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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 "silf.h"
#include "name.h"
#include "mozilla/Compression.h"
#include <cmath>
#include <memory>
namespace ots {
bool OpenTypeSILF::Parse(const uint8_t* data, size_t length,
bool prevent_decompression) {
Buffer table(data, length);
if (!table.ReadU32(&this->version)) {
return DropGraphite("Failed to read version");
}
if (this->version >> 16 != 1 &&
this->version >> 16 != 2 &&
this->version >> 16 != 3 &&
this->version >> 16 != 4 &&
this->version >> 16 != 5) {
return DropGraphite("Unsupported table version: %u", this->version >> 16);
}
if (this->version >> 16 >= 3 && !table.ReadU32(&this->compHead)) {
return DropGraphite("Failed to read compHead");
}
if (this->version >> 16 >= 5) {
switch ((this->compHead & SCHEME) >> 27) {
case 0: // uncompressed
break;
case 1: { // lz4
if (prevent_decompression) {
return DropGraphite("Illegal nested compression");
}
size_t decompressed_size = this->compHead & FULL_SIZE;
if (decompressed_size < length) {
return DropGraphite("Decompressed size is less than compressed size");
}
if (decompressed_size == 0) {
return DropGraphite("Decompressed size is set to 0");
}
// decompressed table must be <= OTS_MAX_DECOMPRESSED_TABLE_SIZE
if (decompressed_size > OTS_MAX_DECOMPRESSED_TABLE_SIZE) {
return DropGraphite("Decompressed size exceeds %gMB: %gMB",
OTS_MAX_DECOMPRESSED_TABLE_SIZE / (1024.0 * 1024.0),
decompressed_size / (1024.0 * 1024.0));
}
std::unique_ptr<uint8_t> decompressed(new uint8_t[decompressed_size]());
size_t outputSize = 0;
bool ret = mozilla::Compression::LZ4::decompressPartial(
reinterpret_cast<const char*>(data + table.offset()),
table.remaining(), // input buffer size (input size + padding)
reinterpret_cast<char*>(decompressed.get()),
decompressed_size, // target output size
&outputSize); // return output size
if (!ret || outputSize != decompressed_size) {
return DropGraphite("Decompression failed");
}
return this->Parse(decompressed.get(), decompressed_size, true);
}
default:
return DropGraphite("Unknown compression scheme");
}
}
if (!table.ReadU16(&this->numSub)) {
return DropGraphite("Failed to read numSub");
}
if (this->version >> 16 >= 2 && !table.ReadU16(&this->reserved)) {
return DropGraphite("Failed to read reserved");
}
if (this->version >> 16 >= 2 && this->reserved != 0) {
Warning("Nonzero reserved");
}
unsigned long last_offset = 0;
//this->offset.resize(this->numSub);
for (unsigned i = 0; i < this->numSub; ++i) {
this->offset.emplace_back();
if (!table.ReadU32(&this->offset[i]) || this->offset[i] < last_offset) {
return DropGraphite("Failed to read offset[%u]", i);
}
last_offset = this->offset[i];
}
for (unsigned i = 0; i < this->numSub; ++i) {
if (table.offset() != this->offset[i]) {
return DropGraphite("Offset check failed for tables[%lu]", i);
}
SILSub subtable(this);
if (!subtable.ParsePart(table)) {
return DropGraphite("Failed to read tables[%u]", i);
}
tables.push_back(subtable);
}
if (table.remaining()) {
return Warning("%zu bytes unparsed", table.remaining());
}
return true;
}
bool OpenTypeSILF::Serialize(OTSStream* out) {
if (!out->WriteU32(this->version) ||
(this->version >> 16 >= 3 && !out->WriteU32(this->compHead)) ||
!out->WriteU16(this->numSub) ||
(this->version >> 16 >= 2 && !out->WriteU16(this->reserved)) ||
!SerializeParts(this->offset, out) ||
!SerializeParts(this->tables, out)) {
return Error("Failed to write table");
}
return true;
}
bool OpenTypeSILF::SILSub::ParsePart(Buffer& table) {
size_t init_offset = table.offset();
if (parent->version >> 16 >= 3) {
if (!table.ReadU32(&this->ruleVersion)) {
return parent->Error("SILSub: Failed to read ruleVersion");
}
if (!table.ReadU16(&this->passOffset)) {
return parent->Error("SILSub: Failed to read passOffset");
}
if (!table.ReadU16(&this->pseudosOffset)) {
return parent->Error("SILSub: Failed to read pseudosOffset");
}
}
if (!table.ReadU16(&this->maxGlyphID)) {
return parent->Error("SILSub: Failed to read maxGlyphID");
}
if (!table.ReadS16(&this->extraAscent)) {
return parent->Error("SILSub: Failed to read extraAscent");
}
if (!table.ReadS16(&this->extraDescent)) {
return parent->Error("SILSub: Failed to read extraDescent");
}
if (!table.ReadU8(&this->numPasses)) {
return parent->Error("SILSub: Failed to read numPasses");
}
if (!table.ReadU8(&this->iSubst) || this->iSubst > this->numPasses) {
return parent->Error("SILSub: Failed to read valid iSubst");
}
if (!table.ReadU8(&this->iPos) || this->iPos > this->numPasses) {
return parent->Error("SILSub: Failed to read valid iPos");
}
if (!table.ReadU8(&this->iJust) || this->iJust > this->numPasses) {
