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author | Moonchild <moonchild@palemoon.org> | 2021-02-24 14:24:24 +0000 |
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committer | Moonchild <moonchild@palemoon.org> | 2021-02-24 14:24:24 +0000 |
commit | ad5a13bd501e379517da1a944c104a11d951a3f5 (patch) | |
tree | d8f1c83626aeb3f60f1e69ac63ae58afb3ef0302 /gfx | |
parent | 5587b6bf1af29552e102b23cfc8c602bf8728894 (diff) | |
download | uxp-ad5a13bd501e379517da1a944c104a11d951a3f5.tar.gz |
[OTS] Backport some upstream OTS commits.
Diffstat (limited to 'gfx')
-rw-r--r-- | gfx/ots/src/glyf.cc | 203 | ||||
-rw-r--r-- | gfx/ots/src/glyf.h | 28 |
2 files changed, 209 insertions, 22 deletions
diff --git a/gfx/ots/src/glyf.cc b/gfx/ots/src/glyf.cc index 0c19d6d7bc..322fd52fe5 100644 --- a/gfx/ots/src/glyf.cc +++ b/gfx/ots/src/glyf.cc @@ -99,6 +99,12 @@ bool OpenTypeGLYF::ParseSimpleGlyph(Buffer &glyph, num_flags = tmp_index + 1; } + if (this->maxp->version_1 && + num_flags > this->maxp->max_points) { + Warning("Number of contour points exceeds maxp maxPoints, adjusting limit."); + this->maxp->max_points = num_flags; + } + uint16_t bytecode_length = 0; if (!glyph.ReadU16(&bytecode_length)) { return Error("Can't read bytecode length"); @@ -144,7 +150,9 @@ bool OpenTypeGLYF::ParseSimpleGlyph(Buffer &glyph, #define WE_HAVE_A_TWO_BY_TWO (1u << 7) #define WE_HAVE_INSTRUCTIONS (1u << 8) -bool OpenTypeGLYF::ParseCompositeGlyph(Buffer &glyph) { +bool OpenTypeGLYF::ParseCompositeGlyph( + Buffer &glyph, + ComponentPointCount* component_point_count) { uint16_t flags = 0; uint16_t gid = 0; do { @@ -193,6 +201,10 @@ bool OpenTypeGLYF::ParseCompositeGlyph(Buffer &glyph) { return Error("Can't read transform"); } } + + // Push inital components on stack at level 1 + // to traverse them in parent function. + component_point_count->gid_stack.push_back({gid, 1}); } while (flags & MORE_COMPONENTS); if (flags & WE_HAVE_INSTRUCTIONS) { @@ -243,29 +255,14 @@ bool OpenTypeGLYF::Parse(const uint8_t *data, size_t length) { uint32_t current_offset = 0; for (unsigned i = 0; i < num_glyphs; ++i) { - const unsigned gly_offset = offsets[i]; - // The LOCA parser checks that these values are monotonic - const unsigned gly_length = offsets[i + 1] - offsets[i]; - if (!gly_length) { - // this glyph has no outline (e.g. the space charactor) + Buffer glyph(GetGlyphBufferSection(data, length, offsets, i)); + if (!glyph.buffer()) + return false; + if (!glyph.length()) { resulting_offsets[i] = current_offset; continue; } - if (gly_offset >= length) { - return Error("Glyph %d offset %d too high %ld", i, gly_offset, length); - } - // Since these are unsigned types, the compiler is not allowed to assume - // that they never overflow. - if (gly_offset + gly_length < gly_offset) { - return Error("Glyph %d length (%d < 0)!", i, gly_length); - } - if (gly_offset + gly_length > length) { - return Error("Glyph %d length %d too high", i, gly_length); - } - - Buffer glyph(data + gly_offset, gly_length); - int16_t num_contours, xmin, ymin, xmax, ymax; if (!glyph.ReadS16(&num_contours) || !glyph.ReadS16(&xmin) || @@ -302,9 +299,56 @@ bool OpenTypeGLYF::Parse(const uint8_t *data, size_t length) { return Error("Failed to parse glyph %d", i); } } else { - if (!ParseCompositeGlyph(glyph)) { + ComponentPointCount component_point_count; + if (!ParseCompositeGlyph(glyph, &component_point_count)) { return Error("Failed to parse glyph %d", i); } + + // Check maxComponentDepth and validate maxComponentPoints. + // ParseCompositeGlyph placed the first set of component glyphs on the + // component_point_count.gid_stack, which we start to process below. If a + // nested glyph is in turn a component glyph, additional glyphs are placed + // on the stack. + while (component_point_count.gid_stack.size()) { + GidAtLevel stack_top_gid = component_point_count.gid_stack.back(); + component_point_count.gid_stack.pop_back(); + + Buffer points_count_glyph(GetGlyphBufferSection( + data, + length, + offsets, + stack_top_gid.gid)); + + if (!points_count_glyph.buffer()) + return false; + + if (!points_count_glyph.length()) + continue; + + if (!TraverseComponentsCountingPoints(points_count_glyph, + i, + stack_top_gid.level, + &component_point_count)) { + return Error("Error validating component points and depth."); + } + + if (component_point_count.accumulated_component_points > + std::numeric_limits<uint16_t>::max()) { + return Error("Illegal composite points value " + "exceeding 0xFFFF for base glyph %d.", i); + } else if (this->maxp->version_1 && + component_point_count.accumulated_component_points > + this->maxp->max_c_points) { + Warning("Number of composite points in glyph %d exceeds " + "maxp maxCompositePoints: %d vs %d, adjusting limit.", + i, + component_point_count.accumulated_component_points, + this->maxp->max_c_points + ); + this->maxp->max_c_points = + component_point_count.accumulated_component_points; + } + } } size_t new_size = glyph.offset(); @@ -344,6 +388,123 @@ bool OpenTypeGLYF::Parse(const uint8_t *data, size_t length) { return true; } +bool OpenTypeGLYF::TraverseComponentsCountingPoints( + Buffer &glyph, + uint16_t base_glyph_id, + uint32_t level, + ComponentPointCount* component_point_count) { + + int16_t num_contours; + if (!glyph.ReadS16(&num_contours) || + !glyph.Skip(8)) { + return Error("Can't read glyph header."); + } + + if (num_contours <= -2) { + return Error("Bad number of contours %d in glyph.", num_contours); + } + + if (num_contours == 0) + return true; + + // FontTools counts a component level for each traversed recursion. We start + // counting at level 0. If we reach a level that's deeper than + // maxComponentDepth, we expand maxComponentDepth unless it's larger than + // the maximum possible depth. + if (level > std::numeric_limits<uint16_t>::max()) { + return Error("Illegal component depth exceeding 0xFFFF in base glyph id %d.", + base_glyph_id); + } else if (this->maxp->version_1 && + level > this->maxp->max_c_depth) { + this->maxp->max_c_depth = level; + Warning("Component depth exceeds maxp maxComponentDepth " + "in glyph %d, adjust limit to %d.", + base_glyph_id, level); + } + + if (num_contours > 0) { + uint16_t num_points = 0; + for (int i = 0; i < num_contours; ++i) { + // Simple glyph, add contour points. + uint16_t tmp_index = 0; + if (!glyph.ReadU16(&tmp_index)) { + return Error("Can't read contour index %d", i); + } + num_points = tmp_index + 1; + } + + component_point_count->accumulated_component_points += num_points; + return true; + } else { + assert(num_contours == -1); + + // Composite glyph, add gid's to stack. + uint16_t flags = 0; + uint16_t gid = 0; + do { + if (!glyph.ReadU16(&flags) || !glyph.ReadU16(&gid)) { + return Error("Can't read composite glyph flags or glyphIndex"); + } + + size_t skip_bytes = 0; + skip_bytes += flags & ARG_1_AND_2_ARE_WORDS ? 4 : 2; + + if (flags & WE_HAVE_A_SCALE) { + skip_bytes += 2; + } else if (flags & WE_HAVE_AN_X_AND_Y_SCALE) { + skip_bytes += 4; + } else if (flags & WE_HAVE_A_TWO_BY_TWO) { + skip_bytes += 8; + } + + if (!glyph.Skip(skip_bytes)) { + return Error("Failed to parse component glyph."); + } + + if (gid >= this->maxp->num_glyphs) { + return Error("Invalid glyph id used in composite glyph: %d", gid); + } + + component_point_count->gid_stack.push_back({gid, level + 1u}); + } while (flags & MORE_COMPONENTS); + return true; + } +} + +Buffer OpenTypeGLYF::GetGlyphBufferSection( + const uint8_t *data, + size_t length, + const std::vector<uint32_t>& loca_offsets, + unsigned glyph_id) { + + Buffer null_buffer(nullptr, 0); + + const unsigned gly_offset = loca_offsets[glyph_id]; + // The LOCA parser checks that these values are monotonic + const unsigned gly_length = loca_offsets[glyph_id + 1] - loca_offsets[glyph_id]; + if (!gly_length) { + // this glyph has no outline (e.g. the space character) + return Buffer(data + gly_offset, 0); + } + + if (gly_offset >= length) { + Error("Glyph %d offset %d too high %ld", glyph_id, gly_offset, length); + return null_buffer; + } + // Since these are unsigned types, the compiler is not allowed to assume + // that they never overflow. + if (gly_offset + gly_length < gly_offset) { + Error("Glyph %d length (%d < 0)!", glyph_id, gly_length); + return null_buffer; + } + if (gly_offset + gly_length > length) { + Error("Glyph %d length %d too high", glyph_id, gly_length); + return null_buffer; + } + + return Buffer(data + gly_offset, gly_length); +} + bool OpenTypeGLYF::Serialize(OTSStream *out) { for (unsigned i = 0; i < this->iov.size(); ++i) { if (!out->Write(this->iov[i].first, this->iov[i].second)) { diff --git a/gfx/ots/src/glyf.h b/gfx/ots/src/glyf.h index 1da94e4b94..08c585df34 100644 --- a/gfx/ots/src/glyf.h +++ b/gfx/ots/src/glyf.h @@ -23,12 +23,38 @@ class OpenTypeGLYF : public Table { bool Serialize(OTSStream *out); private: + struct GidAtLevel { + uint16_t gid; + uint32_t level; + }; + + struct ComponentPointCount { + ComponentPointCount() : accumulated_component_points(0) {}; + uint32_t accumulated_component_points; + std::vector<GidAtLevel> gid_stack; + }; + bool ParseFlagsForSimpleGlyph(Buffer &glyph, uint32_t num_flags, uint32_t *flag_index, uint32_t *coordinates_length); bool ParseSimpleGlyph(Buffer &glyph, int16_t num_contours); - bool ParseCompositeGlyph(Buffer &glyph); + bool ParseCompositeGlyph( + Buffer &glyph, + ComponentPointCount* component_point_count); + + + bool TraverseComponentsCountingPoints( + Buffer& glyph, + uint16_t base_glyph_id, + uint32_t level, + ComponentPointCount* component_point_count); + + Buffer GetGlyphBufferSection( + const uint8_t *data, + size_t length, + const std::vector<uint32_t>& loca_offsets, + unsigned glyph_id); OpenTypeMAXP* maxp; |