWildcardNsSet(dest->negNsSet);
if (source->negNsSet != NULL) {
dest->negNsSet = xmlSchemaNewWildcardNsConstraint(ctxt);
if (dest->negNsSet == NULL)
return(-1);
dest->negNsSet->value = source->negNsSet->value;
} else
dest->negNsSet = NULL;
return(0);
}
/**
* xmlSchemaUnionWildcards:
* @ctxt: the schema parser context
* @completeWild: the first wildcard
* @curWild: the second wildcard
*
* Unions the namespace constraints of the given wildcards.
* @completeWild will hold the resulting union.
* Returns a positive error code on failure, -1 in case of an
* internal error, 0 otherwise.
*/
static int
xmlSchemaUnionWildcards(xmlSchemaParserCtxtPtr ctxt,
xmlSchemaWildcardPtr completeWild,
xmlSchemaWildcardPtr curWild)
{
xmlSchemaWildcardNsPtr cur, curB, tmp;
/*
* 1 If O1 and O2 are the same value, then that value must be the
* value.
*/
if ((completeWild->any == curWild->any) &&
((completeWild->nsSet == NULL) == (curWild->nsSet == NULL)) &&
((completeWild->negNsSet == NULL) == (curWild->negNsSet == NULL))) {
if ((completeWild->negNsSet == NULL) ||
(completeWild->negNsSet->value == curWild->negNsSet->value)) {
if (completeWild->nsSet != NULL) {
int found = 0;
/*
* Check equality of sets.
*/
cur = completeWild->nsSet;
while (cur != NULL) {
found = 0;
curB = curWild->nsSet;
while (curB != NULL) {
if (cur->value == curB->value) {
found = 1;
break;
}
curB = curB->next;
}
if (!found)
break;
cur = cur->next;
}
if (found)
return(0);
} else
return(0);
}
}
/*
* 2 If either O1 or O2 is any, then any must be the value
*/
if (completeWild->any != curWild->any) {
if (completeWild->any == 0) {
completeWild->any = 1;
if (completeWild->nsSet != NULL) {
xmlSchemaFreeWildcardNsSet(completeWild->nsSet);
completeWild->nsSet = NULL;
}
if (completeWild->negNsSet != NULL) {
xmlFree(completeWild->negNsSet);
completeWild->negNsSet = NULL;
}
}
return (0);
}
/*
* 3 If both O1 and O2 are sets of (namespace names or `absent`),
* then the union of those sets must be the value.
*/
if ((completeWild->nsSet != NULL) && (curWild->nsSet != NULL)) {
int found;
xmlSchemaWildcardNsPtr start;
cur = curWild->nsSet;
start = completeWild->nsSet;
while (cur != NULL) {
found = 0;
curB = start;
while (curB != NULL) {
if (cur->value == curB->value) {
found = 1;
break;
}
curB = curB->next;
}
if (!found) {
tmp = xmlSchemaNewWildcardNsConstraint(ctxt);
if (tmp == NULL)
return (-1);
tmp->value = cur->value;
tmp->next = completeWild->nsSet;
completeWild->nsSet = tmp;
}
cur = cur->next;
}
return(0);
}
/*
* 4 If the two are negations of different values (namespace names
* or `absent`), then a pair of not and `absent` must be the value.
*/
if ((completeWild->negNsSet != NULL) &&
(curWild->negNsSet != NULL) &&
(completeWild->negNsSet->value != curWild->negNsSet->value)) {
completeWild->negNsSet->value = NULL;
return(0);
}
/*
* 5.
*/
if (((completeWild->negNsSet != NULL) &&
(completeWild->negNsSet->value != NULL) &&
(curWild->nsSet != NULL)) ||
((curWild->negNsSet != NULL) &&
(curWild->negNsSet->value != NULL) &&
(completeWild->nsSet != NULL))) {
int nsFound, absentFound = 0;
if (completeWild->nsSet != NULL) {
cur = completeWild->nsSet;
curB = curWild->negNsSet;
} else {
cur = curWild->nsSet;
curB = completeWild->negNsSet;
}
nsFound = 0;
while (cur != NULL) {
if (cur->value == NULL)
absentFound = 1;
else if (cur->value == curB->value)
nsFound = 1;
if (nsFound && absentFound)
break;
cur = cur->next;
}
if (nsFound && absentFound) {
/*
* 5.1 If the set S includes both the negated namespace
* name and `absent`, then any must be the value.
*/
completeWild->any = 1;
if (completeWild->nsSet != NULL) {
xmlSchemaFreeWildcardNsSet(completeWild->nsSet);
completeWild->nsSet = NULL;
}
if (completeWild->negNsSet != NULL) {
xmlFree(completeWild->negNsSet);
completeWild->negNsSet = NULL;
}
} else if (nsFound && (!absentFound)) {
/*
* 5.2 If the set S includes the negated namespace name
* but not `absent`, then a pair of not and `absent` must
* be the value.
*/
if (completeWild->nsSet != NULL) {
xmlSchemaFreeWildcardNsSet(completeWild->nsSet);
completeWild->nsSet = NULL;
}
if (completeWild->negNsSet == NULL) {
completeWild->negNsSet = xmlSchemaNewWildcardNsConstraint(ctxt);
if (completeWild->negNsSet == NULL)
return (-1);
}
completeWild->negNsSet->value = NULL;
} else if ((!nsFound) && absentFound) {
/*
* 5.3 If the set S includes `absent` but not the negated
* namespace name, then the union is not expressible.
*/
xmlSchemaPErr(ctxt, completeWild->node,
XML_SCHEMAP_UNION_NOT_EXPRESSIBLE,
"The union of the wilcard is not expressible.\n",
NULL, NULL);
return(XML_SCHEMAP_UNION_NOT_EXPRESSIBLE);
} else if ((!nsFound) && (!absentFound)) {
/*
* 5.4 If the set S does not include either the negated namespace
* name or `absent`, then whichever of O1 or O2 is a pair of not
* and a namespace name must be the value.
*/
if (completeWild->negNsSet == NULL) {
if (completeWild->nsSet != NULL) {
xmlSchemaFreeWildcardNsSet(completeWild->nsSet);
completeWild->nsSet = NULL;
}
completeWild->negNsSet = xmlSchemaNewWildcardNsConstraint(ctxt);
if (completeWild->negNsSet == NULL)
return (-1);
completeWild->negNsSet->value = curWild->negNsSet->value;
}
}
return (0);
}
/*
* 6.
*/
if (((completeWild->negNsSet != NULL) &&
(completeWild->negNsSet->value == NULL) &&
(curWild->nsSet != NULL)) ||
((curWild->negNsSet != NULL) &&
(curWild->negNsSet->value == NULL) &&
(completeWild->nsSet != NULL))) {
if (completeWild->nsSet != NULL) {
cur = completeWild->nsSet;
} else {
cur = curWild->nsSet;
}
while (cur != NULL) {
if (cur->value == NULL) {
/*
* 6.1 If the set S includes `absent`, then any must be the
* value.
*/
completeWild->any = 1;
if (completeWild->nsSet != NULL) {
xmlSchemaFreeWildcardNsSet(completeWild->nsSet);
completeWild->nsSet = NULL;
}
if (completeWild->negNsSet != NULL) {
xmlFree(completeWild->negNsSet);
completeWild->negNsSet = NULL;
}
return (0);
}
cur = cur->next;
}
if (completeWild->negNsSet == NULL) {
/*
* 6.2 If the set S does not include `absent`, then a pair of not
* and `absent` must be the value.
*/
if (completeWild->nsSet != NULL) {
xmlSchemaFreeWildcardNsSet(completeWild->nsSet);
completeWild->nsSet = NULL;
}
completeWild->negNsSet = xmlSchemaNewWildcardNsConstraint(ctxt);
if (completeWild->negNsSet == NULL)
return (-1);
completeWild->negNsSet->value = NULL;
}
return (0);
}
return (0);
}
/**
* xmlSchemaIntersectWildcards:
* @ctxt: the schema parser context
* @completeWild: the first wildcard
* @curWild: the second wildcard
*
* Intersects the namespace constraints of the given wildcards.
* @completeWild will hold the resulting intersection.
* Returns a positive error code on failure, -1 in case of an
* internal error, 0 otherwise.
*/
static int
xmlSchemaIntersectWildcards(xmlSchemaParserCtxtPtr ctxt,
xmlSchemaWildcardPtr completeWild,
xmlSchemaWildcardPtr curWild)
{
xmlSchemaWildcardNsPtr cur, curB, prev, tmp;
/*
* 1 If O1 and O2 are the same value, then that value must be the
* value.
*/
if ((completeWild->any == curWild->any) &&
((completeWild->nsSet == NULL) == (curWild->nsSet == NULL)) &&
((completeWild->negNsSet == NULL) == (curWild->negNsSet == NULL))) {
if ((completeWild->negNsSet == NULL) ||
(completeWild->negNsSet->value == curWild->negNsSet->value)) {
if (completeWild->nsSet != NULL) {
int found = 0;
/*
* Check equality of sets.
