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cobalt / cobalt / 948d11203a7709abef9a72ec8977eab3cddf0fda / . / third_party / ots / src / ots.cc
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// Copyright (c) 2009-2017 The OTS Authors. All rights reserved.
// Use of this source code is governed by a BSD-style license that can be
// found in the LICENSE file.
#include "ots.h"
#include <sys/types.h>
#include <zlib.h>
#include <algorithm>
#include <cstdlib>
#include <cstring>
#include <limits>
#include <map>
#include <vector>
#include <woff2/decode.h>
#if !defined(STARBOARD)
#include <cstdio>
#define VSNPRINTF_OTS std::vsnprintf
#else
#include "starboard/client_porting/poem/stdio_poem.h"
#define VSNPRINTF_OTS vsnprintf
#endif
// The OpenType Font File
// http://www.microsoft.com/typography/otspec/otff.htm
#include "cff.h"
#include "cmap.h"
#include "cvt.h"
#include "fpgm.h"
#include "gasp.h"
#include "gdef.h"
#include "glyf.h"
#include "gpos.h"
#include "gsub.h"
#include "hdmx.h"
#include "head.h"
#include "hhea.h"
#include "hmtx.h"
#include "kern.h"
#include "loca.h"
#include "ltsh.h"
#include "math_.h"
#include "maxp.h"
#include "name.h"
#include "os2.h"
#include "ots.h"
#include "post.h"
#include "prep.h"
#include "vdmx.h"
#include "vhea.h"
#include "vmtx.h"
#include "vorg.h"
// Graphite tables
#ifdef OTS_GRAPHITE
#include "feat.h"
#include "glat.h"
#include "gloc.h"
#include "sile.h"
#include "silf.h"
#include "sill.h"
#endif
namespace ots {
struct Arena {
public:
~Arena() {
for (std::vector<uint8_t*>::iterator
i = hunks_.begin(); i != hunks_.end(); ++i) {
delete[] *i;
}
}
uint8_t* Allocate(size_t length) {
uint8_t* p = new uint8_t[length];
hunks_.push_back(p);
return p;
}
private:
std::vector<uint8_t*> hunks_;
};
}; // namespace ots
namespace {
#define OTS_MSG_TAG_(level,otf_,msg_,tag_) \
(OTS_MESSAGE_(level,otf_,"%c%c%c%c: %s", OTS_UNTAG(tag_), msg_), false)
// Generate a message with or without a table tag, when 'header' is the FontFile pointer
#define OTS_FAILURE_MSG_TAG(msg_,tag_) OTS_MSG_TAG_(0, header, msg_, tag_)
#define OTS_FAILURE_MSG_HDR(...) OTS_FAILURE_MSG_(header, __VA_ARGS__)
#define OTS_WARNING_MSG_HDR(...) OTS_WARNING_MSG_(header, __VA_ARGS__)
bool CheckTag(uint32_t tag_value) {
for (unsigned i = 0; i < 4; ++i) {
const uint32_t check = tag_value & 0xff;
if (check < 32 || check > 126) {
return false; // non-ASCII character found.
}
tag_value >>= 8;
}
return true;
}
const struct {
uint32_t tag;
bool required;
} supported_tables[] = {
{ OTS_TAG_MAXP, true },
{ OTS_TAG_HEAD, true },
{ OTS_TAG_OS2, true },
{ OTS_TAG_CMAP, true },
{ OTS_TAG_HHEA, true },
{ OTS_TAG_HMTX, true },
{ OTS_TAG_NAME, true },
{ OTS_TAG_POST, true },
{ OTS_TAG_LOCA, false },
{ OTS_TAG_GLYF, false },
{ OTS_TAG_CFF, false },
{ OTS_TAG_VDMX, false },
{ OTS_TAG_HDMX, false },
{ OTS_TAG_GASP, false },
{ OTS_TAG_CVT, false },
{ OTS_TAG_FPGM, false },
{ OTS_TAG_PREP, false },
{ OTS_TAG_LTSH, false },
{ OTS_TAG_VORG, false },
{ OTS_TAG_KERN, false },
// We need to parse GDEF table in advance of parsing GSUB/GPOS tables
// because they could refer GDEF table.
