ref: d79946311bf8c72d31a8dadc8ae33e298554c61b
dir: /src/gxvalid/gxvcommn.c/
/**************************************************************************** * * gxvcommn.c * * TrueTypeGX/AAT common tables validation (body). * * Copyright (C) 2004-2020 by * suzuki toshiya, Masatake YAMATO, Red Hat K.K., * David Turner, Robert Wilhelm, and Werner Lemberg. * * This file is part of the FreeType project, and may only be used, * modified, and distributed under the terms of the FreeType project * license, LICENSE.TXT. By continuing to use, modify, or distribute * this file you indicate that you have read the license and * understand and accept it fully. * */ /**************************************************************************** * * gxvalid is derived from both gxlayout module and otvalid module. * Development of gxlayout is supported by the Information-technology * Promotion Agency(IPA), Japan. * */ #include "gxvcommn.h" /************************************************************************** * * The macro FT_COMPONENT is used in trace mode. It is an implicit * parameter of the FT_TRACE() and FT_ERROR() macros, used to print/log * messages during execution. */ #undef FT_COMPONENT #define FT_COMPONENT gxvcommon /*************************************************************************/ /*************************************************************************/ /***** *****/ /***** 16bit offset sorter *****/ /***** *****/ /*************************************************************************/ /*************************************************************************/ static int gxv_compare_ushort_offset( FT_UShort* a, FT_UShort* b ) { if ( *a < *b ) return -1; else if ( *a > *b ) return 1; else return 0; } FT_LOCAL_DEF( void ) gxv_set_length_by_ushort_offset( FT_UShort* offset, FT_UShort** length, FT_UShort* buff, FT_UInt nmemb, FT_UShort limit, GXV_Validator gxvalid ) { FT_UInt i; for ( i = 0; i < nmemb; i++ ) *(length[i]) = 0; for ( i = 0; i < nmemb; i++ ) buff[i] = offset[i]; buff[nmemb] = limit; ft_qsort( buff, ( nmemb + 1 ), sizeof ( FT_UShort ), ( int(*)(const void*, const void*) )gxv_compare_ushort_offset ); if ( buff[nmemb] > limit ) FT_INVALID_OFFSET; for ( i = 0; i < nmemb; i++ ) { FT_UInt j; for ( j = 0; j < nmemb; j++ ) if ( buff[j] == offset[i] ) break; if ( j == nmemb ) FT_INVALID_OFFSET; *(length[i]) = (FT_UShort)( buff[j + 1] - buff[j] ); if ( 0 != offset[i] && 0 == *(length[i]) ) FT_INVALID_OFFSET; } } /*************************************************************************/ /*************************************************************************/ /***** *****/ /***** 32bit offset sorter *****/ /***** *****/ /*************************************************************************/ /*************************************************************************/ static int gxv_compare_ulong_offset( FT_ULong* a, FT_ULong* b ) { if ( *a < *b ) return -1; else if ( *a > *b ) return 1; else return 0; } FT_LOCAL_DEF( void ) gxv_set_length_by_ulong_offset( FT_ULong* offset, FT_ULong** length, FT_ULong* buff, FT_UInt nmemb, FT_ULong limit, GXV_Validator gxvalid) { FT_UInt i; for ( i = 0; i < nmemb; i++ ) *(length[i]) = 0; for ( i = 0; i < nmemb; i++ ) buff[i] = offset[i]; buff[nmemb] = limit; ft_qsort( buff, ( nmemb + 1 ), sizeof ( FT_ULong ), ( int(*)(const void*, const void*) )gxv_compare_ulong_offset ); if ( buff[nmemb] > limit ) FT_INVALID_OFFSET; for ( i = 0; i < nmemb; i++ ) { FT_UInt j; for ( j = 0; j < nmemb; j++ ) if ( buff[j] == offset[i] ) break; if ( j == nmemb ) FT_INVALID_OFFSET; *(length[i]) = buff[j + 1] - buff[j]; if ( 0 != offset[i] && 0 == *(length[i]) ) FT_INVALID_OFFSET; } } /*************************************************************************/ /*************************************************************************/ /***** *****/ /***** scan value array and get min & max *****/ /***** *****/ /*************************************************************************/ /*************************************************************************/ FT_LOCAL_DEF( void ) gxv_array_getlimits_byte( FT_Bytes table, FT_Bytes limit, FT_Byte* min, FT_Byte* max, GXV_Validator gxvalid ) { FT_Bytes p = table; *min = 0xFF; *max = 0x00; while ( p < limit ) { FT_Byte val; GXV_LIMIT_CHECK( 1 ); val = FT_NEXT_BYTE( p ); *min = (FT_Byte)FT_MIN( *min, val ); *max = (FT_Byte)FT_MAX( *max, val ); } gxvalid->subtable_length = (FT_ULong)( p - table ); } FT_LOCAL_DEF( void ) gxv_array_getlimits_ushort( FT_Bytes table, FT_Bytes limit, FT_UShort* min, FT_UShort* max, GXV_Validator gxvalid ) { FT_Bytes p = table; *min = 0xFFFFU; *max = 0x0000; while ( p < limit ) { FT_UShort val; GXV_LIMIT_CHECK( 2 ); val = FT_NEXT_USHORT( p ); *min = (FT_Byte)FT_MIN( *min, val ); *max = (FT_Byte)FT_MAX( *max, val ); } gxvalid->subtable_length = (FT_ULong)( p - table ); } /*************************************************************************/ /*************************************************************************/ /***** *****/ /***** BINSEARCHHEADER *****/ /***** *****/ /*************************************************************************/ /*************************************************************************/ typedef struct GXV_BinSrchHeader_ { FT_UShort unitSize; FT_UShort nUnits; FT_UShort searchRange; FT_UShort entrySelector; FT_UShort rangeShift; } GXV_BinSrchHeader; static void gxv_BinSrchHeader_check_consistency( GXV_BinSrchHeader* binSrchHeader, GXV_Validator gxvalid ) { FT_UShort searchRange; FT_UShort entrySelector; FT_UShort rangeShift; if ( binSrchHeader->unitSize == 0 ) FT_INVALID_DATA; if ( binSrchHeader->nUnits == 0 ) { if ( binSrchHeader->searchRange == 0 && binSrchHeader->entrySelector == 0 && binSrchHeader->rangeShift == 0 ) return; else FT_INVALID_DATA; } for ( searchRange = 1, entrySelector = 1; ( searchRange * 2 ) <= binSrchHeader->nUnits && searchRange < 0x8000U; searchRange *= 2, entrySelector++ ) ; entrySelector--; searchRange = (FT_UShort)( searchRange * binSrchHeader->unitSize ); rangeShift = (FT_UShort)( binSrchHeader->nUnits * binSrchHeader->unitSize - searchRange ); if ( searchRange != binSrchHeader->searchRange || entrySelector != binSrchHeader->entrySelector || rangeShift != binSrchHeader->rangeShift ) { GXV_TRACE(( "Inconsistency found in BinSrchHeader\n" )); GXV_TRACE(( "originally: unitSize=%d, nUnits=%d, " "searchRange=%d, entrySelector=%d, " "rangeShift=%d\n", binSrchHeader->unitSize, binSrchHeader->nUnits, binSrchHeader->searchRange, binSrchHeader->entrySelector, binSrchHeader->rangeShift )); GXV_TRACE(( "calculated: unitSize=%d, nUnits=%d, " "searchRange=%d, entrySelector=%d, " "rangeShift=%d\n", binSrchHeader->unitSize, binSrchHeader->nUnits, searchRange, entrySelector, rangeShift )); GXV_SET_ERR_IF_PARANOID( FT_INVALID_DATA ); } } /* * parser & validator of BinSrchHeader * which is used in LookupTable format 2, 4, 6. * * Essential parameters (unitSize, nUnits) are returned by * given pointer, others (searchRange, entrySelector, rangeShift) * can be calculated by essential parameters, so they are just * validated and discarded. * * However, wrong values in searchRange, entrySelector, rangeShift * won't cause fatal errors, because these parameters might be * only used in old m68k font driver in MacOS. * -- suzuki toshiya <mpsuzuki@hiroshima-u.ac.jp> */ FT_LOCAL_DEF( void ) gxv_BinSrchHeader_validate( FT_Bytes table, FT_Bytes limit, FT_UShort* unitSize_p, FT_UShort* nUnits_p, GXV_Validator gxvalid ) { FT_Bytes p = table; GXV_BinSrchHeader binSrchHeader; GXV_NAME_ENTER( "BinSrchHeader validate" ); if ( *unitSize_p == 0 ) { GXV_LIMIT_CHECK( 2 ); binSrchHeader.unitSize = FT_NEXT_USHORT( p ); } else binSrchHeader.unitSize = *unitSize_p; if ( *nUnits_p == 0 ) { GXV_LIMIT_CHECK( 2 ); binSrchHeader.nUnits = FT_NEXT_USHORT( p ); } else binSrchHeader.nUnits = *nUnits_p; GXV_LIMIT_CHECK( 2 + 2 + 2 ); binSrchHeader.searchRange = FT_NEXT_USHORT( p ); binSrchHeader.entrySelector = FT_NEXT_USHORT( p ); binSrchHeader.rangeShift = FT_NEXT_USHORT( p ); GXV_TRACE(( "nUnits %d\n", binSrchHeader.nUnits )); gxv_BinSrchHeader_check_consistency( &binSrchHeader, gxvalid ); if ( *unitSize_p == 0 ) *unitSize_p = binSrchHeader.unitSize; if ( *nUnits_p == 0 ) *nUnits_p = binSrchHeader.nUnits; gxvalid->subtable_length = (FT_ULong)( p - table ); GXV_EXIT; } /*************************************************************************/ /*************************************************************************/ /***** *****/ /***** LOOKUP TABLE *****/ /***** *****/ /*************************************************************************/ /*************************************************************************/ #define GXV_LOOKUP_VALUE_LOAD( P, SIGNSPEC ) \ ( P += 2, gxv_lookup_value_load( P - 2, SIGNSPEC ) ) static GXV_LookupValueDesc gxv_lookup_value_load( FT_Bytes p, GXV_LookupValue_SignSpec signspec ) { GXV_LookupValueDesc v; if ( signspec == GXV_LOOKUPVALUE_UNSIGNED ) v.u = FT_NEXT_USHORT( p ); else v.s = FT_NEXT_SHORT( p ); return v; } #define GXV_UNITSIZE_VALIDATE( FORMAT, UNITSIZE, NUNITS, CORRECTSIZE ) \ FT_BEGIN_STMNT \ if ( UNITSIZE != CORRECTSIZE ) \ { \ FT_ERROR(( "unitSize=%d differs from" \ " expected unitSize=%d" \ " in LookupTable %s\n", \ UNITSIZE, CORRECTSIZE, FORMAT )); \ if ( UNITSIZE != 0 && NUNITS != 0 ) \ { \ FT_ERROR(( " cannot validate anymore\n" )); \ FT_INVALID_FORMAT; \ } \ else \ FT_ERROR(( " forcibly continues\n" )); \ } \ FT_END_STMNT /* ================= Simple Array Format 0 Lookup Table ================ */ static void gxv_LookupTable_fmt0_validate( FT_Bytes table, FT_Bytes limit, GXV_Validator gxvalid ) { FT_Bytes