Fix pervasive buffer overruns when skipping glyphs when matching contexts.

Mon Jul 19 16:29:45 2004  Owen Taylor  <otaylor@redhat.com>

        * pango/opentype/ftxgsub.c pango/opentype/ftxgpos.c:
        Fix pervasive buffer overruns when skipping glyphs
        when matching contexts. (#118592, Kailash C. Chowksey)
This commit is contained in:
Owen Taylor 2004-07-19 20:37:22 +00:00 committed by Owen Taylor
parent 99848cfafe
commit d4f773ef92
2 changed files with 290 additions and 357 deletions

View File

@ -1625,10 +1625,9 @@
if ( error && error != TTO_Err_Not_Covered )
return error;
if ( buffer->in_pos < buffer->in_length )
if ( buffer->in_pos == buffer->in_length )
return TTO_Err_Not_Covered;
(buffer->in_pos)++;
else
break;
}
switch ( pp->PosFormat )
@ -3864,33 +3863,34 @@
for ( k = 0; k < numpr; k++ )
{
if ( context_length != 0xFFFF && context_length < pr[k].GlyphCount )
continue;
goto next_posrule;
if ( buffer->in_pos + pr[k].GlyphCount > buffer->in_length )
continue; /* context is too long */
goto next_posrule; /* context is too long */
for ( i = 1, j = 1; i < pr[k].GlyphCount; i++, j++ )
for ( i = 1, j = buffer->in_pos + 1; i < pr[k].GlyphCount; i++, j++ )
{
while ( CHECK_Property( gdef, IN_CURGLYPH( j ), flags, &property ) )
while ( CHECK_Property( gdef, IN_GLYPH( j ), flags, &property ) )
{
if ( error && error != TTO_Err_Not_Covered )
return error;
if ( buffer->in_pos + j < buffer->in_length )
if ( j + pr[k].GlyphCount - i == buffer->in_length )
goto next_posrule;
j++;
else
break;
}
if ( IN_CURGLYPH( j ) != pr[k].Input[i - 1] )
break;
if ( IN_GLYPH( j ) != pr[k].Input[i - 1] )
goto next_posrule;
}
if ( i == pr[k].GlyphCount )
return Do_ContextPos( gpi, pr[k].GlyphCount,
pr[k].PosCount, pr[k].PosLookupRecord,
buffer,
nesting_level );
next_posrule:
;
}
return TTO_Err_Not_Covered;
@ -3952,50 +3952,49 @@
pr = &pcs->PosClassRule[k];
if ( context_length != 0xFFFF && context_length < pr->GlyphCount )
continue;
goto next_posclassrule;
if ( buffer->in_pos + pr->GlyphCount > buffer->in_length )
continue; /* context is too long */
goto next_posclassrule; /* context is too long */
cl = pr->Class;
/* Start at 1 because [0] is implied */
for ( i = 1, j = 1; i < pr->GlyphCount; i++, j++ )
for ( i = 1, j = buffer->in_pos + 1; i < pr->GlyphCount; i++, j++ )
{
while ( CHECK_Property( gdef, IN_CURGLYPH( j ), flags, &property ) )
while ( CHECK_Property( gdef, IN_GLYPH( j ), flags, &property ) )
{
if ( error && error != TTO_Err_Not_Covered )
goto End;
if ( buffer->in_pos + j < buffer->in_length )
if ( j + pr->GlyphCount - i == buffer->in_length )
goto next_posclassrule;
j++;
else
break;
}
if ( i > known_classes )
{
/* Keeps us from having to do this for each rule */
error = Get_Class( &cpf2->ClassDef, IN_CURGLYPH( j ), &classes[i], NULL );
error = Get_Class( &cpf2->ClassDef, IN_GLYPH( j ), &classes[i], NULL );
if ( error && error != TTO_Err_Not_Covered )
goto End;
known_classes = i;
}
if ( cl[i - 1] != classes[i] )
break;
goto next_posclassrule;
}
if ( i == pr->GlyphCount )
{