{ OTS_TAG_GDEF, false },
{ OTS_TAG_GPOS, false },
{ OTS_TAG_GSUB, false },
{ OTS_TAG_VHEA, false },
{ OTS_TAG_VMTX, false },
{ OTS_TAG_MATH, false },
// Graphite tables
#ifdef OTS_GRAPHITE
{ OTS_TAG_GLOC, false },
{ OTS_TAG_GLAT, false },
{ OTS_TAG_FEAT, false },
{ OTS_TAG_SILF, false },
{ OTS_TAG_SILE, false },
{ OTS_TAG_SILL, false },
#endif
{ 0, false },
};
bool ProcessGeneric(ots::FontFile *header,
ots::Font *font,
uint32_t signature,
ots::OTSStream *output,
const uint8_t *data, size_t length,
const std::vector<ots::TableEntry>& tables,
ots::Buffer& file);
bool ProcessTTF(ots::FontFile *header,
ots::Font *font,
ots::OTSStream *output, const uint8_t *data, size_t length,
uint32_t offset = 0) {
ots::Buffer file(data + offset, length - offset);
if (offset > length) {
return OTS_FAILURE_MSG_HDR("offset beyond end of file");
}
// we disallow all files > 1GB in size for sanity.
if (length > 1024 * 1024 * 1024) {
return OTS_FAILURE_MSG_HDR("file exceeds 1GB");
}
if (!file.ReadU32(&font->version)) {
return OTS_FAILURE_MSG_HDR("error reading version tag");
}
if (!ots::IsValidVersionTag(font->version)) {
return OTS_FAILURE_MSG_HDR("invalid version tag");
}
if (!file.ReadU16(&font->num_tables) ||
!file.ReadU16(&font->search_range) ||
!file.ReadU16(&font->entry_selector) ||
!file.ReadU16(&font->range_shift)) {
return OTS_FAILURE_MSG_HDR("error reading table directory search header");
}
// search_range is (Maximum power of 2 <= numTables) x 16. Thus, to avoid
// overflow num_tables is, at most, 2^16 / 16 = 2^12
if (font->num_tables >= 4096 || font->num_tables < 1) {
return OTS_FAILURE_MSG_HDR("excessive (or zero) number of tables");
}
unsigned max_pow2 = 0;
while (1u << (max_pow2 + 1) <= font->num_tables) {
max_pow2++;
}
const uint16_t expected_search_range = (1u << max_pow2) << 4;
// Don't call ots_failure() here since ~25% of fonts (250+ fonts) in
// http://www.princexml.com/fonts/ have unexpected search_range value.
if (font->search_range != expected_search_range) {
OTS_WARNING_MSG_HDR("bad search range");
font->search_range = expected_search_range; // Fix the value.
}
// entry_selector is Log2(maximum power of 2 <= numTables)
if (font->entry_selector != max_pow2) {
return OTS_FAILURE_MSG_HDR("incorrect entrySelector for table directory");
}
// range_shift is NumTables x 16-searchRange. We know that 16*num_tables
// doesn't over flow because we range checked it above. Also, we know that
// it's > font->search_range by construction of search_range.
const uint16_t expected_range_shift =
16 * font->num_tables - font->search_range;
if (font->range_shift != expected_range_shift) {
OTS_WARNING_MSG_HDR("bad range shift");
font->range_shift = expected_range_shift; // the same as above.
}
// Next up is the list of tables.
std::vector<ots::TableEntry> tables;
for (unsigned i = 0; i < font->num_tables; ++i) {
ots::TableEntry table;
if (!file.ReadU32(&table.tag) ||
!file.ReadU32(&table.chksum) ||
!file.ReadU32(&table.offset) ||
!file.ReadU32(&table.length)) {
return OTS_FAILURE_MSG_HDR("error reading table directory");
}
table.uncompressed_length = table.length;
tables.push_back(table);
}
return ProcessGeneric(header, font, font->version, output, data, length,
tables, file);
}
bool ProcessTTC(ots::FontFile *header,
ots::OTSStream *output,
const uint8_t *data,
size_t length,
uint32_t index) {
ots::Buffer file(data, length);
// we disallow all files > 1GB in size for sanity.
if (length > 1024 * 1024 * 1024) {
return OTS_FAILURE_MSG_HDR("file exceeds 1GB");
}
uint32_t ttc_tag;
if (!file.ReadU32(&ttc_tag)) {
return OTS_FAILURE_MSG_HDR("Error reading TTC tag");
}
if (ttc_tag != OTS_TAG('t','t','c','f')) {
return OTS_FAILURE_MSG_HDR("Invalid TTC tag");
}
uint32_t ttc_version;
if (!file.ReadU32(&ttc_version)) {
return OTS_FAILURE_MSG_HDR("Error reading TTC version");
}
if (ttc_version != 0x00010000 && ttc_version != 0x00020000) {
return OTS_FAILURE_MSG_HDR("Invalid TTC version");
}
uint32_t num_fonts;
if (!file.ReadU32(&num_fonts)) {
return OTS_FAILURE_MSG_HDR("Error reading number of TTC fonts");
}
// Limit the allowed number of subfonts to have same memory allocation.