return parent->Error("SILSub: Failed to read valid iJust");
}
if (!table.ReadU8(&this->iBidi) ||
!(iBidi == 0xFF || this->iBidi <= this->iPos)) {
return parent->Error("SILSub: Failed to read valid iBidi");
}
if (!table.ReadU8(&this->flags)) {
return parent->Error("SILSub: Failed to read flags");
// checks omitted
}
if (!table.ReadU8(&this->maxPreContext)) {
return parent->Error("SILSub: Failed to read maxPreContext");
}
if (!table.ReadU8(&this->maxPostContext)) {
return parent->Error("SILSub: Failed to read maxPostContext");
}
if (!table.ReadU8(&this->attrPseudo)) {
return parent->Error("SILSub: Failed to read attrPseudo");
}
if (!table.ReadU8(&this->attrBreakWeight)) {
return parent->Error("SILSub: Failed to read attrBreakWeight");
}
if (!table.ReadU8(&this->attrDirectionality)) {
return parent->Error("SILSub: Failed to read attrDirectionality");
}
if (parent->version >> 16 >= 2) {
if (!table.ReadU8(&this->attrMirroring)) {
return parent->Error("SILSub: Failed to read attrMirroring");
}
if (!table.ReadU8(&this->attrSkipPasses)) {
return parent->Error("SILSub: Failed to read attrSkipPasses");
}
if (!table.ReadU8(&this->numJLevels)) {
return parent->Error("SILSub: Failed to read numJLevels");
}
//this->jLevels.resize(this->numJLevels, parent);
for (unsigned i = 0; i < this->numJLevels; ++i) {
this->jLevels.emplace_back(parent);
if (!this->jLevels[i].ParsePart(table)) {
return parent->Error("SILSub: Failed to read jLevels[%u]", i);
}
}
}
if (!table.ReadU16(&this->numLigComp)) {
return parent->Error("SILSub: Failed to read numLigComp");
}
if (!table.ReadU8(&this->numUserDefn)) {
return parent->Error("SILSub: Failed to read numUserDefn");
}
if (!table.ReadU8(&this->maxCompPerLig)) {
return parent->Error("SILSub: Failed to read maxCompPerLig");
}
if (!table.ReadU8(&this->direction)) {
return parent->Error("SILSub: Failed to read direction");
}
if (!table.ReadU8(&this->attrCollisions)) {
return parent->Error("SILSub: Failed to read attrCollisions");
}
if (parent->version < 0x40001 && this->attrCollisions != 0) {
parent->Warning("SILSub: Nonzero attrCollisions (reserved before v4.1)");
}
if (!table.ReadU8(&this->reserved4)) {
return parent->Error("SILSub: Failed to read reserved4");
}
if (this->reserved4 != 0) {
parent->Warning("SILSub: Nonzero reserved4");
}
if (!table.ReadU8(&this->reserved5)) {
return parent->Error("SILSub: Failed to read reserved5");
}
if (this->reserved5 != 0) {
parent->Warning("SILSub: Nonzero reserved5");
}
if (parent->version >> 16 >= 2) {
if (!table.ReadU8(&this->reserved6)) {
return parent->Error("SILSub: Failed to read reserved6");
}
if (this->reserved6 != 0) {
parent->Warning("SILSub: Nonzero reserved6");
}
if (!table.ReadU8(&this->numCritFeatures)) {
return parent->Error("SILSub: Failed to read numCritFeatures");
}
//this->critFeatures.resize(this->numCritFeatures);
for (unsigned i = 0; i < this->numCritFeatures; ++i) {
this->critFeatures.emplace_back();
if (!table.ReadU16(&this->critFeatures[i])) {
return parent->Error("SILSub: Failed to read critFeatures[%u]", i);
}
}
if (!table.ReadU8(&this->reserved7)) {
return parent->Error("SILSub: Failed to read reserved7");
}
if (this->reserved7 != 0) {
parent->Warning("SILSub: Nonzero reserved7");
}
}
if (!table.ReadU8(&this->numScriptTag)) {
return parent->Error("SILSub: Failed to read numScriptTag");
}
//this->scriptTag.resize(this->numScriptTag);
for (unsigned i = 0; i < this->numScriptTag; ++i) {
this->scriptTag.emplace_back();
if (!table.ReadU32(&this->scriptTag[i])) {
return parent->Error("SILSub: Failed to read scriptTag[%u]", i);
}
}
if (!table.ReadU16(&this->lbGID)) {
return parent->Error("SILSub: Failed to read lbGID");
}
if (this->lbGID > this->maxGlyphID) {
parent->Warning("SILSub: lbGID %u outside range 0..%u, replaced with 0",
this->lbGID, this->maxGlyphID);
this->lbGID = 0;
}
if (parent->version >> 16 >= 3 &&
table.offset() != init_offset + this->passOffset) {
return parent->Error("SILSub: passOffset check failed");
}
unsigned long last_oPass = 0;
//this->oPasses.resize(static_cast<unsigned>(this->numPasses) + 1);
for (unsigned i = 0; i <= this->numPasses; ++i) {
this->oPasses.emplace_back();
if (!table.ReadU32(&this->oPasses[i]) || this->oPasses[i] < last_oPass) {
return false;
}
last_oPass = this->oPasses[i];
}
if (parent->version >> 16 >= 3 &&
table.offset() != init_offset + this->pseudosOffset) {
return parent->Error("SILSub: pseudosOffset check failed");
}
if (!table.ReadU16(&this->numPseudo)) {
return parent->Error("SILSub: Failed to read numPseudo");
}
// The following three fields are deprecated and ignored. We fix them up here
// just for internal consistency, but the Graphite engine doesn't care.