p = table; FT_UShort i; GXV_LookupValueDesc value; GXV_NAME_ENTER( "LookupTable format 0" ); GXV_LIMIT_CHECK( 2 * gxvalid->face->num_glyphs ); for ( i = 0; i < gxvalid->face->num_glyphs; i++ ) { GXV_LIMIT_CHECK( 2 ); if ( p + 2 >= limit ) /* some fonts have too-short fmt0 array */ { GXV_TRACE(( "too short, glyphs %d - %d are missing\n", i, gxvalid->face->num_glyphs )); GXV_SET_ERR_IF_PARANOID( FT_INVALID_GLYPH_ID ); break; } value = GXV_LOOKUP_VALUE_LOAD( p, gxvalid->lookupval_sign ); gxvalid->lookupval_func( i, &value, gxvalid ); } gxvalid->subtable_length = (FT_ULong)( p - table ); GXV_EXIT; } /* ================= Segment Single Format 2 Lookup Table ============== */ /* * Apple spec says: * * To guarantee that a binary search terminates, you must include one or * more special `end of search table' values at the end of the data to * be searched. The number of termination values that need to be * included is table-specific. The value that indicates binary search * termination is 0xFFFF. * * The problem is that nUnits does not include this end-marker. It's * quite difficult to discriminate whether the following 0xFFFF comes from * the end-marker or some next data. * * -- suzuki toshiya <mpsuzuki@hiroshima-u.ac.jp> */ static void gxv_LookupTable_fmt2_skip_endmarkers( FT_Bytes table, FT_UShort unitSize, GXV_Validator gxvalid ) { FT_Bytes p = table; while ( ( p + 4 ) < gxvalid->root->limit ) { if ( p[0] != 0xFF || p[1] != 0xFF || /* lastGlyph */ p[2] != 0xFF || p[3] != 0xFF ) /* firstGlyph */ break; p += unitSize; } gxvalid->subtable_length = (FT_ULong)( p - table ); } static void gxv_LookupTable_fmt2_validate( FT_Bytes table, FT_Bytes limit, GXV_Validator gxvalid ) { FT_Bytes p = table; FT_UShort gid; FT_UShort unitSize; FT_UShort nUnits; FT_UShort unit; FT_UShort lastGlyph; FT_UShort firstGlyph; GXV_LookupValueDesc value; GXV_NAME_ENTER( "LookupTable format 2" ); unitSize = nUnits = 0; gxv_BinSrchHeader_validate( p, limit, &unitSize, &nUnits, gxvalid ); p += gxvalid->subtable_length; GXV_UNITSIZE_VALIDATE( "format2", unitSize, nUnits, 6 ); for ( unit = 0, gid = 0; unit < nUnits; unit++ ) { GXV_LIMIT_CHECK( 2 + 2 + 2 ); lastGlyph = FT_NEXT_USHORT( p ); firstGlyph = FT_NEXT_USHORT( p ); value = GXV_LOOKUP_VALUE_LOAD( p, gxvalid->lookupval_sign ); gxv_glyphid_validate( firstGlyph, gxvalid ); gxv_glyphid_validate( lastGlyph, gxvalid ); if ( lastGlyph < gid ) { GXV_TRACE(( "reverse ordered segment specification:" " lastGlyph[%d]=%d < lastGlyph[%d]=%d\n", unit, lastGlyph, unit - 1 , gid )); GXV_SET_ERR_IF_PARANOID( FT_INVALID_GLYPH_ID ); } if ( lastGlyph < firstGlyph ) { GXV_TRACE(( "reverse ordered range specification at unit %d:", " lastGlyph %d < firstGlyph %d ", unit, lastGlyph, firstGlyph )); GXV_SET_ERR_IF_PARANOID( FT_INVALID_GLYPH_ID ); if ( gxvalid->root->level == FT_VALIDATE_TIGHT ) continue; /* ftxvalidator silently skips such an entry */ FT_TRACE4(( "continuing with exchanged values\n" )); gid = firstGlyph; firstGlyph = lastGlyph; lastGlyph = gid; } for ( gid = firstGlyph; gid <= lastGlyph; gid++ ) gxvalid->lookupval_func( gid, &value, gxvalid ); } gxv_LookupTable_fmt2_skip_endmarkers( p, unitSize, gxvalid ); p += gxvalid->subtable_length; gxvalid->subtable_length = (FT_ULong)( p - table ); GXV_EXIT; } /* ================= Segment Array Format 4 Lookup Table =============== */ static void gxv_LookupTable_fmt4_validate( FT_Bytes table, FT_Bytes limit, GXV_Validator gxvalid ) { FT_Bytes p = table; FT_UShort unit; FT_UShort gid; FT_UShort unitSize; FT_UShort nUnits; FT_UShort lastGlyph; FT_UShort firstGlyph; GXV_LookupValueDesc base_value; GXV_LookupValueDesc value; GXV_NAME_ENTER( "LookupTable format 4" ); unitSize = nUnits = 0; gxv_BinSrchHeader_validate( p, limit, &unitSize, &nUnits, gxvalid ); p += gxvalid->subtable_length; GXV_UNITSIZE_VALIDATE( "format4", unitSize, nUnits, 6 ); for ( unit = 0, gid = 0; unit < nUnits; unit++ ) { GXV_LIMIT_CHECK( 2 + 2 ); lastGlyph = FT_NEXT_USHORT( p ); firstGlyph = FT_NEXT_USHORT( p ); gxv_glyphid_validate( firstGlyph, gxvalid ); gxv_glyphid_validate( lastGlyph, gxvalid ); if ( lastGlyph < gid ) { GXV_TRACE(( "reverse ordered segment specification:" " lastGlyph[%d]=%d < lastGlyph[%d]=%d\n", unit, lastGlyph, unit - 1 , gid )); GXV_SET_ERR_IF_PARANOID( FT_INVALID_GLYPH_ID ); } if ( lastGlyph < firstGlyph ) { GXV_TRACE(( "reverse ordered range specification at unit %d:", " lastGlyph %d < firstGlyph %d ", unit, lastGlyph, firstGlyph )); GXV_SET_ERR_IF_PARANOID( FT_INVALID_GLYPH_ID ); if ( gxvalid->root->level == FT_VALIDATE_TIGHT ) continue; /* ftxvalidator silently skips such an entry */ FT_TRACE4(( "continuing with exchanged values\n" )); gid = firstGlyph; firstGlyph = lastGlyph; lastGlyph = gid; } GXV_LIMIT_CHECK( 2 ); base_value = GXV_LOOKUP_VALUE_LOAD( p, GXV_LOOKUPVALUE_UNSIGNED ); for ( gid = firstGlyph; gid <= lastGlyph; gid++ ) { value = gxvalid->lookupfmt4_trans( (FT_UShort)( gid - firstGlyph ), &base_value, limit, gxvalid ); gxvalid->lookupval_func( gid, &value, gxvalid ); } } gxv_LookupTable_fmt2_skip_endmarkers( p, unitSize, gxvalid ); p += gxvalid->subtable_length; gxvalid->subtable_length = (FT_ULong)( p - table ); GXV_EXIT; } /* ================= Segment Table Format 6 Lookup Table =============== */ static void gxv_LookupTable_fmt6_skip_endmarkers( FT_Bytes table, FT_UShort unitSize, GXV_Validator gxvalid ) { FT_Bytes p = table; while ( p < gxvalid->root->limit ) { if ( p[0] != 0xFF || p[1] != 0xFF ) break; p += unitSize; } gxvalid->subtable_length = (FT_ULong)( p - table ); } static void gxv_LookupTable_fmt6_validate( FT_Bytes table, FT_Bytes limit, GXV_Validator gxvalid ) { FT_Bytes p = table; FT_UShort unit; FT_UShort prev_glyph; FT_UShort unitSize; FT_UShort nUnits; FT_UShort glyph; GXV_LookupValueDesc value; GXV_NAME_ENTER( "LookupTable format 6" ); unitSize = nUnits = 0; gxv_BinSrchHeader_validate( p, limit, &unitSize, &nUnits, gxvalid ); p += gxvalid->subtable_length; GXV_UNITSIZE_VALIDATE( "format6", unitSize, nUnits, 4 ); for ( unit = 0, prev_glyph = 0; unit < nUnits; unit++ ) { GXV_LIMIT_CHECK( 2 + 2 ); glyph = FT_NEXT_USHORT( p ); value = GXV_LOOKUP_VALUE_LOAD( p, gxvalid->lookupval_sign ); if ( gxv_glyphid_validate( glyph, gxvalid ) ) GXV_TRACE(( " endmarker found within defined range" " (entry %d < nUnits=%d)\n", unit, nUnits )); if ( prev_glyph > glyph ) { GXV_TRACE(( "current gid 0x%04x < previous gid 0x%04x\n", glyph, prev_glyph )); GXV_SET_ERR_IF_PARANOID( FT_INVALID_GLYPH_ID ); } prev_glyph = glyph; gxvalid->lookupval_func( glyph, &value, gxvalid ); } gxv_LookupTable_fmt6_skip_endmarkers( p, unitSize, gxvalid ); p += gxvalid->subtable_length; gxvalid->subtable_length = (FT_ULong)( p - table ); GXV_EXIT; } /* ================= Trimmed Array Format 8 Lookup Table =============== */ static void gxv_LookupTable_fmt8_validate( FT_Bytes table, FT_Bytes limit, GXV_Validator gxvalid ) { FT_Bytes p = table; FT_UShort i; GXV_LookupValueDesc value; FT_UShort firstGlyph; FT_UShort glyphCount; GXV_NAME_ENTER( "LookupTable format 8" ); /* firstGlyph + glyphCount */ GXV_LIMIT_CHECK( 2 + 2 ); firstGlyph = FT_NEXT_USHORT( p ); glyphCount = FT_NEXT_USHORT( p ); gxv_glyphid_validate( firstGlyph, gxvalid ); gxv_glyphid_validate( (FT_UShort)( firstGlyph + glyphCount ), gxvalid ); /* valueArray */ for ( i = 0; i < glyphCount; i++ ) { GXV_LIMIT_CHECK( 2 ); value = GXV_LOOKUP_VALUE_LOAD( p, gxvalid->lookupval_sign ); gxvalid->lookupval_func( (FT_UShort)( firstGlyph + i ), &value, gxvalid ); } gxvalid->subtable_length = (FT_ULong)( p - table ); GXV_EXIT; } FT_LOCAL_DEF( void ) gxv_LookupTable_validate( FT_Bytes table, FT_Bytes limit, GXV_Validator gxvalid ) { FT_Bytes p = table; FT_UShort format; GXV_Validate_Func fmt_funcs_table[] = { gxv_LookupTable_fmt0_validate, /* 0 */ NULL, /* 1 */ gxv_LookupTable_fmt2_validate, /* 2 */ NULL, /* 3 */ gxv_LookupTable_fmt4_validate, /* 4 */ NULL, /* 5 */ gxv_LookupTable_fmt6_validate, /* 6 */ NULL, /* 7 */ gxv_LookupTable_fmt8_validate, /* 8 */ }; GXV_Validate_Func func; GXV_NAME_ENTER( "LookupTable" ); /* lookuptbl_head may be used in fmt4 transit function. */ gxvalid->lookuptbl_head = table; /* format */ GXV_LIMIT_CHECK( 2 ); format = FT_NEXT_USHORT( p ); GXV_TRACE(( " (format %d)\n", format )); if ( format > 8 ) FT_INVALID_FORMAT; func = fmt_funcs_table[format]; if ( !func ) FT_INVALID_FORMAT; func( p, limit, gxvalid ); p += gxvalid->subtable_length; gxvalid->subtable_length = (FT_ULong)( p - table ); GXV_EXIT; } /*************************************************************************/ /*************************************************************************/ /***** *****/ /***** Glyph ID *****/ /***** *****/ /*************************************************************************/ /*************************************************************************/ FT_LOCAL_DEF( FT_Int ) gxv_glyphid_validate( FT_UShort gid, GXV_Validator gxvalid ) { FT_Face face; if ( gid == 0xFFFFU ) { GXV_EXIT; return 1; } face = gxvalid->face; if ( face->num_glyphs < gid ) { GXV_TRACE(( " gxv_glyphid_check() gid overflow: num_glyphs %d < %d\n", face->num_glyphs, gid )); GXV_SET_ERR_IF_PARANOID( FT_INVALID_GLYPH_ID ); } return 0; } /*************************************************************************/ /*************************************************************************/ /***** *****/ /***** CONTROL POINT *****/ /***** *****/ /*************************************************************************/ /*************************************************************************/ FT_LOCAL_DEF( void ) gxv_ctlPoint_validate( FT_UShort gid, FT_UShort ctl_point, GXV_Validator gxvalid ) { FT_Face face; FT_Error error; FT_GlyphSlot glyph; FT_Outline outline; FT_UShort n_points; face = gxvalid->face; error = FT_Load_Glyph( face, gid, FT_LOAD_NO_BITMAP | FT_LOAD_IGNORE_TRANSFORM ); if ( error ) FT_INVALID_GLYPH_ID; glyph = face->glyph; outline = glyph->outline; n_points = (FT_UShort)outline.n_points; if ( !