// Copyright (c) 2009 The Chromium 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 "kern.h" // kern - Kerning // http://www.microsoft.com/typography/otspec/kern.htm #define TABLE_NAME "kern" #define DROP_THIS_TABLE(msg_) \ do { \ OTS_FAILURE_MSG(msg_ ", table discarded"); \ delete file->kern; \ file->kern = 0; \ } while (0) namespace ots { bool ots_kern_parse(OpenTypeFile *file, const uint8_t *data, size_t length) { Buffer table(data, length); OpenTypeKERN *kern = new OpenTypeKERN; file->kern = kern; uint16_t num_tables = 0; if (!table.ReadU16(&kern->version) || !table.ReadU16(&num_tables)) { return OTS_FAILURE_MSG("Failed to read kern header"); } if (kern->version > 0) { DROP_THIS_TABLE("bad table version"); return true; } if (num_tables == 0) { DROP_THIS_TABLE("num_tables is zero"); return true; } kern->subtables.reserve(num_tables); for (unsigned i = 0; i < num_tables; ++i) { OpenTypeKERNFormat0 subtable; uint16_t sub_length = 0; if (!table.ReadU16(&subtable.version) || !table.ReadU16(&sub_length)) { return OTS_FAILURE_MSG("Failed to read kern subtable %d header", i); } if (subtable.version > 0) { OTS_WARNING("Bad subtable version: %d", subtable.version); continue; } const size_t current_offset = table.offset(); if (current_offset - 4 + sub_length > length) { return OTS_FAILURE_MSG("Bad kern subtable %d offset %ld", i, current_offset); } if (!table.ReadU16(&subtable.coverage)) { return OTS_FAILURE_MSG("Cailed to read kern subtable %d coverage", i); } if (!(subtable.coverage & 0x1)) { OTS_WARNING( "We don't support vertical data as the renderer doesn't support it."); continue; } if (subtable.coverage & 0xF0) { DROP_THIS_TABLE("Reserved fields should zero-filled."); return true; } const uint32_t format = (subtable.coverage & 0xFF00) >> 8; if (format != 0) { OTS_WARNING("Format %d is not supported.", format); continue; } // Parse the format 0 field. uint16_t num_pairs = 0; if (!table.ReadU16(&num_pairs) || !table.ReadU16(&subtable.search_range) || !table.ReadU16(&subtable.entry_selector) || !table.ReadU16(&subtable.range_shift)) { return OTS_FAILURE_MSG("Failed to read kern subtable %d format 0 fields", i); } if (!num_pairs) { DROP_THIS_TABLE("Zero length subtable is found."); return true; } // Sanity checks for search_range, entry_selector, and range_shift. See the // comment in ots.cc for details. const size_t kFormat0PairSize = 6; // left, right, and value. 2 bytes each. if (num_pairs > (65536 / kFormat0PairSize)) { // Some fonts (e.g. calibri.ttf, pykes_peak_zero.ttf) have pairs >= 10923. DROP_THIS_TABLE("Too large subtable."); return true; } unsigned max_pow2 = 0; while (1u << (max_pow2 + 1) <= num_pairs) { ++max_pow2; } const uint16_t expected_search_range = (1u << max_pow2) * kFormat0PairSize; if (subtable.search_range != expected_search_range) { OTS_WARNING("bad search range"); subtable.search_range = expected_search_range; } if (subtable.entry_selector != max_pow2) { return OTS_FAILURE_MSG("Bad subtable %d entry selector %d", i, subtable.entry_selector); } const uint16_t expected_range_shift = kFormat0PairSize * num_pairs - subtable.search_range; if (subtable.range_shift != expected_range_shift) { OTS_WARNING("bad range shift"); subtable.range_shift = expected_range_shift; } // Read kerning pairs. subtable.pairs.reserve(num_pairs); uint32_t last_pair = 0; for (unsigned j = 0; j < num_pairs; ++j) { OpenTypeKERNFormat0Pair kerning_pair; if (!table.ReadU16(&kerning_pair.left) || !table.ReadU16(&kerning_pair.right) || !table.ReadS16(&kerning_pair.value)) { return OTS_FAILURE_MSG("Failed to read subtable %d kerning pair %d", i, j); } const uint32_t current_pair = (kerning_pair.left << 16) + kerning_pair.right; if (j != 0 && current_pair <= last_pair) { // Many free fonts don't follow this rule, so we don't call OTS_FAILURE // in order to support these fonts. DROP_THIS_TABLE("Kerning pairs are not sorted."); return true; } last_pair = current_pair; subtable.pairs.push_back(kerning_pair); } kern->subtables.push_back(subtable); } if (!kern->subtables.size()) { DROP_THIS_TABLE("All subtables are removed."); return true; } return true; } bool ots_kern_should_serialise(OpenTypeFile *file) { if (!file->glyf) return false; // this table is not for CFF fonts. return file->kern != NULL; } bool ots_kern_serialise(OTSStream *out, OpenTypeFile *file) { const OpenTypeKERN *kern = file->kern; const uint16_t num_subtables = static_cast(kern->subtables.size()); if (num_subtables != kern->subtables.size() || !out->WriteU16(kern->version) || !out->WriteU16(num_subtables)) { return OTS_FAILURE_MSG("Can't write kern table header"); } for (uint16_t i = 0; i < num_subtables; ++i) { const size_t length = 14 + (6 * kern->subtables[i].pairs.size()); if (length > std::numeric_limits::max() || !out->WriteU16(kern->subtables[i].version) || !out->WriteU16(static_cast(length)) || !out->WriteU16(kern->subtables[i].coverage) || !out->WriteU16( static_cast(kern->subtables[i].pairs.size())) || !out->WriteU16(kern->subtables[i].search_range) || !out->WriteU16(kern->subtables[i].entry_selector) || !out->WriteU16(kern->subtables[i].range_shift)) { return OTS_FAILURE_MSG("Failed to write kern subtable %d", i); } for (unsigned j = 0; j < kern->subtables[i].pairs.size(); ++j) { if (!out->WriteU16(kern->subtables[i].pairs[j].left) || !out->WriteU16(kern->subtables[i].pairs[j].right) || !out->WriteS16(kern->subtables[i].pairs[j].value)) { return OTS_FAILURE_MSG("Failed to write kern pair %d for subtable %d", j, i); } } } return true; } void ots_kern_free(OpenTypeFile *file) { delete file->kern; } } // namespace ots #undef TABLE_NAME #undef DROP_THIS_TABLE