if (!table.ReadU16(&this->searchPseudo) ||
!table.ReadU16(&this->pseudoSelector) ||
!table.ReadU16(&this->pseudoShift)) {
return parent->Error("SILSub: Failed to read searchPseudo..pseudoShift");
}
if (this->numPseudo == 0) {
if (this->searchPseudo != 0 || this->pseudoSelector != 0 || this->pseudoShift != 0) {
this->searchPseudo = this->pseudoSelector = this->pseudoShift = 0;
}
} else {
unsigned floorLog2 = std::floor(std::log2(this->numPseudo));
if (this->searchPseudo != 6 * (unsigned)std::pow(2, floorLog2) ||
this->pseudoSelector != floorLog2 ||
this->pseudoShift != 6 * this->numPseudo - this->searchPseudo) {
this->searchPseudo = 6 * (unsigned)std::pow(2, floorLog2);
this->pseudoSelector = floorLog2;
this->pseudoShift = 6 * this->numPseudo - this->searchPseudo;
}
}
//this->pMaps.resize(this->numPseudo, parent);
for (unsigned i = 0; i < numPseudo; i++) {
this->pMaps.emplace_back(parent);
if (!this->pMaps[i].ParsePart(table)) {
return parent->Error("SILSub: Failed to read pMaps[%u]", i);
}
}
if (!this->classes.ParsePart(table)) {
return parent->Error("SILSub: Failed to read classes");
}
//this->passes.resize(this->numPasses, parent);
for (unsigned i = 0; i < this->numPasses; ++i) {
this->passes.emplace_back(parent);
if (table.offset() != init_offset + this->oPasses[i]) {
return parent->Error("SILSub: Offset check failed for passes[%u]", i);
}
if (!this->passes[i].ParsePart(table, init_offset, this->oPasses[i+1])) {
return parent->Error("SILSub: Failed to read passes[%u]", i);
}
}
return true;
}
bool OpenTypeSILF::SILSub::SerializePart(OTSStream* out) const {
if ((parent->version >> 16 >= 3 &&
(!out->WriteU32(this->ruleVersion) ||
!out->WriteU16(this->passOffset) ||
!out->WriteU16(this->pseudosOffset))) ||
!out->WriteU16(this->maxGlyphID) ||
!out->WriteS16(this->extraAscent) ||
!out->WriteS16(this->extraDescent) ||
!out->WriteU8(this->numPasses) ||
!out->WriteU8(this->iSubst) ||
!out->WriteU8(this->iPos) ||
!out->WriteU8(this->iJust) ||
!out->WriteU8(this->iBidi) ||
!out->WriteU8(this->flags) ||
!out->WriteU8(this->maxPreContext) ||
!out->WriteU8(this->maxPostContext) ||
!out->WriteU8(this->attrPseudo) ||
!out->WriteU8(this->attrBreakWeight) ||
!out->WriteU8(this->attrDirectionality) ||
(parent->version >> 16 >= 2 &&
(!out->WriteU8(this->attrMirroring) ||
!out->WriteU8(this->attrSkipPasses) ||
!out->WriteU8(this->numJLevels) ||
!SerializeParts(this->jLevels, out))) ||
!out->WriteU16(this->numLigComp) ||
!out->WriteU8(this->numUserDefn) ||
!out->WriteU8(this->maxCompPerLig) ||
!out->WriteU8(this->direction) ||
!out->WriteU8(this->attrCollisions) ||
!out->WriteU8(this->reserved4) ||
!out->WriteU8(this->reserved5) ||
(parent->version >> 16 >= 2 &&
(!out->WriteU8(this->reserved6) ||
!out->WriteU8(this->numCritFeatures) ||
!SerializeParts(this->critFeatures, out) ||
!out->WriteU8(this->reserved7))) ||
!out->WriteU8(this->numScriptTag) ||
!SerializeParts(this->scriptTag, out) ||
!out->WriteU16(this->lbGID) ||
!SerializeParts(this->oPasses, out) ||
!out->WriteU16(this->numPseudo) ||
!out->WriteU16(this->searchPseudo) ||
!out->WriteU16(this->pseudoSelector) ||
!out->WriteU16(this->pseudoShift) ||
!SerializeParts(this->pMaps, out) ||
!this->classes.SerializePart(out) ||
!SerializeParts(this->passes, out)) {
return parent->Error("SILSub: Failed to write");
}
return true;
}
bool OpenTypeSILF::SILSub::
JustificationLevel::ParsePart(Buffer& table) {
if (!table.ReadU8(&this->attrStretch)) {
return parent->Error("JustificationLevel: Failed to read attrStretch");
}
if (!table.ReadU8(&this->attrShrink)) {
return parent->Error("JustificationLevel: Failed to read attrShrink");
}
if (!table.ReadU8(&this->attrStep)) {
return parent->Error("JustificationLevel: Failed to read attrStep");
