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// © 2016 and later: Unicode, Inc. and others.
// License & terms of use: http://www.unicode.org/copyright.html
/*
***************************************************************************
* Copyright (C) 2008-2015, International Business Machines Corporation
* and others. All Rights Reserved.
***************************************************************************
* file name: uspoof.cpp
* encoding: UTF-8
* tab size: 8 (not used)
* indentation:4
*
* created on: 2008Feb13
* created by: Andy Heninger
*
* Unicode Spoof Detection
*/
#if defined(STARBOARD)
#include "starboard/client_porting/poem/assert_poem.h"
#include "starboard/client_porting/poem/string_poem.h"
#endif // defined(STARBOARD)
#include "unicode/utypes.h"
#include "unicode/normalizer2.h"
#include "unicode/uspoof.h"
#include "unicode/ustring.h"
#include "unicode/utf16.h"
#include "cmemory.h"
#include "cstring.h"
#include "mutex.h"
#include "scriptset.h"
#include "uassert.h"
#include "ucln_in.h"
#include "uspoof_impl.h"
#include "umutex.h"
#if !UCONFIG_NO_NORMALIZATION
U_NAMESPACE_USE
//
// Static Objects used by the spoof impl, their thread safe initialization and their cleanup.
//
static UnicodeSet *gInclusionSet = NULL;
static UnicodeSet *gRecommendedSet = NULL;
static const Normalizer2 *gNfdNormalizer = NULL;
static UInitOnce gSpoofInitStaticsOnce = U_INITONCE_INITIALIZER;
namespace {
UBool U_CALLCONV
uspoof_cleanup(void) {
delete gInclusionSet;
gInclusionSet = NULL;
delete gRecommendedSet;
gRecommendedSet = NULL;
gNfdNormalizer = NULL;
gSpoofInitStaticsOnce.reset();
return TRUE;
}
void U_CALLCONV initializeStatics(UErrorCode &status) {
static const char16_t *inclusionPat =
u"['\\-.\\:\\u00B7\\u0375\\u058A\\u05F3\\u05F4\\u06FD\\u06FE\\u0F0B\\u200C"
u"\\u200D\\u2010\\u2019\\u2027\\u30A0\\u30FB]";
gInclusionSet = new UnicodeSet(UnicodeString(inclusionPat), status);
if (gInclusionSet == NULL) {
status = U_MEMORY_ALLOCATION_ERROR;
return;
}
gInclusionSet->freeze();
// Note: data from IdentifierStatus.txt & IdentifierType.txt
// There is tooling to generate this constant in the unicodetools project:
// org.unicode.text.tools.RecommendedSetGenerator
// It will print the Java and C++ code to the console for easy copy-paste into this file.
static const char16_t *recommendedPat =
u"[0-9A-Z_a-z\\u00C0-\\u00D6\\u00D8-\\u00F6\\u00F8-\\u0131\\u0134-\\u013E"
u"\\u0141-\\u0148\\u014A-\\u017E\\u018F\\u01A0\\u01A1\\u01AF\\u01B0\\u01CD-"