if (num_fonts > 0x10000) {
return OTS_FAILURE_MSG_HDR("Too many fonts in TTC");
}
std::vector<uint32_t> offsets(num_fonts);
for (unsigned i = 0; i < num_fonts; i++) {
if (!file.ReadU32(&offsets[i])) {
return OTS_FAILURE_MSG_HDR("Error reading offset to OffsetTable");
}
}
if (ttc_version == 0x00020000) {
// We don't care about these fields of the header:
// uint32_t dsig_tag, dsig_length, dsig_offset
if (!file.Skip(3 * 4)) {
return OTS_FAILURE_MSG_HDR("Error reading DSIG offset and length in TTC font");
}
}
if (index == static_cast<uint32_t>(-1)) {
if (!output->WriteU32(ttc_tag) ||
!output->WriteU32(0x00010000) ||
!output->WriteU32(num_fonts) ||
!output->Seek((3 + num_fonts) * 4)) {
return OTS_FAILURE_MSG_HDR("Error writing output");
}
// Keep references to the fonts processed in the loop below, as we need
// them for reused tables.
std::vector<ots::Font> fonts(num_fonts, ots::Font(header));
for (unsigned i = 0; i < num_fonts; i++) {
uint32_t out_offset = output->Tell();
if (!output->Seek((3 + i) * 4) ||
!output->WriteU32(out_offset) ||
!output->Seek(out_offset)) {
return OTS_FAILURE_MSG_HDR("Error writing output");
}
if (!ProcessTTF(header, &fonts[i], output, data, length, offsets[i])) {
return false;
}
}
return true;
} else {
if (index >= num_fonts) {
return OTS_FAILURE_MSG_HDR("Requested font index is bigger than the number of fonts in the TTC file");
}
ots::Font font(header);
return ProcessTTF(header, &font, output, data, length, offsets[index]);
}
}
bool ProcessWOFF(ots::FontFile *header,
ots::Font *font,
ots::OTSStream *output, const uint8_t *data, size_t length) {
ots::Buffer file(data, length);
// we disallow all files > 1GB in size for sanity.
if (length > 1024 * 1024 * 1024) {
return OTS_FAILURE_MSG_HDR("file exceeds 1GB");
}
uint32_t woff_tag;
if (!file.ReadU32(&woff_tag)) {
return OTS_FAILURE_MSG_HDR("error reading WOFF marker");
}
if (woff_tag != OTS_TAG('w','O','F','F')) {
return OTS_FAILURE_MSG_HDR("invalid WOFF marker");
}
if (!file.ReadU32(&font->version)) {
return OTS_FAILURE_MSG_HDR("error reading version tag");
}
if (!ots::IsValidVersionTag(font->version)) {
return OTS_FAILURE_MSG_HDR("invalid version tag");
}
uint32_t reported_length;
if (!file.ReadU32(&reported_length) || length != reported_length) {
return OTS_FAILURE_MSG_HDR("incorrect file size in WOFF header");
}
if (!file.ReadU16(&font->num_tables) || !font->num_tables) {
return OTS_FAILURE_MSG_HDR("error reading number of tables");
}
uint16_t reserved_value;
if (!file.ReadU16(&reserved_value) || reserved_value) {
return OTS_FAILURE_MSG_HDR("error in reserved field of WOFF header");
}
uint32_t reported_total_sfnt_size;
if (!file.ReadU32(&reported_total_sfnt_size)) {
return OTS_FAILURE_MSG_HDR("error reading total sfnt size");
}
// We don't care about these fields of the header:
// uint16_t major_version, minor_version
if (!file.Skip(2 * 2)) {
return OTS_FAILURE_MSG_HDR("Failed to read 'majorVersion' or 'minorVersion'");
}
// Checks metadata block size.
uint32_t meta_offset;
uint32_t meta_length;
uint32_t meta_length_orig;
if (!file.ReadU32(&meta_offset) ||
!file.ReadU32(&meta_length) ||
!file.ReadU32(&meta_length_orig)) {
return OTS_FAILURE_MSG_HDR("Failed to read header metadata block fields");
}
if (meta_offset) {
if (meta_offset >= length || length - meta_offset < meta_length) {
return OTS_FAILURE_MSG_HDR("Invalid metadata block offset or length");
}
}
// Checks private data block size.
uint32_t priv_offset;
uint32_t priv_length;
if (!file.ReadU32(&priv_offset) ||
!file.ReadU32(&priv_length)) {
return OTS_FAILURE_MSG_HDR("Failed to read header private block fields");
}
if (priv_offset) {
if (priv_offset >= length || length - priv_offset < priv_length) {
return OTS_FAILURE_MSG_HDR("Invalid private block offset or length");
}
}
// Next up is the list of tables.
std::vector<ots::TableEntry> tables;
uint32_t first_index = 0;
uint32_t last_index = 0;
// Size of sfnt header plus size of table records.