}
if (!table.ReadU8(&this->attrWeight)) {
return parent->Error("JustificationLevel: Failed to read attrWeight");
}
if (!table.ReadU8(&this->runto)) {
return parent->Error("JustificationLevel: Failed to read runto");
}
if (!table.ReadU8(&this->reserved)) {
return parent->Error("JustificationLevel: Failed to read reserved");
}
if (this->reserved != 0) {
parent->Warning("JustificationLevel: Nonzero reserved");
}
if (!table.ReadU8(&this->reserved2)) {
return parent->Error("JustificationLevel: Failed to read reserved2");
}
if (this->reserved2 != 0) {
parent->Warning("JustificationLevel: Nonzero reserved2");
}
if (!table.ReadU8(&this->reserved3)) {
return parent->Error("JustificationLevel: Failed to read reserved3");
}
if (this->reserved3 != 0) {
parent->Warning("JustificationLevel: Nonzero reserved3");
}
return true;
}
bool OpenTypeSILF::SILSub::
JustificationLevel::SerializePart(OTSStream* out) const {
if (!out->WriteU8(this->attrStretch) ||
!out->WriteU8(this->attrShrink) ||
!out->WriteU8(this->attrStep) ||
!out->WriteU8(this->attrWeight) ||
!out->WriteU8(this->runto) ||
!out->WriteU8(this->reserved) ||
!out->WriteU8(this->reserved2) ||
!out->WriteU8(this->reserved3)) {
return parent->Error("JustificationLevel: Failed to write");
}
return true;
}
bool OpenTypeSILF::SILSub::
PseudoMap::ParsePart(Buffer& table) {
if (parent->version >> 16 >= 2 && !table.ReadU32(&this->unicode)) {
return parent->Error("PseudoMap: Failed to read unicode");
}
if (parent->version >> 16 == 1) {
uint16_t unicode;
if (!table.ReadU16(&unicode)) {
return parent->Error("PseudoMap: Failed to read unicode");
}
this->unicode = unicode;
}
if (!table.ReadU16(&this->nPseudo)) {
return parent->Error("PseudoMap: Failed to read nPseudo");
}
return true;
}
bool OpenTypeSILF::SILSub::
PseudoMap::SerializePart(OTSStream* out) const {
if ((parent->version >> 16 >= 2 && !out->WriteU32(this->unicode)) ||
(parent->version >> 16 == 1 &&
!out->WriteU16(static_cast<uint16_t>(this->unicode))) ||
!out->WriteU16(this->nPseudo)) {
return parent->Error("PseudoMap: Failed to write");
}
return true;
}
bool OpenTypeSILF::SILSub::
ClassMap::ParsePart(Buffer& table) {
size_t init_offset = table.offset();
if (!table.ReadU16(&this->numClass)) {
return parent->Error("ClassMap: Failed to read numClass");
}
if (!table.ReadU16(&this->numLinear) || this->numLinear > this->numClass) {
return parent->Error("ClassMap: Failed to read valid numLinear");
}
//this->oClass.resize(static_cast<unsigned long>(this->numClass) + 1);
if (parent->version >> 16 >= 4) {
unsigned long last_oClass = 0;
for (unsigned long i = 0; i <= this->numClass; ++i) {
this->oClass.emplace_back();
if (!table.ReadU32(&this->oClass[i]) || this->oClass[i] < last_oClass) {
return parent->Error("ClassMap: Failed to read oClass[%lu]", i);
}
last_oClass = this->oClass[i];
}
}
if (parent->version >> 16 < 4) {
unsigned last_oClass = 0;
for (unsigned long i = 0; i <= this->numClass; ++i) {
uint16_t offset;
if (!table.ReadU16(&offset) || offset < last_oClass) {
return parent->Error("ClassMap: Failed to read oClass[%lu]", i);
}
last_oClass = offset;
this->oClass.push_back(static_cast<uint32_t>(offset));
}
}
if (table.offset() - init_offset > this->oClass[this->numLinear]) {
return parent->Error("ClassMap: Failed to calculate length of glyphs");
}
unsigned long glyphs_len = (this->oClass[this->numLinear] -
(table.offset() - init_offset))/2;
//this->glyphs.resize(glyphs_len);
for (unsigned long i = 0; i < glyphs_len; ++i) {
this->glyphs.emplace_back();
if (!table.ReadU16(&this->glyphs[i])) {
return parent->Error("ClassMap: Failed to read glyphs[%lu]", i);
}
}
unsigned lookups_len = this->numClass - this->numLinear;
// this->numLinear <= this->numClass
