3.1.1 ----- Security ======== :cve:`2016-0740`: Buffer overflow in TiffDecode.c ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ Pillow 3.1.0 and earlier when linked against libtiff >= 4.0.0 on x64 may overflow a buffer when reading a specially crafted tiff file. Specifically, libtiff >= 4.0.0 changed the return type of ``TIFFScanlineSize`` from ``int32`` to machine dependent ``int32|64``. If the scanline is sized so that it overflows an ``int32``, it may be interpreted as a negative number, which will then pass the size check in ``TiffDecode.c`` line 236. To do this, the logical scanline size has to be > 2gb, and for the test file, the allocated buffer size is 64k against a roughly 4gb scan line size. Any image data over 64k is written over the heap, causing a segfault. This issue was found by security researcher FourOne. :cve:`2016-0775`: Buffer overflow in FliDecode.c ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ In all versions of Pillow, dating back at least to the last PIL 1.1.7 release, FliDecode.c has a buffer overflow error. Around line 192: .. code-block:: c case 16: /* COPY chunk */ for (y = 0; y < state->ysize; y++) { UINT8* buf = (UINT8*) im->image[y]; memcpy(buf+x, data, state->xsize); data += state->xsize; } break; The memcpy has error where ``x`` is added to the target buffer address. ``X`` is used in several internal temporary variable roles, but can take a value up to the width of the image. ``Im->image[y]`` is a set of row pointers to segments of memory that are the size of the row. At the max ``y``, this will write the contents of the line off the end of the memory buffer, causing a segfault. This issue was found by Alyssa Besseling at Atlassian. :cve:`2016-2533`: Buffer overflow in PcdDecode.c ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ In all versions of Pillow, dating back at least to the last PIL 1.1.7 release, ``PcdDecode.c`` has a buffer overflow error. The ``state.buffer`` for ``PcdDecode.c`` is allocated based on a 3 bytes per pixel sizing, where ``PcdDecode.c`` wrote into the buffer assuming 4 bytes per pixel. This writes 768 bytes beyond the end of the buffer into other Python object storage. In some cases, this causes a segfault, in others an internal Python malloc error. Integer overflow in Resample.c ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ If a large value was passed into the new size for an image, it is possible to overflow an ``int32`` value passed into malloc. .. code-block:: c kk = malloc(xsize * kmax * sizeof(float)); ... xbounds = malloc(xsize * 2 * sizeof(int)); ``xsize`` is trusted user input. These multiplications can overflow, leading the ``malloc``'d buffer to be undersized. These allocations are followed by a loop that writes out of bounds. This can lead to corruption on the heap of the Python process with attacker controlled float data. This issue was found by Ned Williamson.