uint64_t total_sfnt_size = 12 + 16 * font->num_tables;
for (unsigned i = 0; i < font->num_tables; ++i) {
ots::TableEntry table;
if (!file.ReadU32(&table.tag) ||
!file.ReadU32(&table.offset) ||
!file.ReadU32(&table.length) ||
!file.ReadU32(&table.uncompressed_length) ||
!file.ReadU32(&table.chksum)) {
return OTS_FAILURE_MSG_HDR("error reading table directory");
}
total_sfnt_size += ots::Round4(table.uncompressed_length);
if (total_sfnt_size > std::numeric_limits<uint32_t>::max()) {
return OTS_FAILURE_MSG_HDR("sfnt size overflow");
}
tables.push_back(table);
if (i == 0 || tables[first_index].offset > table.offset)
first_index = i;
if (i == 0 || tables[last_index].offset < table.offset)
last_index = i;
}
if (reported_total_sfnt_size != total_sfnt_size) {
return OTS_FAILURE_MSG_HDR("uncompressed sfnt size mismatch");
}
// Table data must follow immediately after the header.
if (tables[first_index].offset != ots::Round4(file.offset())) {
return OTS_FAILURE_MSG_HDR("junk before tables in WOFF file");
}
if (tables[last_index].offset >= length ||
length - tables[last_index].offset < tables[last_index].length) {
return OTS_FAILURE_MSG_HDR("invalid table location/size");
}
// Blocks must follow immediately after the previous block.
// (Except for padding with a maximum of three null bytes)
uint64_t block_end = ots::Round4(
static_cast<uint64_t>(tables[last_index].offset) +
static_cast<uint64_t>(tables[last_index].length));
if (block_end > std::numeric_limits<uint32_t>::max()) {
return OTS_FAILURE_MSG_HDR("invalid table location/size");
}
if (meta_offset) {
if (block_end != meta_offset) {
return OTS_FAILURE_MSG_HDR("Invalid metadata block offset");
}
block_end = ots::Round4(static_cast<uint64_t>(meta_offset) +
static_cast<uint64_t>(meta_length));
if (block_end > std::numeric_limits<uint32_t>::max()) {
return OTS_FAILURE_MSG_HDR("Invalid metadata block length");
}
}
if (priv_offset) {
if (block_end != priv_offset) {
return OTS_FAILURE_MSG_HDR("Invalid private block offset");
}
block_end = ots::Round4(static_cast<uint64_t>(priv_offset) +
static_cast<uint64_t>(priv_length));
if (block_end > std::numeric_limits<uint32_t>::max()) {
return OTS_FAILURE_MSG_HDR("Invalid private block length");
}
}
if (block_end != ots::Round4(length)) {
return OTS_FAILURE_MSG_HDR("File length mismatch (trailing junk?)");
}
return ProcessGeneric(header, font, woff_tag, output, data, length, tables, file);
}
bool ProcessWOFF2(ots::FontFile *header,
ots::OTSStream *output,
const uint8_t *data,
size_t length,
uint32_t index) {
size_t decompressed_size = woff2::ComputeWOFF2FinalSize(data, length);
if (decompressed_size < length) {
return OTS_FAILURE_MSG_HDR("Size of decompressed WOFF 2.0 is less than compressed size");
}
if (decompressed_size == 0) {
return OTS_FAILURE_MSG_HDR("Size of decompressed WOFF 2.0 is set to 0");
}
// decompressed font must be <= 30MB
if (decompressed_size > 30 * 1024 * 1024) {
return OTS_FAILURE_MSG_HDR("Size of decompressed WOFF 2.0 font exceeds 30MB");
}
std::string buf(decompressed_size, 0);
woff2::WOFF2StringOut out(&buf);
if (!woff2::ConvertWOFF2ToTTF(data, length, &out)) {
return OTS_FAILURE_MSG_HDR("Failed to convert WOFF 2.0 font to SFNT");
}
const uint8_t *decompressed = reinterpret_cast<const uint8_t*>(buf.data());
if (data[4] == 't' && data[5] == 't' && data[6] == 'c' && data[7] == 'f') {
return ProcessTTC(header, output, decompressed, out.Size(), index);
} else {
ots::Font font(header);
return ProcessTTF(header, &font, output, decompressed, out.Size());
}
}
ots::TableAction GetTableAction(const ots::FontFile *header, uint32_t tag) {
ots::TableAction action = header->context->GetTableAction(tag);
if (action == ots::TABLE_ACTION_DEFAULT) {
action = ots::TABLE_ACTION_DROP;
for (unsigned i = 0; ; ++i) {
if (supported_tables[i].tag == 0) break;
if (supported_tables[i].tag == tag) {
action = ots::TABLE_ACTION_SANITIZE;
break;
}
}
}
assert(action != ots::TABLE_ACTION_DEFAULT); // Should never return this.
return action;
}
bool GetTableData(const uint8_t *data,
const ots::TableEntry& table,
ots::Arena &arena,
size_t *table_length,
const uint8_t **table_data) {
if (table.uncompressed_length != table.length) {
// Compressed table. Need to uncompress into memory first.
