/********************************************************************************/ /* */ /* Structure Print and Scan Utilities */ /* Written by Ken Goldman */ /* IBM Thomas J. Watson Research Center */ /* */ /* (c) Copyright IBM Corporation 2015 - 2020. */ /* */ /* All rights reserved. */ /* */ /* Redistribution and use in source and binary forms, with or without */ /* modification, are permitted provided that the following conditions are */ /* met: */ /* */ /* Redistributions of source code must retain the above copyright notice, */ /* this list of conditions and the following disclaimer. */ /* */ /* Redistributions in binary form must reproduce the above copyright */ /* notice, this list of conditions and the following disclaimer in the */ /* documentation and/or other materials provided with the distribution. */ /* */ /* Neither the names of the IBM Corporation nor the names of its */ /* contributors may be used to endorse or promote products derived from */ /* this software without specific prior written permission. */ /* */ /* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS */ /* "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT */ /* LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR */ /* A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT */ /* HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, */ /* SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT */ /* LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, */ /* DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY */ /* THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT */ /* (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE */ /* OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. */ /********************************************************************************/ #include #include #include #include #include #include #include extern int tssVerbose; #ifdef TPM_TSS_NO_PRINT /* false to compile out printf */ int tssSwallowRc = 0; /* function prototype to match the printf prototype */ int TSS_SwallowPrintf(const char *format, ...) { format = format; return 0; } #endif #ifndef TPM_TSS_NOFILE /* TSS_Array_Scan() converts a string to a binary array */ uint32_t TSS_Array_Scan(unsigned char **data, /* output binary, freed by caller */ size_t *len, const char *string) /* input string */ { uint32_t rc = 0; size_t strLength; if (rc == 0) { strLength = strlen(string); if ((strLength %2) != 0) { if (tssVerbose) printf("TSS_Array_Scan: Error, string length %lu is not even\n", (unsigned long)strLength); rc = TSS_RC_BAD_PROPERTY_VALUE; } } if (rc == 0) { *len = strLength / 2; /* safe because already tested for even number of bytes */ rc = TSS_Malloc(data, (*len) + 8); } if (rc == 0) { unsigned int i; for (i = 0 ; i < *len ; i++) { unsigned int tmpint; int irc = sscanf(string + (2*i), "%2x", &tmpint); *((*data)+i) = tmpint; if (irc != 1) { if (tssVerbose) printf("TSS_Array_Scan: invalid hexascii\n"); rc = TSS_RC_BAD_PROPERTY_VALUE; } } } return rc; } #endif /* TPM_TSS_NOFILE */ /* TSS_PrintAll() prints 'string', the length, and then the entire byte array */ void TSS_PrintAll(const char *string, const unsigned char* buff, uint32_t length) { TSS_PrintAlli(string, 1, buff, length); } /* TSS_PrintAlli() prints 