u"\\u01DC\\u01DE-\\u01E3\\u01E6-\\u01F0\\u01F4\\u01F5\\u01F8-\\u021B\\u021E"
u"\\u021F\\u0226-\\u0233\\u0259\\u02BB\\u02BC\\u02EC\\u0300-\\u0304\\u0306-"
u"\\u030C\\u030F-\\u0311\\u0313\\u0314\\u031B\\u0323-\\u0328\\u032D\\u032E"
u"\\u0330\\u0331\\u0335\\u0338\\u0339\\u0342\\u0345\\u037B-\\u037D\\u0386"
u"\\u0388-\\u038A\\u038C\\u038E-\\u03A1\\u03A3-\\u03CE\\u03FC-\\u045F\\u048A-"
u"\\u04FF\\u0510-\\u0529\\u052E\\u052F\\u0531-\\u0556\\u0559\\u0561-\\u0586"
u"\\u05B4\\u05D0-\\u05EA\\u05EF-\\u05F2\\u0620-\\u063F\\u0641-\\u0655\\u0660-"
u"\\u0669\\u0670-\\u0672\\u0674\\u0679-\\u068D\\u068F-\\u06A0\\u06A2-\\u06D3"
u"\\u06D5\\u06E5\\u06E6\\u06EE-\\u06FC\\u06FF\\u0750-\\u07B1\\u08A0-\\u08AC"
u"\\u08B2\\u08B6-\\u08C7\\u0901-\\u094D\\u094F\\u0950\\u0956\\u0957\\u0960-"
u"\\u0963\\u0966-\\u096F\\u0971-\\u0977\\u0979-\\u097F\\u0981-\\u0983\\u0985-"
u"\\u098C\\u098F\\u0990\\u0993-\\u09A8\\u09AA-\\u09B0\\u09B2\\u09B6-\\u09B9"
u"\\u09BC-\\u09C4\\u09C7\\u09C8\\u09CB-\\u09CE\\u09D7\\u09E0-\\u09E3\\u09E6-"
u"\\u09F1\\u09FE\\u0A01-\\u0A03\\u0A05-\\u0A0A\\u0A0F\\u0A10\\u0A13-\\u0A28"
u"\\u0A2A-\\u0A30\\u0A32\\u0A35\\u0A38\\u0A39\\u0A3C\\u0A3E-\\u0A42\\u0A47"
u"\\u0A48\\u0A4B-\\u0A4D\\u0A5C\\u0A66-\\u0A74\\u0A81-\\u0A83\\u0A85-\\u0A8D"
u"\\u0A8F-\\u0A91\\u0A93-\\u0AA8\\u0AAA-\\u0AB0\\u0AB2\\u0AB3\\u0AB5-\\u0AB9"
u"\\u0ABC-\\u0AC5\\u0AC7-\\u0AC9\\u0ACB-\\u0ACD\\u0AD0\\u0AE0-\\u0AE3\\u0AE6-"
u"\\u0AEF\\u0AFA-\\u0AFF\\u0B01-\\u0B03\\u0B05-\\u0B0C\\u0B0F\\u0B10\\u0B13-"
u"\\u0B28\\u0B2A-\\u0B30\\u0B32\\u0B33\\u0B35-\\u0B39\\u0B3C-\\u0B43\\u0B47"
u"\\u0B48\\u0B4B-\\u0B4D\\u0B55-\\u0B57\\u0B5F-\\u0B61\\u0B66-\\u0B6F\\u0B71"
u"\\u0B82\\u0B83\\u0B85-\\u0B8A\\u0B8E-\\u0B90\\u0B92-\\u0B95\\u0B99\\u0B9A"
u"\\u0B9C\\u0B9E\\u0B9F\\u0BA3\\u0BA4\\u0BA8-\\u0BAA\\u0BAE-\\u0BB9\\u0BBE-"
u"\\u0BC2\\u0BC6-\\u0BC8\\u0BCA-\\u0BCD\\u0BD0\\u0BD7\\u0BE6-\\u0BEF\\u0C01-"
u"\\u0C0C\\u0C0E-\\u0C10\\u0C12-\\u0C28\\u0C2A-\\u0C33\\u0C35-\\u0C39\\u0C3D-"
u"\\u0C44\\u0C46-\\u0C48\\u0C4A-\\u0C4D\\u0C55\\u0C56\\u0C60\\u0C61\\u0C66-"
u"\\u0C6F\\u0C80\\u0C82\\u0C83\\u0C85-\\u0C8C\\u0C8E-\\u0C90\\u0C92-\\u0CA8"
u"\\u0CAA-\\u0CB3\\u0CB5-\\u0CB9\\u0CBC-\\u0CC4\\u0CC6-\\u0CC8\\u0CCA-\\u0CCD"
u"\\u0CD5\\u0CD6\\u0CE0-\\u0CE3\\u0CE6-\\u0CEF\\u0CF1\\u0CF2\\u0D00\\u0D02"
u"\\u0D03\\u0D05-\\u0D0C\\u0D0E-\\u0D10\\u0D12-\\u0D3A\\u0D3D-\\u0D43\\u0D46-"
u"\\u0D48\\u0D4A-\\u0D4E\\u0D54-\\u0D57\\u0D60\\u0D61\\u0D66-\\u0D6F\\u0D7A-"
u"\\u0D7F\\u0D82\\u0D83\\u0D85-\\u0D8E\\u0D91-\\u0D96\\u0D9A-\\u0DA5\\u0DA7-"
u"\\u0DB1\\u0DB3-\\u0DBB\\u0DBD\\u0DC0-\\u0DC6\\u0DCA\\u0DCF-\\u0DD4\\u0DD6"
