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[sfnt] Avoid undefined shifts in `COLR` v1 paint parsing 

* src/sfnt/ttcolr.c (read_paint, tt_face_get_paint): Tighten shift
behavior by using multiplication, mostly using macros from ftcalc.h.

Fixes: https://bugs.chromium.org/p/chromium/issues/detail?id=1269168
This commit is contained in:
Dominik Röttsches 2021-11-11 17:33:37 +02:00 committed by Werner Lemberg
parent cf55313650
commit 9597fd7b40
1 changed files with 34 additions and 33 deletions
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67
src/sfnt/ttcolr.c
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@ -27,6 +27,7 @@
*/
#include <freetype/internal/ftcalc.h>
#include <freetype/internal/ftdebug.h>
#include <freetype/internal/ftstream.h>
#include <freetype/tttags.h>
@ -509,12 +510,12 @@
* In order to support variations expose these as FT_Fixed 16.16 values so
* that we can support fractional values after interpolation.
*/
apaint->u.linear_gradient.p0.x = FT_NEXT_SHORT( p ) << 16;
apaint->u.linear_gradient.p0.y = FT_NEXT_SHORT( p ) << 16;
apaint->u.linear_gradient.p1.x = FT_NEXT_SHORT( p ) << 16;
apaint->u.linear_gradient.p1.y = FT_NEXT_SHORT( p ) << 16;
apaint->u.linear_gradient.p2.x = FT_NEXT_SHORT( p ) << 16;
apaint->u.linear_gradient.p2.y = FT_NEXT_SHORT( p ) << 16;
apaint->u.linear_gradient.p0.x = INT_TO_FIXED( FT_NEXT_SHORT( p ) );
apaint->u.linear_gradient.p0.y = INT_TO_FIXED( FT_NEXT_SHORT( p ) );
apaint->u.linear_gradient.p1.x = INT_TO_FIXED( FT_NEXT_SHORT( p ) );
apaint->u.linear_gradient.p1.y = INT_TO_FIXED( FT_NEXT_SHORT( p ) );
apaint->u.linear_gradient.p2.x = INT_TO_FIXED( FT_NEXT_SHORT( p ) );
apaint->u.linear_gradient.p2.y = INT_TO_FIXED( FT_NEXT_SHORT( p ) );
return 1;
}
@ -525,13 +526,13 @@
&apaint->u.radial_gradient.colorline ) )
return 0;
apaint->u.radial_gradient.c0.x = FT_NEXT_SHORT( p ) << 16;
apaint->u.radial_gradient.c0.y = FT_NEXT_SHORT( p ) << 16;
apaint->u.radial_gradient.c0.x = INT_TO_FIXED( FT_NEXT_SHORT( p ) );
apaint->u.radial_gradient.c0.y = INT_TO_FIXED( FT_NEXT_SHORT( p ) );
apaint->u.radial_gradient.r0 = FT_NEXT_USHORT( p ) << 16;
apaint->u.radial_gradient.c1.x = FT_NEXT_SHORT( p ) << 16;
apaint->u.radial_gradient.c1.y = FT_NEXT_SHORT( p ) << 16;
apaint->u.radial_gradient.c1.x = INT_TO_FIXED( FT_NEXT_SHORT( p ) );
apaint->u.radial_gradient.c1.y = INT_TO_FIXED( FT_NEXT_SHORT( p ) );
apaint->u.radial_gradient.r1 = FT_NEXT_USHORT( p ) << 16;
@ -544,11 +545,15 @@
&apaint->u.sweep_gradient.colorline ) )
return 0;
apaint->u.sweep_gradient.center.x = FT_NEXT_SHORT( p ) << 16;
apaint->u.sweep_gradient.center.y = FT_NEXT_SHORT( p ) << 16;
apaint->u.sweep_gradient.center.x =
INT_TO_FIXED( FT_NEXT_SHORT( p ) );
apaint->u.sweep_gradient.center.y =
INT_TO_FIXED( FT_NEXT_SHORT( p ) );
apaint->u.sweep_gradient.start_angle = FT_NEXT_SHORT( p ) << 2;
apaint->u.sweep_gradient.end_angle = FT_NEXT_SHORT( p ) << 2;
apaint->u.sweep_gradient.start_angle =
F2DOT14_TO_FIXED( FT_NEXT_SHORT( p ) );
apaint->u.sweep_gradient.end_angle =
F2DOT14_TO_FIXED( FT_NEXT_SHORT( p ) );
return 1;
}
@ -591,8 +596,8 @@
