Vulnerabilities > CVE-2017-2814 - Improper Restriction of Operations within the Bounds of a Memory Buffer vulnerability in Freedesktop Poppler 0.53.0

047910
CVSS 6.8 - MEDIUM
Attack vector
NETWORK
Attack complexity
MEDIUM
Privileges required
NONE
Confidentiality impact
PARTIAL
Integrity impact
PARTIAL
Availability impact
PARTIAL

Summary

An exploitable heap overflow vulnerability exists in the image rendering functionality of Poppler 0.53.0. A specifically crafted pdf can cause an image resizing after allocation has already occurred, resulting in heap corruption which can lead to code execution. An attacker controlled PDF file can be used to trigger this vulnerability.

Vulnerable Configurations

Part Description Count
Application
Freedesktop
1

Common Attack Pattern Enumeration and Classification (CAPEC)

  • Buffer Overflow via Environment Variables
    This attack pattern involves causing a buffer overflow through manipulation of environment variables. Once the attacker finds that they can modify an environment variable, they may try to overflow associated buffers. This attack leverages implicit trust often placed in environment variables.
  • Overflow Buffers
    Buffer Overflow attacks target improper or missing bounds checking on buffer operations, typically triggered by input injected by an attacker. As a consequence, an attacker is able to write past the boundaries of allocated buffer regions in memory, causing a program crash or potentially redirection of execution as per the attackers' choice.
  • Client-side Injection-induced Buffer Overflow
    This type of attack exploits a buffer overflow vulnerability in targeted client software through injection of malicious content from a custom-built hostile service.
  • Filter Failure through Buffer Overflow
    In this attack, the idea is to cause an active filter to fail by causing an oversized transaction. An attacker may try to feed overly long input strings to the program in an attempt to overwhelm the filter (by causing a buffer overflow) and hoping that the filter does not fail securely (i.e. the user input is let into the system unfiltered).
  • MIME Conversion
    An attacker exploits a weakness in the MIME conversion routine to cause a buffer overflow and gain control over the mail server machine. The MIME system is designed to allow various different information formats to be interpreted and sent via e-mail. Attack points exist when data are converted to MIME compatible format and back.