*table_length = table.uncompressed_length;
*table_data = arena.Allocate(*table_length);
uLongf dest_len = *table_length;
int r = uncompress((Bytef*) *table_data, &dest_len,
data + table.offset, table.length);
if (r != Z_OK || dest_len != *table_length) {
return false;
}
} else {
// Uncompressed table. We can process directly from memory.
*table_data = data + table.offset;
*table_length = table.length;
}
return true;
}
bool ProcessGeneric(ots::FontFile *header,
ots::Font *font,
uint32_t signature,
ots::OTSStream *output,
const uint8_t *data, size_t length,
const std::vector<ots::TableEntry>& tables,
ots::Buffer& file) {
const size_t data_offset = file.offset();
uint32_t uncompressed_sum = 0;
for (unsigned i = 0; i < font->num_tables; ++i) {
// the tables must be sorted by tag (when taken as big-endian numbers).
// This also remove the possibility of duplicate tables.
if (i) {
const uint32_t this_tag = tables[i].tag;
const uint32_t prev_tag = tables[i - 1].tag;
if (this_tag <= prev_tag) {
OTS_WARNING_MSG_HDR("Table directory is not correctly ordered");
}
}
// all tag names must be built from printable ASCII characters
if (!CheckTag(tables[i].tag)) {
OTS_WARNING_MSG_HDR("Invalid table tag: 0x%X", tables[i].tag);
}
// tables must be 4-byte aligned
if (tables[i].offset & 3) {
return OTS_FAILURE_MSG_TAG("misaligned table", tables[i].tag);
}
// and must be within the file
if (tables[i].offset < data_offset || tables[i].offset >= length) {
return OTS_FAILURE_MSG_TAG("invalid table offset", tables[i].tag);
}
// disallow all tables with a zero length
if (tables[i].length < 1) {
// Note: malayalam.ttf has zero length CVT table...
return OTS_FAILURE_MSG_TAG("zero-length table", tables[i].tag);
}
// disallow all tables with a length > 1GB
if (tables[i].length > 1024 * 1024 * 1024) {
return OTS_FAILURE_MSG_TAG("table length exceeds 1GB", tables[i].tag);
}
// disallow tables where the uncompressed size is < the compressed size.
if (tables[i].uncompressed_length < tables[i].length) {
return OTS_FAILURE_MSG_TAG("invalid compressed table", tables[i].tag);
}
if (tables[i].uncompressed_length > tables[i].length) {
// We'll probably be decompressing this table.
// disallow all tables which uncompress to > 30 MB
if (tables[i].uncompressed_length > 30 * 1024 * 1024) {
return OTS_FAILURE_MSG_TAG("uncompressed length exceeds 30MB", tables[i].tag);
}
if (uncompressed_sum + tables[i].uncompressed_length < uncompressed_sum) {
return OTS_FAILURE_MSG_TAG("overflow of uncompressed sum", tables[i].tag);
}
uncompressed_sum += tables[i].uncompressed_length;
}
// since we required that the file be < 1GB in length, and that the table
// length is < 1GB, the following addtion doesn't overflow
uint32_t end_byte = tables[i].offset + tables[i].length;
// Tables in the WOFF file must be aligned 4-byte boundary.
if (signature == OTS_TAG('w','O','F','F')) {
end_byte = ots::Round4(end_byte);
}
if (!end_byte || end_byte > length) {
return OTS_FAILURE_MSG_TAG("table overruns end of file", tables[i].tag);
}
}
// All decompressed tables uncompressed must be <= 30MB.
if (uncompressed_sum > 30 * 1024 * 1024) {
return OTS_FAILURE_MSG_HDR("uncompressed sum exceeds 30MB");
}
// check that the tables are not overlapping.
std::vector<std::pair<uint32_t, uint8_t> > overlap_checker;
for (unsigned i = 0; i < font->num_tables; ++i) {
overlap_checker.push_back(
std::make_pair(tables[i].offset, static_cast<uint8_t>(1) /* start */));
overlap_checker.push_back(
std::make_pair(tables[i].offset + tables[i].length,
static_cast<uint8_t>(0) /* end */));
}
std::sort(overlap_checker.begin(), overlap_checker.end());
int overlap_count = 0;
for (unsigned i = 0; i < overlap_checker.size(); ++i) {
overlap_count += (overlap_checker[i].second ? 1 : -1);
if (overlap_count > 1) {
return OTS_FAILURE_MSG_HDR("overlapping tables");
}
}
std::map<uint32_t, ots::TableEntry> table_map;
for (unsigned i = 0; i < font->num_tables; ++i) {
table_map[tables[i].tag] = tables[i];
}
ots::Arena arena;
// Parse known tables first as we need to parse them in specific order.
