/* * Copyright © 2018 Google, Inc. * * This is part of HarfBuzz, a text shaping library. * * Permission is hereby granted, without written agreement and without * license or royalty fees, to use, copy, modify, and distribute this * software and its documentation for any purpose, provided that the * above copyright notice and the following two paragraphs appear in * all copies of this software. * * IN NO EVENT SHALL THE COPYRIGHT HOLDER BE LIABLE TO ANY PARTY FOR * DIRECT, INDIRECT, SPECIAL, INCIDENTAL, OR CONSEQUENTIAL DAMAGES * ARISING OUT OF THE USE OF THIS SOFTWARE AND ITS DOCUMENTATION, EVEN * IF THE COPYRIGHT HOLDER HAS BEEN ADVISED OF THE POSSIBILITY OF SUCH * DAMAGE. * * THE COPYRIGHT HOLDER SPECIFICALLY DISCLAIMS ANY WARRANTIES, INCLUDING, * BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND * FITNESS FOR A PARTICULAR PURPOSE. THE SOFTWARE PROVIDED HEREUNDER IS * ON AN "AS IS" BASIS, AND THE COPYRIGHT HOLDER HAS NO OBLIGATION TO * PROVIDE MAINTENANCE, SUPPORT, UPDATES, ENHANCEMENTS, OR MODIFICATIONS. * * Google Author(s): Garret Rieger, Roderick Sheeter */ #include "hb-open-type.hh" #include "hb-ot-glyf-table.hh" #include "hb-set.h" #include "hb-subset-glyf.hh" static bool _calculate_glyf_and_loca_prime_size (const OT::glyf::accelerator_t &glyf, hb_vector_t<hb_codepoint_t> &glyph_ids, hb_bool_t drop_hints, bool *use_short_loca /* OUT */, unsigned int *glyf_size /* OUT */, unsigned int *loca_size /* OUT */, hb_vector_t<unsigned int> *instruction_ranges /* OUT */) { unsigned int total = 0; for (unsigned int i = 0; i < glyph_ids.len; i++) { hb_codepoint_t next_glyph = glyph_ids[i]; if (!instruction_ranges->resize (instruction_ranges->len + 2)) { DEBUG_MSG(SUBSET, nullptr, "Failed to resize instruction_ranges."); return false; } unsigned int *instruction_start = &(*instruction_ranges)[instruction_ranges->len - 2]; *instruction_start = 0; unsigned int *instruction_end = &(*instruction_ranges)[instruction_ranges->len - 1]; *instruction_end = 0; unsigned int start_offset, end_offset; if (unlikely (!(glyf.get_offsets (next_glyph, &start_offset, &end_offset) && glyf.remove_padding (start_offset, &end_offset)))) { DEBUG_MSG(SUBSET, nullptr, "Invalid gid %d", next_glyph); continue; } if (end_offset - start_offset < OT::glyf::GlyphHeader::static_size) continue; /* 0-length glyph */ if (drop_hints) { if (unlikely (!glyf.get_instruction_offsets (start_offset, end_offset, instruction_start, instruction_end))) { DEBUG_MSG(SUBSET, nullptr, "Unable to get instruction offsets for %d", next_glyph); return false; } } total += end_offset - start_offset - (*instruction_end - *instruction_start); /* round2 so short loca will work */ total += total % 2; } *glyf_size = total; *use_short_loca = (total <= 131070); *loca_size = (glyph_ids.len + 1) * (*use_short_loca ? sizeof (OT::HBUINT16) : sizeof (OT::HBUINT32)); DEBUG_MSG(SUBSET, nullptr, "preparing to subset glyf: final size %d, loca size %d, using %s loca", total, *loca_size, *use_short_loca ? "short" : "long"); return true; } static bool _write_loca_entry (unsigned int id, unsigned int offset, bool is_short, void *loca_prime, unsigned int loca_size) { unsigned int entry_size = is_short ? sizeof (OT::HBUINT16) : sizeof (OT::HBUINT32); if ((id + 1) * entry_size <= loca_size) { if (is_short) { ((OT::HBUINT16*) loca_prime) [id].set (offset / 2); } else { ((OT::HBUINT32*) loca_prime) [id].set (offset); } return true; } // Offset was not written because the write is out of bounds. DEBUG_MSG(SUBSET, nullptr, "WARNING: Attempted to write an out of bounds loca entry at index %d. Loca size is %d.", id, loca_size); return false; } static void _update_components (hb_subset_plan_t * plan, char * glyph_start, unsigned int length) { OT::glyf::CompositeGlyphHeader::Iterator iterator; if (OT::glyf::CompositeGlyphHeader::get_iterator (glyph_start, length, &iterator)) { do { hb_codepoint_t new_gid; if (!plan->new_gid_for_old_gid (iterator.current->glyphIndex, &new_gid)) continue; ((OT::glyf::CompositeGlyphHeader *) iterator.current)->glyphIndex.set (new_gid); } while (iterator.move_to_next ()); } } static bool _remove_composite_instruction_flag (char *glyf_prime, unsigned int length) { /* remove WE_HAVE_INSTRUCTIONS from flags in dest */ OT::glyf::CompositeGlyphHeader::Iterator composite_it; if (unlikely (!OT::glyf::CompositeGlyphHeader::get_iterator (glyf_prime, length, &composite_it))) return false; const OT::glyf::CompositeGlyphHeader *glyph; do { glyph = composite_it.current; OT::HBUINT16 *flags = const_cast<OT::HBUINT16 *> (&glyph->flags); flags->set ( (uint16_t) *flags & ~OT::glyf::CompositeGlyphHeader::WE_HAVE_INSTRUCTIONS); } while (composite_it.move_to_next ()); return true; } static bool _write_glyf_and_loca_prime (hb_subset_plan_t *plan, const OT::glyf::accelerator_t &glyf, const char *glyf_data, bool use_short_loca, hb_vector_t<unsigned int> &instruction_ranges, unsigned int glyf_prime_size, char *glyf_prime_data /* OUT */, unsigned int loca_prime_size, char *loca_prime_data /* OUT */) { hb_vector_t<hb_codepoint_t> &glyph_ids = plan->glyphs; char *glyf_prime_data_next = glyf_prime_data; bool success = true; for (unsigned int i = 0; i < glyph_ids.len; i++) { unsigned int start_offset, end_offset; if (unlikely (!(glyf.get_offsets (glyph_ids[i], &start_offset, &end_offset) && glyf.remove_padding (start_offset, &end_offset)))) end_offset = start_offset = 0; unsigned int instruction_start = instruction_ranges[i * 2]; unsigned int instruction_end = instruction_ranges[i * 2 + 1]; int length = end_offset - start_offset - (instruction_end - instruction_start); if (glyf_prime_data_next + length > glyf_prime_data + glyf_prime_size) { DEBUG_MSG(SUBSET, nullptr, "WARNING: Attempted to write an out of bounds glyph entry for gid %d (length %d)", i, length); return false; } if (instruction_start == instruction_end) memcpy (glyf_prime_data_next, glyf_data + start_offset, length); else { memcpy (glyf_prime_data_next, glyf_data + start_offset, instruction_start - start_offset); memcpy (glyf_prime_data_next + instruction_start - start_offset, glyf_data + instruction_end, end_offset - instruction_end); /* if the instructions end at the end this was a composite glyph, else simple */ if (instruction_end == end_offset) { if (unlikely (!_remove_composite_instruction_flag (glyf_prime_data_next, length))) return false; } else /* zero instruction length, which is just before instruction_start */ memset (glyf_prime_data_next + instruction_start - start_offset - 2, 0, 2); } success = success && _write_loca_entry (i, glyf_prime_data_next - glyf_prime_data, use_short_loca, loca_prime_data, loca_prime_size); _update_components (plan, glyf_prime_data_next, length); // TODO: don't align to two bytes if using long loca. glyf_prime_data_next += length + (length % 2); // Align to 2 bytes for short loca. } success = success && _write_loca_entry (glyph_ids.len, glyf_prime_data_next - glyf_prime_data, use_short_loca, loca_prime_data, loca_prime_size); return success; } static bool _hb_subset_glyf_and_loca (const OT::glyf::accelerator_t &glyf, const char *glyf_data, hb_subset_plan_t *plan, bool *use_short_loca, hb_blob_t **glyf_prime /* OUT */, hb_blob_t **loca_prime /* OUT */) { // TODO(grieger): Sanity check allocation size for the new table. hb_vector_t<hb_codepoint_t> &glyphs_to_retain = plan->glyphs; unsigned int glyf_prime_size; unsigned int loca_prime_size; hb_vector_t<unsigned int> instruction_ranges; instruction_ranges.init (); if (unlikely (!_calculate_glyf_and_loca_prime_size (glyf, glyphs_to_retain, plan->drop_hints, use_short_loca, &glyf_prime_size, &loca_prime_size, &instruction_ranges))) { instruction_ranges.fini (); return false; } char *glyf_prime_data = (char *) calloc (1, glyf_prime_size); char *loca_prime_data = (char *) calloc (1, loca_prime_size); if (unlikely (!_write_glyf_and_loca_prime (plan, glyf, glyf_data, *use_short_loca, instruction_ranges, glyf_prime_size, glyf_prime_data, loca_prime_size, loca_prime_data))) { free (glyf_prime_data); free (loca_prime_data); instruction_ranges.fini (); return false; } instruction_ranges.fini (); *glyf_prime = hb_blob_create (glyf_prime_data, glyf_prime_size, HB_MEMORY_MODE_READONLY, glyf_prime_data, free); *loca_prime = hb_blob_create (loca_prime_data, loca_prime_size, HB_MEMORY_MODE_READONLY, loca_prime_data, free); return true; } /** * hb_subset_glyf: * Subsets the glyph table according to a provided plan. * * Return value: subsetted glyf table. * * Since: 1.7.5 **/ bool hb_subset_glyf_and_loca (hb_subset_plan_t *plan, bool *use_short_loca, /* OUT */ hb_blob_t **glyf_prime, /* OUT */ hb_blob_t **loca_prime /* OUT */) { hb_blob_t *glyf_blob = hb_sanitize_context_t ().reference_table<OT::glyf> (plan->source); const char *glyf_data = hb_blob_get_data (glyf_blob, nullptr); OT::glyf::accelerator_t glyf; glyf.init (plan->source); bool result = _hb_subset_glyf_and_loca (glyf, glyf_data, plan, use_short_loca, glyf_prime, loca_prime); hb_blob_destroy (glyf_blob); glyf.fini (); return result; }