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https://github.com/python-pillow/Pillow.git
synced 2024-12-26 01:46:18 +03:00
Fix CVE-2020-35654 - OOB Write in TiffDecode.c
* In some circumstances with some versions of libtiff (4.1.0+), there could be a 4 byte out of bound write when decoding a YCbCr tiff. * The Pillow code dates to 6.0.0 * Found and reported through Tidelift
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Tests/images/crash-2020-10-test.tif
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Tests/images/crash-2020-10-test.tif
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@ -19,7 +19,12 @@ from .helper import on_ci
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@pytest.mark.parametrize(
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"test_file", ["Tests/images/crash_1.tif", "Tests/images/crash_2.tif"]
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"test_file",
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[
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"Tests/images/crash_1.tif",
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"Tests/images/crash_2.tif",
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"Tests/images/crash-2020-10-test.tif",
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],
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)
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@pytest.mark.filterwarnings("ignore:Possibly corrupt EXIF data")
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@pytest.mark.filterwarnings("ignore:Metadata warning")
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@ -238,54 +238,181 @@ int ReadTile(TIFF* tiff, UINT32 col, UINT32 row, UINT32* buffer) {
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return 0;
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}
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int ReadStrip(TIFF* tiff, UINT32 row, UINT32* buffer) {
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uint16 photometric = 0; // init to not PHOTOMETRIC_YCBCR
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TIFFGetField(tiff, TIFFTAG_PHOTOMETRIC, &photometric);
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int _decodeStripYCbCr(Imaging im, ImagingCodecState state, TIFF *tiff) {
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// To avoid dealing with YCbCr subsampling, let libtiff handle it
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if (photometric == PHOTOMETRIC_YCBCR) {
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TIFFRGBAImage img;
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char emsg[1024] = "";
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UINT32 rows_per_strip, rows_to_read;
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int ok;
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// Use a TIFFRGBAImage wrapping the tiff image, and let libtiff handle
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// all of the conversion. Metadata read from the TIFFRGBAImage could
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// be different from the metadata that the base tiff returns.
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INT32 strip_row;
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UINT8 *new_data;
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UINT32 rows_per_strip, row_byte_size, rows_to_read;
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int ret;
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TIFFRGBAImage img;
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char emsg[1024] = "";
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int ok;
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TIFFGetFieldDefaulted(tiff, TIFFTAG_ROWSPERSTRIP, &rows_per_strip);
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if ((row % rows_per_strip) != 0) {
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TRACE(("Row passed to ReadStrip() must be first in a strip."));
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return -1;
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}
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if (TIFFRGBAImageOK(tiff, emsg) && TIFFRGBAImageBegin(&img, tiff, 0, emsg)) {
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TRACE(("Initialized RGBAImage\n"));
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img.req_orientation = ORIENTATION_TOPLEFT;
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img.row_offset = row;
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img.col_offset = 0;
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rows_to_read = min(rows_per_strip, img.height - row);
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TRACE(("rows to read: %d\n", rows_to_read));
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ok = TIFFRGBAImageGet(&img, buffer, img.width, rows_to_read);
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TIFFRGBAImageEnd(&img);
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} else {
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ok = 0;
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}
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if (ok == 0) {
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TRACE(("Decode Error, row %d; msg: %s\n", row, emsg));
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return -1;
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}
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return 0;
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ret = TIFFGetFieldDefaulted(tiff, TIFFTAG_ROWSPERSTRIP, &rows_per_strip);
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if (ret != 1) {
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rows_per_strip = state->ysize;
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}
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TRACE(("RowsPerStrip: %u \n", rows_per_strip));
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if (TIFFReadEncodedStrip(tiff, TIFFComputeStrip(tiff, row, 0), (tdata_t)buffer, -1) == -1) {
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TRACE(("Decode Error, strip %d\n", TIFFComputeStrip(tiff, row, 0)));
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if (!(TIFFRGBAImageOK(tiff, emsg) && TIFFRGBAImageBegin(&img, tiff, 0, emsg))) {
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TRACE(("Decode error, msg: %s", emsg));
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state->errcode = IMAGING_CODEC_BROKEN;
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TIFFClose(tiff);
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return -1;
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}
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img.req_orientation = ORIENTATION_TOPLEFT;
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img.col_offset = 0;
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if (state->xsize != img.width || state->ysize != img.height) {
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TRACE(("Inconsistent Image Error: %d =? %d, %d =? %d",
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state->xsize, img.width, state->ysize, img.height));
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state->errcode = IMAGING_CODEC_BROKEN;
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TIFFRGBAImageEnd(&img);
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TIFFClose(tiff);
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return -1;
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}
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/* overflow check for row byte size */
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if (INT_MAX / 4 < img.width) {
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state->errcode = IMAGING_CODEC_MEMORY;
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TIFFRGBAImageEnd(&img);
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TIFFClose(tiff);
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return -1;
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}
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// TiffRGBAImages are 32bits/pixel.