'string', the length, and then the entire byte array Each line indented 'indent' spaces. */ void TSS_PrintAlli(const char *string, unsigned int indent, const unsigned char* buff, uint32_t length) { TSS_PrintAllLogLevel(LOGLEVEL_DEBUG, string, indent, buff, length); } /* TSS_PrintAllLogLevel() prints based on loglevel the 'string', the length, and then the entire byte array loglevel LOGLEVEL_DEBUG prints the length and prints the array with a newline every 16 bytes. otherwise prints no length and prints the array with no newlines. */ void TSS_PrintAllLogLevel(uint32_t loglevel, const char *string, unsigned int indent, const unsigned char* buff, uint32_t length) { uint32_t i; if (buff != NULL) { if (loglevel == LOGLEVEL_DEBUG) { printf("%*s" "%s length %u\n" "%*s", indent, "", string, length, indent, ""); } else { printf("%*s" "%s" "%*s", indent, "", string, indent, ""); } for (i = 0 ; i < length ; i++) { if ((loglevel == LOGLEVEL_DEBUG) && i && !( i % 16 )) { printf("\n" "%*s", indent, ""); } printf("%.2x ",buff[i]); } printf("\n"); } else { printf("%*s" "%s null\n", indent, "", string); } return; } #ifndef TPM_TSS_NO_PRINT #ifdef TPM_TPM20 void TSS_TPM2B_Print(const char *string, unsigned int indent, TPM2B *source) { TSS_PrintAlli(string, indent, source->buffer, source->size); return; } /* Table 9 - Definition of (UINT16) TPM_ALG_ID Constants */ void TSS_TPM_ALG_ID_Print(const char *string, TPM_ALG_ID source, unsigned int indent) { printf("%*s", indent, ""); switch (source) { case ALG_RSA_VALUE: printf("%s TPM_ALG_RSA\n", string); break; case ALG_TDES_VALUE: printf("%s TPM_ALG_TDES\n", string); break; case ALG_SHA1_VALUE: printf("%s TPM_ALG_SHA1\n", string); break; case ALG_HMAC_VALUE: printf("%s TPM_ALG_HMAC\n", string); break; case ALG_AES_VALUE: printf("%s TPM_ALG_AES\n", string); break; case ALG_MGF1_VALUE: printf("%s TPM_ALG_MGF1\n", string); break; case ALG_KEYEDHASH_VALUE: printf("%s TPM_ALG_KEYEDHASH\n", string); break; case ALG_XOR_VALUE: printf("%s TPM_ALG_XOR\n", string); break; case ALG_SHA256_VALUE: printf("%s TPM_ALG_SHA256\n", string); break; case ALG_SHA384_VALUE: printf("%s TPM_ALG_SHA384\n", string); break; case ALG_SHA512_VALUE: printf("%s TPM_ALG_SHA512\n", string); break; case ALG_NULL_VALUE: printf("%s TPM_ALG_NULL\n", string); break; case ALG_SM3_256_VALUE: printf("%s TPM_ALG_SM3_256\n", string); break; case ALG_SM4_VALUE: printf("%s TPM_ALG_SM4\n", string); break; case ALG_RSASSA_VALUE: printf("%s TPM_ALG_RSASSA\n", string); break; case ALG_RSAES_VALUE: printf("%s TPM_ALG_RSAES\n", string); break; case ALG_RSAPSS_VALUE: printf("%s TPM_ALG_RSAPSS\n", string); break; case ALG_OAEP_VALUE: printf("%s TPM_ALG_OAEP\n", string); break; case ALG_ECDSA_VALUE: printf("%s TPM_ALG_ECDSA\n", string); break; case ALG_ECDH_VALUE: printf("%s TPM_ALG_ECDH\n", string); break; case ALG_ECDAA_VALUE: printf("%s TPM_ALG_ECDAA\n", string); break; case ALG_SM2_VALUE: printf("%s TPM_ALG_SM2\n", string); break; case ALG_ECSCHNORR_VALUE: printf("%s TPM_ALG_ECSCHNORR\n", string); break; case ALG_ECMQV_VALUE: printf("%s TPM_ALG_ECMQV\n", string); break; case ALG_KDF1_SP800_56A_VALUE: printf("%s TPM_ALG_KDF1_SP800_56A\n", string); break; case ALG_KDF2_VALUE: printf("%s TPM_ALG_KDF2\n", string); break; case ALG_KDF1_SP800_108_VALUE: printf("%s TPM_ALG_KDF1_SP800_108\n", string); break; case ALG_ECC_VALUE: printf("%s TPM_ALG_ECC\n", string); break; case ALG_SYMCIPHER_VALUE: printf("%s TPM_ALG_SYMCIPHER\n", string); break; case ALG_CAMELLIA_VALUE: printf("%s TPM_ALG_CAMELLIA\n", string); break; case ALG_SHA3_256_VALUE: printf("%s TPM_ALG_SHA3_256\n", string); break; case ALG_SHA3_384_VALUE: printf("%s TPM_ALG_SHA3_384\n", string); break; case ALG_SHA3_512_VALUE: printf("%s TPM_ALG_SHA3_512\n", string); break; case ALG_CMAC_VALUE: printf("%s TPM_ALG_CMAC\n", string); break; case ALG_CTR_VALUE: printf("%s TPM_ALG_CTR\n", string); break; case ALG_OFB_VALUE: printf("%s TPM_ALG_OFB\n", string); break; case ALG_CBC_VALUE: printf("%s TPM_ALG_CBC\n", string); break; case ALG_CFB_VALUE: printf("%s TPM_ALG_CFB\n", string); break; case ALG_ECB_VALUE: printf("%s TPM_ALG_ECB\n", string); break; default: printf("%s TPM_ALG_ID value %04hx unknown\n", string, source); } return; } /* Table 10 - Definition of (UINT16) {ECC} TPM_ECC_CURVE Constants */ void TSS_TPM_ECC_CURVE_Print(const char *string, TPM_ECC_CURVE source, unsigned int indent) { printf("%*s", indent, ""); switch (source) { case TPM_ECC_NONE: printf("%s TPM_ECC_NONE\n", string); break; case TPM_ECC_NIST_P192: printf("%s TPM_ECC_NIST_P192\n", string); break; case TPM_ECC_NIST_P224: printf("%s TPM_ECC_NIST_P224\n", string); break; case TPM_ECC_NIST_P256: printf("%s TPM_ECC_NIST_P256\n", string); break; case TPM_ECC_NIST_P384: printf("%s TPM_ECC_NIST_P384\n", string); break; case TPM_ECC_NIST_P521: printf("%s TPM_ECC_NIST_P521\n", string); break; case TPM_ECC_BN_P256: printf("%s TPM_ECC_BN_P256\n", string); break; case TPM_ECC_BN_P638: printf("%s TPM_ECC_BN_P638\n", string); break; case TPM_ECC_SM2_P256: printf("%s TPM_ECC_SM2_P256\n", string); break; default: printf("%s TPM_ECC_CURVE value %04hx unknown\n", string, source); } return; } /* Table 100 - Definition of TPMS_TAGGED_POLICY Structure */ void TSS_TPMS_TAGGED_POLICY_Print(TPMS_TAGGED_POLICY *source, unsigned int indent) { TSS_TPM_HANDLE_Print("handle", source->handle, indent); TSS_TPMT_HA_Print(&source->policyHash, indent); return; } /* Table 12 - Definition of (UINT32) TPM_CC Constants (Numeric Order) */ void TSS_TPM_CC_Print(const char *string, TPM_CC source, unsigned int indent) { printf("%*s", indent, ""); switch (source) { case TPM_CC_NV_UndefineSpaceSpecial: printf("%s TPM_CC_NV_UndefineSpaceSpecial\n", string); break; case TPM_CC_EvictControl: printf("%s TPM_CC_EvictControl\n", string); break; case TPM_CC_HierarchyControl: printf("%s TPM_CC_HierarchyControl\n", string); break; case TPM_CC_NV_UndefineSpace: printf("%s TPM_CC_NV_UndefineSpace\n", string); break; case TPM_CC_ChangeEPS: printf("%s TPM_CC_ChangeEPS\n", string); break; case TPM_CC_ChangePPS: printf("%s TPM_CC_ChangePPS\n", string); break; case TPM_CC_Clear: printf("%s TPM_CC_Clear\n", string); break; case TPM_CC_ClearControl: printf("%s TPM_CC_ClearControl\n", string); break; case TPM_CC_ClockSet: printf("%s TPM_CC_ClockSet\n", string); break; case TPM_CC_HierarchyChangeAuth: printf("%s TPM_CC_HierarchyChangeAuth\n", string); break; case TPM_CC_NV_DefineSpace: printf("%s