error = Do_ContextPos( gpi, pr->GlyphCount,
pr->PosCount, pr->PosLookupRecord,
buffer,
nesting_level );
goto End;
}
next_posclassrule:
;
}
error = TTO_Err_Not_Covered;
@ -4036,18 +4035,17 @@
for ( i = 1, j = 1; i < cpf3->GlyphCount; i++, j++ )
{
while ( CHECK_Property( gdef, IN_CURGLYPH( j ), flags, &property ) )
while ( CHECK_Property( gdef, IN_GLYPH( j ), flags, &property ) )
{
if ( error && error != TTO_Err_Not_Covered )
return error;
if ( buffer->in_pos + j < buffer->in_length )
j++;
else
if ( j + cpf3->GlyphCount - i == buffer->in_length )
return TTO_Err_Not_Covered;
j++;
}
error = Coverage_Index( &c[i], IN_CURGLYPH( j ), &index );
error = Coverage_Index( &c[i], IN_GLYPH( j ), &index );
if ( error )
return error;
}
@ -5112,7 +5110,7 @@
int nesting_level )
{
FT_UShort index, property;
FT_UShort i, j, k, num_cpr, curr_pos;
FT_UShort i, j, k, num_cpr;
FT_UShort bgc, igc, lgc;
FT_Error error;
TTO_GPOSHeader* gpos = gpi->gpos;
@ -5142,20 +5140,18 @@
lgc = curr_cpr.LookaheadGlyphCount;
if ( context_length != 0xFFFF && context_length < igc )
continue;
goto next_chainposrule;
/* check whether context is too long; it is a first guess only */
if ( bgc > buffer->in_pos || buffer->in_pos + igc + lgc > buffer->in_length )
continue;
goto next_chainposrule;
if ( bgc )
{
/* Since we don't know in advance the number of glyphs to inspect,
we search backwards for matches in the backtrack glyph array */
curr_pos = 0;
for ( i = 0, j = buffer->in_pos - 1; i < bgc; i++, j-- )
{
while ( CHECK_Property( gdef, IN_GLYPH( j ), flags, &property ) )
@ -5163,10 +5159,9 @@
if ( error && error != TTO_Err_Not_Covered )
return error;
if ( j > curr_pos )
if ( j + 1 == bgc - i )
goto next_chainposrule;
j--;
else
break;
}
/* In OpenType 1.3, it is undefined whether the offsets of
@ -5180,65 +5175,55 @@
Lookahead offsets - 0 1 2 3 */
if ( IN_GLYPH( j ) != curr_cpr.Backtrack[i] )
break;
goto next_chainposrule;
}
if ( i != bgc )
continue;
}
curr_pos = buffer->in_pos;
/* Start at 1 because [0] is implied */
for ( i = 1, j = 1; i < igc; i++, j++ )
for ( i = 1, j = buffer->in_pos + 1; i < igc; i++, j++ )
{
while ( CHECK_Property( gdef, IN_GLYPH( curr_pos + j ), flags, &property ) )
while ( CHECK_Property( gdef, IN_GLYPH( j ), flags, &property ) )
{
if ( error && error != TTO_Err_Not_Covered )
return error;
if ( curr_pos + j < buffer->in_length )
if ( j + igc - i + lgc == buffer->in_length )
goto next_chainposrule;
j++;
else
break;
}
if ( IN_GLYPH( curr_pos + j ) != curr_cpr.Input[i - 1] )
break;
if ( IN_GLYPH( j ) != curr_cpr.Input[i - 1] )
goto next_chainposrule;
}
if ( i != igc )
continue;
/* we are starting to check for lookahead glyphs right after the
last context glyph */
curr_pos += j;
for ( i = 0, j = 0; i < lgc; i++, j++ )
for ( i = 0; i < lgc; i++, j++ )
{
while ( CHECK_Property( gdef, IN_GLYPH( curr_pos + j ), flags, &property ) )
while ( CHECK_Property( gdef, IN_GLYPH( j ), flags, &property ) )
{
if ( error && error != TTO_Err_Not_Covered )
return error;
if ( curr_pos + j < buffer->in_length )