//this->lookups.resize(lookups_len, parent);
for (unsigned i = 0; i < lookups_len; ++i) {
this->lookups.emplace_back(parent);
if (table.offset() != init_offset + oClass[this->numLinear + i]) {
return parent->Error("ClassMap: Offset check failed for lookups[%u]", i);
}
if (!this->lookups[i].ParsePart(table)) {
return parent->Error("ClassMap: Failed to read lookups[%u]", i);
}
}
return true;
}
bool OpenTypeSILF::SILSub::
ClassMap::SerializePart(OTSStream* out) const {
if (!out->WriteU16(this->numClass) ||
!out->WriteU16(this->numLinear) ||
(parent->version >> 16 >= 4 && !SerializeParts(this->oClass, out)) ||
(parent->version >> 16 < 4 &&
![&] {
for (uint32_t offset : this->oClass) {
if (!out->WriteU16(static_cast<uint16_t>(offset))) {
return false;
}
}
return true;
}()) ||
!SerializeParts(this->glyphs, out) ||
!SerializeParts(this->lookups, out)) {
return parent->Error("ClassMap: Failed to write");
}
return true;
}
bool OpenTypeSILF::SILSub::ClassMap::
LookupClass::ParsePart(Buffer& table) {
if (!table.ReadU16(&this->numIDs)) {
return parent->Error("LookupClass: Failed to read numIDs");
}
if (!table.ReadU16(&this->searchRange) ||
!table.ReadU16(&this->entrySelector) ||
!table.ReadU16(&this->rangeShift)) {
return parent->Error("LookupClass: Failed to read searchRange..rangeShift");
}
if (this->numIDs == 0) {
if (this->searchRange != 0 || this->entrySelector != 0 || this->rangeShift != 0) {
parent->Warning("LookupClass: Correcting binary-search header for zero-length LookupPair list");
this->searchRange = this->entrySelector = this->rangeShift = 0;
}
} else {
unsigned floorLog2 = std::floor(std::log2(this->numIDs));
if (this->searchRange != (unsigned)std::pow(2, floorLog2) ||
this->entrySelector != floorLog2 ||
this->rangeShift != this->numIDs - this->searchRange) {
parent->Warning("LookupClass: Correcting binary-search header for LookupPair list");
this->searchRange = (unsigned)std::pow(2, floorLog2);
this->entrySelector = floorLog2;
this->rangeShift = this->numIDs - this->searchRange;
}
}
//this->lookups.resize(this->numIDs, parent);
for (unsigned i = 0; i < numIDs; ++i) {
this->lookups.emplace_back(parent);
if (!this->lookups[i].ParsePart(table)) {
return parent->Error("LookupClass: Failed to read lookups[%u]", i);
}
}
return true;
}
bool OpenTypeSILF::SILSub::ClassMap::
LookupClass::SerializePart(OTSStream* out) const {
if (!out->WriteU16(this->numIDs) ||
!out->WriteU16(this->searchRange) ||
!out->WriteU16(this->entrySelector) ||
!out->WriteU16(this->rangeShift) ||
!SerializeParts(this->lookups, out)) {
return parent->Error("LookupClass: Failed to write");
}
return true;
}
bool OpenTypeSILF::SILSub::ClassMap::LookupClass::
LookupPair::ParsePart(Buffer& table) {
if (!table.ReadU16(&this->glyphId)) {
return parent->Error("LookupPair: Failed to read glyphId");
}
if (!table.ReadU16(&this->index)) {
return parent->Error("LookupPair: Failed to read index");
}
return true;
}
bool OpenTypeSILF::SILSub::ClassMap::LookupClass::
LookupPair::SerializePart(OTSStream* out) const {
if (!out->WriteU16(this->glyphId) ||
!out->WriteU16(this->index)) {
return parent->Error("LookupPair: Failed to write");
}
return true;
}
bool OpenTypeSILF::SILSub::
SILPass::ParsePart(Buffer& table, const size_t SILSub_init_offset,
const size_t next_pass_offset) {
size_t init_offset = table.offset();
if (!table.ReadU8(&this->flags)) {
return parent->Error("SILPass: Failed to read flags");
// checks omitted
}
if (!table.ReadU8(&this->maxRuleLoop)) {
return parent->Error("SILPass: Failed to read valid maxRuleLoop");
}
if (!table.ReadU8(&this->maxRuleContext)) {
return parent->Error("SILPass: Failed to read maxRuleContext");
}
if (!table.ReadU8(&this->maxBackup)) {