*/
cur = completeWild->nsSet;
while (cur != NULL) {
found = 0;
curB = curWild->nsSet;
while (curB != NULL) {
if (cur->value == curB->value) {
found = 1;
break;
}
curB = curB->next;
}
if (!found)
break;
cur = cur->next;
}
if (found)
return(0);
} else
return(0);
}
}
/*
* 2 If either O1 or O2 is any, then the other must be the value.
*/
if ((completeWild->any != curWild->any) && (completeWild->any)) {
if (xmlSchemaCloneWildcardNsConstraints(ctxt, completeWild, curWild) == -1)
return(-1);
return(0);
}
/*
* 3 If either O1 or O2 is a pair of not and a value (a namespace
* name or `absent`) and the other is a set of (namespace names or
* `absent`), then that set, minus the negated value if it was in
* the set, minus `absent` if it was in the set, must be the value.
*/
if (((completeWild->negNsSet != NULL) && (curWild->nsSet != NULL)) ||
((curWild->negNsSet != NULL) && (completeWild->nsSet != NULL))) {
const xmlChar *neg;
if (completeWild->nsSet == NULL) {
neg = completeWild->negNsSet->value;
if (xmlSchemaCloneWildcardNsConstraints(ctxt, completeWild, curWild) == -1)
return(-1);
} else
neg = curWild->negNsSet->value;
/*
* Remove absent and negated.
*/
prev = NULL;
cur = completeWild->nsSet;
while (cur != NULL) {
if (cur->value == NULL) {
if (prev == NULL)
completeWild->nsSet = cur->next;
else
prev->next = cur->next;
xmlFree(cur);
break;
}
prev = cur;
cur = cur->next;
}
if (neg != NULL) {
prev = NULL;
cur = completeWild->nsSet;
while (cur != NULL) {
if (cur->value == neg) {
if (prev == NULL)
completeWild->nsSet = cur->next;
else
prev->next = cur->next;
xmlFree(cur);
break;
}
prev = cur;
cur = cur->next;
}
}
return(0);
}
/*
* 4 If both O1 and O2 are sets of (namespace names or `absent`),
* then the intersection of those sets must be the value.
*/
if ((completeWild->nsSet != NULL) && (curWild->nsSet != NULL)) {
int found;
cur = completeWild->nsSet;
prev = NULL;
while (cur != NULL) {
found = 0;
curB = curWild->nsSet;
while (curB != NULL) {
if (cur->value == curB->value) {
found = 1;
break;
}
curB = curB->next;
}
if (!found) {
if (prev == NULL)
completeWild->nsSet = cur->next;
else
prev->next = cur->next;
tmp = cur->next;
xmlFree(cur);
cur = tmp;
continue;
}
prev = cur;
cur = cur->next;
}
return(0);
}
/* 5 If the two are negations of different namespace names,
* then the intersection is not expressible
*/
if ((completeWild->negNsSet != NULL) &&
(curWild->negNsSet != NULL) &&
(completeWild->negNsSet->value != curWild->negNsSet->value) &&
(completeWild->negNsSet->value != NULL) &&
(curWild->negNsSet->value != NULL)) {
xmlSchemaPErr(ctxt, completeWild->node, XML_SCHEMAP_INTERSECTION_NOT_EXPRESSIBLE,
"The intersection of the wilcard is not expressible.\n",
NULL, NULL);
return(XML_SCHEMAP_INTERSECTION_NOT_EXPRESSIBLE);
}
/*
* 6 If the one is a negation of a namespace name and the other
* is a negation of `absent`, then the one which is the negation
* of a namespace name must be the value.
*/
if ((completeWild->negNsSet != NULL) && (curWild->negNsSet != NULL) &&
(completeWild->negNsSet->value != curWild->negNsSet->value) &&
(completeWild->negNsSet->value == NULL)) {
completeWild->negNsSet->value = curWild->negNsSet->value;
}
return(0);
}
/**
* xmlSchemaIsWildcardNsConstraintSubset:
* @ctxt: the schema parser context
* @sub: the first wildcard
* @super: the second wildcard
*
* Schema Component Constraint: Wildcard Subset (cos-ns-subset)
*
* Returns 0 if the namespace constraint of @sub is an intensional
* subset of @super, 1 otherwise.
*/
static int
xmlSchemaCheckCOSNSSubset(xmlSchemaWildcardPtr sub,
xmlSchemaWildcardPtr super)
{
/*
* 1 super must be any.
*/
if (super->any)
return (0);
/*
* 2.1 sub must be a pair of not and a namespace name or `absent`.
* 2.2 super must be a pair of not and the same value.
*/
if ((sub->negNsSet != NULL) &&
(super->negNsSet != NULL) &&
(sub->negNsSet->value == super->negNsSet->value))
return (0);
/*
* 3.1 sub must be a set whose members are either namespace names or `absent`.
*/
if (sub->nsSet != NULL) {
/*
* 3.2.1 super must be the same set or a superset thereof.
*/
if (super->nsSet != NULL) {
xmlSchemaWildcardNsPtr cur, curB;
int found = 0;
cur = sub->nsSet;
while (cur != NULL) {
found = 0;
curB = super->nsSet;
while (curB != NULL) {
if (cur->value == curB->value) {
found = 1;
break;
}
curB = curB->next;
}
if (!found)
return (1);
cur = cur->next;
}
if (found)
return (0);
} else if (super->negNsSet != NULL) {
xmlSchemaWildcardNsPtr cur;
/*
* 3.2.2 super must be a pair of not and a namespace name or
* `absent` and that value must not be in sub's set.
*/
cur = sub->nsSet;
while (cur != NULL) {
if (cur->value == super->negNsSet->value)
return (1);
cur = cur->next;
}
return (0);
}
}
return (1);
}
static int
xmlSchemaGetEffectiveValueConstraint(xmlSchemaAttributeUsePtr attruse,
int *fixed,
const xmlChar **value,
xmlSchemaValPtr *val)
{
*fixed = 0;
*value = NULL;
if (val != 0)
*val = NULL;
if (attruse->defValue != NULL) {
*value = attruse->defValue;
if (val != NULL)
*val = attruse->defVal;
if (attruse->flags & XML_SCHEMA_ATTR_USE_FIXED)
*fixed = 1;
return(1);
} else if ((attruse->attrDecl != NULL) &&
(attruse->attrDecl->defValue != NULL)) {
*value = attruse->attrDecl->defValue;
if (val != NULL)
*val = attruse->attrDecl->defVal;
if (attruse->attrDecl->flags & XML_SCHEMAS_ATTR_FIXED)
*fixed = 1;
return(1);
}
return(0);
}
/**
* xmlSchemaCheckCVCWildcardNamespace:
* @wild: the wildcard
* @ns: the namespace
*
* Validation Rule: Wildcard allows Namespace Name
* (cvc-wildcard-namespace)
*
* Returns 0 if the given namespace matches the wildcard,
* 1 otherwise and -1 on API errors.
*/
static int
xmlSchemaCheckCVCWildcardNamespace(xmlSchemaWildcardPtr wild,
const xmlChar* ns)
{
if (wild == NULL)
return(-1);
if (wild->any)
return(0);
else if (wild->nsSet != NULL) {
xmlSchemaWildcardNsPtr cur;
cur = wild->nsSet;
while (cur != NULL) {
if (xmlStrEqual(cur->value, ns))
return(0);
cur = cur->next;
}
} else if ((wild->negNsSet != NULL) && (ns != NULL) &&
(!xmlStrEqual(wild->negNsSet->value, ns)))
return(0);
return(1);
}
#define XML_SCHEMA_ACTION_DERIVE 0
#define XML_SCHEMA_ACTION_REDEFINE 1
#define WXS_ACTION_STR(a) \
((a) == XML_SCHEMA_ACTION_DERIVE) ? (const xmlChar *) "base" : (const xmlChar *) "redefined"
/*
* Schema Component Constraint:
* Derivation Valid (Restriction, Complex)
* derivation-ok-restriction (2) - (4)
*
* ATTENTION:
* In XML Schema 1.1 this will be:
* Validation Rule:
* Checking complex type subsumption (practicalSubsumption) (1, 2 and 3)
*
*/
static int
xmlSchemaCheckDerivationOKRestriction2to4(xmlSchemaParserCtxtPtr pctxt,
int action,
xmlSchemaBasicItemPtr item,
xmlSchemaBasicItemPtr baseItem,
xmlSchemaItemListPtr uses,
xmlSchemaItemListPtr baseUses,
xmlSchemaWildcardPtr wild,
xmlSchemaWildcardPtr baseWild)
{
xmlSchemaAttributeUsePtr cur = NULL, bcur;
int i, j, found; /* err = 0; */
const xmlChar *bEffValue;
int effFixed;
if (uses != NULL) {
for (i = 0; i < uses->nbItems; i++) {
cur = uses->items[i];
found = 0;
if (baseUses == NULL)
goto not_found;
for (j = 0; j < baseUses->nbItems; j++) {
bcur = baseUses->items[j];
if ((WXS_ATTRUSE_DECL_NAME(cur) ==
WXS_ATTRUSE_DECL_NAME(bcur)) &&
(WXS_ATTRUSE_DECL_TNS(cur) ==
WXS_ATTRUSE_DECL_TNS(bcur)))
{
/*
* (2.1) "If there is an attribute use in the {attribute
* uses} of the {base type definition} (call this B) whose
* {attribute declaration} has the same {name} and {target
* namespace}, then all of the following must be true:"
*/
found = 1;
if ((cur->occurs == XML_SCHEMAS_ATTR_USE_OPTIONAL) &&
(bcur->occurs == XML_SCHEMAS_ATTR_USE_REQUIRED))
{
xmlChar *str = NULL;
/*
* (2.1.1) "one of the following must be true:"
* (2.1.1.1) "B's {required} is false."