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row_byte_size = img.width * 4;
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/* overflow check for realloc */
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if (INT_MAX / row_byte_size < rows_per_strip) {
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state->errcode = IMAGING_CODEC_MEMORY;
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TIFFRGBAImageEnd(&img);
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TIFFClose(tiff);
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return -1;
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}
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state->bytes = rows_per_strip * row_byte_size;
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TRACE(("StripSize: %d \n", state->bytes));
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/* realloc to fit whole strip */
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/* malloc check above */
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new_data = realloc (state->buffer, state->bytes);
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if (!new_data) {
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state->errcode = IMAGING_CODEC_MEMORY;
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TIFFRGBAImageEnd(&img);
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TIFFClose(tiff);
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return -1;
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}
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state->buffer = new_data;
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for (; state->y < state->ysize; state->y += rows_per_strip) {
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img.row_offset = state->y;
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rows_to_read = min(rows_per_strip, img.height - state->y);
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if (TIFFRGBAImageGet(&img, (UINT32 *)state->buffer, img.width, rows_to_read) == -1) {
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TRACE(("Decode Error, y: %d\n", state->y ));
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state->errcode = IMAGING_CODEC_BROKEN;
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TIFFRGBAImageEnd(&img);
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TIFFClose(tiff);
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return -1;
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}
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TRACE(("Decoded strip for row %d \n", state->y));
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// iterate over each row in the strip and stuff data into image
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for (strip_row = 0; strip_row < min((INT32) rows_per_strip, state->ysize - state->y); strip_row++) {
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TRACE(("Writing data into line %d ; \n", state->y + strip_row));
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// UINT8 * bbb = state->buffer + strip_row * (state->bytes / rows_per_strip);
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// TRACE(("chars: %x %x %x %x\n", ((UINT8 *)bbb)[0], ((UINT8 *)bbb)[1], ((UINT8 *)bbb)[2], ((UINT8 *)bbb)[3]));
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state->shuffle((UINT8*) im->image[state->y + state->yoff + strip_row] +
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state->xoff * im->pixelsize,
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state->buffer + strip_row * row_byte_size,
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state->xsize);
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}
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}
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TIFFRGBAImageEnd(&img);
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return 0;
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}
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int _decodeStrip(Imaging im, ImagingCodecState state, TIFF *tiff) {
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INT32 strip_row;
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UINT8 *new_data;
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UINT32 rows_per_strip, row_byte_size;
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int ret;
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ret = TIFFGetField(tiff, TIFFTAG_ROWSPERSTRIP, &rows_per_strip);
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if (ret != 1) {
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rows_per_strip = state->ysize;
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}
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TRACE(("RowsPerStrip: %u \n", rows_per_strip));
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// We could use TIFFStripSize, but for YCbCr data it returns subsampled data size
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row_byte_size = (state->xsize * state->bits + 7) / 8;
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/* overflow check for realloc */
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if (INT_MAX / row_byte_size < rows_per_strip) {
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state->errcode = IMAGING_CODEC_MEMORY;
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TIFFClose(tiff);
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return -1;
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}
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state->bytes = rows_per_strip * row_byte_size;
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TRACE(("StripSize: %d \n", state->bytes));
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if (TIFFStripSize(tiff) > state->bytes) {
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// If the strip size as expected by LibTiff isn't what we're expecting, abort.
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// man: TIFFStripSize returns the equivalent size for a strip of data as it would be returned in a
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// call to TIFFReadEncodedStrip ...