TPM_CC_NV_DefineSpace\n", string); break; case TPM_CC_PCR_Allocate: printf("%s TPM_CC_PCR_Allocate\n", string); break; case TPM_CC_PCR_SetAuthPolicy: printf("%s TPM_CC_PCR_SetAuthPolicy\n", string); break; case TPM_CC_PP_Commands: printf("%s TPM_CC_PP_Commands\n", string); break; case TPM_CC_SetPrimaryPolicy: printf("%s TPM_CC_SetPrimaryPolicy\n", string); break; #if 0 case TPM_CC_FieldUpgradeStart: printf("%s TPM_CC_FieldUpgradeStart\n", string); break; #endif case TPM_CC_ClockRateAdjust: printf("%s TPM_CC_ClockRateAdjust\n", string); break; case TPM_CC_CreatePrimary: printf("%s TPM_CC_CreatePrimary\n", string); break; case TPM_CC_NV_GlobalWriteLock: printf("%s TPM_CC_NV_GlobalWriteLock\n", string); break; case TPM_CC_GetCommandAuditDigest: printf("%s TPM_CC_GetCommandAuditDigest\n", string); break; case TPM_CC_NV_Increment: printf("%s TPM_CC_NV_Increment\n", string); break; case TPM_CC_NV_SetBits: printf("%s TPM_CC_NV_SetBits\n", string); break; case TPM_CC_NV_Extend: printf("%s TPM_CC_NV_Extend\n", string); break; case TPM_CC_NV_Write: printf("%s TPM_CC_NV_Write\n", string); break; case TPM_CC_NV_WriteLock: printf("%s TPM_CC_NV_WriteLock\n", string); break; case TPM_CC_DictionaryAttackLockReset: printf("%s TPM_CC_DictionaryAttackLockReset\n", string); break; case TPM_CC_DictionaryAttackParameters: printf("%s TPM_CC_DictionaryAttackParameters\n", string); break; case TPM_CC_NV_ChangeAuth: printf("%s TPM_CC_NV_ChangeAuth\n", string); break; case TPM_CC_PCR_Event: printf("%s TPM_CC_PCR_Event\n", string); break; case TPM_CC_PCR_Reset: printf("%s TPM_CC_PCR_Reset\n", string); break; case TPM_CC_SequenceComplete: printf("%s TPM_CC_SequenceComplete\n", string); break; case TPM_CC_SetAlgorithmSet: printf("%s TPM_CC_SetAlgorithmSet\n", string); break; case TPM_CC_SetCommandCodeAuditStatus: printf("%s TPM_CC_SetCommandCodeAuditStatus\n", string); break; #if 0 case TPM_CC_FieldUpgradeData: printf("%s TPM_CC_FieldUpgradeData\n", string); break; #endif case TPM_CC_IncrementalSelfTest: printf("%s TPM_CC_IncrementalSelfTest\n", string); break; case TPM_CC_SelfTest: printf("%s TPM_CC_SelfTest\n", string); break; case TPM_CC_Startup: printf("%s TPM_CC_Startup\n", string); break; case TPM_CC_Shutdown: printf("%s TPM_CC_Shutdown\n", string); break; case TPM_CC_StirRandom: printf("%s TPM_CC_StirRandom\n", string); break; case TPM_CC_ActivateCredential: printf("%s TPM_CC_ActivateCredential\n", string); break; case TPM_CC_Certify: printf("%s TPM_CC_Certify\n", string); break; case TPM_CC_PolicyNV: printf("%s TPM_CC_PolicyNV\n", string); break; case TPM_CC_CertifyCreation: printf("%s TPM_CC_CertifyCreation\n", string); break; case TPM_CC_Duplicate: printf("%s TPM_CC_Duplicate\n", string); break; case TPM_CC_GetTime: printf("%s TPM_CC_GetTime\n", string); break; case TPM_CC_GetSessionAuditDigest: printf("%s TPM_CC_GetSessionAuditDigest\n", string); break; case TPM_CC_NV_Read: printf("%s TPM_CC_NV_Read\n", string); break; case TPM_CC_NV_ReadLock: printf("%s TPM_CC_NV_ReadLock\n", string); break; case TPM_CC_ObjectChangeAuth: printf("%s TPM_CC_ObjectChangeAuth\n", string); break; case TPM_CC_PolicySecret: printf("%s TPM_CC_PolicySecret\n", string); break; case TPM_CC_Rewrap: printf("%s TPM_CC_Rewrap\n", string); break; case