* (2.1.1.2) "R's {required} is true."
*/
xmlSchemaPAttrUseErr4(pctxt,
XML_SCHEMAP_DERIVATION_OK_RESTRICTION_2_1_1,
WXS_ITEM_NODE(item), item, cur,
"The 'optional' attribute use is inconsistent "
"with the corresponding 'required' attribute use of "
"the %s %s",
WXS_ACTION_STR(action),
xmlSchemaGetComponentDesignation(&str, baseItem),
NULL, NULL);
FREE_AND_NULL(str);
/* err = pctxt->err; */
} else if (xmlSchemaCheckCOSSTDerivedOK(ACTXT_CAST pctxt,
WXS_ATTRUSE_TYPEDEF(cur),
WXS_ATTRUSE_TYPEDEF(bcur), 0) != 0)
{
xmlChar *strA = NULL, *strB = NULL, *strC = NULL;
/*
* SPEC (2.1.2) "R's {attribute declaration}'s
* {type definition} must be validly derived from
* B's {type definition} given the empty set as
* defined in Type Derivation OK (Simple) ($3.14.6)."
*/
xmlSchemaPAttrUseErr4(pctxt,
XML_SCHEMAP_DERIVATION_OK_RESTRICTION_2_1_2,
WXS_ITEM_NODE(item), item, cur,
"The attribute declaration's %s "
"is not validly derived from "
"the corresponding %s of the "
"attribute declaration in the %s %s",
xmlSchemaGetComponentDesignation(&strA,
WXS_ATTRUSE_TYPEDEF(cur)),
xmlSchemaGetComponentDesignation(&strB,
WXS_ATTRUSE_TYPEDEF(bcur)),
WXS_ACTION_STR(action),
xmlSchemaGetComponentDesignation(&strC, baseItem));
/* xmlSchemaGetComponentDesignation(&str, baseItem), */
FREE_AND_NULL(strA);
FREE_AND_NULL(strB);
FREE_AND_NULL(strC);
/* err = pctxt->err; */
} else {
/*
* 2.1.3 [Definition:] Let the effective value
* constraint of an attribute use be its {value
* constraint}, if present, otherwise its {attribute
* declaration}'s {value constraint} .
*/
xmlSchemaGetEffectiveValueConstraint(bcur,
&effFixed, &bEffValue, NULL);
/*
* 2.1.3 ... one of the following must be true
*
* 2.1.3.1 B's `effective value constraint` is
* `absent` or default.
*/
if ((bEffValue != NULL) &&
(effFixed == 1)) {
const xmlChar *rEffValue = NULL;
xmlSchemaGetEffectiveValueConstraint(bcur,
&effFixed, &rEffValue, NULL);
/*
* 2.1.3.2 R's `effective value constraint` is
* fixed with the same string as B's.
* MAYBE TODO: Compare the computed values.
* Hmm, it says "same string" so
* string-equality might really be sufficient.
*/
if ((effFixed == 0) ||
(! WXS_ARE_DEFAULT_STR_EQUAL(rEffValue, bEffValue)))
{
xmlChar *str = NULL;
xmlSchemaPAttrUseErr4(pctxt,
XML_SCHEMAP_DERIVATION_OK_RESTRICTION_2_1_3,
WXS_ITEM_NODE(item), item, cur,
"The effective value constraint of the "
"attribute use is inconsistent with "
"its correspondent in the %s %s",
WXS_ACTION_STR(action),
xmlSchemaGetComponentDesignation(&str,
baseItem),
NULL, NULL);
FREE_AND_NULL(str);
/* err = pctxt->err; */
}
}
}
break;
}
}
not_found:
if (!found) {
/*
* (2.2) "otherwise the {base type definition} must have an
* {attribute wildcard} and the {target namespace} of the
* R's {attribute declaration} must be `valid` with respect
* to that wildcard, as defined in Wildcard allows Namespace
* Name ($3.10.4)."
*/
if ((baseWild == NULL) ||
(xmlSchemaCheckCVCWildcardNamespace(baseWild,
(WXS_ATTRUSE_DECL(cur))->targetNamespace) != 0))
{
xmlChar *str = NULL;
xmlSchemaPAttrUseErr4(pctxt,
XML_SCHEMAP_DERIVATION_OK_RESTRICTION_2_2,
WXS_ITEM_NODE(item), item, cur,
"Neither a matching attribute use, "
"nor a matching wildcard exists in the %s %s",
WXS_ACTION_STR(action),
xmlSchemaGetComponentDesignation(&str, baseItem),
NULL, NULL);
FREE_AND_NULL(str);
/* err = pctxt->err; */
}
}
}
}
/*
* SPEC derivation-ok-restriction (3):
* (3) "For each attribute use in the {attribute uses} of the {base type
* definition} whose {required} is true, there must be an attribute
* use with an {attribute declaration} with the same {name} and
* {target namespace} as its {attribute declaration} in the {attribute
* uses} of the complex type definition itself whose {required} is true.
*/
if (baseUses != NULL) {
for (j = 0; j < baseUses->nbItems; j++) {
bcur = baseUses->items[j];
if (bcur->occurs != XML_SCHEMAS_ATTR_USE_REQUIRED)
continue;
found = 0;
if (uses != NULL) {
for (i = 0; i < uses->nbItems; i++) {
cur = uses->items[i];
if ((WXS_ATTRUSE_DECL_NAME(cur) ==
WXS_ATTRUSE_DECL_NAME(bcur)) &&
(WXS_ATTRUSE_DECL_TNS(cur) ==
WXS_ATTRUSE_DECL_TNS(bcur))) {
found = 1;
break;
}
}
}
if (!found) {
xmlChar *strA = NULL, *strB = NULL;
xmlSchemaCustomErr4(ACTXT_CAST pctxt,
XML_SCHEMAP_DERIVATION_OK_RESTRICTION_3,
NULL, item,
"A matching attribute use for the "
"'required' %s of the %s %s is missing",
xmlSchemaGetComponentDesignation(&strA, bcur),
WXS_ACTION_STR(action),
xmlSchemaGetComponentDesignation(&strB, baseItem),
NULL);
FREE_AND_NULL(strA);
FREE_AND_NULL(strB);
}
}
}
/*
* derivation-ok-restriction (4)
*/
if (wild != NULL) {
/*
* (4) "If there is an {attribute wildcard}, all of the
* following must be true:"
*/
if (baseWild == NULL) {
xmlChar *str = NULL;
/*
* (4.1) "The {base type definition} must also have one."
*/
xmlSchemaCustomErr4(ACTXT_CAST pctxt,
XML_SCHEMAP_DERIVATION_OK_RESTRICTION_4_1,
NULL, item,
"The %s has an attribute wildcard, "
"but the %s %s '%s' does not have one",
WXS_ITEM_TYPE_NAME(item),
WXS_ACTION_STR(action),
WXS_ITEM_TYPE_NAME(baseItem),
xmlSchemaGetComponentQName(&str, baseItem));
FREE_AND_NULL(str);
return(pctxt->err);
} else if ((baseWild->any == 0) &&
xmlSchemaCheckCOSNSSubset(wild, baseWild))
{
xmlChar *str = NULL;
/*
* (4.2) "The complex type definition's {attribute wildcard}'s
* {namespace constraint} must be a subset of the {base type
* definition}'s {attribute wildcard}'s {namespace constraint},
* as defined by Wildcard Subset ($3.10.6)."
*/
xmlSchemaCustomErr4(ACTXT_CAST pctxt,
XML_SCHEMAP_DERIVATION_OK_RESTRICTION_4_2,
NULL, item,
"The attribute wildcard is not a valid "
"subset of the wildcard in the %s %s '%s'",
WXS_ACTION_STR(action),
WXS_ITEM_TYPE_NAME(baseItem),
xmlSchemaGetComponentQName(&str, baseItem),
NULL);
FREE_AND_NULL(str);
return(pctxt->err);
}
/* 4.3 Unless the {base type definition} is the `ur-type
* definition`, the complex type definition's {attribute
* wildcard}'s {process contents} must be identical to or
* stronger than the {base type definition}'s {attribute
* wildcard}'s {process contents}, where strict is stronger
* than lax is stronger than skip.