u"\\u0DD8-\\u0DDE\\u0DF2\\u0E01-\\u0E32\\u0E34-\\u0E3A\\u0E40-\\u0E4E\\u0E50-"
u"\\u0E59\\u0E81\\u0E82\\u0E84\\u0E86-\\u0E8A\\u0E8C-\\u0EA3\\u0EA5\\u0EA7-"
u"\\u0EB2\\u0EB4-\\u0EBD\\u0EC0-\\u0EC4\\u0EC6\\u0EC8-\\u0ECD\\u0ED0-\\u0ED9"
u"\\u0EDE\\u0EDF\\u0F00\\u0F20-\\u0F29\\u0F35\\u0F37\\u0F3E-\\u0F42\\u0F44-"
u"\\u0F47\\u0F49-\\u0F4C\\u0F4E-\\u0F51\\u0F53-\\u0F56\\u0F58-\\u0F5B\\u0F5D-"
u"\\u0F68\\u0F6A-\\u0F6C\\u0F71\\u0F72\\u0F74\\u0F7A-\\u0F80\\u0F82-\\u0F84"
u"\\u0F86-\\u0F92\\u0F94-\\u0F97\\u0F99-\\u0F9C\\u0F9E-\\u0FA1\\u0FA3-\\u0FA6"
u"\\u0FA8-\\u0FAB\\u0FAD-\\u0FB8\\u0FBA-\\u0FBC\\u0FC6\\u1000-\\u1049\\u1050-"
u"\\u109D\\u10C7\\u10CD\\u10D0-\\u10F0\\u10F7-\\u10FA\\u10FD-\\u10FF\\u1200-"
u"\\u1248\\u124A-\\u124D\\u1250-\\u1256\\u1258\\u125A-\\u125D\\u1260-\\u1288"
u"\\u128A-\\u128D\\u1290-\\u12B0\\u12B2-\\u12B5\\u12B8-\\u12BE\\u12C0\\u12C2-"
u"\\u12C5\\u12C8-\\u12D6\\u12D8-\\u1310\\u1312-\\u1315\\u1318-\\u135A\\u135D-"
u"\\u135F\\u1380-\\u138F\\u1780-\\u17A2\\u17A5-\\u17A7\\u17A9-\\u17B3\\u17B6-"
u"\\u17CA\\u17D2\\u17D7\\u17DC\\u17E0-\\u17E9\\u1C90-\\u1CBA\\u1CBD-\\u1CBF"
u"\\u1E00-\\u1E99\\u1E9E\\u1EA0-\\u1EF9\\u1F00-\\u1F15\\u1F18-\\u1F1D\\u1F20-"
u"\\u1F45\\u1F48-\\u1F4D\\u1F50-\\u1F57\\u1F59\\u1F5B\\u1F5D\\u1F5F-\\u1F70"
u"\\u1F72\\u1F74\\u1F76\\u1F78\\u1F7A\\u1F7C\\u1F80-\\u1FB4\\u1FB6-\\u1FBA"
u"\\u1FBC\\u1FC2-\\u1FC4\\u1FC6-\\u1FC8\\u1FCA\\u1FCC\\u1FD0-\\u1FD2\\u1FD6-"
u"\\u1FDA\\u1FE0-\\u1FE2\\u1FE4-\\u1FEA\\u1FEC\\u1FF2-\\u1FF4\\u1FF6-\\u1FF8"
u"\\u1FFA\\u1FFC\\u2D27\\u2D2D\\u2D80-\\u2D96\\u2DA0-\\u2DA6\\u2DA8-\\u2DAE"
u"\\u2DB0-\\u2DB6\\u2DB8-\\u2DBE\\u2DC0-\\u2DC6\\u2DC8-\\u2DCE\\u2DD0-\\u2DD6"
u"\\u2DD8-\\u2DDE\\u3005-\\u3007\\u3041-\\u3096\\u3099\\u309A\\u309D\\u309E"
u"\\u30A1-\\u30FA\\u30FC-\\u30FE\\u3105-\\u312D\\u312F\\u31A0-\\u31BF\\u3400-"
u"\\u4DBF\\u4E00-\\u9FFC\\uA67F\\uA717-\\uA71F\\uA788\\uA78D\\uA792\\uA793"
u"\\uA7AA\\uA7AE\\uA7B8\\uA7B9\\uA7C2-\\uA7CA\\uA9E7-\\uA9FE\\uAA60-\\uAA76"
u"\\uAA7A-\\uAA7F\\uAB01-\\uAB06\\uAB09-\\uAB0E\\uAB11-\\uAB16\\uAB20-\\uAB26"
u"\\uAB28-\\uAB2E\\uAB66\\uAB67\\uAC00-\\uD7A3\\uFA0E\\uFA0F\\uFA11\\uFA13"
u"\\uFA14\\uFA1F\\uFA21\\uFA23\\uFA24\\uFA27-\\uFA29\\U00011301\\U00011303"
u"\\U0001133B\\U0001133C\\U00016FF0\\U00016FF1\\U0001B150-\\U0001B152"
u"\\U0001B164-\\U0001B167\\U00020000-\\U0002A6DD\\U0002A700-\\U0002B734"
u"\\U0002B740-\\U0002B81D\\U0002B820-\\U0002CEA1\\U0002CEB0-\\U0002EBE0"
u"\\U00030000-\\U0003134A]";
gRecommendedSet = new UnicodeSet(UnicodeString(recommendedPat), status);
if (gRecommendedSet == NULL) {