for (unsigned i = 0; ; ++i) {
if (supported_tables[i].tag == 0) break;
uint32_t tag = supported_tables[i].tag;
const auto &it = table_map.find(tag);
if (it == table_map.cend()) {
if (supported_tables[i].required) {
return OTS_FAILURE_MSG_TAG("missing required table", tag);
}
} else {
if (!font->ParseTable(it->second, data, arena)) {
return OTS_FAILURE_MSG_TAG("Failed to parse table", tag);
}
}
}
// Then parse any tables left.
for (const auto &table_entry : tables) {
if (!font->GetTable(table_entry.tag)) {
if (!font->ParseTable(table_entry, data, arena)) {
return OTS_FAILURE_MSG_TAG("Failed to parse table", table_entry.tag);
}
}
}
if (font->GetTable(OTS_TAG_CFF) || font->GetTable(OTS_TAG('C', 'F', 'F', '2'))) {
// font with PostScript glyph
if (font->version != OTS_TAG('O','T','T','O')) {
return OTS_FAILURE_MSG_HDR("wrong font version for PostScript glyph data");
}
if (font->GetTable(OTS_TAG_GLYF) || font->GetTable(OTS_TAG_LOCA)) {
// mixing outline formats is not recommended
return OTS_FAILURE_MSG_HDR("font contains both PS and TT glyphs");
}
} else {
if (!font->GetTable(OTS_TAG_GLYF) || !font->GetTable(OTS_TAG_LOCA)) {
// No TrueType glyph found.
//
// We don't sanitize bitmap tables, but don’t reject bitmap-only fonts if
// we are asked to pass them thru.
// Also don’t reject if we are asked to pass glyf/loca thru.
if (!font->GetTable(OTS_TAG('C','B','D','T')) &&
!font->GetTable(OTS_TAG('C','B','L','C'))) {
return OTS_FAILURE_MSG_HDR("no supported glyph shapes table(s) present");
}
}
}
uint16_t num_output_tables = 0;
for (const auto &it : table_map) {
ots::Table *table = font->GetTable(it.first);
if (table != NULL && table->ShouldSerialize())
num_output_tables++;
}
uint16_t max_pow2 = 0;
while (1u << (max_pow2 + 1) <= num_output_tables) {
max_pow2++;
}
const uint16_t output_search_range = (1u << max_pow2) << 4;
// most of the errors here are highly unlikely - they'd only occur if the
// output stream returns a failure, e.g. lack of space to write
output->ResetChecksum();
if (!output->WriteU32(font->version) ||
!output->WriteU16(num_output_tables) ||
!output->WriteU16(output_search_range) ||
!output->WriteU16(max_pow2) ||
!output->WriteU16((num_output_tables << 4) - output_search_range)) {
return OTS_FAILURE_MSG_HDR("error writing output");
}
const uint32_t offset_table_chksum = output->chksum();
const size_t table_record_offset = output->Tell();
if (!output->Pad(16 * num_output_tables)) {
return OTS_FAILURE_MSG_HDR("error writing output");
}
std::vector<ots::TableEntry> out_tables;
size_t head_table_offset = 0;
for (const auto &it : table_map) {
uint32_t input_offset = it.second.offset;
const auto &ot = header->table_entries.find(input_offset);
if (ot != header->table_entries.end()) {
ots::TableEntry out = ot->second;
if (out.tag == OTS_TAG('h','e','a','d')) {
head_table_offset = out.offset;
}
out_tables.push_back(out);
} else {
ots::TableEntry out;
out.tag = it.first;
out.offset = output->Tell();
if (out.tag == OTS_TAG('h','e','a','d')) {
head_table_offset = out.offset;
}
ots::Table *table = font->GetTable(out.tag);
if (table != NULL && table->ShouldSerialize()) {
output->ResetChecksum();
if (!table->Serialize(output)) {
return OTS_FAILURE_MSG_TAG("Failed to serialize table", out.tag);
}
const size_t end_offset = output->Tell();
if (end_offset <= out.offset) {
// paranoid check. |end_offset| is supposed to be greater than the offset,
// as long as the Tell() interface is implemented correctly.