*/
if ((! WXS_IS_ANYTYPE(baseItem)) &&
(wild->processContents < baseWild->processContents)) {
xmlChar *str = NULL;
xmlSchemaCustomErr4(ACTXT_CAST pctxt,
XML_SCHEMAP_DERIVATION_OK_RESTRICTION_4_3,
NULL, baseItem,
"The {process contents} of the attribute wildcard is "
"weaker than the one in the %s %s '%s'",
WXS_ACTION_STR(action),
WXS_ITEM_TYPE_NAME(baseItem),
xmlSchemaGetComponentQName(&str, baseItem),
NULL);
FREE_AND_NULL(str)
return(pctxt->err);
}
}
return(0);
}
static int
xmlSchemaExpandAttributeGroupRefs(xmlSchemaParserCtxtPtr pctxt,
xmlSchemaBasicItemPtr item,
xmlSchemaWildcardPtr *completeWild,
xmlSchemaItemListPtr list,
xmlSchemaItemListPtr prohibs);
/**
* xmlSchemaFixupTypeAttributeUses:
* @ctxt: the schema parser context
* @type: the complex type definition
*
*
* Builds the wildcard and the attribute uses on the given complex type.
* Returns -1 if an internal error occurs, 0 otherwise.
*
* ATTENTION TODO: Experimantally this uses pointer comparisons for
* strings, so recheck this if we start to hardcode some schemata, since
* they might not be in the same dict.
* NOTE: It is allowed to "extend" the xs:anyType type.
*/
static int
xmlSchemaFixupTypeAttributeUses(xmlSchemaParserCtxtPtr pctxt,
xmlSchemaTypePtr type)
{
xmlSchemaTypePtr baseType = NULL;
xmlSchemaAttributeUsePtr use;
xmlSchemaItemListPtr uses, baseUses, prohibs = NULL;
if (type->baseType == NULL) {
PERROR_INT("xmlSchemaFixupTypeAttributeUses",
"no base type");
return (-1);
}
baseType = type->baseType;
if (WXS_IS_TYPE_NOT_FIXED(baseType))
if (xmlSchemaTypeFixup(baseType, ACTXT_CAST pctxt) == -1)
return(-1);
uses = type->attrUses;
baseUses = baseType->attrUses;
/*
* Expand attribute group references. And build the 'complete'
* wildcard, i.e. intersect multiple wildcards.
* Move attribute prohibitions into a separate list.
*/
if (uses != NULL) {
if (WXS_IS_RESTRICTION(type)) {
/*
* This one will transfer all attr. prohibitions
* into pctxt->attrProhibs.
*/
if (xmlSchemaExpandAttributeGroupRefs(pctxt,
WXS_BASIC_CAST type, &(type->attributeWildcard), uses,
pctxt->attrProhibs) == -1)
{
PERROR_INT("xmlSchemaFixupTypeAttributeUses",
"failed to expand attributes");
}
if (pctxt->attrProhibs->nbItems != 0)
prohibs = pctxt->attrProhibs;
} else {
if (xmlSchemaExpandAttributeGroupRefs(pctxt,
WXS_BASIC_CAST type, &(type->attributeWildcard), uses,
NULL) == -1)
{
PERROR_INT("xmlSchemaFixupTypeAttributeUses",
"failed to expand attributes");
}
}
}
/*
* Inherit the attribute uses of the base type.
*/
if (baseUses != NULL) {
int i, j;
xmlSchemaAttributeUseProhibPtr pro;
if (WXS_IS_RESTRICTION(type)) {
int usesCount;
xmlSchemaAttributeUsePtr tmp;
if (uses != NULL)
usesCount = uses->nbItems;
else
usesCount = 0;
/* Restriction. */
for (i = 0; i < baseUses->nbItems; i++) {
use = baseUses->items[i];
if (prohibs) {
/*
* Filter out prohibited uses.
*/
for (j = 0; j < prohibs->nbItems; j++) {
pro = prohibs->items[j];
if ((WXS_ATTRUSE_DECL_NAME(use) == pro->name) &&
(WXS_ATTRUSE_DECL_TNS(use) ==
pro->targetNamespace))
{
goto inherit_next;
}
}
}
if (usesCount) {
/*
* Filter out existing uses.
*/
for (j = 0; j < usesCount; j++) {
tmp = uses->items[j];
if ((WXS_ATTRUSE_DECL_NAME(use) ==
WXS_ATTRUSE_DECL_NAME(tmp)) &&
(WXS_ATTRUSE_DECL_TNS(use) ==
WXS_ATTRUSE_DECL_TNS(tmp)))
{
goto inherit_next;
}
}
}
if (uses == NULL) {
type->attrUses = xmlSchemaItemListCreate();
if (type->attrUses == NULL)
goto exit_failure;
uses = type->attrUses;
}
xmlSchemaItemListAddSize(uses, 2, use);
inherit_next: {}
}
} else {
/* Extension. */
for (i = 0; i < baseUses->nbItems; i++) {
use = baseUses->items[i];
if (uses == NULL) {
type->attrUses = xmlSchemaItemListCreate();
if (type->attrUses == NULL)
goto exit_failure;
uses = type->attrUses;
}
xmlSchemaItemListAddSize(uses, baseUses->nbItems, use);
}
}
}
/*
* Shrink attr. uses.
*/
if (uses) {
if (uses->nbItems == 0) {
xmlSchemaItemListFree(uses);
type->attrUses = NULL;
}
/*
* TODO: We could shrink the size of the array
* to fit the actual number of items.
*/
}
/*
* Compute the complete wildcard.
*/
if (WXS_IS_EXTENSION(type)) {
if (baseType->attributeWildcard != NULL) {
/*
* (3.2.2.1) "If the `base wildcard` is non-`absent`, then
* the appropriate case among the following:"
*/
if (type->attributeWildcard != NULL) {
/*
* Union the complete wildcard with the base wildcard.
* SPEC {attribute wildcard}
* (3.2.2.1.2) "otherwise a wildcard whose {process contents}
* and {annotation} are those of the `complete wildcard`,
* and whose {namespace constraint} is the intensional union
* of the {namespace constraint} of the `complete wildcard`
* and of the `base wildcard`, as defined in Attribute
* Wildcard Union ($3.10.6)."
*/
if (xmlSchemaUnionWildcards(pctxt, type->attributeWildcard,
baseType->attributeWildcard) == -1)
goto exit_failure;
} else {
/*
* (3.2.2.1.1) "If the `complete wildcard` is `absent`,
* then the `base wildcard`."
*/
type->attributeWildcard = baseType->attributeWildcard;
}
} else {
/*
* (3.2.2.2) "otherwise (the `base wildcard` is `absent`) the
* `complete wildcard`"
* NOOP
*/
}
} else {
/*
* SPEC {attribute wildcard}
* (3.1) "If the <restriction> alternative is chosen, then the
* `complete wildcard`;"
* NOOP
*/
}
return (0);
exit_failure:
return(-1);
}
/**
* xmlSchemaTypeFinalContains:
* @schema: the schema
* @type: the type definition
* @final: the final
*
* Evaluates if a type definition contains the given "final".
* This does take "finalDefault" into account as well.
*
* Returns 1 if the type does containt the given "final",
* 0 otherwise.
*/
static int
xmlSchemaTypeFinalContains(xmlSchemaTypePtr type, int final)
{
if (type == NULL)
return (0);
if (type->flags & final)
return (1);
else
return (0);
}
/**
* xmlSchemaGetUnionSimpleTypeMemberTypes:
* @type: the Union Simple Type
*
* Returns a list of member types of @type if existing,
* returns NULL otherwise.
*/
static xmlSchemaTypeLinkPtr
xmlSchemaGetUnionSimpleTypeMemberTypes(xmlSchemaTypePtr type)
{
while ((type != NULL) && (type->type == XML_SCHEMA_TYPE_SIMPLE)) {
if (type->memberTypes != NULL)
return (type->memberTypes);
else
type = type->baseType;
}
return (NULL);
}
/**
* xmlSchemaGetParticleTotalRangeMin:
* @particle: the particle
*
* Schema Component Constraint: Effective Total Range
* (all and sequence) + (choice)
*
* Returns the minimun Effective Total Range.
