Visible to Intel only — GUID: GUID-00C4C3F4-AB43-45CC-AC7D-AD3DC6E935D0
Visible to Intel only — GUID: GUID-00C4C3F4-AB43-45CC-AC7D-AD3DC6E935D0
Security Validation of Library Functions
Most of Intel® Integrated Performance Primitives Cryptography (Intel® IPP Cryptography) functions use secret data, such as keys, directly. For example, AES functions convert an input secret key into key schedule, which is used by all the cipher modes. The secret data might leak when code processes various secrets with the different executed instructions sequences or memory access patterns.
The difference in code behavior can be observed, analyzed, and, as a result, several bits or the whole secret can be determined. It means the code does not match the constant execution time (CET) design.
To check that the library matches the CET design, a special PINCER (Pin Certification) test suite is used. The PINCER test suite is based on Intel’s dynamic binary instrumentation tool - Pin (see https://www.intel.com/content/www/us/en/developer/articles/tool/pin-a-dynamic-binary-instrumentation-tool.html) and includes a set of tests, where each test is responsible for one separate library function.
The PINCER test runs the validated library function several times with different inputs and collects two kinds of traces:
IP (Instruction Pointer) trace, which contains executed instructions addresses
Memory access trace, which contains memory access addresses and read/write instructions
The function complies with the CET design if collected traces are identical. Otherwise, it does not meet the CET requirements.
Currently, PINCER tests are running on 64-bit Linux architecture and cover a limited list of library functions. The tables below present library functions covered by PINCER tests and their validation status.
Function Name |
Status |
---|---|
ippsAESSetKey |
passed |
ippsAES{Encrypt/Decrypt}ECB |
passed |
ippsAES{Encrypt/Decrypt}CBC |
passed |
ippsAES{Encrypt/Decrypt}CBC_SC1 |
passed |
ippsAES{Encrypt/Decrypt}CBC_SC2 |
passed |
ippsAES{Encrypt/Decrypt}CBC_SC3 |
passed |
ippsAES{Encrypt/Decrypt}CFB |
passed |
ippsAES{Encrypt/Decrypt}OFB |
passed |
ippsAES{Encrypt/Decrypt}CTR |
passed |
ippsAES{Encrypt/Decrypt}XTS_Direct |
passed |
ippsAES_XTS{Encrypt/Decrypt} |
passed |
ippsAES_GCM{Start/Encrypt/Decrypt} |
passed |
ippsAES_SIV{Encrypt/Decrypt} |
passed |
ippsAES_S2V_CMAC |
passed |
ippsAES_CCM{Encrypt/Decrypt} |
passed |
ippsAES_CMAC{Update/Final} |
passed |
Function Name |
Status |
---|---|
ippsSMS4SetKey |
passed |
ippsSMS4{Encrypt/Decrypt}ECB |
passed |
ippsSMS4{Encrypt/Decrypt}CBC |
passed |
ippsSMS4{Encrypt/Decrypt}CBC_SC1 |
passed |
ippsSMS4{Encrypt/Decrypt}CBC_SC2 |
passed |
ippsSMS4{Encrypt/Decrypt}CBC_SC3 |
passed |
ippsSMS4{Encrypt/Decrypt}CFB |
passed |
ippsSMS4{Encrypt/Decrypt}OFB |
passed |
ippsSMS4{Encrypt/Decrypt}CTR |
passed |
ippsSMS4_CCM{Encrypt/Decrypt} |
passed |
Function Name |
Status |
---|---|
ippsHMACInit_rmf |
passed |
Function Name |
Status |
---|---|
ippsRSA_Decrypt |
passed |
ippsRSADecrypt_OAEP |
passed |
ippsRSADecrypt_OAEP_rmf |
passed |
ipsRSASign_PSS |
passed |
ipsRSASign_PSS_rmf |
passed |
ipsRSASign_PKCS1v15 |
passed |
ipsRSASign_PKCS1v15_rmf |
passed |
ippsRSA_MB_Decrypt |
passed |
Function Name |
Status |
---|---|
ippsDLPPublicKey |
passed |
ippsDLPSharedSecretDH |
passed |
ippsDLPSignDSA |
passed |
Function Name |
Status |
---|---|
ippsGFpAdd |
passed |
ippsGFpAdd_PE |
passed |
ippsGFpMul |
passed |
ippsGFpMul_PE |
passed |
ippsGFpSub |
passed |
ippsGFpSub_PE |
passed |
ippsGFpConj |
passed |
ippsGFpNeg |
passed |
ippsGFpSqr |
passed |
ippsGFpExp |
passed |
ippsGFpMultiExp |
passed |
ippsGFpSqrt |
failed |
ippsGFpInv |
passed |
Function Name |
Status |
---|---|
ippsGFpECAddPoint |
passed |
ippsGFpECNegPoint |
passed |
ippsGFpECMulPoint |
passed |
ippsGFpECPublicKey |
passed |
ippsGFpECSharedSecretDH{C} |
passed |
ippsGFpECSignDSA |
passed |
ippsGFpECSignNR |
passed |
ippsGFpSignSM2 |
passed |
ippsGFpECES{Start/Final}_SM2 |
passed |
ippsGFpECES{Encrypr/Decrypt}_SM2 |
passed |