Title: NASA Common Data Format remote buffer overflow(s) Advisory ID: INFIGO-2009-07-09 Advisory URL: http://www.infigo.hr/en/in_focus/advisories/INFIGO-2009-07-09 Impact: Remote code execution Risk Level: High Vulnerability Type: Remote The vulnerability exists in the ReadAEDRList64() function. This function is used to read a list of attribute entries from a CDF file. The attribute entries are stored in a list indexed by the entry number. Various other memory corruption vulnerabilities have been identified in SearchForRecord_r_64(), LastRecord64(), CDFsel64() and other functions. In cooperation with the vendor all identified vulnerable function have been fixed, and a proper validation module was developed to verify CDF files before processing them. The vulnerabilities has been identified in the latest available CDF version 3.2.4. Previous versions are believed to be vulnerable as well Reproducible: Always Steps to Reproduce: Expected Results: The vendor has addressed vulnerabilities on 20.7.2009. with CDF library version 3.3. New CDF library 3.3 has 'cdfvalidate' module that will validate CDF files for potential malformed values. New version is available at http://cdf.gsfc.nasa.gov/. ./cdf32_1-dist/src/lib/cdfread64.c: ------------------------------------------------ STATICforIDL CDFstatus ReadAEDRList64 (vFILE *fp, struct AEDRstructExt64 ***AEDRList, OFF_T AEDRHead, Int32 MaxEntry) { ... struct AEDRstructExt64 *TempAEDR; Int32 LastAEDRNum = -1; Int32 i; OFF_T temp; ... [1] *AEDRList = cdf_AllocateMemory((MaxEntry + 1) * sizeof(struct AEDRstructExt64**), NULL); .... while (NxtAEDR != 0 && LastAEDRNum != MaxEntry) { [2] TempAEDR = cdf_AllocateMemory(sizeof(struct AEDRstructExt64), NULL); ... [3] if (!Read32_64(fp,&(TempAEDR->AEDR.Num))) return CRE; ... [4] (*AEDRList)[TempAEDR->AEDR.Num] = TempAEDR; } return pStatus; } ------------------------------------------------------------------------- The code marked as [1] creates an array of AEDRstructExt64 structures, allocated on the heap and assigned to the AEDRList variable. The TempAEDR structure [2] is also allocated on the heap. It is further used in the while() loop to read the attributes from the CDF file that is being parsed. The Read32_64() function [3] is used to read an integer from the CDF file stream and store it in the TempAEDR->AEDR.Num. At [4] this value is used as the index that specifies where in the AEDRList the address of the TempAEDR structure is stored. This is where the vulnerability exists as the code performs no sanity checks on the TempAEDR->AEDR.Num value. In other words, if the CDF file contains a value that is higher than the number of allocated AEDRList entries, a malicious CDF file can overwrite arbitrary heap data after the AEDRList array. The value that will be written is the address of the TempAEDR structure. This can be further exploited as the attacker can control the content of the TempAEDR structure, in which malicious code can be embedded. As the TempAEDR->AEDR.Num is used as the index, the attacker can write 4 bytes to an address higher than the AEDRList's address. Since this index is added to the AEDRList address, an attacker can also specify a large value which allows him to overflow the integer in the adding calculation, effectively writing to any address mapped by the process. Other protection mechanisms, such as ASLR, could make this exploitation method less reliable.
Status typo.
bumped to 3.3 in cvs. thanks.
Arches, please test and mark stable: =sci-libs/cdf-3.3.0 Target keywords: "amd64 ppc x86"
x86 stable
amd64 stable
ppc stable
CVE reqeusted and draft filed.
GLSA 200908-06.
CVE-2009-2850 (http://nvd.nist.gov/nvd.cfm?cvename=CVE-2009-2850): Multiple buffer overflows in NASA Common Data Format (CDF) allow context-dependent attackers to execute arbitrary code, as demonstrated using (1) an array index error in the ReadAEDRList64 function, and other errors in the (2) SearchForRecord_r_64, (3) LastRecord64, (4) CDFsel64, and other unspecified functions.