*/
static int
xmlSchemaGetParticleTotalRangeMin(xmlSchemaParticlePtr particle)
{
if ((particle->children == NULL) ||
(particle->minOccurs == 0))
return (0);
if (particle->children->type == XML_SCHEMA_TYPE_CHOICE) {
int min = -1, cur;
xmlSchemaParticlePtr part =
(xmlSchemaParticlePtr) particle->children->children;
if (part == NULL)
return (0);
while (part != NULL) {
if ((part->children->type == XML_SCHEMA_TYPE_ELEMENT) ||
(part->children->type == XML_SCHEMA_TYPE_ANY))
cur = part->minOccurs;
else
cur = xmlSchemaGetParticleTotalRangeMin(part);
if (cur == 0)
return (0);
if ((min > cur) || (min == -1))
min = cur;
part = (xmlSchemaParticlePtr) part->next;
}
return (particle->minOccurs * min);
} else {
/* <all> and <sequence> */
int sum = 0;
xmlSchemaParticlePtr part =
(xmlSchemaParticlePtr) particle->children->children;
if (part == NULL)
return (0);
do {
if ((part->children->type == XML_SCHEMA_TYPE_ELEMENT) ||
(part->children->type == XML_SCHEMA_TYPE_ANY))
sum += part->minOccurs;
else
sum += xmlSchemaGetParticleTotalRangeMin(part);
part = (xmlSchemaParticlePtr) part->next;
} while (part != NULL);
return (particle->minOccurs * sum);
}
}
#if 0
/**
* xmlSchemaGetParticleTotalRangeMax:
* @particle: the particle
*
* Schema Component Constraint: Effective Total Range
* (all and sequence) + (choice)
*
* Returns the maximum Effective Total Range.
*/
static int
xmlSchemaGetParticleTotalRangeMax(xmlSchemaParticlePtr particle)
{
if ((particle->children == NULL) ||
(particle->children->children == NULL))
return (0);
if (particle->children->type == XML_SCHEMA_TYPE_CHOICE) {
int max = -1, cur;
xmlSchemaParticlePtr part =
(xmlSchemaParticlePtr) particle->children->children;
for (; part != NULL; part = (xmlSchemaParticlePtr) part->next) {
if (part->children == NULL)
continue;
if ((part->children->type == XML_SCHEMA_TYPE_ELEMENT) ||
(part->children->type == XML_SCHEMA_TYPE_ANY))
cur = part->maxOccurs;
else
cur = xmlSchemaGetParticleTotalRangeMax(part);
if (cur == UNBOUNDED)
return (UNBOUNDED);
if ((max < cur) || (max == -1))
max = cur;
}
/* TODO: Handle overflows? */
return (particle->maxOccurs * max);
} else {
/* <all> and <sequence> */
int sum = 0, cur;
xmlSchemaParticlePtr part =
(xmlSchemaParticlePtr) particle->children->children;
for (; part != NULL; part = (xmlSchemaParticlePtr) part->next) {
if (part->children == NULL)
continue;
if ((part->children->type == XML_SCHEMA_TYPE_ELEMENT) ||
(part->children->type == XML_SCHEMA_TYPE_ANY))
cur = part->maxOccurs;
else
cur = xmlSchemaGetParticleTotalRangeMax(part);
if (cur == UNBOUNDED)
return (UNBOUNDED);
if ((cur > 0) && (particle->maxOccurs == UNBOUNDED))
return (UNBOUNDED);
sum += cur;
}
/* TODO: Handle overflows? */
return (particle->maxOccurs * sum);
}
}
#endif
/**
* xmlSchemaIsParticleEmptiable:
* @particle: the particle
*
* Schema Component Constraint: Particle Emptiable
* Checks whether the given particle is emptiable.
*
* Returns 1 if emptiable, 0 otherwise.
*/
static int
xmlSchemaIsParticleEmptiable(xmlSchemaParticlePtr particle)
{
/*
* SPEC (1) "Its {min occurs} is 0."
*/
if ((particle == NULL) || (particle->minOccurs == 0) ||
(particle->children == NULL))
return (1);
/*
* SPEC (2) "Its {term} is a group and the minimum part of the
* effective total range of that group, [...] is 0."
*/
if (WXS_IS_MODEL_GROUP(particle->children)) {
if (xmlSchemaGetParticleTotalRangeMin(particle) == 0)
return (1);
}
return (0);
}
/**
* xmlSchemaCheckCOSSTDerivedOK:
* @actxt: a context
* @type: the derived simple type definition
* @baseType: the base type definition
* @subset: the subset of ('restriction', ect.)
*
* Schema Component Constraint:
* Type Derivation OK (Simple) (cos-st-derived-OK)
*
* Checks wheter @type can be validly
* derived from @baseType.
*
* Returns 0 on success, an positive error code otherwise.
*/
static int
xmlSchemaCheckCOSSTDerivedOK(xmlSchemaAbstractCtxtPtr actxt,
xmlSchemaTypePtr type,
xmlSchemaTypePtr baseType,
int subset)
{
/*
* 1 They are the same type definition.
* TODO: The identy check might have to be more complex than this.
*/
if (type == baseType)
return (0);
/*
* 2.1 restriction is not in the subset, or in the {final}
* of its own {base type definition};
*
* NOTE that this will be used also via "xsi:type".
*
* TODO: Revise this, it looks strange. How can the "type"
* not be fixed or *in* fixing?
*/
if (WXS_IS_TYPE_NOT_FIXED(type))
if (xmlSchemaTypeFixup(type, actxt) == -1)
return(-1);
if (WXS_IS_TYPE_NOT_FIXED(baseType))
if (xmlSchemaTypeFixup(baseType, actxt) == -1)
return(-1);
if ((subset & SUBSET_RESTRICTION) ||
(xmlSchemaTypeFinalContains(type->baseType,
XML_SCHEMAS_TYPE_FINAL_RESTRICTION))) {
return (XML_SCHEMAP_COS_ST_DERIVED_OK_2_1);
}
/* 2.2 */
if (type->baseType == baseType) {
/*
* 2.2.1 D's `base type definition` is B.
*/
return (0);
}
/*
* 2.2.2 D's `base type definition` is not the `ur-type definition`
* and is validly derived from B given the subset, as defined by this
* constraint.
*/
if ((! WXS_IS_ANYTYPE(type->baseType)) &&
(xmlSchemaCheckCOSSTDerivedOK(actxt, type->baseType,
baseType, subset) == 0)) {
return (0);
}
/*
* 2.2.3 D's {variety} is list or union and B is the `simple ur-type
* definition`.
*/
if (WXS_IS_ANY_SIMPLE_TYPE(baseType) &&
(WXS_IS_LIST(type) || WXS_IS_UNION(type))) {
return (0);
}
/*
* 2.2.4 B's {variety} is union and D is validly derived from a type
* definition in B's {member type definitions} given the subset, as
* defined by this constraint.
*
* NOTE: This seems not to involve built-in types, since there is no
* built-in Union Simple Type.
*/
if (WXS_IS_UNION(baseType)) {
xmlSchemaTypeLinkPtr cur;
cur = baseType->memberTypes;
while (cur != NULL) {
if (WXS_IS_TYPE_NOT_FIXED(cur->type))
if (xmlSchemaTypeFixup(cur->type, actxt) == -1)
return(-1);
if (xmlSchemaCheckCOSSTDerivedOK(actxt,
type, cur->type, subset) == 0)
{
/*
* It just has to be validly derived from at least one
* member-type.
*/
return (0);
}
cur = cur->next;
}
}
return (XML_SCHEMAP_COS_ST_DERIVED_OK_2_2);
}
/**
* xmlSchemaCheckTypeDefCircularInternal:
* @pctxt: the schema parser context
* @ctxtType: the type definition
* @ancestor: an ancestor of @ctxtType
*
* Checks st-props-correct (2) + ct-props-correct (3).
* Circular type definitions are not allowed.
*
* Returns XML_SCHEMAP_ST_PROPS_CORRECT_2 if the given type is
* circular, 0 otherwise.
*/
static int
xmlSchemaCheckTypeDefCircularInternal(xmlSchemaParserCtxtPtr pctxt,
xmlSchemaTypePtr ctxtType,
xmlSchemaTypePtr ancestor)
{
int ret;
if ((ancestor == NULL) || (ancestor->type == XML_SCHEMA_TYPE_BASIC))
return (0);
if (ctxtType == ancestor) {
xmlSchemaPCustomErr(pctxt,
XML_SCHEMAP_ST_PROPS_CORRECT_2,
WXS_BASIC_CAST ctxtType, WXS_ITEM_NODE(ctxtType),
"The definition is circular", NULL);
return (XML_SCHEMAP_ST_PROPS_CORRECT_2);
}
if (ancestor->flags & XML_SCHEMAS_TYPE_MARKED) {
/*
* Avoid inifinite recursion on circular types not yet checked.
*/
return (0);
}
ancestor->flags |= XML_SCHEMAS_TYPE_MARKED;
ret = xmlSchemaCheckTypeDefCircularInternal(pctxt, ctxtType,
ancestor->baseType);
ancestor->flags ^= XML_SCHEMAS_TYPE_MARKED;
return (ret);
}
/**
* xmlSchemaCheckTypeDefCircular:
* @item: the complex/simple type definition
* @ctxt: the parser context
* @name: the name
*
* Checks for circular type definitions.
*/
static void
xmlSchemaCheckTypeDefCircular(xmlSchemaTypePtr item,
xmlSchemaParserCtxtPtr ctxt)
{
if ((item == NULL) ||
(item->type == XML_SCHEMA_TYPE_BASIC) ||
(item->baseType == NULL))
return;
xmlSchemaCheckTypeDefCircularInternal(ctxt, item,
item->baseType);
}
/*
* Simple Type Definition Representation OK (src-simple-type) 4
*
* "4 Circular union type definition is disallowed. That is, if the
* <union> alternative is chosen, there must not be any entries in the
* memberTypes [attribute] at any depth which resolve to the component
* corresponding to the <simpleType>."