status = U_MEMORY_ALLOCATION_ERROR;
delete gInclusionSet;
return;
}
gRecommendedSet->freeze();
gNfdNormalizer = Normalizer2::getNFDInstance(status);
ucln_i18n_registerCleanup(UCLN_I18N_SPOOF, uspoof_cleanup);
}
} // namespace
U_CFUNC void uspoof_internalInitStatics(UErrorCode *status) {
umtx_initOnce(gSpoofInitStaticsOnce, &initializeStatics, *status);
}
U_CAPI USpoofChecker * U_EXPORT2
uspoof_open(UErrorCode *status) {
umtx_initOnce(gSpoofInitStaticsOnce, &initializeStatics, *status);
if (U_FAILURE(*status)) {
return NULL;
}
SpoofImpl *si = new SpoofImpl(*status);
if (si == NULL) {
*status = U_MEMORY_ALLOCATION_ERROR;
return NULL;
}
if (U_FAILURE(*status)) {
delete si;
return NULL;
}
return si->asUSpoofChecker();
}
U_CAPI USpoofChecker * U_EXPORT2
uspoof_openFromSerialized(const void *data, int32_t length, int32_t *pActualLength,
UErrorCode *status) {
if (U_FAILURE(*status)) {
return NULL;
}
if (data == NULL) {
*status = U_ILLEGAL_ARGUMENT_ERROR;
return NULL;
}
umtx_initOnce(gSpoofInitStaticsOnce, &initializeStatics, *status);
if (U_FAILURE(*status))
{
return NULL;
}
SpoofData *sd = new SpoofData(data, length, *status);
if (sd == NULL) {
*status = U_MEMORY_ALLOCATION_ERROR;
return NULL;
}
if (U_FAILURE(*status)) {
delete sd;
return NULL;
}
SpoofImpl *si = new SpoofImpl(sd, *status);
if (si == NULL) {
*status = U_MEMORY_ALLOCATION_ERROR;
delete sd; // explicit delete as the destructor for si won't be called.
return NULL;
}
if (U_FAILURE(*status)) {
delete si; // no delete for sd, as the si destructor will delete it.
return NULL;
}
if (pActualLength != NULL) {
*pActualLength = sd->size();
}
return si->asUSpoofChecker();
}
U_CAPI USpoofChecker * U_EXPORT2
uspoof_clone(const USpoofChecker *sc, UErrorCode *status) {
const SpoofImpl *src = SpoofImpl::validateThis(sc, *status);
if (src == NULL) {
return NULL;
}
SpoofImpl *result = new SpoofImpl(*src, *status); // copy constructor
if (result == NULL) {
*status = U_MEMORY_ALLOCATION_ERROR;
return NULL;
}
if (U_FAILURE(*status)) {
delete result;
result = NULL;
}
return result->asUSpoofChecker();
}
U_CAPI void U_EXPORT2
uspoof_close(USpoofChecker *sc) {
UErrorCode status = U_ZERO_ERROR;
SpoofImpl *This = SpoofImpl::validateThis(sc, status);
delete This;
}
U_CAPI void U_EXPORT2
uspoof_setChecks(USpoofChecker *sc, int32_t checks, UErrorCode *status) {
SpoofImpl *This = SpoofImpl::validateThis(sc, *status);
if (This == NULL) {
return;
}
// Verify that the requested checks are all ones (bits) that
// are acceptable, known values.