Seebug

bulletinFamilyexploit
description### Summary An exploitable heap overflow vulnerability exists in the image rendering functionality of Poppler-0.53.0. A specifically crafted pdf can cause an image resizing after allocation has already occurred, resulting in heap corruption which can lead to code execution. An attacker controlled PDF file can be used to trigger this vulnerability. ### Tested Versions Poppler-0.53.0 ### Product URLs https://poppler.freedesktop.org/ ### CVSSv3 Score 7.5 - CVSS:3.0/AV:N/AC:H/PR:N/UI:R/S:U/C:H/I:H/A:H ### CWE CWE-122: Heap-based Buffer Overflow ### Details Poppler is a shared library for displaying PDF files, used as middleware within different enterprise and opensource solutions alike (e.g. Gimp). It is forked off of XPDF, and is a complete implementation of the PDF ISO standard. The Poppler library, by default, uses a private implementation of reading and rendering images. There is an compilation option for libjpeg support, but the flag is not enabled by default. This private implementation contains assumptions about the JPEG file headers that can lead to heap corruption when broken. Whenever the PDF Lexer discovers an image, the DCTStream::reset() method eventually gets called to process the image headers found in the PDF. ``` void DCTStream::reset() { int i, j; dctReset(gFalse); if (!readHeader()) { y = height; return; } ... ``` Due to how JPEGs are stored and compressed (Discrete Cosine Transforms), an appropriate amount of space has to be allocated for the DCT decompression to occur (still in DCTStream::reset()) [0] ``` if (progressive || !interleaved) { bufWidth = ((width + mcuWidth - 1) / mcuWidth) * mcuWidth; bufHeight = ((height + mcuHeight - 1) / mcuHeight) * mcuHeight; if (bufWidth <= 0 || bufHeight <= 0 || bufWidth > INT_MAX / bufWidth / (int)sizeof(int)) { error(errSyntaxError, getPos(), "Invalid image size in DCT stream"); y = height; return; } (i = 0; i < numComps; ++i) { // [0] frameBuf[i] = (int *)gmallocn(bufWidth * bufHeight, sizeof(int)); memset(frameBuf[i], 0, bufWidth * bufHeight * sizeof(int)); } ``` After the space has been allocated, further headers and data are read in to prepare for the DCT algorithm as such (still in DCTStream::reset()). The `readScan()` function [0] transforms 8x8 pixel blocks. While `readHeader()` [2] will read headers continuously till error or until the `readScanInfo()` method returns gTrue. ``` do { restartMarker = 0xd0; restart(); readScan(); // [1] } while (readHeader()); // [2] ``` The main issue lies in that the `width` and `height` variables that determine the size of the allocated buffer are class variables read from a specific header inside of the `readHeader()` function, more specifically, either `readProgressiveSOF` (\xff\xc2) or `readBaselineSOF` (\xff\xc1). Thus, if a specially crafted PDF file can allocate a JPEG buffer and then resize the height and width after the allocation, it will cause poppler to perform DCT data transforms on internal heap memory when it tries to read the image data. (inside of DCTStream::readScan()). The code below shows the issue: ``` for (y1 = 0; y1 < height; y1 += dy1) { //orig height = 0xd9; new height = 0x10b for (x1 = 0; x1 < width; x1 += dx1) { //orig width = 0xd9; new width = 0x10c // ... for (cc = 0; cc < numComps; ++cc) { // ... h = compInfo[cc].hSample; v = compInfo[cc].vSample; horiz = mcuWidth / h; vert = mcuHeight / v; vSub = vert / 8; for (y2 = 0; y2 < dy1; y2 += vert) { //dy1 == 8 for (x2 = 0; x2 < dx1; x2 += horiz) { //dx1 == 8 p1 = &frameBuf[cc][(y1+y2) * bufWidth + (x1+x2)]; // [3] for (y3 = 0, i = 0; y3 < 8; ++y3, i += 8) { data[i] = p1[0]; // [5] //... data[i+7] = p1[7]; p1 += bufWidth * vSub; // Ö [4] p1 = &frameBuf[cc][(y1+y2) * bufWidth + (x1+x2)]; for (y3 = 0, i = 0; y3 < 8; ++y3, i += 8) { p1[0] = data[i]; // [5] //... p1[7] = data[i+7]; p1 += bufWidth * vSub; } // Ö ... ``` The code at [3] will cause p1 to point past the end of the allocated buffer, it will subsequently be written to at [5]. ### Crash Information ``` RAX: 0x0 RBX: 0xea RCX: 0xffffffffffffffff RDX: 0x6 RSI: 0x133de RDI: 0x133de RBP: 0x7ffe093f29e0 --> 0x7ffe093f29f0 ("0000000002677ca0") RSP: 0x681ffe00 --> 0x7f8fb3456598 --> 0xffffffc1c748c931 RIP: 0x70000002 --> 0xfc3050fc3050fc3 R8 : 0x3061633737363230 ('02677ca0') R9 : 0x6f6974707572726f ('orruptio') R10: 0x8 R11: 0x246 R12: 0x7ffe093f27f0 --> 0x7ffe093f28a0 --> 0x7ffe093f28c0 --> 0x7f8fb04db220 ("': %s: 0x%s ***\n") R13: 0x7 R14: 0x59 ('Y') R15: 0x681fffa0 --> 0xea EFLAGS: 0x246 (carry PARITY adjust ZERO sign trap INTERRUPT direction overflow) [-------------------------------------code-------------------------------------] => 0x70000002: ret 0x70000003: syscall 0x70000005: ret 0x70000006: syscall [------------------------------------stack-------------------------------------] 0000| 0x681ffe00 --> 0x7f8fb3456598 --> 0xffffffc1c748c931 0008| 0x681ffe08 --> 0x0 0016| 0x681ffe10 --> 0x0 0024| 0x681ffe18 --> 0x7f8fb34530f5 --> 0x1f0f66c328c48348 0032| 0x681ffe20 ("orruptio") 0040| 0x681ffe28 --> 0x70000000 --> 0x50fc3050fc3050f 0048| 0x681ffe30 --> 0x0 0056| 0x681ffe38 --> 0x0 [------------------------------------------------------------------------------] Legend: code, data, rodata, value Stopped reason: SIGABRT ``` ### Timeline * 2017-05-16 - Vendor Disclosure * 2017-07-07 - Public Release ### CREDIT * Discovered by Marcin Noga and Lilith Wyatt of Cisco Talos.
idSSV:96474
last seen2017-11-19
modified2017-09-14
published2017-09-14
reporterRoot
titlePoppler PDF Image Display DCTStream::readScan() Code Execution Vulnerability(CVE-2017-2814)

Talos

idTALOS-2017-0311
last seen2019-05-29
published2017-07-07
reporterTalos Intelligence
sourcehttp://www.talosintelligence.com/vulnerability_reports/TALOS-2017-0311
titlePoppler PDF Image Display DCTStream::readScan() Code Execution Vulnerability