*
* Note that this should work on the *representation* of a component,
* thus assumes any union types in the member types not being yet
* substituted. At this stage we need the variety of the types
* to be already computed.
*/
static int
xmlSchemaCheckUnionTypeDefCircularRecur(xmlSchemaParserCtxtPtr pctxt,
xmlSchemaTypePtr ctxType,
xmlSchemaTypeLinkPtr members)
{
xmlSchemaTypeLinkPtr member;
xmlSchemaTypePtr memberType;
member = members;
while (member != NULL) {
memberType = member->type;
while ((memberType != NULL) &&
(memberType->type != XML_SCHEMA_TYPE_BASIC)) {
if (memberType == ctxType) {
xmlSchemaPCustomErr(pctxt,
XML_SCHEMAP_SRC_SIMPLE_TYPE_4,
WXS_BASIC_CAST ctxType, NULL,
"The union type definition is circular", NULL);
return (XML_SCHEMAP_SRC_SIMPLE_TYPE_4);
}
if ((WXS_IS_UNION(memberType)) &&
((memberType->flags & XML_SCHEMAS_TYPE_MARKED) == 0))
{
int res;
memberType->flags |= XML_SCHEMAS_TYPE_MARKED;
res = xmlSchemaCheckUnionTypeDefCircularRecur(pctxt,
ctxType,
xmlSchemaGetUnionSimpleTypeMemberTypes(memberType));
memberType->flags ^= XML_SCHEMAS_TYPE_MARKED;
if (res != 0)
return(res);
}
memberType = memberType->baseType;
}
member = member->next;
}
return(0);
}
static int
xmlSchemaCheckUnionTypeDefCircular(xmlSchemaParserCtxtPtr pctxt,
xmlSchemaTypePtr type)
{
if (! WXS_IS_UNION(type))
return(0);
return(xmlSchemaCheckUnionTypeDefCircularRecur(pctxt, type,
type->memberTypes));
}
/**
* xmlSchemaResolveTypeReferences:
* @item: the complex/simple type definition
* @ctxt: the parser context
* @name: the name
*
* Resolvese type definition references
*/
static void
xmlSchemaResolveTypeReferences(xmlSchemaTypePtr typeDef,
xmlSchemaParserCtxtPtr ctxt)
{
if (typeDef == NULL)
return;
/*
* Resolve the base type.
*/
if (typeDef->baseType == NULL) {
typeDef->baseType = xmlSchemaGetType(ctxt->schema,
typeDef->base, typeDef->baseNs);
if (typeDef->baseType == NULL) {
xmlSchemaPResCompAttrErr(ctxt,
XML_SCHEMAP_SRC_RESOLVE,
WXS_BASIC_CAST typeDef, typeDef->node,
"base", typeDef->base, typeDef->baseNs,
XML_SCHEMA_TYPE_SIMPLE, NULL);
return;
}
}
if (WXS_IS_SIMPLE(typeDef)) {
if (WXS_IS_UNION(typeDef)) {
/*
* Resolve the memberTypes.
*/
xmlSchemaResolveUnionMemberTypes(ctxt, typeDef);
return;
} else if (WXS_IS_LIST(typeDef)) {
/*
* Resolve the itemType.
*/
if ((typeDef->subtypes == NULL) && (typeDef->base != NULL)) {
typeDef->subtypes = xmlSchemaGetType(ctxt->schema,
typeDef->base, typeDef->baseNs);
if ((typeDef->subtypes == NULL) ||
(! WXS_IS_SIMPLE(typeDef->subtypes)))
{
typeDef->subtypes = NULL;
xmlSchemaPResCompAttrErr(ctxt,
XML_SCHEMAP_SRC_RESOLVE,
WXS_BASIC_CAST typeDef, typeDef->node,
"itemType", typeDef->base, typeDef->baseNs,
XML_SCHEMA_TYPE_SIMPLE, NULL);
}
}
return;
}
}
/*
* The ball of letters below means, that if we have a particle
* which has a QName-helper component as its {term}, we want
* to resolve it...
*/
else if ((WXS_TYPE_CONTENTTYPE(typeDef) != NULL) &&
((WXS_TYPE_CONTENTTYPE(typeDef))->type ==
XML_SCHEMA_TYPE_PARTICLE) &&
(WXS_TYPE_PARTICLE_TERM(typeDef) != NULL) &&
((WXS_TYPE_PARTICLE_TERM(typeDef))->type ==
XML_SCHEMA_EXTRA_QNAMEREF))
{
xmlSchemaQNameRefPtr ref =
WXS_QNAME_CAST WXS_TYPE_PARTICLE_TERM(typeDef);
xmlSchemaModelGroupDefPtr groupDef;
/*
* URGENT TODO: Test this.
*/
WXS_TYPE_PARTICLE_TERM(typeDef) = NULL;
/*
* Resolve the MG definition reference.
*/
groupDef =
WXS_MODEL_GROUPDEF_CAST xmlSchemaGetNamedComponent(ctxt->schema,
ref->itemType, ref->name, ref->targetNamespace);
if (groupDef == NULL) {
xmlSchemaPResCompAttrErr(ctxt, XML_SCHEMAP_SRC_RESOLVE,
NULL, WXS_ITEM_NODE(WXS_TYPE_PARTICLE(typeDef)),
"ref", ref->name, ref->targetNamespace, ref->itemType,
NULL);
/* Remove the particle. */
WXS_TYPE_CONTENTTYPE(typeDef) = NULL;
} else if (WXS_MODELGROUPDEF_MODEL(groupDef) == NULL)
/* Remove the particle. */
WXS_TYPE_CONTENTTYPE(typeDef) = NULL;
else {
/*
* Assign the MG definition's {model group} to the
* particle's {term}.
*/
WXS_TYPE_PARTICLE_TERM(typeDef) = WXS_MODELGROUPDEF_MODEL(groupDef);
if (WXS_MODELGROUPDEF_MODEL(groupDef)->type == XML_SCHEMA_TYPE_ALL) {
/*
* SPEC cos-all-limited (1.2)
* "1.2 the {term} property of a particle with
* {max occurs}=1 which is part of a pair which constitutes
* the {content type} of a complex type definition."
*/
if ((WXS_TYPE_PARTICLE(typeDef))->maxOccurs != 1) {
xmlSchemaCustomErr(ACTXT_CAST ctxt,
/* TODO: error code */
XML_SCHEMAP_COS_ALL_LIMITED,
WXS_ITEM_NODE(WXS_TYPE_PARTICLE(typeDef)), NULL,
"The particle's {max occurs} must be 1, since the "
"reference resolves to an 'all' model group",
NULL, NULL);
}
}
}
}
}
/**
* xmlSchemaCheckSTPropsCorrect:
* @ctxt: the schema parser context
* @type: the simple type definition
*
* Checks st-props-correct.
*
* Returns 0 if the properties are correct,
* if not, a positive error code and -1 on internal
* errors.
*/
static int
xmlSchemaCheckSTPropsCorrect(xmlSchemaParserCtxtPtr ctxt,
xmlSchemaTypePtr type)
{
xmlSchemaTypePtr baseType = type->baseType;
xmlChar *str = NULL;
/* STATE: error funcs converted. */
/*
* Schema Component Constraint: Simple Type Definition Properties Correct
*
* NOTE: This is somehow redundant, since we actually built a simple type
* to have all the needed information; this acts as an self test.
*/
/* Base type: If the datatype has been `derived` by `restriction`
* then the Simple Type Definition component from which it is `derived`,
* otherwise the Simple Type Definition for anySimpleType ($4.1.6).
*/
if (baseType == NULL) {
/*
* TODO: Think about: "modulo the impact of Missing
* Sub-components ($5.3)."
*/
xmlSchemaPCustomErr(ctxt,
XML_SCHEMAP_ST_PROPS_CORRECT_1,
WXS_BASIC_CAST type, NULL,
"No base type existent", NULL);
return (XML_SCHEMAP_ST_PROPS_CORRECT_1);
}
if (! WXS_IS_SIMPLE(baseType)) {
xmlSchemaPCustomErr(ctxt,
XML_SCHEMAP_ST_PROPS_CORRECT_1,
WXS_BASIC_CAST type, NULL,
"The base type '%s' is not a simple type",
xmlSchemaGetComponentQName(&str, baseType));
FREE_AND_NULL(str)
return (XML_SCHEMAP_ST_PROPS_CORRECT_1);
}
if ((WXS_IS_LIST(type) || WXS_IS_UNION(type)) &&
(WXS_IS_RESTRICTION(type) == 0) &&
((! WXS_IS_ANY_SIMPLE_TYPE(baseType)) &&
(baseType->type != XML_SCHEMA_TYPE_SIMPLE))) {
xmlSchemaPCustomErr(ctxt,
XML_SCHEMAP_ST_PROPS_CORRECT_1,
WXS_BASIC_CAST type, NULL,
"A type, derived by list or union, must have "
"the simple ur-type definition as base type, not '%s'",
xmlSchemaGetComponentQName(&str, baseType));
FREE_AND_NULL(str)
return (XML_SCHEMAP_ST_PROPS_CORRECT_1);
}
/*
* Variety: One of {atomic, list, union}.