if ( j + lgc - i == buffer->in_length )
goto next_chainposrule;
j++;
else
break;
}
if ( IN_GLYPH( curr_pos + j ) != curr_cpr.Lookahead[i] )
break;
if ( IN_GLYPH( j ) != curr_cpr.Lookahead[i] )
goto next_chainposrule;
}
if ( i == lgc )
return Do_ContextPos( gpi, igc,
curr_cpr.PosCount,
curr_cpr.PosLookupRecord,
buffer,
nesting_level );
next_chainposrule:
;
}
return TTO_Err_Not_Covered;
@ -5256,7 +5241,7 @@
FT_UShort index, property;
FT_Memory memory = gpi->face->memory;
FT_Error error;
FT_UShort i, j, k, curr_pos;
FT_UShort i, j, k;
FT_UShort bgc, igc, lgc;
FT_UShort known_backtrack_classes,
known_input_classes,
@ -5321,12 +5306,12 @@
lgc = cpcr.LookaheadGlyphCount;
if ( context_length != 0xFFFF && context_length < igc )
continue;
goto next_chainposclassrule;
/* check whether context is too long; it is a first guess only */
if ( bgc > buffer->in_pos || buffer->in_pos + igc + lgc > buffer->in_length )
continue;
goto next_chainposclassrule;
if ( bgc )
{
@ -5334,7 +5319,6 @@
we search backwards for matches in the backtrack glyph array.
Note that `known_backtrack_classes' starts at index 0. */
curr_pos = 0;
bc = cpcr.Backtrack;
for ( i = 0, j = buffer->in_pos - 1; i < bgc; i++, j-- )
@ -5344,10 +5328,9 @@
if ( error && error != TTO_Err_Not_Covered )
goto End1;
if ( j > curr_pos )
j--;
else
break;
if ( j + 1 == bgc - i )
goto next_chainposclassrule;
j++;
}
if ( i >= known_backtrack_classes )
@ -5362,34 +5345,29 @@
}
if ( bc[i] != backtrack_classes[i] )
break;
goto next_chainposclassrule;
}
}
if ( i != bgc )
continue;
}
curr_pos = buffer->in_pos;
ic = cpcr.Input;
/* Start at 1 because [0] is implied */
for ( i = 1, j = 1; i < igc; i++, j++ )
for ( i = 1, j = buffer->in_pos + 1; i < igc; i++, j++ )
{
while ( CHECK_Property( gdef, IN_GLYPH( curr_pos + j ), flags, &property ) )
while ( CHECK_Property( gdef, IN_GLYPH( j ), flags, &property ) )
{
if ( error && error != TTO_Err_Not_Covered )
goto End1;
if ( curr_pos + j < buffer->in_length )
if ( j + igc - i + lgc == buffer->in_length )
goto next_chainposclassrule;
j++;
else
break;
}
if ( i >= known_input_classes )
{
error = Get_Class( &ccpf2->InputClassDef, IN_GLYPH( curr_pos + j ),
error = Get_Class( &ccpf2->InputClassDef, IN_GLYPH( j ),
&input_classes[i], NULL );
if ( error && error != TTO_Err_Not_Covered )
goto End1;
@ -5397,34 +5375,29 @@
}
if ( ic[i - 1] != input_classes[i] )
break;
goto next_chainposclassrule;
}
if ( i != igc )
continue;
/* we are starting to check for lookahead glyphs right after the
last context glyph */
curr_pos += j;
lc = cpcr.Lookahead;
for ( i = 0, j = 0; i < lgc; i++, j++ )
for ( i = 0; i < lgc; i++, j++ )
{
while ( CHECK_Property( gdef, IN_GLYPH( curr_pos + j ), flags, &property ) )
while ( CHECK_Property( gdef, IN_GLYPH( j ), flags, &property ) )
{
if ( error && error != TTO_Err_Not_Covered )
goto End1;
if ( curr_pos + j < buffer->in_length )
if ( j + lgc - i == buffer->in_length )
goto next_chainposclassrule;
j++;
else
break;
}
if ( i >= known_lookahead_classes )
{
error = Get_Class( &ccpf2->LookaheadClassDef, IN_GLYPH( curr_pos + j ),