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state->errcode = IMAGING_CODEC_MEMORY;
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TIFFClose(tiff);
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return -1;
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}
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/* realloc to fit whole strip */
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/* malloc check above */
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new_data = realloc (state->buffer, state->bytes);
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if (!new_data) {
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state->errcode = IMAGING_CODEC_MEMORY;
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TIFFClose(tiff);
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return -1;
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}
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state->buffer = new_data;
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for (; state->y < state->ysize; state->y += rows_per_strip) {
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if (TIFFReadEncodedStrip(tiff, TIFFComputeStrip(tiff, state->y, 0), (tdata_t)state->buffer, -1) == -1) {
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TRACE(("Decode Error, strip %d\n", TIFFComputeStrip(tiff, state->y, 0)));
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state->errcode = IMAGING_CODEC_BROKEN;
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TIFFClose(tiff);
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return -1;
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}
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TRACE(("Decoded strip for row %d \n", state->y));
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// iterate over each row in the strip and stuff data into image
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for (strip_row = 0; strip_row < min((INT32) rows_per_strip, state->ysize - state->y); strip_row++) {
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TRACE(("Writing data into line %d ; \n", state->y + strip_row));
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// UINT8 * bbb = state->buffer + strip_row * (state->bytes / rows_per_strip);
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// TRACE(("chars: %x %x %x %x\n", ((UINT8 *)bbb)[0], ((UINT8 *)bbb)[1], ((UINT8 *)bbb)[2], ((UINT8 *)bbb)[3]));
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state->shuffle((UINT8*) im->image[state->y + state->yoff + strip_row] +
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state->xoff * im->pixelsize,
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state->buffer + strip_row * row_byte_size,
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state->xsize);
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}
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}
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return 0;
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}
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@ -294,6 +421,9 @@ int ImagingLibTiffDecode(Imaging im, ImagingCodecState state, UINT8* buffer, Py_
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char *filename = "tempfile.tif";
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char *mode = "r";
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TIFF *tiff;
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uint16 photometric = 0; // init to not PHOTOMETRIC_YCBCR
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int isYCbCr = 0;
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int ret;
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/* buffer is the encoded file, bytes is the length of the encoded file */
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/* it all ends up in state->buffer, which is a uint8* from Imaging.h */
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@ -354,6 +484,10 @@ int ImagingLibTiffDecode(Imaging im, ImagingCodecState state, UINT8* buffer, Py_
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}
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}
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TIFFGetField(tiff, TIFFTAG_PHOTOMETRIC, &photometric);
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isYCbCr = photometric == PHOTOMETRIC_YCBCR;
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if (TIFFIsTiled(tiff)) {
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INT32 x, y, tile_y;
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UINT32 tile_width, tile_length, current_tile_width, row_byte_size;
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@ -429,75 +563,13 @@ int ImagingLibTiffDecode(Imaging im, ImagingCodecState state, UINT8* buffer, Py_
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}
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}
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} else {
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INT32 strip_row;
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UINT8 *new_data;
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UINT32 rows_per_strip, row_byte_size;
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int ret;
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ret = TIFFGetField(tiff, TIFFTAG_ROWSPERSTRIP, &rows_per_strip);
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if (ret != 1) {
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rows_per_strip = state->ysize;
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if (!isYCbCr) {
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ret = _decodeStrip(im, state, tiff);
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}
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TRACE(("RowsPerStrip: %u \n", rows_per_strip));
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// We could use TIFFStripSize, but for YCbCr data it returns subsampled data size
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row_byte_size = (state->xsize * state->bits + 7) / 8;
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/* overflow check for realloc */
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if (INT_MAX / row_byte_size < rows_per_strip) {
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state->errcode = IMAGING_CODEC_MEMORY;
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TIFFClose(tiff);
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return -1;
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}
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state->bytes = rows_per_strip * row_byte_size;
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TRACE(("StripSize: %d \n", state->bytes));
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if (TIFFStripSize(tiff) > state->bytes) {
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// If the strip size as expected by LibTiff isn't what we're expecting, abort.
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// man: TIFFStripSize returns the equivalent size for a strip of data as it would be returned in a
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// call to TIFFReadEncodedStrip ...
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state->errcode = IMAGING_CODEC_MEMORY;
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TIFFClose(tiff);
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return -1;
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}
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/* realloc to fit whole strip */
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/* malloc check above */
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new_data = realloc (state->buffer, state->bytes);
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if (!new_data) {
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state->errcode = IMAGING_CODEC_MEMORY;
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TIFFClose(tiff);
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return -1;
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}
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state->buffer = new_data;
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for (; state->y < state->ysize; state->y += rows_per_strip) {
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if (ReadStrip(tiff, state->y, (UINT32 *)state->buffer) == -1) {
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TRACE(("Decode Error, strip %d\n", TIFFComputeStrip(tiff, state->y, 0)));
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state->errcode = IMAGING_CODEC_BROKEN;
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TIFFClose(tiff);
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return -1;
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}
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TRACE(("Decoded strip for row %d \n", state->y));
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// iterate over each row in the strip and stuff data into image
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for (strip_row = 0; strip_row < min((INT32) rows_per_strip, state->ysize - state->y); strip_row++) {
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TRACE(("Writing data into line %d ; \n", state->y + strip_row));
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// UINT8 * bbb = state->buffer + strip_row * (state->bytes / rows_per_strip);
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// TRACE(("chars: %x %x %x %x\n", ((UINT8 *)bbb)[0], ((UINT8 *)bbb)[1], ((UINT8 *)bbb)[2], ((UINT8 *)bbb)[3]));
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state->shuffle((UINT8*) im->image[state->y + state->yoff + strip_row] +
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state->xoff * im->pixelsize,
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state->buffer + strip_row * row_byte_size,
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state->xsize);
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}
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else {
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ret = _decodeStripYCbCr(im, state, tiff);
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}
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if (ret == -1) { return ret; }
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}
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TIFFClose(tiff);
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