*/
if ((! WXS_IS_ATOMIC(type)) && (! WXS_IS_UNION(type)) &&
(! WXS_IS_LIST(type))) {
xmlSchemaPCustomErr(ctxt,
XML_SCHEMAP_ST_PROPS_CORRECT_1,
WXS_BASIC_CAST type, NULL,
"The variety is absent", NULL);
return (XML_SCHEMAP_ST_PROPS_CORRECT_1);
}
/* TODO: Finish this. Hmm, is this finished? */
/*
* 3 The {final} of the {base type definition} must not contain restriction.
*/
if (xmlSchemaTypeFinalContains(baseType,
XML_SCHEMAS_TYPE_FINAL_RESTRICTION)) {
xmlSchemaPCustomErr(ctxt,
XML_SCHEMAP_ST_PROPS_CORRECT_3,
WXS_BASIC_CAST type, NULL,
"The 'final' of its base type '%s' must not contain "
"'restriction'",
xmlSchemaGetComponentQName(&str, baseType));
FREE_AND_NULL(str)
return (XML_SCHEMAP_ST_PROPS_CORRECT_3);
}
/*
* 2 All simple type definitions must be derived ultimately from the `simple
* ur-type definition` (so circular definitions are disallowed). That is, it
* must be possible to reach a built-in primitive datatype or the `simple
* ur-type definition` by repeatedly following the {base type definition}.
*
* NOTE: this is done in xmlSchemaCheckTypeDefCircular().
*/
return (0);
}
/**
* xmlSchemaCheckCOSSTRestricts:
* @ctxt: the schema parser context
* @type: the simple type definition
*
* Schema Component Constraint:
* Derivation Valid (Restriction, Simple) (cos-st-restricts)
* Checks if the given @type (simpleType) is derived validly by restriction.
* STATUS:
*
* Returns -1 on internal errors, 0 if the type is validly derived,
* a positive error code otherwise.
*/
static int
xmlSchemaCheckCOSSTRestricts(xmlSchemaParserCtxtPtr pctxt,
xmlSchemaTypePtr type)
{
xmlChar *str = NULL;
if (type->type != XML_SCHEMA_TYPE_SIMPLE) {
PERROR_INT("xmlSchemaCheckCOSSTRestricts",
"given type is not a user-derived simpleType");
return (-1);
}
if (WXS_IS_ATOMIC(type)) {
xmlSchemaTypePtr primitive;
/*
* 1.1 The {base type definition} must be an atomic simple
* type definition or a built-in primitive datatype.
*/
if (! WXS_IS_ATOMIC(type->baseType)) {
xmlSchemaPCustomErr(pctxt,
XML_SCHEMAP_COS_ST_RESTRICTS_1_1,
WXS_BASIC_CAST type, NULL,
"The base type '%s' is not an atomic simple type",
xmlSchemaGetComponentQName(&str, type->baseType));
FREE_AND_NULL(str)
return (XML_SCHEMAP_COS_ST_RESTRICTS_1_1);
}
/* 1.2 The {final} of the {base type definition} must not contain
* restriction.
*/
/* OPTIMIZE TODO : This is already done in xmlSchemaCheckStPropsCorrect */
if (xmlSchemaTypeFinalContains(type->baseType,
XML_SCHEMAS_TYPE_FINAL_RESTRICTION)) {
xmlSchemaPCustomErr(pctxt,
XML_SCHEMAP_COS_ST_RESTRICTS_1_2,
WXS_BASIC_CAST type, NULL,
"The final of its base type '%s' must not contain 'restriction'",
xmlSchemaGetComponentQName(&str, type->baseType));
FREE_AND_NULL(str)
return (XML_SCHEMAP_COS_ST_RESTRICTS_1_2);
}
/*
* 1.3.1 DF must be an allowed constraining facet for the {primitive
* type definition}, as specified in the appropriate subsection of 3.2
* Primitive datatypes.
*/
if (type->facets != NULL) {
xmlSchemaFacetPtr facet;
int ok = 1;
primitive = xmlSchemaGetPrimitiveType(type);
if (primitive == NULL) {
PERROR_INT("xmlSchemaCheckCOSSTRestricts",
"failed to get primitive type");
return (-1);
}
facet = type->facets;
do {
if (xmlSchemaIsBuiltInTypeFacet(primitive, facet->type) == 0) {
ok = 0;
xmlSchemaPIllegalFacetAtomicErr(pctxt,
XML_SCHEMAP_COS_ST_RESTRICTS_1_3_1,
type, primitive, facet);
}
facet = facet->next;
} while (facet != NULL);
if (ok == 0)
return (XML_SCHEMAP_COS_ST_RESTRICTS_1_3_1);
}
/*
* SPEC (1.3.2) "If there is a facet of the same kind in the {facets}
* of the {base type definition} (call this BF),then the DF's {value}
* must be a valid restriction of BF's {value} as defined in
* [XML Schemas: Datatypes]."
*
* NOTE (1.3.2) Facet derivation constraints are currently handled in
* xmlSchemaDeriveAndValidateFacets()
*/
} else if (WXS_IS_LIST(type)) {
xmlSchemaTypePtr itemType = NULL;
itemType = type->subtypes;
if ((itemType == NULL) || (! WXS_IS_SIMPLE(itemType))) {
PERROR_INT("xmlSchemaCheckCOSSTRestricts",
"failed to evaluate the item type");
return (-1);
}
if (WXS_IS_TYPE_NOT_FIXED(itemType))
xmlSchemaTypeFixup(itemType, ACTXT_CAST pctxt);
/*
* 2.1 The {item type definition} must have a {variety} of atomic or
* union (in which case all the {member type definitions}
* must be atomic).
*/
if ((! WXS_IS_ATOMIC(itemType)) &&
(! WXS_IS_UNION(itemType))) {
xmlSchemaPCustomErr(pctxt,
XML_SCHEMAP_COS_ST_RESTRICTS_2_1,
WXS_BASIC_CAST type, NULL,
"The item type '%s' does not have a variety of atomic or union",
xmlSchemaGetComponentQName(&str, itemType));
FREE_AND_NULL(str)
return (XML_SCHEMAP_COS_ST_RESTRICTS_2_1);
} else if (WXS_IS_UNION(itemType)) {
xmlSchemaTypeLinkPtr member;
member = itemType->memberTypes;
while (member != NULL) {
if (! WXS_IS_ATOMIC(member->type)) {
xmlSchemaPCustomErr(pctxt,
XML_SCHEMAP_COS_ST_RESTRICTS_2_1,
WXS_BASIC_CAST type, NULL,
"The item type is a union type, but the "
"member type '%s' of this item type is not atomic",
xmlSchemaGetComponentQName(&str, member->type));
FREE_AND_NULL(str)
return (XML_SCHEMAP_COS_ST_RESTRICTS_2_1);
}
member = member->next;
}
}
if (WXS_IS_ANY_SIMPLE_TYPE(type->baseType)) {
xmlSchemaFacetPtr facet;
/*
* This is the case if we have: <simpleType><list ..
*/
/*
* 2.3.1
* 2.3.1.1 The {final} of the {item type definition} must not
* contain list.
*/
if (xmlSchemaTypeFinalContains(itemType,
XML_SCHEMAS_TYPE_FINAL_LIST)) {
xmlSchemaPCustomErr(pctxt,
XML_SCHEMAP_COS_ST_RESTRICTS_2_3_1_1,
WXS_BASIC_CAST type, NULL,
"The final of its item type '%s' must not contain 'list'",
xmlSchemaGetComponentQName(&str, itemType));
FREE_AND_NULL(str)
return (XML_SCHEMAP_COS_ST_RESTRICTS_2_3_1_1);
}
/*
* 2.3.1.2 The {facets} must only contain the whiteSpace
* facet component.
* OPTIMIZE TODO: the S4S already disallows any facet
* to be specified.
*/
if (type->facets != NULL) {
facet = type->facets;
do {
if (facet->type != XML_SCHEMA_FACET_WHITESPACE) {
xmlSchemaPIllegalFacetListUnionErr(pctxt,
XML_SCHEMAP_COS_ST_RESTRICTS_2_3_1_2,
type, facet);
return (XML_SCHEMAP_COS_ST_RESTRICTS_2_3_1_2);
}
facet = facet->next;
} while (facet != NULL);
}
/*
* MAYBE TODO: (Hmm, not really) Datatypes states:
* A `list` datatype can be `derived` from an `atomic` datatype
* whose `lexical space` allows space (such as string or anyURI)or
* a `union` datatype any of whose {member type definitions}'s
* `lexical space` allows space.