return parent->Error("SILPass: Failed to read maxBackup");
}
if (!table.ReadU16(&this->numRules)) {
return parent->Error("SILPass: Failed to read numRules");
}
if (parent->version >> 16 >= 2) {
if (!table.ReadU16(&this->fsmOffset)) {
return parent->Error("SILPass: Failed to read fsmOffset");
}
if (!table.ReadU32(&this->pcCode) ||
(parent->version >= 3 && this->pcCode < this->fsmOffset)) {
return parent->Error("SILPass: Failed to read pcCode");
}
}
if (!table.ReadU32(&this->rcCode) ||
(parent->version >> 16 >= 2 && this->rcCode < this->pcCode)) {
return parent->Error("SILPass: Failed to read valid rcCode");
}
if (!table.ReadU32(&this->aCode) || this->aCode < this->rcCode) {
return parent->Error("SILPass: Failed to read valid aCode");
}
if (!table.ReadU32(&this->oDebug) ||
(this->oDebug && this->oDebug < this->aCode)) {
return parent->Error("SILPass: Failed to read valid oDebug");
}
if (parent->version >> 16 >= 3 &&
table.offset() != init_offset + this->fsmOffset) {
return parent->Error("SILPass: fsmOffset check failed");
}
if (!table.ReadU16(&this->numRows) ||
(this->oDebug && this->numRows < this->numRules)) {
return parent->Error("SILPass: Failed to read valid numRows");
}
if (!table.ReadU16(&this->numTransitional)) {
return parent->Error("SILPass: Failed to read numTransitional");
}
if (!table.ReadU16(&this->numSuccess)) {
return parent->Error("SILPass: Failed to read numSuccess");
}
if (!table.ReadU16(&this->numColumns)) {
return parent->Error("SILPass: Failed to read numColumns");
}
if (!table.ReadU16(&this->numRange)) {
return parent->Error("SILPass: Failed to read numRange");
}
// The following three fields are deprecated and ignored. We fix them up here
// just for internal consistency, but the Graphite engine doesn't care.
if (!table.ReadU16(&this->searchRange) ||
!table.ReadU16(&this->entrySelector) ||
!table.ReadU16(&this->rangeShift)) {
return parent->Error("SILPass: Failed to read searchRange..rangeShift");
}
if (this->numRange == 0) {
if (this->searchRange != 0 || this->entrySelector != 0 || this->rangeShift != 0) {
this->searchRange = this->entrySelector = this->rangeShift = 0;
}
} else {
unsigned floorLog2 = std::floor(std::log2(this->numRange));
if (this->searchRange != 6 * (unsigned)std::pow(2, floorLog2) ||
this->entrySelector != floorLog2 ||
this->rangeShift != 6 * this->numRange - this->searchRange) {
this->searchRange = 6 * (unsigned)std::pow(2, floorLog2);
this->entrySelector = floorLog2;
this->rangeShift = 6 * this->numRange - this->searchRange;
}
}
//this->ranges.resize(this->numRange, parent);
for (unsigned i = 0 ; i < this->numRange; ++i) {
this->ranges.emplace_back(parent);
if (!this->ranges[i].ParsePart(table)) {
return parent->Error("SILPass: Failed to read ranges[%u]", i);
}
}
unsigned ruleMap_len = 0; // maximum value in oRuleMap
//this->oRuleMap.resize(static_cast<unsigned long>(this->numSuccess) + 1);
for (unsigned long i = 0; i <= this->numSuccess; ++i) {
this->oRuleMap.emplace_back();
if (!table.ReadU16(&this->oRuleMap[i])) {
return parent->Error("SILPass: Failed to read oRuleMap[%u]", i);
}
if (oRuleMap[i] > ruleMap_len) {
ruleMap_len = oRuleMap[i];
}
}
//this->ruleMap.resize(ruleMap_len);
for (unsigned i = 0; i < ruleMap_len; ++i) {
this->ruleMap.emplace_back();
if (!table.ReadU16(&this->ruleMap[i])) {
return parent->Error("SILPass: Failed to read ruleMap[%u]", i);
}
}
if (!table.ReadU8(&this->minRulePreContext)) {
return parent->Error("SILPass: Failed to read minRulePreContext");
}
if (!table.ReadU8(&this->maxRulePreContext) ||
this->maxRulePreContext < this->minRulePreContext) {
return parent->Error("SILPass: Failed to read valid maxRulePreContext");
}
unsigned startStates_len = this->maxRulePreContext - this->minRulePreContext