TPM_CC_Create: printf("%s TPM_CC_Create\n", string); break; case TPM_CC_ECDH_ZGen: printf("%s TPM_CC_ECDH_ZGen\n", string); break; case TPM_CC_HMAC: printf("%s TPM_CC_HMAC\n", string); break; #if 0 case TPM_CC_MAC: printf("%s TPM_CC_MAC\n", string); break; #endif case TPM_CC_Import: printf("%s TPM_CC_Import\n", string); break; case TPM_CC_Load: printf("%s TPM_CC_Load\n", string); break; case TPM_CC_Quote: printf("%s TPM_CC_Quote\n", string); break; case TPM_CC_RSA_Decrypt: printf("%s TPM_CC_RSA_Decrypt\n", string); break; case TPM_CC_HMAC_Start: printf("%s TPM_CC_HMAC_Start\n", string); break; #if 0 case TPM_CC_MAC_Start: printf("%s TPM_CC_MAC_Start\n", string); break; #endif case TPM_CC_SequenceUpdate: printf("%s TPM_CC_SequenceUpdate\n", string); break; case TPM_CC_Sign: printf("%s TPM_CC_Sign\n", string); break; case TPM_CC_Unseal: printf("%s TPM_CC_Unseal\n", string); break; case TPM_CC_PolicySigned: printf("%s TPM_CC_PolicySigned\n", string); break; case TPM_CC_ContextLoad: printf("%s TPM_CC_ContextLoad\n", string); break; case TPM_CC_ContextSave: printf("%s TPM_CC_ContextSave\n", string); break; case TPM_CC_ECDH_KeyGen: printf("%s TPM_CC_ECDH_KeyGen\n", string); break; case TPM_CC_EncryptDecrypt: printf("%s TPM_CC_EncryptDecrypt\n", string); break; case TPM_CC_FlushContext: printf("%s TPM_CC_FlushContext\n", string); break; case TPM_CC_LoadExternal: printf("%s TPM_CC_LoadExternal\n", string); break; case TPM_CC_MakeCredential: printf("%s TPM_CC_MakeCredential\n", string); break; case TPM_CC_NV_ReadPublic: printf("%s TPM_CC_NV_ReadPublic\n", string); break; case TPM_CC_PolicyAuthorize: printf("%s TPM_CC_PolicyAuthorize\n", string); break; case TPM_CC_PolicyAuthValue: printf("%s TPM_CC_PolicyAuthValue\n", string); break; case TPM_CC_PolicyCommandCode: printf("%s TPM_CC_PolicyCommandCode\n", string); break; case TPM_CC_PolicyCounterTimer: printf("%s TPM_CC_PolicyCounterTimer\n", string); break; case TPM_CC_PolicyCpHash: printf("%s TPM_CC_PolicyCpHash\n", string); break; case TPM_CC_PolicyLocality: printf("%s TPM_CC_PolicyLocality\n", string); break; case TPM_CC_PolicyNameHash: printf("%s TPM_CC_PolicyNameHash\n", string); break; case TPM_CC_PolicyOR: printf("%s TPM_CC_PolicyOR\n", string); break; case TPM_CC_PolicyTicket: printf("%s TPM_CC_PolicyTicket\n", string); break; case TPM_CC_ReadPublic: printf("%s TPM_CC_ReadPublic\n", string); break; case TPM_CC_RSA_Encrypt: printf("%s TPM_CC_RSA_Encrypt\n", string); break; case TPM_CC_StartAuthSession: printf("%s TPM_CC_StartAuthSession\n", string); break; case TPM_CC_VerifySignature: printf("%s TPM_CC_VerifySignature\n", string); break; case TPM_CC_ECC_Parameters: printf("%s TPM_CC_ECC_Parameters\n", string); break; #if 0 case TPM_CC_FirmwareRead: printf("%s TPM_CC_FirmwareRead\n", string); break; #endif case TPM_CC_GetCapability: printf("%s TPM_CC_GetCapability\n", string); break; case TPM_CC_GetRandom: printf("%s TPM_CC_GetRandom\n", string); break; case TPM_CC_GetTestResult: printf("%s TPM_CC_GetTestResult\n", string); break; case TPM_CC_Hash: printf("%s TPM_CC_Hash\n", string); break; case TPM_CC_PCR_Read: printf("%s TPM_CC_PCR_Read\n", string); break; case TPM_CC_PolicyPCR: printf("%s TPM_CC_PolicyPCR\n", string); break; case