error = Get_Class( &ccpf2->LookaheadClassDef, IN_GLYPH( j ),
&lookahead_classes[i], NULL );
if ( error && error != TTO_Err_Not_Covered )
goto End1;
@ -5432,18 +5405,18 @@
}
if ( lc[i] != lookahead_classes[i] )
break;
goto next_chainposclassrule;
}
if ( i == lgc )
{
error = Do_ContextPos( gpi, igc,
cpcr.PosCount,
cpcr.PosLookupRecord,
buffer,
nesting_level );
goto End1;
}
next_chainposclassrule:
;
}
error = TTO_Err_Not_Covered;
@ -5468,7 +5441,7 @@
FT_UShort context_length,
int nesting_level )
{
FT_UShort index, i, j, curr_pos, property;
FT_UShort index, i, j, property;
FT_UShort bgc, igc, lgc;
FT_Error error;
TTO_GPOSHeader* gpos = gpi->gpos;
@ -5501,7 +5474,6 @@
/* Since we don't know in advance the number of glyphs to inspect,
we search backwards for matches in the backtrack glyph array */
curr_pos = 0;
bc = ccpf3->BacktrackCoverage;
for ( i = 0, j = buffer->in_pos - 1; i < bgc; i++, j-- )
@ -5511,10 +5483,9 @@
if ( error && error != TTO_Err_Not_Covered )
return error;
if ( j > curr_pos )
j--;
else
if ( j + 1 == bgc - i )
return TTO_Err_Not_Covered;
j--;
}
error = Coverage_Index( &bc[i], IN_GLYPH( j ), &index );
@ -5523,24 +5494,22 @@
}
}
curr_pos = buffer->in_pos;
ic = ccpf3->InputCoverage;
for ( i = 0, j = 0; i < igc; i++, j++ )
for ( i = 0, j = buffer->in_pos; i < igc; i++, j++ )
{
/* We already called CHECK_Property for s_in[0] */
while ( j > 0 && CHECK_Property( gdef, IN_GLYPH( curr_pos + j ), flags, &property ) )
/* We already called CHECK_Property for IN_GLYPH ( buffer->in_pos ) */
while ( j > buffer->in_pos && CHECK_Property( gdef, IN_GLYPH( j ), flags, &property ) )
{
if ( error && error != TTO_Err_Not_Covered )
return error;
if ( curr_pos + j < buffer->in_length )
j++;
else
if ( j + igc - i + lgc == buffer->in_length )
return TTO_Err_Not_Covered;
j++;
}
error = Coverage_Index( &ic[i], IN_GLYPH( curr_pos + j ), &index );
error = Coverage_Index( &ic[i], IN_GLYPH( j ), &index );
if ( error )
return error;
}
@ -5548,23 +5517,21 @@
/* we are starting to check for lookahead glyphs right after the
last context glyph */
curr_pos += j;
lc = ccpf3->LookaheadCoverage;
for ( i = 0, j = 0; i < lgc; i++, j++ )
for ( i = 0; i < lgc; i++, j++ )
{
while ( CHECK_Property( gdef, IN_GLYPH( curr_pos + j ), flags, &property ) )
while ( CHECK_Property( gdef, IN_GLYPH( j ), flags, &property ) )
{
if ( error && error != TTO_Err_Not_Covered )
return error;
if ( curr_pos + j < buffer->in_length )
j++;
else
if ( j + lgc - i == buffer->in_length )
return TTO_Err_Not_Covered;
j++;
}
error = Coverage_Index( &lc[i], IN_GLYPH( curr_pos + j ), &index );
error = Coverage_Index( &lc[i], IN_GLYPH( j ), &index );
if ( error )
return error;
}

View File

@ -1026,7 +1026,7 @@
numlig--, lig++ )
{
if ( buffer->in_pos + lig->ComponentCount > buffer->in_length )
continue; /* Not enough glyphs in input */
goto next_ligature; /* Not enough glyphs in input */
c = lig->Component;
@ -1035,28 +1035,25 @@
if ( context_length != 0xFFFF && context_length < lig->ComponentCount )