( ctl_point < n_points ) ) FT_INVALID_DATA; } /*************************************************************************/ /*************************************************************************/ /***** *****/ /***** SFNT NAME *****/ /***** *****/ /*************************************************************************/ /*************************************************************************/ FT_LOCAL_DEF( void ) gxv_sfntName_validate( FT_UShort name_index, FT_UShort min_index, FT_UShort max_index, GXV_Validator gxvalid ) { FT_SfntName name; FT_UInt i; FT_UInt nnames; GXV_NAME_ENTER( "sfntName" ); if ( name_index < min_index || max_index < name_index ) FT_INVALID_FORMAT; nnames = FT_Get_Sfnt_Name_Count( gxvalid->face ); for ( i = 0; i < nnames; i++ ) { if ( FT_Get_Sfnt_Name( gxvalid->face, i, &name ) != FT_Err_Ok ) continue; if ( name.name_id == name_index ) goto Out; } GXV_TRACE(( " nameIndex = %d (UNTITLED)\n", name_index )); FT_INVALID_DATA; goto Exit; /* make compiler happy */ Out: FT_TRACE1(( " nameIndex = %d (", name_index )); GXV_TRACE_HEXDUMP_SFNTNAME( name ); FT_TRACE1(( ")\n" )); Exit: GXV_EXIT; } /*************************************************************************/ /*************************************************************************/ /***** *****/ /***** STATE TABLE *****/ /***** *****/ /*************************************************************************/ /*************************************************************************/ /* -------------------------- Class Table --------------------------- */ /* * highestClass specifies how many classes are defined in this * Class Subtable. Apple spec does not mention whether undefined * holes in the class (e.g.: 0-3 are predefined, 4 is unused, 5 is used) * are permitted. At present, holes in a defined class are not checked. * -- suzuki toshiya <mpsuzuki@hiroshima-u.ac.jp> */ static void gxv_ClassTable_validate( FT_Bytes table, FT_UShort* length_p, FT_UShort stateSize, FT_Byte* maxClassID_p, GXV_Validator gxvalid ) { FT_Bytes p = table; FT_Bytes limit = table + *length_p; FT_UShort firstGlyph; FT_UShort nGlyphs; GXV_NAME_ENTER( "ClassTable" ); *maxClassID_p = 3; /* Classes 0, 2, and 3 are predefined */ GXV_LIMIT_CHECK( 2 + 2 ); firstGlyph = FT_NEXT_USHORT( p ); nGlyphs = FT_NEXT_USHORT( p ); GXV_TRACE(( " (firstGlyph = %d, nGlyphs = %d)\n", firstGlyph, nGlyphs )); if ( !nGlyphs ) goto Out; gxv_glyphid_validate( (FT_UShort)( firstGlyph + nGlyphs ), gxvalid ); { FT_Byte nGlyphInClass[256]; FT_Byte classID; FT_UShort i; FT_MEM_ZERO( nGlyphInClass, 256 ); for ( i = 0; i < nGlyphs; i++ ) { GXV_LIMIT_CHECK( 1 ); classID = FT_NEXT_BYTE( p ); switch ( classID ) { /* following classes should not appear in class array */ case 0: /* end of text */ case 2: /* out of bounds */ case 3: /* end of line */ FT_INVALID_DATA; break; case 1: /* out of bounds */ default: /* user-defined: 4 - ( stateSize - 1 ) */ if ( classID >= stateSize ) FT_INVALID_DATA; /* assign glyph to undefined state */ nGlyphInClass[classID]++; break; } } *length_p = (FT_UShort)( p - table ); /* scan max ClassID in use */ for ( i = 0; i < stateSize; i++ ) if ( ( 3 < i ) && ( nGlyphInClass[i] > 0 ) ) *maxClassID_p = (FT_Byte)i; /* XXX: Check Range? */ } Out: GXV_TRACE(( "Declared stateSize=0x%02x, Used maxClassID=0x%02x\n", stateSize, *maxClassID_p )); GXV_EXIT; } /* --------------------------- State Array ----------------------------- */ static void gxv_StateArray_validate( FT_Bytes table, FT_UShort* length_p, FT_Byte maxClassID, FT_UShort stateSize, FT_Byte* maxState_p, FT_Byte* maxEntry_p, GXV_Validator gxvalid ) { FT_Bytes p = table; FT_Bytes limit = table + *length_p; FT_Byte clazz; FT_Byte entry; FT_UNUSED( stateSize ); /* for the non-debugging case */ GXV_NAME_ENTER( "StateArray" ); GXV_TRACE(( "parse %d bytes by stateSize=%d maxClassID=%d\n", (int)(*length_p), stateSize, (int)(maxClassID) )); /* * 2 states are predefined and must be described in StateArray: * state 0 (start of text), 1 (start of line) */ GXV_LIMIT_CHECK( ( 1 + maxClassID ) * 2 ); *maxState_p = 0; *maxEntry_p = 0; /* read if enough to read another state */ while ( p + ( 1 + maxClassID ) <= limit ) { (*maxState_p)++; for ( clazz = 0; clazz <= maxClassID; clazz++ ) { entry = FT_NEXT_BYTE( p ); *maxEntry_p = (FT_Byte)FT_MAX( *maxEntry_p, entry ); } } GXV_TRACE(( "parsed: maxState=%d, maxEntry=%d\n", *maxState_p, *maxEntry_p )); *length_p = (FT_UShort)( p - table ); GXV_EXIT; } /* --------------------------- Entry