if (checks & ~(USPOOF_ALL_CHECKS | USPOOF_AUX_INFO)) {
*status = U_ILLEGAL_ARGUMENT_ERROR;
return;
}
This->fChecks = checks;
}
U_CAPI int32_t U_EXPORT2
uspoof_getChecks(const USpoofChecker *sc, UErrorCode *status) {
const SpoofImpl *This = SpoofImpl::validateThis(sc, *status);
if (This == NULL) {
return 0;
}
return This->fChecks;
}
U_CAPI void U_EXPORT2
uspoof_setRestrictionLevel(USpoofChecker *sc, URestrictionLevel restrictionLevel) {
UErrorCode status = U_ZERO_ERROR;
SpoofImpl *This = SpoofImpl::validateThis(sc, status);
if (This != NULL) {
This->fRestrictionLevel = restrictionLevel;
This->fChecks |= USPOOF_RESTRICTION_LEVEL;
}
}
U_CAPI URestrictionLevel U_EXPORT2
uspoof_getRestrictionLevel(const USpoofChecker *sc) {
UErrorCode status = U_ZERO_ERROR;
const SpoofImpl *This = SpoofImpl::validateThis(sc, status);
if (This == NULL) {
return USPOOF_UNRESTRICTIVE;
}
return This->fRestrictionLevel;
}
U_CAPI void U_EXPORT2
uspoof_setAllowedLocales(USpoofChecker *sc, const char *localesList, UErrorCode *status) {
SpoofImpl *This = SpoofImpl::validateThis(sc, *status);
if (This == NULL) {
return;
}
This->setAllowedLocales(localesList, *status);
}
U_CAPI const char * U_EXPORT2
uspoof_getAllowedLocales(USpoofChecker *sc, UErrorCode *status) {
SpoofImpl *This = SpoofImpl::validateThis(sc, *status);
if (This == NULL) {
return NULL;
}
return This->getAllowedLocales(*status);
}
U_CAPI const USet * U_EXPORT2
uspoof_getAllowedChars(const USpoofChecker *sc, UErrorCode *status) {
const UnicodeSet *result = uspoof_getAllowedUnicodeSet(sc, status);
return result->toUSet();
}
U_CAPI const UnicodeSet * U_EXPORT2
uspoof_getAllowedUnicodeSet(const USpoofChecker *sc, UErrorCode *status) {
const SpoofImpl *This = SpoofImpl::validateThis(sc, *status);
if (This == NULL) {
return NULL;
}
return This->fAllowedCharsSet;
}
U_CAPI void U_EXPORT2
uspoof_setAllowedChars(USpoofChecker *sc, const USet *chars, UErrorCode *status) {
const UnicodeSet *set = UnicodeSet::fromUSet(chars);
uspoof_setAllowedUnicodeSet(sc, set, status);
}
U_CAPI void U_EXPORT2
uspoof_setAllowedUnicodeSet(USpoofChecker *sc, const UnicodeSet *chars, UErrorCode *status) {
SpoofImpl *This = SpoofImpl::validateThis(sc, *status);
if (This == NULL) {
return;
}
if (chars->isBogus()) {
*status = U_ILLEGAL_ARGUMENT_ERROR;
return;
}
UnicodeSet *clonedSet = chars->clone();
if (clonedSet == NULL || clonedSet->isBogus()) {
*status = U_MEMORY_ALLOCATION_ERROR;
return;
}
clonedSet->freeze();
delete This->fAllowedCharsSet;
This->fAllowedCharsSet = clonedSet;
This->fChecks |= USPOOF_CHAR_LIMIT;
}
U_CAPI int32_t U_EXPORT2
uspoof_check(const USpoofChecker *sc,
const UChar *id, int32_t length,
int32_t *position,
UErrorCode *status) {
// Backwards compatibility:
if (position != NULL) {
*position = 0;
}
// Delegate to uspoof_check2
return uspoof_check2(sc, id, length, NULL, status);
}
U_CAPI int32_t U_EXPORT2
uspoof_check2(const USpoofChecker *sc,
const UChar* id, int32_t length,
USpoofCheckResult* checkResult,
UErrorCode *status) {
const SpoofImpl *This = SpoofImpl::validateThis(sc, *status);
if (This == NULL) {
return 0;
}
if (length < -1) {
*status = U_ILLEGAL_ARGUMENT_ERROR;
return 0;
}
UnicodeString idStr((length == -1), id, length); // Aliasing constructor.
int32_t result = uspoof_check2UnicodeString(sc, idStr, checkResult, status);
return result;
}
U_CAPI int32_t U_EXPORT2
uspoof_checkUTF8(const USpoofChecker *sc,
const char *id, int32_t length,
int32_t *position,
UErrorCode *status) {
// Backwards compatibility:
if (position != NULL) {
*position = 0;
}
// Delegate to uspoof_check2
return uspoof_check2UTF8(sc, id, length, NULL, status);
}
U_CAPI int32_t U_EXPORT2
uspoof_check2UTF8(const USpoofChecker *sc,
const char *id, int32_t length,
USpoofCheckResult* checkResult,
UErrorCode *status) {
if (U_FAILURE(*status)) {
return 0;
}
UnicodeString idStr = UnicodeString::fromUTF8(StringPiece(id, length>=0 ? length : static_cast<int32_t>(uprv_strlen(id))));