break;
for ( i = 1, j = 1; i < lig->ComponentCount; i++, j++ )
for ( i = 1, j = buffer->in_pos + 1; i < lig->ComponentCount; i++, j++ )
{
while ( CHECK_Property( gdef, IN_CURGLYPH( j ), flags, &property ) )
while ( CHECK_Property( gdef, IN_GLYPH( j ), flags, &property ) )
{
if ( error && error != TTO_Err_Not_Covered )
return error;
if ( buffer->in_pos + j < buffer->in_length )
if ( j + lig->ComponentCount - i == buffer->in_length )
goto next_ligature;
j++;
else
break;
}
if ( !( property == TTO_MARK || property & IGNORE_SPECIAL_MARKS ) )
is_mark = FALSE;
if ( IN_CURGLYPH( j ) != c[i - 1] )
break;
if ( IN_GLYPH( j ) != c[i - 1] )
goto next_ligature;
}
if ( i == lig->ComponentCount )
{
if ( gdef && gdef->NewGlyphClasses )
{
/* this is just a guess ... */
@ -1067,7 +1064,7 @@
return error;
}
if ( i == j )
if ( j == buffer->in_pos + i ) /* No input glyphs skipped */
{
/* We don't use a new ligature ID if there are no skipped
glyphs and the ligature already has an ID. */
@ -1113,7 +1110,9 @@
}
return TT_Err_Ok;
}
next_ligature:
;
}
return TTO_Err_Not_Covered;
@ -1921,33 +1920,33 @@
for ( k = 0; k < numsr; k++ )
{
if ( context_length != 0xFFFF && context_length < sr[k].GlyphCount )
continue;
goto next_subrule;
if ( buffer->in_pos + sr[k].GlyphCount > buffer->in_length )
continue; /* context is too long */
goto next_subrule; /* context is too long */
for ( i = 1, j = 1; i < sr[k].GlyphCount; i++, j++ )
for ( i = 1, j = buffer->in_pos + 1; i < sr[k].GlyphCount; i++, j++ )
{
while ( CHECK_Property( gdef, IN_CURGLYPH( j ), flags, &property ) )
while ( CHECK_Property( gdef, IN_GLYPH( j ), flags, &property ) )
{
if ( error && error != TTO_Err_Not_Covered )
return error;
if ( buffer->in_pos + j < buffer->in_length )
if ( j + sr[k].GlyphCount - i == buffer->in_length )
goto next_subrule;
j++;
else
break;
}
if ( IN_CURGLYPH( j ) != sr[k].Input[i - 1] )
break;
if ( IN_GLYPH( j ) != sr[k].Input[i - 1] )
goto next_subrule;
}
if ( i == sr[k].GlyphCount )
return Do_ContextSubst( gsub, sr[k].GlyphCount,
sr[k].SubstCount, sr[k].SubstLookupRecord,
buffer,
nesting_level );
next_subrule:
;
}
return TTO_Err_Not_Covered;
@ -2009,50 +2008,49 @@
sr = &scs->SubClassRule[k];
if ( context_length != 0xFFFF && context_length < sr->GlyphCount )
continue;
goto next_subclassrule;
if ( buffer->in_pos + sr->GlyphCount > buffer->in_length )
continue; /* context is too long */
goto next_subclassrule; /* context is too long */
cl = sr->Class;
/* Start at 1 because [0] is implied */
for ( i = 1, j = 1; i < sr->GlyphCount; i++, j++ )
for ( i = 1, j = buffer->in_pos + 1; i < sr->GlyphCount; i++, j++ )
{
while ( CHECK_Property( gdef, IN_CURGLYPH( j ), flags, &property ) )
while ( CHECK_Property( gdef, IN_GLYPH( j ), flags, &property ) )
{
if ( error && error != TTO_Err_Not_Covered )
goto End;
if ( buffer->in_pos + j < buffer->in_length )
if ( j + sr->GlyphCount - i < buffer->in_length )
goto next_subclassrule;
j++;
else
break;
}
if ( i > known_classes )
{
/* Keeps us from having to do this for each rule */