Table ----------------------------- */ static void gxv_EntryTable_validate( FT_Bytes table, FT_UShort* length_p, FT_Byte maxEntry, FT_UShort stateArray, FT_UShort stateArray_length, FT_Byte maxClassID, FT_Bytes statetable_table, FT_Bytes statetable_limit, GXV_Validator gxvalid ) { FT_Bytes p = table; FT_Bytes limit = table + *length_p; FT_Byte entry; FT_Byte state; FT_Int entrySize = 2 + 2 + GXV_GLYPHOFFSET_SIZE( statetable ); GXV_XStateTable_GlyphOffsetDesc glyphOffset; GXV_NAME_ENTER( "EntryTable" ); GXV_TRACE(( "maxEntry=%d entrySize=%d\n", maxEntry, entrySize )); if ( ( maxEntry + 1 ) * entrySize > *length_p ) { GXV_SET_ERR_IF_PARANOID( FT_INVALID_TOO_SHORT ); /* ftxvalidator and FontValidator both warn and continue */ maxEntry = (FT_Byte)( *length_p / entrySize - 1 ); GXV_TRACE(( "too large maxEntry, shrinking to %d fit EntryTable length\n", maxEntry )); } for ( entry = 0; entry <= maxEntry; entry++ ) { FT_UShort newState; FT_UShort flags; GXV_LIMIT_CHECK( 2 + 2 ); newState = FT_NEXT_USHORT( p ); flags = FT_NEXT_USHORT( p ); if ( newState < stateArray || stateArray + stateArray_length < newState ) { GXV_TRACE(( " newState offset 0x%04x is out of stateArray\n", newState )); GXV_SET_ERR_IF_PARANOID( FT_INVALID_OFFSET ); continue; } if ( 0 != ( ( newState - stateArray ) % ( 1 + maxClassID ) ) ) { GXV_TRACE(( " newState offset 0x%04x is not aligned to %d-classes\n", newState, 1 + maxClassID )); GXV_SET_ERR_IF_PARANOID( FT_INVALID_OFFSET ); continue; } state = (FT_Byte)( ( newState - stateArray ) / ( 1 + maxClassID ) ); switch ( GXV_GLYPHOFFSET_FMT( statetable ) ) { case GXV_GLYPHOFFSET_NONE: glyphOffset.uc = 0; /* make compiler happy */ break; case GXV_GLYPHOFFSET_UCHAR: glyphOffset.uc = FT_NEXT_BYTE( p ); break; case GXV_GLYPHOFFSET_CHAR: glyphOffset.c = FT_NEXT_CHAR( p ); break; case GXV_GLYPHOFFSET_USHORT: glyphOffset.u = FT_NEXT_USHORT( p ); break; case GXV_GLYPHOFFSET_SHORT: glyphOffset.s = FT_NEXT_SHORT( p ); break; case GXV_GLYPHOFFSET_ULONG: glyphOffset.ul = FT_NEXT_ULONG( p ); break; case GXV_GLYPHOFFSET_LONG: glyphOffset.l = FT_NEXT_LONG( p ); break; } if ( gxvalid->statetable.entry_validate_func ) gxvalid->statetable.entry_validate_func( state, flags, &glyphOffset, statetable_table, statetable_limit, gxvalid ); } *length_p = (FT_UShort)( p - table ); GXV_EXIT; } /* =========================== State Table ============================= */ FT_LOCAL_DEF( void ) gxv_StateTable_subtable_setup( FT_UShort table_size, FT_UShort classTable, FT_UShort stateArray, FT_UShort entryTable, FT_UShort* classTable_length_p, FT_UShort* stateArray_length_p, FT_UShort* entryTable_length_p, GXV_Validator gxvalid ) { FT_UShort o[3]; FT_UShort* l[3]; FT_UShort buff[4]; o[0] = classTable; o[1] = stateArray; o[2] = entryTable; l[0] = classTable_length_p; l[1] = stateArray_length_p; l[2] = entryTable_length_p; gxv_set_length_by_ushort_offset( o, l, buff, 3, table_size, gxvalid ); } FT_LOCAL_DEF( void ) gxv_StateTable_validate( FT_Bytes table, FT_Bytes limit, GXV_Validator gxvalid ) { FT_UShort stateSize; FT_UShort classTable; /* offset to Class(Sub)Table */ FT_UShort stateArray; /* offset to StateArray */ FT_UShort entryTable; /* offset to EntryTable */ FT_UShort classTable_length; FT_UShort stateArray_length; FT_UShort entryTable_length; FT_Byte maxClassID; FT_Byte maxState; FT_Byte maxEntry; GXV_StateTable_Subtable_Setup_Func setup_func; FT_Bytes p = table; GXV_NAME_ENTER( "StateTable" ); GXV_TRACE(( "StateTable header\n" )); GXV_LIMIT_CHECK( 2 + 2 + 2 + 2 ); stateSize = FT_NEXT_USHORT( p ); classTable = FT_NEXT_USHORT( p ); stateArray = FT_NEXT_USHORT( p ); entryTable = FT_NEXT_USHORT( p ); GXV_TRACE(( "stateSize=0x%04x\n", stateSize )); GXV_TRACE(( "offset to classTable=0x%04x\n", classTable )); GXV_TRACE(( "offset to stateArray=0x%04x\n", stateArray )); GXV_TRACE(( "offset to entryTable=0x%04x\n", entryTable )); if ( stateSize > 0xFF ) FT_INVALID_DATA; if ( gxvalid->statetable.optdata_load_func ) gxvalid->statetable.optdata_load_func( p, limit, gxvalid ); if ( gxvalid->statetable.subtable_setup_func ) setup_func = gxvalid->statetable.subtable_setup_func; else setup_func = gxv_StateTable_subtable_setup; setup_func( (FT_UShort)( limit - table ), classTable, stateArray, entryTable, &classTable_length, &stateArray_length, &entryTable_length, gxvalid ); GXV_TRACE(( "StateTable Subtables\n" )); if ( classTable != 0 ) gxv_ClassTable_validate( table + classTable, &classTable_length, stateSize, &maxClassID, gxvalid ); else maxClassID = (FT_Byte)( stateSize - 1 ); if ( stateArray != 0 ) gxv_StateArray_validate( table + stateArray, &stateArray_length, maxClassID, stateSize, &maxState, &maxEntry, gxvalid ); else { #if 0 maxState = 1; /* 0:start of text, 1:start of line are predefined */ #endif maxEntry = 0; } if ( maxEntry > 0 && entryTable == 0 ) FT_INVALID_OFFSET; if ( entryTable != 0 ) gxv_EntryTable_validate( table + entryTable, &entryTable_length, maxEntry, stateArray, stateArray_length, maxClassID, table, limit, gxvalid ); GXV_EXIT; } /* ================= eXtended State Table (for morx) =================== */ FT_LOCAL_DEF( void ) gxv_XStateTable_subtable_setup( FT_ULong table_size, FT_ULong classTable, FT_ULong stateArray, FT_ULong entryTable, FT_ULong* classTable_length_p, FT_ULong* stateArray_length_p, FT_ULong* entryTable_length_p, GXV_Validator gxvalid ) { FT_ULong o[3]; FT_ULong* l[3]; FT_ULong buff[4]; o[0] = classTable; o[1] = stateArray; o[2] = entryTable; l[0] = classTable_length_p; l[1] = stateArray_length_p; l[2] = entryTable_length_p; gxv_set_length_by_ulong_offset( o, l, buff, 3, table_size, gxvalid ); } static void gxv_XClassTable_lookupval_validate( FT_UShort glyph, GXV_LookupValueCPtr value_p, GXV_Validator gxvalid ) { FT_UNUSED( glyph ); if ( value_p->u >= gxvalid->xstatetable.nClasses ) FT_INVALID_DATA; if ( value_p->u > gxvalid->xstatetable.maxClassID ) gxvalid->xstatetable.maxClassID = value_p->u; } /* +===============+ --------+ | lookup header | | +===============+ | | BinSrchHeader | | +===============+ | | lastGlyph[0] | | +---------------+ | | firstGlyph[0] | | head of lookup table +---------------+ | + | offset[0] | -> | offset [byte] +===============+ | + | lastGlyph[1] | | (glyphID - firstGlyph) * 2 [byte] +---------------+ | | firstGlyph[1] | | +---------------+ | | offset[1] | | +===============+ | | .... | | 16bit value array | +===============+ | | value | <-------+ .... */ static GXV_LookupValueDesc gxv_XClassTable_lookupfmt4_transit( FT_UShort relative_gindex, GXV_LookupValueCPtr base_value_p, FT_Bytes lookuptbl_limit, GXV_Validator gxvalid ) { FT_Bytes p; FT_Bytes limit; FT_UShort offset; GXV_LookupValueDesc value; /* XXX: check range? */ offset = (FT_UShort)( base_value_p->u + relative_gindex * sizeof ( FT_UShort ) ); p = gxvalid->lookuptbl_head + offset; limit = lookuptbl_limit; GXV_LIMIT_CHECK ( 2 ); value.u = FT_NEXT_USHORT( p ); return value; } static void gxv_XStateArray_validate( FT_Bytes table, FT_ULong* length_p, FT_UShort maxClassID, FT_ULong stateSize, FT_UShort* maxState_p, FT_UShort* maxEntry_p, GXV_Validator gxvalid ) { FT_Bytes p = table; FT_Bytes limit = table + *length_p; FT_UShort clazz; FT_UShort entry; FT_UNUSED( stateSize ); /* for the non-debugging case */ GXV_NAME_ENTER( "XStateArray" ); GXV_TRACE(( "parse % 3d bytes by stateSize=% 3d maxClassID=% 3d\n", (int)(*length_p), stateSize, (int)(maxClassID) )); /* * 2 states are predefined and must be described: * state 0 (start of text), 1 (start of line) */ GXV_LIMIT_CHECK( ( 1 + maxClassID ) * 2 * 2 ); *maxState_p = 0; *maxEntry_p = 0; /* read if enough to read another state */ while ( p + ( ( 1 + maxClassID ) * 2 ) <= limit ) { (*maxState_p)++; for ( clazz = 0; clazz <= maxClassID; clazz++ ) { entry = FT_NEXT_USHORT( p ); *maxEntry_p = (FT_UShort)FT_MAX( *maxEntry_p, entry ); } } GXV_TRACE(( "parsed: maxState=%d, maxEntry=%d\n", *maxState_p, *maxEntry_p )); *length_p = (FT_ULong)( p - table ); GXV_EXIT; } static void gxv_XEntryTable_validate( FT_Bytes table, FT_ULong* length_p, FT_UShort maxEntry, FT_ULong stateArray_length, FT_UShort maxClassID, FT_Bytes xstatetable_table, FT_Bytes xstatetable_limit, GXV_Validator gxvalid ) { FT_Bytes p = table; FT_Bytes limit = table + *length_p; FT_UShort entry; FT_UShort state; FT_Int entrySize = 2 + 2 + GXV_GLYPHOFFSET_SIZE( xstatetable ); GXV_NAME_ENTER( "XEntryTable" ); GXV_TRACE(( "maxEntry=%d entrySize=%d\n", maxEntry, entrySize )); if ( ( p + ( maxEntry + 1 ) * entrySize ) > limit ) FT_INVALID_TOO_SHORT; for (entry = 0; entry <= maxEntry; entry++ ) { FT_UShort newState_idx; FT_UShort flags; GXV_XStateTable_GlyphOffsetDesc glyphOffset; GXV_LIMIT_CHECK( 2 + 2 ); newState_idx = FT_NEXT_USHORT( p ); flags = FT_NEXT_USHORT( p ); if ( stateArray_length < (FT_ULong)( newState_idx * 2 ) ) { GXV_TRACE(( " newState index 0x%04x points out of stateArray\n", newState_idx )); GXV_SET_ERR_IF_PARANOID( FT_INVALID_OFFSET ); } state = (FT_UShort)( newState_idx / ( 1 + maxClassID ) ); if ( 0 != ( newState_idx % ( 1 + maxClassID ) ) ) { FT_TRACE4(( "-> new state = %d (supposed)\n" "but newState index 0x%04x is not aligned to %d-classes\n", state, newState_idx, 1 + maxClassID )); GXV_SET_ERR_IF_PARANOID( FT_INVALID_OFFSET ); } switch ( GXV_GLYPHOFFSET_FMT( xstatetable ) ) { case GXV_GLYPHOFFSET_NONE: glyphOffset.uc = 0; /* make compiler happy */ break; case GXV_GLYPHOFFSET_UCHAR: glyphOffset.uc = FT_NEXT_BYTE( p ); break; case GXV_GLYPHOFFSET_CHAR: glyphOffset.c = FT_NEXT_CHAR( p ); break; case GXV_GLYPHOFFSET_USHORT: glyphOffset.u = FT_NEXT_USHORT( p ); break; case GXV_GLYPHOFFSET_SHORT: glyphOffset.s = FT_NEXT_SHORT( p ); break; case