return OTS_FAILURE_MSG_TAG("Table is empty or have -ve size", out.tag);
}
out.length = end_offset - out.offset;
// align tables to four bytes
if (!output->Pad((4 - (end_offset & 3)) % 4)) {
return OTS_FAILURE_MSG_TAG("Failed to pad table to 4 bytes", out.tag);
}
out.chksum = output->chksum();
out_tables.push_back(out);
header->table_entries[input_offset] = out;
}
}
}
const size_t end_of_file = output->Tell();
// Need to sort the output tables for inclusion in the file
std::sort(out_tables.begin(), out_tables.end());
if (!output->Seek(table_record_offset)) {
return OTS_FAILURE_MSG_HDR("error writing output");
}
output->ResetChecksum();
uint32_t tables_chksum = 0;
for (unsigned i = 0; i < out_tables.size(); ++i) {
if (!output->WriteU32(out_tables[i].tag) ||
!output->WriteU32(out_tables[i].chksum) ||
!output->WriteU32(out_tables[i].offset) ||
!output->WriteU32(out_tables[i].length)) {
return OTS_FAILURE_MSG_HDR("error writing output");
}
tables_chksum += out_tables[i].chksum;
}
const uint32_t table_record_chksum = output->chksum();
// http://www.microsoft.com/typography/otspec/otff.htm
const uint32_t file_chksum
= offset_table_chksum + tables_chksum + table_record_chksum;
const uint32_t chksum_magic = static_cast<uint32_t>(0xb1b0afba) - file_chksum;
// seek into the 'head' table and write in the checksum magic value
if (!head_table_offset) {
return OTS_FAILURE_MSG_HDR("internal error!");
}
if (!output->Seek(head_table_offset + 8)) {
return OTS_FAILURE_MSG_HDR("error writing output");
}
if (!output->WriteU32(chksum_magic)) {
return OTS_FAILURE_MSG_HDR("error writing output");
}
if (!output->Seek(end_of_file)) {
return OTS_FAILURE_MSG_HDR("error writing output");
}
return true;
}
} // namespace
namespace ots {
FontFile::~FontFile() {
for (const auto& it : tables) {
delete it.second;
}
tables.clear();
}
bool Font::ParseTable(const TableEntry& table_entry, const uint8_t* data,
Arena &arena) {
uint32_t tag = table_entry.tag;
TableAction action = GetTableAction(file, tag);
if (action == TABLE_ACTION_DROP) {
return true;
}
const auto &it = file->tables.find(table_entry);
if (it != file->tables.end()) {
m_tables[tag] = it->second;
return true;
}
Table *table = NULL;
bool ret = false;
if (action == TABLE_ACTION_PASSTHRU) {
table = new TablePassthru(this, tag);
} else {
switch (tag) {
case OTS_TAG_CFF: table = new OpenTypeCFF(this, tag); break;
case OTS_TAG_CMAP: table = new OpenTypeCMAP(this, tag); break;
case OTS_TAG_CVT: table = new OpenTypeCVT(this, tag); break;
case OTS_TAG_FPGM: table = new OpenTypeFPGM(this, tag); break;
case OTS_TAG_GASP: table = new OpenTypeGASP(this, tag); break;
case OTS_TAG_GDEF: table = new OpenTypeGDEF(this, tag); break;
case OTS_TAG_GLYF: table = new OpenTypeGLYF(this, tag); break;
case OTS_TAG_GPOS: table = new OpenTypeGPOS(this, tag); break;
case OTS_TAG_GSUB: table = new OpenTypeGSUB(this, tag); break;
case OTS_TAG_HDMX: table = new OpenTypeHDMX(this, tag); break;
case OTS_TAG_HEAD: table = new OpenTypeHEAD(this, tag); break;
case OTS_TAG_HHEA: table = new OpenTypeHHEA(this, tag); break;
case OTS_TAG_HMTX: table = new OpenTypeHMTX(this, tag); break;
case OTS_TAG_KERN: table = new OpenTypeKERN(this, tag); break;
case OTS_TAG_LOCA: table = new OpenTypeLOCA(this, tag); break;
case OTS_TAG_LTSH: table = new OpenTypeLTSH(this, tag); break;
case OTS_TAG_MATH: table = new OpenTypeMATH(this, tag); break;
case OTS_TAG_MAXP: table = new OpenTypeMAXP(this, tag); break;
case OTS_TAG_NAME: table = new OpenTypeNAME(this, tag); break;
case OTS_TAG_OS2: table = new OpenTypeOS2(this, tag); break;
case OTS_TAG_POST: table = new OpenTypePOST(this, tag); break;
case OTS_TAG_PREP: table = new OpenTypePREP(this, tag); break;
case OTS_TAG_VDMX: table = new OpenTypeVDMX(this, tag); break;
case OTS_TAG_VORG: table = new OpenTypeVORG(this, tag); break;
case OTS_TAG_VHEA: table = new OpenTypeVHEA(this, tag); break;
case OTS_TAG_VMTX: table = new OpenTypeVMTX(this, tag); break;
// Graphite tables
#ifdef OTS_GRAPHITE
case OTS_TAG_FEAT: table = new OpenTypeFEAT(this, tag); break;
case OTS_TAG_GLAT: table = new OpenTypeGLAT(this, tag); break;
case OTS_TAG_GLOC: table = new OpenTypeGLOC(this, tag); break;
case OTS_TAG_SILE: table = new OpenTypeSILE(this, tag); break;
case OTS_TAG_SILF: table = new OpenTypeSILF(this, tag); break;
case OTS_TAG_SILL: table = new OpenTypeSILL(this, tag); break;
#endif
default: break;
}
}
if (table) {
const uint8_t* table_data;
size_t table_length;
ret = GetTableData(data, table_entry, arena, &table_length, &table_data);
if (ret) {
// FIXME: Parsing some tables will fail if the table is not added to
// m_tables first.