error = Get_Class( &csf2->ClassDef, IN_CURGLYPH( j ), &classes[i], NULL );
error = Get_Class( &csf2->ClassDef, IN_GLYPH( j ), &classes[i], NULL );
if ( error && error != TTO_Err_Not_Covered )
goto End;
known_classes = i;
}
if ( cl[i - 1] != classes[i] )
break;
goto next_subclassrule;
}
if ( i == sr->GlyphCount )
{
error = Do_ContextSubst( gsub, sr->GlyphCount,
sr->SubstCount, sr->SubstLookupRecord,
buffer,
nesting_level );
goto End;
}
next_subclassrule:
;
}
error = TTO_Err_Not_Covered;
@ -2091,20 +2089,19 @@
c = csf3->Coverage;
for ( i = 1, j = 1; i < csf3->GlyphCount; i++, j++ )
for ( i = 1, j = buffer->in_pos + 1; i < csf3->GlyphCount; i++, j++ )
{
while ( CHECK_Property( gdef, IN_CURGLYPH( j ), flags, &property ) )
while ( CHECK_Property( gdef, IN_GLYPH( j ), flags, &property ) )
{
if ( error && error != TTO_Err_Not_Covered )
return error;
if ( buffer->in_pos + j < buffer->in_length )
j++;
else
if ( j + csf3->GlyphCount - i == buffer->in_length )
return TTO_Err_Not_Covered;
j++;
}
error = Coverage_Index( &c[i], IN_CURGLYPH( j ), &index );
error = Coverage_Index( &c[i], IN_GLYPH( j ), &index );
if ( error )
return error;
}
@ -3175,7 +3172,7 @@
int nesting_level )
{
FT_UShort index, property;
FT_UShort i, j, k, num_csr, curr_pos;
FT_UShort i, j, k, num_csr;
FT_UShort bgc, igc, lgc;
FT_Error error;
@ -3204,20 +3201,18 @@
lgc = curr_csr.LookaheadGlyphCount;
if ( context_length != 0xFFFF && context_length < igc )
continue;
goto next_chainsubrule;
/* check whether context is too long; it is a first guess only */
if ( bgc > buffer->in_pos || buffer->in_pos + igc + lgc > buffer->in_length )
continue;
goto next_chainsubrule;
if ( bgc )
{
/* since we don't know in advance the number of glyphs to inspect,
we search backwards for matches in the backtrack glyph array */
curr_pos = 0;
for ( i = 0, j = buffer->in_pos - 1; i < bgc; i++, j-- )
{
while ( CHECK_Property( gdef, IN_GLYPH( j ), flags, &property ) )
@ -3225,10 +3220,9 @@
if ( error && error != TTO_Err_Not_Covered )
return error;
if ( j > curr_pos )
if ( j + 1 == bgc - i )
goto next_chainsubrule;
j--;
else
break;
}
/* In OpenType 1.3, it is undefined whether the offsets of
@ -3242,65 +3236,55 @@
Lookahead offsets - 0 1 2 3 */
if ( IN_GLYPH( j ) != curr_csr.Backtrack[i] )
break;
goto next_chainsubrule;
}
if ( i != bgc )
continue;
}
curr_pos = buffer->in_pos;
/* Start at 1 because [0] is implied */
for ( i = 1, j = 1; i < igc; i++, j++ )
for ( i = 1, j = buffer->in_pos + 1; i < igc; i++, j++ )
{
while ( CHECK_Property( gdef, IN_GLYPH( curr_pos + j ), flags, &property ) )
while ( CHECK_Property( gdef, IN_GLYPH( j ), flags, &property ) )
{
if ( error && error != TTO_Err_Not_Covered )
return error;
if ( curr_pos + j < buffer->in_length )
if ( j + igc - i + lgc == buffer->in_length )
goto next_chainsubrule;
j++;
else
break;
}
if ( IN_GLYPH( curr_pos + j ) != curr_csr.Input[i - 1] )
break;
if ( IN_GLYPH( j ) != curr_csr.Input[i - 1] )
goto next_chainsubrule;
}
if ( i != igc )
continue;
/* we are starting to check for lookahead glyphs right after the