int32_t result = uspoof_check2UnicodeString(sc, idStr, checkResult, status);
return result;
}
U_CAPI int32_t U_EXPORT2
uspoof_areConfusable(const USpoofChecker *sc,
const UChar *id1, int32_t length1,
const UChar *id2, int32_t length2,
UErrorCode *status) {
SpoofImpl::validateThis(sc, *status);
if (U_FAILURE(*status)) {
return 0;
}
if (length1 < -1 || length2 < -1) {
*status = U_ILLEGAL_ARGUMENT_ERROR;
return 0;
}
UnicodeString id1Str((length1==-1), id1, length1); // Aliasing constructor
UnicodeString id2Str((length2==-1), id2, length2); // Aliasing constructor
return uspoof_areConfusableUnicodeString(sc, id1Str, id2Str, status);
}
U_CAPI int32_t U_EXPORT2
uspoof_areConfusableUTF8(const USpoofChecker *sc,
const char *id1, int32_t length1,
const char *id2, int32_t length2,
UErrorCode *status) {
SpoofImpl::validateThis(sc, *status);
if (U_FAILURE(*status)) {
return 0;
}
if (length1 < -1 || length2 < -1) {
*status = U_ILLEGAL_ARGUMENT_ERROR;
return 0;
}
UnicodeString id1Str = UnicodeString::fromUTF8(StringPiece(id1, length1>=0? length1 : static_cast<int32_t>(uprv_strlen(id1))));
UnicodeString id2Str = UnicodeString::fromUTF8(StringPiece(id2, length2>=0? length2 : static_cast<int32_t>(uprv_strlen(id2))));
int32_t results = uspoof_areConfusableUnicodeString(sc, id1Str, id2Str, status);
return results;
}
U_CAPI int32_t U_EXPORT2
uspoof_areConfusableUnicodeString(const USpoofChecker *sc,
const icu::UnicodeString &id1,
const icu::UnicodeString &id2,
UErrorCode *status) {
const SpoofImpl *This = SpoofImpl::validateThis(sc, *status);
if (U_FAILURE(*status)) {
return 0;
}
//
// See section 4 of UAX 39 for the algorithm for checking whether two strings are confusable,
// and for definitions of the types (single, whole, mixed-script) of confusables.
// We only care about a few of the check flags. Ignore the others.
// If no tests relavant to this function have been specified, return an error.
// TODO: is this really the right thing to do? It's probably an error on the caller's part,
// but logically we would just return 0 (no error).
if ((This->fChecks & USPOOF_CONFUSABLE) == 0) {
*status = U_INVALID_STATE_ERROR;
return 0;
}
// Compute the skeletons and check for confusability.
UnicodeString id1Skeleton;
uspoof_getSkeletonUnicodeString(sc, 0 /* deprecated */, id1, id1Skeleton, status);
UnicodeString id2Skeleton;
uspoof_getSkeletonUnicodeString(sc, 0 /* deprecated */, id2, id2Skeleton, status);
if (U_FAILURE(*status)) { return 0; }
if (id1Skeleton != id2Skeleton) {
return 0;
}
// If we get here, the strings are confusable. Now we just need to set the flags for the appropriate classes
// of confusables according to UTS 39 section 4.
// Start by computing the resolved script sets of id1 and id2.
ScriptSet id1RSS;
This->getResolvedScriptSet(id1, id1RSS, *status);
ScriptSet id2RSS;
This->getResolvedScriptSet(id2, id2RSS, *status);
// Turn on all applicable flags
int32_t result = 0;
if (id1RSS.intersects(id2RSS)) {
result |= USPOOF_SINGLE_SCRIPT_CONFUSABLE;
} else {
result |= USPOOF_MIXED_SCRIPT_CONFUSABLE;
if (!id1RSS.isEmpty() && !id2RSS.isEmpty()) {
result |= USPOOF_WHOLE_SCRIPT_CONFUSABLE;
}
}
// Turn off flags that the user doesn't want
if ((This->fChecks & USPOOF_SINGLE_SCRIPT_CONFUSABLE) == 0) {
result &= ~USPOOF_SINGLE_SCRIPT_CONFUSABLE;
}
if ((This->fChecks & USPOOF_MIXED_SCRIPT_CONFUSABLE) == 0) {
result &= ~USPOOF_MIXED_SCRIPT_CONFUSABLE;
}
if ((This->fChecks & USPOOF_WHOLE_SCRIPT_CONFUSABLE) == 0) {
result &= ~USPOOF_WHOLE_SCRIPT_CONFUSABLE;
}
return result;
}
U_CAPI int32_t U_EXPORT2
uspoof_checkUnicodeString(const USpoofChecker *sc,
const icu::UnicodeString &id,
int32_t *position,
UErrorCode *status) {
// Backwards compatibility:
if (position != NULL) {
*position = 0;
}
// Delegate to uspoof_check2
return uspoof_check2UnicodeString(sc, id, NULL, status);
}
namespace {
int32_t checkImpl(const SpoofImpl* This, const UnicodeString& id, CheckResult* checkResult, UErrorCode* status) {