m_tables[tag] = table;
ret = table->Parse(table_data, table_length);
if (ret)
file->tables[table_entry] = table;
else
m_tables.erase(tag);
}
}
if (!ret)
delete table;
return ret;
}
Table* Font::GetTable(uint32_t tag) const {
const auto &it = m_tables.find(tag);
if (it != m_tables.end())
return it->second;
return NULL;
}
Table* Font::GetTypedTable(uint32_t tag) const {
Table* t = GetTable(tag);
if (t && t->Type() == tag)
return t;
return NULL;
}
void Font::DropGraphite() {
file->context->Message(0, "Dropping all Graphite tables");
for (const std::pair<uint32_t, Table*> entry : m_tables) {
if (entry.first == OTS_TAG_FEAT ||
entry.first == OTS_TAG_GLAT ||
entry.first == OTS_TAG_GLOC ||
entry.first == OTS_TAG_SILE ||
entry.first == OTS_TAG_SILF ||
entry.first == OTS_TAG_SILL) {
entry.second->Drop("Discarding Graphite table");
}
}
dropped_graphite = true;
}
bool Table::ShouldSerialize() {
return m_shouldSerialize;
}
void Table::Message(int level, const char *format, va_list va) {
char msg[206] = { OTS_UNTAG(m_tag), ':', ' ' };
VSNPRINTF_OTS(msg + 6, 200, format, va);
m_font->file->context->Message(level, msg);
}
bool Table::Error(const char *format, ...) {
va_list va;
va_start(va, format);
Message(0, format, va);
va_end(va);
return false;
}
bool Table::Warning(const char *format, ...) {
va_list va;
va_start(va, format);
Message(1, format, va);
va_end(va);
return true;
}
bool Table::Drop(const char *format, ...) {
m_shouldSerialize = false;
va_list va;
va_start(va, format);
Message(0, format, va);
m_font->file->context->Message(0, "Table discarded");
va_end(va);
return true;
}
bool Table::DropGraphite(const char *format, ...) {
va_list va;
va_start(va, format);
Message(0, format, va);
va_end(va);
m_font->DropGraphite();
return true;
}
bool TablePassthru::Parse(const uint8_t *data, size_t length) {
m_data = data;
m_length = length;
return true;
}
bool TablePassthru::Serialize(OTSStream *out) {
if (!out->Write(m_data, m_length)) {
return Error("Failed to write table");
}
return true;
}
bool IsValidVersionTag(uint32_t tag) {
return tag == 0x000010000 ||
// OpenType fonts with CFF data have 'OTTO' tag.
tag == OTS_TAG('O','T','T','O') ||
// Older Mac fonts might have 'true' or 'typ1' tag.
tag == OTS_TAG('t','r','u','e') ||
tag == OTS_TAG('t','y','p','1');
}
bool OTSContext::Process(OTSStream *output,
const uint8_t *data,
size_t length,
uint32_t index) {
FontFile header;
Font font(&header);
header.context = this;
if (length < 4) {
return OTS_FAILURE_MSG_(&header, "file less than 4 bytes");
}
bool result;
if (data[0] == 'w' && data[1] == 'O' && data[2] == 'F' && data[3] == 'F') {
result = ProcessWOFF(&header, &font, output, data, length);
} else if (data[0] == 'w' && data[1] == 'O' && data[2] == 'F' && data[3] == '2') {
result = ProcessWOFF2(&header, output, data, length, index);
} else if (data[0] == 't' && data[1] == 't' && data[2] == 'c' && data[3] == 'f') {
result = ProcessTTC(&header, output, data, length, index);
} else {
result = ProcessTTF(&header, &font, output, data, length);
}
return result;
}
} // namespace ots
#undef VSNPRINTF_OTS