last context glyph */
curr_pos += j;
for ( i = 0, j = 0; i < lgc; i++, j++ )
for ( i = 0; i < lgc; i++, j++ )
{
while ( CHECK_Property( gdef, IN_GLYPH( curr_pos + j ), flags, &property ) )
while ( CHECK_Property( gdef, IN_GLYPH( j ), flags, &property ) )
{
if ( error && error != TTO_Err_Not_Covered )
return error;
if ( curr_pos + j < buffer->in_length )
if ( j + lgc - i == buffer->in_length )
goto next_chainsubrule;
j++;
else
break;
}
if ( IN_GLYPH( curr_pos + j ) != curr_csr.Lookahead[i] )
break;
if ( IN_GLYPH( j ) != curr_csr.Lookahead[i] )
goto next_chainsubrule;
}
if ( i == lgc )
return Do_ContextSubst( gsub, igc,
curr_csr.SubstCount,
curr_csr.SubstLookupRecord,
buffer,
nesting_level );
next_chainsubrule:
;
}
return TTO_Err_Not_Covered;
@ -3318,7 +3302,7 @@
FT_UShort index, property;
FT_Memory memory;
FT_Error error;
FT_UShort i, j, k, curr_pos;
FT_UShort i, j, k;
FT_UShort bgc, igc, lgc;
FT_UShort known_backtrack_classes,
known_input_classes,
@ -3383,12 +3367,12 @@
lgc = ccsr.LookaheadGlyphCount;
if ( context_length != 0xFFFF && context_length < igc )
continue;
goto next_chainsubclassrule;
/* check whether context is too long; it is a first guess only */
if ( bgc > buffer->in_pos || buffer->in_pos + igc + lgc > buffer->in_length )
continue;
goto next_chainsubclassrule;
if ( bgc )
{
@ -3396,7 +3380,6 @@
we search backwards for matches in the backtrack glyph array.
Note that `known_backtrack_classes' starts at index 0. */
curr_pos = 0;
bc = ccsr.Backtrack;
for ( i = 0, j = buffer->in_pos - 1; i < bgc; i++, j-- )
@ -3406,10 +3389,9 @@
if ( error && error != TTO_Err_Not_Covered )
goto End1;
if ( j > curr_pos )
if ( j + 1 == bgc - i )
goto next_chainsubclassrule;
j--;
else
break;
}
if ( i >= known_backtrack_classes )
@ -3424,34 +3406,29 @@
}
if ( bc[i] != backtrack_classes[i] )
break;
goto next_chainsubclassrule;
}
}
if ( i != bgc )
continue;
}
curr_pos = buffer->in_pos;
ic = ccsr.Input;
/* Start at 1 because [0] is implied */
for ( i = 1, j = 1; i < igc; i++, j++ )
for ( i = 1, j = buffer->in_pos + 1; i < igc; i++, j++ )
{
while ( CHECK_Property( gdef, IN_GLYPH( curr_pos + j ), flags, &property ) )
while ( CHECK_Property( gdef, IN_GLYPH( j ), flags, &property ) )
{
if ( error && error != TTO_Err_Not_Covered )
goto End1;
if ( curr_pos + j < buffer->in_length )
if ( j + igc - i + lgc == buffer->in_length )
goto next_chainsubclassrule;
j++;
else
break;
}
if ( i >= known_input_classes )
{
error = Get_Class( &ccsf2->InputClassDef, IN_GLYPH( curr_pos + j ),
error = Get_Class( &ccsf2->InputClassDef, IN_GLYPH( j ),
&input_classes[i], NULL );
if ( error && error != TTO_Err_Not_Covered )
goto End1;
@ -3459,34 +3436,29 @@
}
if ( ic[i - 1] != input_classes[i] )
break;
goto next_chainsubclassrule;
}
if ( i != igc )
continue;
/* we are starting to check for lookahead glyphs right after the
last context glyph */
curr_pos += j;
lc = ccsr.Lookahead;
for ( i = 0, j = 0; i < lgc; i++, j++ )
for ( i = 0; i < lgc; i++, j++ )
{
while ( CHECK_Property( gdef, IN_GLYPH( curr_pos + j ), flags, &property ) )