*/
} else {
/*
* This is the case if we have: <simpleType><restriction ...
* I.e. the variety of "list" is inherited.
*/
/*
* 2.3.2
* 2.3.2.1 The {base type definition} must have a {variety} of list.
*/
if (! WXS_IS_LIST(type->baseType)) {
xmlSchemaPCustomErr(pctxt,
XML_SCHEMAP_COS_ST_RESTRICTS_2_3_2_1,
WXS_BASIC_CAST type, NULL,
"The base type '%s' must be a list type",
xmlSchemaGetComponentQName(&str, type->baseType));
FREE_AND_NULL(str)
return (XML_SCHEMAP_COS_ST_RESTRICTS_2_3_2_1);
}
/*
* 2.3.2.2 The {final} of the {base type definition} must not
* contain restriction.
*/
if (xmlSchemaTypeFinalContains(type->baseType,
XML_SCHEMAS_TYPE_FINAL_RESTRICTION)) {
xmlSchemaPCustomErr(pctxt,
XML_SCHEMAP_COS_ST_RESTRICTS_2_3_2_2,
WXS_BASIC_CAST type, NULL,
"The 'final' of the base type '%s' must not contain 'restriction'",
xmlSchemaGetComponentQName(&str, type->baseType));
FREE_AND_NULL(str)
return (XML_SCHEMAP_COS_ST_RESTRICTS_2_3_2_2);
}
/*
* 2.3.2.3 The {item type definition} must be validly derived
* from the {base type definition}'s {item type definition} given
* the empty set, as defined in Type Derivation OK (Simple) ($3.14.6).
*/
{
xmlSchemaTypePtr baseItemType;
baseItemType = type->baseType->subtypes;
if ((baseItemType == NULL) || (! WXS_IS_SIMPLE(baseItemType))) {
PERROR_INT("xmlSchemaCheckCOSSTRestricts",
"failed to eval the item type of a base type");
return (-1);
}
if ((itemType != baseItemType) &&
(xmlSchemaCheckCOSSTDerivedOK(ACTXT_CAST pctxt, itemType,
baseItemType, 0) != 0)) {
xmlChar *strBIT = NULL, *strBT = NULL;
xmlSchemaPCustomErrExt(pctxt,
XML_SCHEMAP_COS_ST_RESTRICTS_2_3_2_3,
WXS_BASIC_CAST type, NULL,
"The item type '%s' is not validly derived from "
"the item type '%s' of the base type '%s'",
xmlSchemaGetComponentQName(&str, itemType),
xmlSchemaGetComponentQName(&strBIT, baseItemType),
xmlSchemaGetComponentQName(&strBT, type->baseType));
FREE_AND_NULL(str)
FREE_AND_NULL(strBIT)
FREE_AND_NULL(strBT)
return (XML_SCHEMAP_COS_ST_RESTRICTS_2_3_2_3);
}
}
if (type->facets != NULL) {
xmlSchemaFacetPtr facet;
int ok = 1;
/*
* 2.3.2.4 Only length, minLength, maxLength, whiteSpace, pattern
* and enumeration facet components are allowed among the {facets}.
*/
facet = type->facets;
do {
switch (facet->type) {
case XML_SCHEMA_FACET_LENGTH:
case XML_SCHEMA_FACET_MINLENGTH:
case XML_SCHEMA_FACET_MAXLENGTH:
case XML_SCHEMA_FACET_WHITESPACE:
/*
* TODO: 2.5.1.2 List datatypes
* The value of `whiteSpace` is fixed to the value collapse.
*/
case XML_SCHEMA_FACET_PATTERN:
case XML_SCHEMA_FACET_ENUMERATION:
break;
default: {
xmlSchemaPIllegalFacetListUnionErr(pctxt,
XML_SCHEMAP_COS_ST_RESTRICTS_2_3_2_4,
type, facet);
/*
* We could return, but it's nicer to report all
* invalid facets.
*/
ok = 0;
}
}
facet = facet->next;
} while (facet != NULL);
if (ok == 0)
return (XML_SCHEMAP_COS_ST_RESTRICTS_2_3_2_4);
/*
* SPEC (2.3.2.5) (same as 1.3.2)
*
* NOTE (2.3.2.5) This is currently done in
* xmlSchemaDeriveAndValidateFacets()
*/
}
}
} else if (WXS_IS_UNION(type)) {
/*
* 3.1 The {member type definitions} must all have {variety} of
* atomic or list.
*/
xmlSchemaTypeLinkPtr member;
member = type->memberTypes;
while (member != NULL) {
if (WXS_IS_TYPE_NOT_FIXED(member->type))
xmlSchemaTypeFixup(member->type, ACTXT_CAST pctxt);
if ((! WXS_IS_ATOMIC(member->type)) &&
(! WXS_IS_LIST(member->type))) {
xmlSchemaPCustomErr(pctxt,
XML_SCHEMAP_COS_ST_RESTRICTS_3_1,
WXS_BASIC_CAST type, NULL,
"The member type '%s' is neither an atomic, nor a list type",
xmlSchemaGetComponentQName(&str, member->type));
FREE_AND_NULL(str)
return (XML_SCHEMAP_COS_ST_RESTRICTS_3_1);
}
member = member->next;
}
/*
* 3.3.1 If the {base type definition} is the `simple ur-type
* definition`
*/
if (type->baseType->builtInType == XML_SCHEMAS_ANYSIMPLETYPE) {
/*
* 3.3.1.1 All of the {member type definitions} must have a
* {final} which does not contain union.
*/
member = type->memberTypes;
while (member != NULL) {
if (xmlSchemaTypeFinalContains(member->type,
XML_SCHEMAS_TYPE_FINAL_UNION)) {
xmlSchemaPCustomErr(pctxt,
XML_SCHEMAP_COS_ST_RESTRICTS_3_3_1,
WXS_BASIC_CAST type, NULL,
"The 'final' of member type '%s' contains 'union'",
xmlSchemaGetComponentQName(&str, member->type));
FREE_AND_NULL(str)
return (XML_SCHEMAP_COS_ST_RESTRICTS_3_3_1);
}
member = member->next;
}
/*
* 3.3.1.2 The {facets} must be empty.
*/
if (type->facetSet != NULL) {
xmlSchemaPCustomErr(pctxt,
XML_SCHEMAP_COS_ST_RESTRICTS_3_3_1_2,
WXS_BASIC_CAST type, NULL,
"No facets allowed", NULL);
return (XML_SCHEMAP_COS_ST_RESTRICTS_3_3_1_2);
}
} else {
/*
* 3.3.2.1 The {base type definition} must have a {variety} of union.
* I.e. the variety of "list" is inherited.
*/
if (! WXS_IS_UNION(type->baseType)) {
xmlSchemaPCustomErr(pctxt,
XML_SCHEMAP_COS_ST_RESTRICTS_3_3_2_1,
WXS_BASIC_CAST type, NULL,
"The base type '%s' is not a union type",
xmlSchemaGetComponentQName(&str, type->baseType));
FREE_AND_NULL(str)
return (XML_SCHEMAP_COS_ST_RESTRICTS_3_3_2_1);
}
/*
* 3.3.2.2 The {final} of the {base type definition} must not contain restriction.
*/
if (xmlSchemaTypeFinalContains(type->baseType,
XML_SCHEMAS_TYPE_FINAL_RESTRICTION)) {
xmlSchemaPCustomErr(pctxt,
XML_SCHEMAP_COS_ST_RESTRICTS_3_3_2_2,
WXS_BASIC_CAST type, NULL,
"The 'final' of its base type '%s' must not contain 'restriction'",
xmlSchemaGetComponentQName(&str, type->baseType));
FREE_AND_NULL(str)
return (XML_SCHEMAP_COS_ST_RESTRICTS_3_3_2_2);
}
/*
* 3.3.2.3 The {member type definitions}, in order, must be validly
* derived from the corresponding type definitions in the {base
* type definition}'s {member type definitions} given the empty set,
* as defined in Type Derivation OK (Simple) ($3.14.6).
*/
{
xmlSchemaTypeLinkPtr baseMember;
/*
* OPTIMIZE: if the type is restricting, it has no local defined
* member types and inherits the member types of the base type;
* thus a check for equality can be skipped.
*/
/*
* Even worse: I cannot see a scenario where a restricting
* union simple type can have other member types as the member
* types of it's base type. This check seems not necessary with
* respect to the derivation process in libxml2.
* But necessary if constructing types with an API.
*/
if (type->memberTypes != NULL) {
member = type->memberTypes;
baseMember = xmlSchemaGetUnionSimpleTypeMemberTypes(type->baseType);
if ((member == NULL) && (baseMember != NULL)) {
PERROR_INT("xmlSchemaCheckCOSSTRestricts",
"different number of member types in base");
}
while (member != NULL) {
if (baseMember == NULL) {
PERROR_INT("xmlSchemaCheckCOSSTRestricts",