GXV_GLYPHOFFSET_ULONG: glyphOffset.ul = FT_NEXT_ULONG( p ); break; case GXV_GLYPHOFFSET_LONG: glyphOffset.l = FT_NEXT_LONG( p ); break; default: GXV_SET_ERR_IF_PARANOID( FT_INVALID_FORMAT ); goto Exit; } if ( gxvalid->xstatetable.entry_validate_func ) gxvalid->xstatetable.entry_validate_func( state, flags, &glyphOffset, xstatetable_table, xstatetable_limit, gxvalid ); } Exit: *length_p = (FT_ULong)( p - table ); GXV_EXIT; } FT_LOCAL_DEF( void ) gxv_XStateTable_validate( FT_Bytes table, FT_Bytes limit, GXV_Validator gxvalid ) { /* StateHeader members */ FT_ULong classTable; /* offset to Class(Sub)Table */ FT_ULong stateArray; /* offset to StateArray */ FT_ULong entryTable; /* offset to EntryTable */ FT_ULong classTable_length; FT_ULong stateArray_length; FT_ULong entryTable_length; FT_UShort maxState; FT_UShort maxEntry; GXV_XStateTable_Subtable_Setup_Func setup_func; FT_Bytes p = table; GXV_NAME_ENTER( "XStateTable" ); GXV_TRACE(( "XStateTable header\n" )); GXV_LIMIT_CHECK( 4 + 4 + 4 + 4 ); gxvalid->xstatetable.nClasses = FT_NEXT_ULONG( p ); classTable = FT_NEXT_ULONG( p ); stateArray = FT_NEXT_ULONG( p ); entryTable = FT_NEXT_ULONG( p ); GXV_TRACE(( "nClasses =0x%08x\n", gxvalid->xstatetable.nClasses )); GXV_TRACE(( "offset to classTable=0x%08x\n", classTable )); GXV_TRACE(( "offset to stateArray=0x%08x\n", stateArray )); GXV_TRACE(( "offset to entryTable=0x%08x\n", entryTable )); if ( gxvalid->xstatetable.nClasses > 0xFFFFU ) FT_INVALID_DATA; GXV_TRACE(( "StateTable Subtables\n" )); if ( gxvalid->xstatetable.optdata_load_func ) gxvalid->xstatetable.optdata_load_func( p, limit, gxvalid ); if ( gxvalid->xstatetable.subtable_setup_func ) setup_func = gxvalid->xstatetable.subtable_setup_func; else setup_func = gxv_XStateTable_subtable_setup; setup_func( (FT_ULong)( limit - table ), classTable, stateArray, entryTable, &classTable_length, &stateArray_length, &entryTable_length, gxvalid ); if ( classTable != 0 ) { gxvalid->xstatetable.maxClassID = 0; gxvalid->lookupval_sign = GXV_LOOKUPVALUE_UNSIGNED; gxvalid->lookupval_func = gxv_XClassTable_lookupval_validate; gxvalid->lookupfmt4_trans = gxv_XClassTable_lookupfmt4_transit; gxv_LookupTable_validate( table + classTable, table + classTable + classTable_length, gxvalid ); #if 0 if ( gxvalid->subtable_length < classTable_length ) classTable_length = gxvalid->subtable_length; #endif } else { /* XXX: check range? */ gxvalid->xstatetable.maxClassID = (FT_UShort)( gxvalid->xstatetable.nClasses - 1 ); } if ( stateArray != 0 ) gxv_XStateArray_validate( table + stateArray, &stateArray_length, gxvalid->xstatetable.maxClassID, gxvalid->xstatetable.nClasses, &maxState, &maxEntry, gxvalid ); else { #if 0 maxState = 1; /* 0:start of text, 1:start of line are predefined */ #endif maxEntry = 0; } if ( maxEntry > 0 && entryTable == 0 ) FT_INVALID_OFFSET; if ( entryTable != 0 ) gxv_XEntryTable_validate( table + entryTable, &entryTable_length, maxEntry, stateArray_length, gxvalid->xstatetable.maxClassID, table, limit, gxvalid ); GXV_EXIT; } /*************************************************************************/ /*************************************************************************/ /***** *****/ /***** Table overlapping *****/ /***** *****/ /*************************************************************************/ /*************************************************************************/ static int gxv_compare_ranges( FT_Bytes table1_start, FT_ULong table1_length, FT_Bytes table2_start, FT_ULong table2_length ) { if ( table1_start == table2_start ) { if ( ( table1_length == 0 || table2_length == 0 ) ) goto Out; } else if ( table1_start < table2_start ) { if ( ( table1_start + table1_length ) <= table2_start ) goto Out; } else if ( table1_start > table2_start ) { if ( ( table1_start >= table2_start + table2_length ) ) goto Out; } return 1; Out: return 0; } FT_LOCAL_DEF( void ) gxv_odtect_add_range( FT_Bytes start, FT_ULong length, const FT_String* name, GXV_odtect_Range odtect ) { odtect->range[odtect->nRanges].start = start; odtect->range[odtect->nRanges].length = length; odtect->range[odtect->nRanges].name = (FT_String*)name; odtect->nRanges++; } FT_LOCAL_DEF( void ) gxv_odtect_validate( GXV_odtect_Range odtect, GXV_Validator gxvalid ) { FT_UInt i, j; GXV_NAME_ENTER( "check overlap among multi ranges" ); for ( i = 0; i < odtect->nRanges; i++ ) for ( j = 0; j < i; j++ ) if ( 0 != gxv_compare_ranges( odtect->range[i].start, odtect->range[i].length, odtect->range[j].start, odtect->range[j].length ) ) { #ifdef FT_DEBUG_LEVEL_TRACE if ( odtect->range[i].name || odtect->range[j].name ) GXV_TRACE(( "found overlap between range %d and range %d\n", i, j )); else GXV_TRACE(( "found overlap between `%s' and `%s\'\n", odtect->range[i].name, odtect->range[j].name )); #endif FT_INVALID_OFFSET; } GXV_EXIT; } /* END */