U_ASSERT(This != NULL);
U_ASSERT(checkResult != NULL);
checkResult->clear();
int32_t result = 0;
if (0 != (This->fChecks & USPOOF_RESTRICTION_LEVEL)) {
URestrictionLevel idRestrictionLevel = This->getRestrictionLevel(id, *status);
if (idRestrictionLevel > This->fRestrictionLevel) {
result |= USPOOF_RESTRICTION_LEVEL;
}
checkResult->fRestrictionLevel = idRestrictionLevel;
}
if (0 != (This->fChecks & USPOOF_MIXED_NUMBERS)) {
UnicodeSet numerics;
This->getNumerics(id, numerics, *status);
if (numerics.size() > 1) {
result |= USPOOF_MIXED_NUMBERS;
}
checkResult->fNumerics = numerics; // UnicodeSet::operator=
}
if (0 != (This->fChecks & USPOOF_HIDDEN_OVERLAY)) {
int32_t index = This->findHiddenOverlay(id, *status);
if (index != -1) {
result |= USPOOF_HIDDEN_OVERLAY;
}
}
if (0 != (This->fChecks & USPOOF_CHAR_LIMIT)) {
int32_t i;
UChar32 c;
int32_t length = id.length();
for (i=0; i<length ;) {
c = id.char32At(i);
i += U16_LENGTH(c);
if (!This->fAllowedCharsSet->contains(c)) {
result |= USPOOF_CHAR_LIMIT;
break;
}
}
}
if (0 != (This->fChecks & USPOOF_INVISIBLE)) {
// This check needs to be done on NFD input
UnicodeString nfdText;
gNfdNormalizer->normalize(id, nfdText, *status);
int32_t nfdLength = nfdText.length();
// scan for more than one occurence of the same non-spacing mark
// in a sequence of non-spacing marks.
int32_t i;
UChar32 c;
UChar32 firstNonspacingMark = 0;
UBool haveMultipleMarks = FALSE;
UnicodeSet marksSeenSoFar; // Set of combining marks in a single combining sequence.
for (i=0; i<nfdLength ;) {
c = nfdText.char32At(i);
i += U16_LENGTH(c);
if (u_charType(c) != U_NON_SPACING_MARK) {
firstNonspacingMark = 0;
if (haveMultipleMarks) {
marksSeenSoFar.clear();
haveMultipleMarks = FALSE;
}
continue;
}
if (firstNonspacingMark == 0) {
firstNonspacingMark = c;
continue;
}
if (!haveMultipleMarks) {
marksSeenSoFar.add(firstNonspacingMark);
haveMultipleMarks = TRUE;
}
if (marksSeenSoFar.contains(c)) {
// report the error, and stop scanning.
// No need to find more than the first failure.
result |= USPOOF_INVISIBLE;
break;
}
marksSeenSoFar.add(c);
}
}
checkResult->fChecks = result;
return checkResult->toCombinedBitmask(This->fChecks);
}
} // namespace
U_CAPI int32_t U_EXPORT2
uspoof_check2UnicodeString(const USpoofChecker *sc,
const icu::UnicodeString &id,
USpoofCheckResult* checkResult,
UErrorCode *status) {
const SpoofImpl *This = SpoofImpl::validateThis(sc, *status);
if (This == NULL) {
return FALSE;
}
if (checkResult != NULL) {
CheckResult* ThisCheckResult = CheckResult::validateThis(checkResult, *status);
if (ThisCheckResult == NULL) {
return FALSE;
}
return checkImpl(This, id, ThisCheckResult, status);
} else {
// Stack-allocate the checkResult since this method doesn't return it
CheckResult stackCheckResult;
return checkImpl(This, id, &stackCheckResult, status);
}
}
U_CAPI int32_t U_EXPORT2
uspoof_getSkeleton(const USpoofChecker *sc,
uint32_t type,
const UChar *id, int32_t length,
UChar *dest, int32_t destCapacity,
UErrorCode *status) {
SpoofImpl::validateThis(sc, *status);
if (U_FAILURE(*status)) {
return 0;
}
if (length<-1 || destCapacity<0 || (destCapacity==0 && dest!=NULL)) {
*status = U_ILLEGAL_ARGUMENT_ERROR;
return 0;
}
UnicodeString idStr((length==-1), id, length); // Aliasing constructor
UnicodeString destStr;
uspoof_getSkeletonUnicodeString(sc, type, idStr, destStr, status);
destStr.extract(dest, destCapacity, *status);
return destStr.length();
}
U_I18N_API UnicodeString & U_EXPORT2
uspoof_getSkeletonUnicodeString(const USpoofChecker *sc,
uint32_t /*type*/,
const UnicodeString &id,
UnicodeString &dest,
UErrorCode *status) {
const SpoofImpl *This = SpoofImpl::validateThis(sc, *status);
if (U_FAILURE(*status)) {
return dest;
}
UnicodeString nfdId;
gNfdNormalizer->normalize(id, nfdId, *status);
// Apply the skeleton mapping to the NFD normalized input string
// Accumulate the skeleton, possibly unnormalized, in a UnicodeString.