while ( CHECK_Property( gdef, IN_GLYPH( j ), flags, &property ) )
{
if ( error && error != TTO_Err_Not_Covered )
goto End1;
if ( curr_pos + j < buffer->in_length )
if ( j + lgc - i == buffer->in_length )
goto next_chainsubclassrule;
j++;
else
break;
}
if ( i >= known_lookahead_classes )
{
error = Get_Class( &ccsf2->LookaheadClassDef, IN_GLYPH( curr_pos + j ),
error = Get_Class( &ccsf2->LookaheadClassDef, IN_GLYPH( j ),
&lookahead_classes[i], NULL );
if ( error && error != TTO_Err_Not_Covered )
goto End1;
@ -3494,18 +3466,18 @@
}
if ( lc[i] != lookahead_classes[i] )
break;
goto next_chainsubclassrule;
}
if ( i == lgc )
{
error = Do_ContextSubst( gsub, igc,
ccsr.SubstCount,
ccsr.SubstLookupRecord,
buffer,
nesting_level );
goto End1;
}
next_chainsubclassrule:
;
}
error = TTO_Err_Not_Covered;
@ -3530,7 +3502,7 @@
FT_UShort context_length,
int nesting_level )
{
FT_UShort index, i, j, curr_pos, property;
FT_UShort index, i, j, property;
FT_UShort bgc, igc, lgc;
FT_Error error;
@ -3562,7 +3534,6 @@
/* Since we don't know in advance the number of glyphs to inspect,
we search backwards for matches in the backtrack glyph array */
curr_pos = 0;
bc = ccsf3->BacktrackCoverage;
for ( i = 0, j = buffer->in_pos - 1; i < bgc; i++, j-- )
@ -3572,10 +3543,9 @@
if ( error && error != TTO_Err_Not_Covered )
return error;
if ( j > curr_pos )
j--;
else
if ( j + 1 == bgc - i )
return TTO_Err_Not_Covered;
j--;
}
error = Coverage_Index( &bc[i], IN_GLYPH( j ), &index );
@ -3584,24 +3554,22 @@
}
}
curr_pos = buffer->in_pos;
ic = ccsf3->InputCoverage;
for ( i = 0, j = 0; i < igc; i++, j++ )
for ( i = 0, j = buffer->in_pos; i < igc; i++, j++ )
{
/* We already called CHECK_Property for IN_GLYPH( curr_pos ) */
while ( j > 0 && CHECK_Property( gdef, IN_GLYPH( curr_pos + j ), flags, &property ) )
/* We already called CHECK_Property for IN_GLYPH( buffer->in_pos ) */
while ( j > buffer->in_pos && CHECK_Property( gdef, IN_GLYPH( j ), flags, &property ) )
{
if ( error && error != TTO_Err_Not_Covered )
return error;
if ( curr_pos + j < buffer->in_length )
j++;
else
if ( j + igc - i + lgc == buffer->in_length )
return TTO_Err_Not_Covered;
j++;
}
error = Coverage_Index( &ic[i], IN_GLYPH( curr_pos + j ), &index );
error = Coverage_Index( &ic[i], IN_GLYPH( j ), &index );
if ( error )
return error;
}
@ -3609,23 +3577,21 @@
/* we are starting for lookahead glyphs right after the last context
glyph */
curr_pos += j;
lc = ccsf3->LookaheadCoverage;
for ( i = 0, j = 0; i < lgc; i++, j++ )
for ( i = 0; i < lgc; i++, j++ )
{
while ( CHECK_Property( gdef, IN_GLYPH( curr_pos + j ), flags, &property ) )
while ( CHECK_Property( gdef, IN_GLYPH( j ), flags, &property ) )
{
if ( error && error != TTO_Err_Not_Covered )
return error;
if ( curr_pos + j < buffer->in_length )
j++;
else
if ( j + lgc - i == buffer->in_length )
return TTO_Err_Not_Covered;
j++;
}
error = Coverage_Index( &lc[i], IN_GLYPH( curr_pos + j ), &index );
error = Coverage_Index( &lc[i], IN_GLYPH( j ), &index );
if ( error )
return error;
}