+ 1;
// this->minRulePreContext <= this->maxRulePreContext
//this->startStates.resize(startStates_len);
for (unsigned i = 0; i < startStates_len; ++i) {
this->startStates.emplace_back();
if (!table.ReadS16(&this->startStates[i])) {
return parent->Error("SILPass: Failed to read startStates[%u]", i);
}
}
//this->ruleSortKeys.resize(this->numRules);
for (unsigned i = 0; i < this->numRules; ++i) {
this->ruleSortKeys.emplace_back();
if (!table.ReadU16(&this->ruleSortKeys[i])) {
return parent->Error("SILPass: Failed to read ruleSortKeys[%u]", i);
}
}
//this->rulePreContext.resize(this->numRules);
for (unsigned i = 0; i < this->numRules; ++i) {
this->rulePreContext.emplace_back();
if (!table.ReadU8(&this->rulePreContext[i])) {
return parent->Error("SILPass: Failed to read rulePreContext[%u]", i);
}
}
if (parent->version >> 16 >= 2) {
if (!table.ReadU8(&this->collisionThreshold)) {
return parent->Error("SILPass: Failed to read collisionThreshold");
}
if (!table.ReadU16(&this->pConstraint)) {
return parent->Error("SILPass: Failed to read pConstraint");
}
}
unsigned long ruleConstraints_len = this->aCode - this->rcCode;
// this->rcCode <= this->aCode
//this->oConstraints.resize(static_cast<unsigned long>(this->numRules) + 1);
for (unsigned long i = 0; i <= this->numRules; ++i) {
this->oConstraints.emplace_back();
if (!table.ReadU16(&this->oConstraints[i]) ||
this->oConstraints[i] > ruleConstraints_len) {
return parent->Error("SILPass: Failed to read valid oConstraints[%lu]",
i);
}
}
if (!this->oDebug && this->aCode > next_pass_offset) {
return parent->Error("SILPass: Failed to calculate length of actions");
}
unsigned long actions_len = this->oDebug ? this->oDebug - this->aCode :
next_pass_offset - this->aCode;
// if this->oDebug, then this->aCode <= this->oDebug
//this->oActions.resize(static_cast<unsigned long>(this->numRules) + 1);
for (unsigned long i = 0; i <= this->numRules; ++i) {
this->oActions.emplace_back();
if (!table.ReadU16(&this->oActions[i]) ||
(this->oActions[i] > actions_len)) {
return parent->Error("SILPass: Failed to read valid oActions[%lu]", i);
}
}
//this->stateTrans.resize(this->numTransitional);
for (unsigned i = 0; i < this->numTransitional; ++i) {
this->stateTrans.emplace_back();
//this->stateTrans[i].resize(this->numColumns);
for (unsigned j = 0; j < this->numColumns; ++j) {
this->stateTrans[i].emplace_back();
if (!table.ReadU16(&stateTrans[i][j])) {
return parent->Error("SILPass: Failed to read stateTrans[%u][%u]",
i, j);
}
}
}
if (parent->version >> 16 >= 2) {
if (!table.ReadU8(&this->reserved2)) {
return parent->Error("SILPass: Failed to read reserved2");
}
if (this->reserved2 != 0) {
parent->Warning("SILPass: Nonzero reserved2");
}
if (table.offset() != SILSub_init_offset + this->pcCode) {
return parent->Error("SILPass: pcCode check failed");
}
//this->passConstraints.resize(this->pConstraint);
for (unsigned i = 0; i < this->pConstraint; ++i) {
this->passConstraints.emplace_back();
if (!table.ReadU8(&this->passConstraints[i])) {
return parent->Error("SILPass: Failed to read passConstraints[%u]", i);
}
}
}
if (table.offset() != SILSub_init_offset + this->rcCode) {
return parent->Error("SILPass: rcCode check failed");
}
//this->ruleConstraints.resize(ruleConstraints_len); // calculated above
for (unsigned long i = 0; i < ruleConstraints_len; ++i) {
this->ruleConstraints.emplace_back();
if (!table.ReadU8(&this->ruleConstraints[i])) {
return parent->Error("SILPass: Failed to read ruleConstraints[%u]", i);
}
}
if (table.offset() != SILSub_init_offset + this->aCode) {
return parent->Error("SILPass: aCode check failed");
}
//this->actions.resize(actions_len); // calculated above
for (unsigned long i = 0; i < actions_len; ++i) {