apaint->u.translate.paint.p = child_table_p;
apaint->u.translate.paint.insert_root_transform = 0;
apaint->u.translate.dx = FT_NEXT_SHORT( p ) << 16;
apaint->u.translate.dy = FT_NEXT_SHORT( p ) << 16;
apaint->u.translate.dx = INT_TO_FIXED( FT_NEXT_SHORT( p ) );
apaint->u.translate.dy = INT_TO_FIXED( FT_NEXT_SHORT( p ) );
return 1;
}
@ -610,14 +615,14 @@
apaint->u.scale.paint.insert_root_transform = 0;
/* All scale paints get at least one scale value. */
apaint->u.scale.scale_x = FT_NEXT_SHORT( p ) << 2;
apaint->u.scale.scale_x = F2DOT14_TO_FIXED( FT_NEXT_SHORT( p ) );
/* Non-uniform ones read an extra y value. */
if ( apaint->format ==
FT_COLR_PAINTFORMAT_SCALE ||
(FT_PaintFormat_Internal)apaint->format ==
FT_COLR_PAINTFORMAT_INTERNAL_SCALE_CENTER )
apaint->u.scale.scale_y = FT_NEXT_SHORT( p ) << 2;
apaint->u.scale.scale_y = F2DOT14_TO_FIXED( FT_NEXT_SHORT( p ) );
else
apaint->u.scale.scale_y = apaint->u.scale.scale_x;
@ -628,8 +633,8 @@
(FT_PaintFormat_Internal)apaint->format ==
FT_COLR_PAINTFORMAT_INTERNAL_SCALE_UNIFORM_CENTER )
{
apaint->u.scale.center_x = FT_NEXT_SHORT ( p ) << 16;
apaint->u.scale.center_y = FT_NEXT_SHORT ( p ) << 16;
apaint->u.scale.center_x = INT_TO_FIXED( FT_NEXT_SHORT ( p ) );
apaint->u.scale.center_y = INT_TO_FIXED( FT_NEXT_SHORT ( p ) );
}
else
{
@ -651,17 +656,13 @@
apaint->u.rotate.paint.p = child_table_p;
apaint->u.rotate.paint.insert_root_transform = 0;
/* The angle is specified as F2DOT14 and our output type is an FT_Fixed,
* shift by 2 positions. */
apaint->u.rotate.angle = FT_NEXT_SHORT( p ) << 2;
apaint->u.rotate.angle = F2DOT14_TO_FIXED( FT_NEXT_SHORT( p ) );
if ( (FT_PaintFormat_Internal)apaint->format ==
FT_COLR_PAINTFORMAT_INTERNAL_ROTATE_CENTER )
{
/* The center is specified as Int16 in font units, shift by 16 bits to
* convert to our FT_Fixed output type. */
apaint->u.rotate.center_x = FT_NEXT_SHORT( p ) << 16;
apaint->u.rotate.center_y = FT_NEXT_SHORT( p ) << 16;
apaint->u.rotate.center_x = INT_TO_FIXED( FT_NEXT_SHORT( p ) );
apaint->u.rotate.center_y = INT_TO_FIXED( FT_NEXT_SHORT( p ) );
}
else
{
@ -681,14 +682,14 @@
apaint->u.skew.paint.p = child_table_p;
apaint->u.skew.paint.insert_root_transform = 0;
apaint->u.skew.x_skew_angle = FT_NEXT_SHORT( p ) << 2;
apaint->u.skew.y_skew_angle = FT_NEXT_SHORT( p ) << 2;
apaint->u.skew.x_skew_angle = F2DOT14_TO_FIXED( FT_NEXT_SHORT( p ) );
apaint->u.skew.y_skew_angle = F2DOT14_TO_FIXED( FT_NEXT_SHORT( p ) );
if ( (FT_PaintFormat_Internal)apaint->format ==
FT_COLR_PAINTFORMAT_INTERNAL_SKEW_CENTER )
{
apaint->u.skew.center_x = FT_NEXT_SHORT( p ) << 16;
apaint->u.skew.center_y = FT_NEXT_SHORT( p ) << 16;
apaint->u.skew.center_x = INT_TO_FIXED( FT_NEXT_SHORT( p ) );
apaint->u.skew.center_y = INT_TO_FIXED( FT_NEXT_SHORT( p ) );
}
else
{
@ -1094,9 +1095,9 @@
if ( face->root.internal->transform_flags & 2 )
{
paint->u.transform.affine.dx =
face->root.internal->transform_delta.x << 10;
face->root.internal->transform_delta.x * ( 1 << 10 );
paint->u.transform.affine.dy =
face->root.internal->transform_delta.y << 10;
face->root.internal->transform_delta.y * ( 1 << 10 );
}
else
{