int32_t inputIndex = 0;
UnicodeString skelStr;
int32_t normalizedLen = nfdId.length();
for (inputIndex=0; inputIndex < normalizedLen; ) {
UChar32 c = nfdId.char32At(inputIndex);
inputIndex += U16_LENGTH(c);
This->fSpoofData->confusableLookup(c, skelStr);
}
gNfdNormalizer->normalize(skelStr, dest, *status);
return dest;
}
U_CAPI int32_t U_EXPORT2
uspoof_getSkeletonUTF8(const USpoofChecker *sc,
uint32_t type,
const char *id, int32_t length,
char *dest, int32_t destCapacity,
UErrorCode *status) {
SpoofImpl::validateThis(sc, *status);
if (U_FAILURE(*status)) {
return 0;
}
if (length<-1 || destCapacity<0 || (destCapacity==0 && dest!=NULL)) {
*status = U_ILLEGAL_ARGUMENT_ERROR;
return 0;
}
UnicodeString srcStr = UnicodeString::fromUTF8(StringPiece(id, length>=0 ? length : static_cast<int32_t>(uprv_strlen(id))));
UnicodeString destStr;
uspoof_getSkeletonUnicodeString(sc, type, srcStr, destStr, status);
if (U_FAILURE(*status)) {
return 0;
}
int32_t lengthInUTF8 = 0;
u_strToUTF8(dest, destCapacity, &lengthInUTF8,
destStr.getBuffer(), destStr.length(), status);
return lengthInUTF8;
}
U_CAPI int32_t U_EXPORT2
uspoof_serialize(USpoofChecker *sc,void *buf, int32_t capacity, UErrorCode *status) {
SpoofImpl *This = SpoofImpl::validateThis(sc, *status);
if (This == NULL) {
U_ASSERT(U_FAILURE(*status));
return 0;
}
return This->fSpoofData->serialize(buf, capacity, *status);
}
U_CAPI const USet * U_EXPORT2
uspoof_getInclusionSet(UErrorCode *status) {
umtx_initOnce(gSpoofInitStaticsOnce, &initializeStatics, *status);
return gInclusionSet->toUSet();
}
U_CAPI const USet * U_EXPORT2
uspoof_getRecommendedSet(UErrorCode *status) {
umtx_initOnce(gSpoofInitStaticsOnce, &initializeStatics, *status);
return gRecommendedSet->toUSet();
}
U_I18N_API const UnicodeSet * U_EXPORT2
uspoof_getInclusionUnicodeSet(UErrorCode *status) {
umtx_initOnce(gSpoofInitStaticsOnce, &initializeStatics, *status);
return gInclusionSet;
}
U_I18N_API const UnicodeSet * U_EXPORT2
uspoof_getRecommendedUnicodeSet(UErrorCode *status) {
umtx_initOnce(gSpoofInitStaticsOnce, &initializeStatics, *status);
return gRecommendedSet;
}
//------------------
// CheckResult APIs
//------------------
U_CAPI USpoofCheckResult* U_EXPORT2
uspoof_openCheckResult(UErrorCode *status) {
CheckResult* checkResult = new CheckResult();
if (checkResult == NULL) {
*status = U_MEMORY_ALLOCATION_ERROR;
return NULL;
}
return checkResult->asUSpoofCheckResult();
}
U_CAPI void U_EXPORT2
uspoof_closeCheckResult(USpoofCheckResult* checkResult) {
UErrorCode status = U_ZERO_ERROR;
CheckResult* This = CheckResult::validateThis(checkResult, status);
delete This;
}
U_CAPI int32_t U_EXPORT2
uspoof_getCheckResultChecks(const USpoofCheckResult *checkResult, UErrorCode *status) {
const CheckResult* This = CheckResult::validateThis(checkResult, *status);
if (U_FAILURE(*status)) { return 0; }
return This->fChecks;
}
U_CAPI URestrictionLevel U_EXPORT2
uspoof_getCheckResultRestrictionLevel(const USpoofCheckResult *checkResult, UErrorCode *status) {
const CheckResult* This = CheckResult::validateThis(checkResult, *status);
if (U_FAILURE(*status)) { return USPOOF_UNRESTRICTIVE; }
return This->fRestrictionLevel;
}
U_CAPI const USet* U_EXPORT2
uspoof_getCheckResultNumerics(const USpoofCheckResult *checkResult, UErrorCode *status) {
const CheckResult* This = CheckResult::validateThis(checkResult, *status);
if (U_FAILURE(*status)) { return NULL; }
return This->fNumerics.toUSet();
}
#endif // !UCONFIG_NO_NORMALIZATION