this->actions.emplace_back();
if (!table.ReadU8(&this->actions[i])) {
return parent->Error("SILPass: Failed to read actions[%u]", i);
}
}
if (this->oDebug) {
OpenTypeNAME* name = static_cast<OpenTypeNAME*>(
parent->GetFont()->GetTypedTable(OTS_TAG_NAME));
if (!name) {
return parent->Error("SILPass: Required name table is missing");
}
if (table.offset() != SILSub_init_offset + this->oDebug) {
return parent->Error("SILPass: oDebug check failed");
}
//this->dActions.resize(this->numRules);
for (unsigned i = 0; i < this->numRules; ++i) {
this->dActions.emplace_back();
if (!table.ReadU16(&this->dActions[i]) ||
!name->IsValidNameId(this->dActions[i])) {
return parent->Error("SILPass: Failed to read valid dActions[%u]", i);
}
}
unsigned dStates_len = this->numRows - this->numRules;
// this->numRules <= this->numRows
//this->dStates.resize(dStates_len);
for (unsigned i = 0; i < dStates_len; ++i) {
this->dStates.emplace_back();
if (!table.ReadU16(&this->dStates[i]) ||
!name->IsValidNameId(this->dStates[i])) {
return parent->Error("SILPass: Failed to read valid dStates[%u]", i);
}
}
//this->dCols.resize(this->numRules);
for (unsigned i = 0; i < this->numRules; ++i) {
this->dCols.emplace_back();
if (!table.ReadU16(&this->dCols[i]) ||
!name->IsValidNameId(this->dCols[i])) {
return parent->Error("SILPass: Failed to read valid dCols[%u]");
}
}
}
return true;
}
bool OpenTypeSILF::SILSub::
SILPass::SerializePart(OTSStream* out) const {
if (!out->WriteU8(this->flags) ||
!out->WriteU8(this->maxRuleLoop) ||
!out->WriteU8(this->maxRuleContext) ||
!out->WriteU8(this->maxBackup) ||
!out->WriteU16(this->numRules) ||
(parent->version >> 16 >= 2 &&
(!out->WriteU16(this->fsmOffset) ||
!out->WriteU32(this->pcCode))) ||
!out->WriteU32(this->rcCode) ||
!out->WriteU32(this->aCode) ||
!out->WriteU32(this->oDebug) ||
!out->WriteU16(this->numRows) ||
!out->WriteU16(this->numTransitional) ||
!out->WriteU16(this->numSuccess) ||
!out->WriteU16(this->numColumns) ||
!out->WriteU16(this->numRange) ||
!out->WriteU16(this->searchRange) ||
!out->WriteU16(this->entrySelector) ||
!out->WriteU16(this->rangeShift) ||
!SerializeParts(this->ranges, out) ||
!SerializeParts(this->oRuleMap, out) ||
!SerializeParts(this->ruleMap, out) ||
!out->WriteU8(this->minRulePreContext) ||
!out->WriteU8(this->maxRulePreContext) ||
!SerializeParts(this->startStates, out) ||
!SerializeParts(this->ruleSortKeys, out) ||
!SerializeParts(this->rulePreContext, out) ||
(parent->version >> 16 >= 2 &&
(!out->WriteU8(this->collisionThreshold) ||
!out->WriteU16(this->pConstraint))) ||
!SerializeParts(this->oConstraints, out) ||
!SerializeParts(this->oActions, out) ||
!SerializeParts(this->stateTrans, out) ||
(parent->version >> 16 >= 2 &&
(!out->WriteU8(this->reserved2) ||
!SerializeParts(this->passConstraints, out))) ||
!SerializeParts(this->ruleConstraints, out) ||
!SerializeParts(this->actions, out) ||
!SerializeParts(this->dActions, out) ||
!SerializeParts(this->dStates, out) ||
!SerializeParts(this->dCols, out)) {
return parent->Error("SILPass: Failed to write");
}
return true;
}
bool OpenTypeSILF::SILSub::SILPass::
PassRange::ParsePart(Buffer& table) {
if (!table.ReadU16(&this->firstId)) {
return parent->Error("PassRange: Failed to read firstId");
}
if (!table.ReadU16(&this->lastId)) {
return parent->Error("PassRange: Failed to read lastId");
}
if (!table.ReadU16(&this->colId)) {
return parent->Error("PassRange: Failed to read colId");
}
return true;
}
bool OpenTypeSILF::SILSub::SILPass::
PassRange::SerializePart(OTSStream* out) const {
if (!out->WriteU16(this->firstId) ||
!out->WriteU16(this->lastId) ||
!out->WriteU16(this->colId)) {
return parent->Error("PassRange: Failed to write");
}
return true;
}
} // namespace ots