TPM_CC_PolicyRestart: printf("%s TPM_CC_PolicyRestart\n", string); break; case TPM_CC_ReadClock: printf("%s TPM_CC_ReadClock\n", string); break; case TPM_CC_PCR_Extend: printf("%s TPM_CC_PCR_Extend\n", string); break; case TPM_CC_PCR_SetAuthValue: printf("%s TPM_CC_PCR_SetAuthValue\n", string); break; case TPM_CC_NV_Certify: printf("%s TPM_CC_NV_Certify\n", string); break; case TPM_CC_EventSequenceComplete: printf("%s TPM_CC_EventSequenceComplete\n", string); break; case TPM_CC_HashSequenceStart: printf("%s TPM_CC_HashSequenceStart\n", string); break; case TPM_CC_PolicyPhysicalPresence: printf("%s TPM_CC_PolicyPhysicalPresence\n", string); break; case TPM_CC_PolicyDuplicationSelect: printf("%s TPM_CC_PolicyDuplicationSelect\n", string); break; case TPM_CC_PolicyGetDigest: printf("%s TPM_CC_PolicyGetDigest\n", string); break; case TPM_CC_TestParms: printf("%s TPM_CC_TestParms\n", string); break; case TPM_CC_Commit: printf("%s TPM_CC_Commit\n", string); break; case TPM_CC_PolicyPassword: printf("%s TPM_CC_PolicyPassword\n", string); break; case TPM_CC_ZGen_2Phase: printf("%s TPM_CC_ZGen_2Phase\n", string); break; case TPM_CC_EC_Ephemeral: printf("%s TPM_CC_EC_Ephemeral\n", string); break; case TPM_CC_PolicyNvWritten: printf("%s TPM_CC_PolicyNvWritten\n", string); break; case TPM_CC_PolicyTemplate: printf("%s TPM_CC_PolicyTemplate\n", string); break; case TPM_CC_CreateLoaded: printf("%s TPM_CC_CreateLoaded\n", string); break; case TPM_CC_PolicyAuthorizeNV: printf("%s TPM_CC_PolicyAuthorizeNV\n", string); break; case TPM_CC_EncryptDecrypt2: printf("%s TPM_CC_EncryptDecrypt2\n", string); break; #if 0 case TPM_CC_AC_GetCapability: printf("%s TPM_CC_AC_GetCapability\n", string); break; case TPM_CC_AC_Send: printf("%s TPM_CC_AC_Send\n", string); break; case TPM_CC_Policy_AC_SendSelect: printf("%s TPM_CC_Policy_AC_SendSelect\n", string); break; #endif default: printf("%s TPM_CC value %08x unknown\n", string, source); } return; } /* Table 17 - Definition of (INT8) TPM_CLOCK_ADJUST Constants */ void TSS_TPM_CLOCK_ADJUST_Print(const char *string, TPM_CLOCK_ADJUST source, unsigned int indent) { printf("%*s", indent, ""); switch (source) { case TPM_CLOCK_COARSE_SLOWER: printf("%s TPM_CLOCK_COARSE_SLOWER\n", string); break; case TPM_CLOCK_MEDIUM_SLOWER: printf("%s TPM_CLOCK_MEDIUM_SLOWER\n", string); break; case TPM_CLOCK_FINE_SLOWER: printf("%s TPM_CLOCK_FINE_SLOWER\n", string); break; case TPM_CLOCK_NO_CHANGE: printf("%s TPM_CLOCK_NO_CHANGE\n", string); break; case TPM_CLOCK_FINE_FASTER: printf("%s TPM_CLOCK_FINE_FASTER\n", string); break; case TPM_CLOCK_MEDIUM_FASTER: printf("%s TPM_CLOCK_MEDIUM_FASTER\n", string); break; case TPM_CLOCK_COARSE_FASTER: printf("%s TPM_CLOCK_COARSE_FASTER\n", string); break; default: printf("%s TPM_CLOCK_ADJUST value %d unknown\n", string, source); } return; } /* Table 18 - Definition of (UINT16) TPM_EO Constants */ void TSS_TPM_EO_Print(const char *string, TPM_EO source, unsigned int indent) { printf("%*s", indent, ""); switch (source) { case TPM_EO_EQ: printf("%s TPM_EO_EQ\n", string); break; case TPM_EO_NEQ: printf("%s TPM_EO_NEQ\n", string); break; case TPM_EO_SIGNED_GT: printf("%s TPM_EO_SIGNED_GT\n", string); break; case TPM_EO_UNSIGNED_GT: printf("%s TPM_EO_UNSIGNED_GT\n", string); break; case TPM_EO_SIGNED_LT: printf("%s TPM_EO_SIGNED_LT\n", string); break; case TPM_EO_UNSIGNED_LT: printf("%s TPM_EO_UNSIGNED_LT\n", string); break; case TPM_EO_SIGNED_GE: printf("%s TPM_EO_SIGNED_GE\n", string); break; case TPM_EO_UNSIGNED_GE: printf("%s TPM_EO_UNSIGNED_GE\n", string); break; case TPM_EO_SIGNED_LE: printf("%s TPM_EO_SIGNED_LE\n", string); break; case TPM_EO_UNSIGNED_LE: printf("%s TPM_EO_UNSIGNED_LE\n", string); break; case TPM_EO_BITSET: printf("%s TPM_EO_BITSET\n", string); break; case TPM_EO_BITCLEAR: printf("%s TPM_EO_BITCLEAR\n", string); break; default: printf("%s TPM_EO value %04hx unknown\n", string, source); } return; } /* Table 19 - Definition of (UINT16) TPM_ST Constants */ void TSS_TPM_ST_Print(const char *string, TPM_ST source, unsigned int indent) { printf("%*s", indent, ""); switch (source) { case TPM_ST_RSP_COMMAND: printf("%s TPM_ST_RSP_COMMAND\n", string); break; case TPM_ST_NULL: printf("%s TPM_ST_NULL\n", string); break; case TPM_ST_NO_SESSIONS: printf("%s TPM_ST_NO_SESSIONS\n", string); break; case TPM_ST_SESSIONS: printf("%s TPM_ST_SESSIONS\n", string); break; case TPM_ST_ATTEST_NV: printf("%s TPM_ST_ATTEST_NV\n", string); break; case TPM_ST_ATTEST_COMMAND_AUDIT: printf("%s TPM_ST_ATTEST_COMMAND_AUDIT\n", string); break; case TPM_ST_ATTEST_SESSION_AUDIT: printf("%s TPM_ST_ATTEST_SESSION_AUDIT\n", string); break; case TPM_ST_ATTEST_CERTIFY: printf("%s TPM_ST_ATTEST_CERTIFY\n", string); break; case TPM_ST_ATTEST_QUOTE: printf("%s TPM_ST_ATTEST_QUOTE\n", string); break; case TPM_ST_ATTEST_TIME: printf("%s TPM_ST_ATTEST_TIME\n", string); break; case TPM_ST_ATTEST_CREATION: printf("%s TPM_ST_ATTEST_CREATION\n", string); break; case TPM_ST_ATTEST_NV_DIGEST: printf("%s TPM_ST_ATTEST_NV_DIGEST\n", string); break; case TPM_ST_CREATION: printf("%s TPM_ST_CREATION\n", string); break; case TPM_ST_VERIFIED: printf("%s TPM_ST_VERIFIED\n", string); break; case TPM_ST_AUTH_SECRET: printf("%s TPM_ST_AUTH_SECRET\n", string); break; case TPM_ST_HASHCHECK: printf("%s TPM_ST_HASHCHECK\n", string); break; case TPM_ST_AUTH_SIGNED: printf("%s TPM_ST_AUTH_SIGNED\n", string); break; default: printf("%s TPM_ST value %04hx unknown\n", string, source); } return; } /* Table 20 - Definition of (UINT16) TPM_SU Constants */ void TSS_TPM_SU_Print(const char *string, TPM_SU source, unsigned int indent) { printf("%*s", indent, ""); switch (source) { case TPM_SU_CLEAR: printf("%s TPM_SU_CLEAR\n", string); break; case TPM_SU_STATE: printf("%s TPM_SU_STATE\n", string); break; default: printf("%s TPM_SU value %04hx unknown\n", string, source); } return; } /* Table 21 - Definition of (UINT8) TPM_SE Constants */ void TSS_TPM_SE_Print(const char *string, TPM_SE source, unsigned int indent) { printf("%*s", indent, ""); switch (source) { case TPM_SE_HMAC: printf("%s TPM_SE_HMAC\n", string); break; case TPM_SE_POLICY: printf("%s TPM_SE_POLICY\n", string); break; case TPM_SE_TRIAL: printf("%s TPM_SE_TRIAL\n", string); break; default: printf("%s TPM_SE value %02x unknown\n", string, source); } return; } /* Table 22 - Definition of (UINT32) TPM_CAP Constants */ void TSS_TPM_CAP_Print(const char *string, TPM_CAP source, unsigned int indent) { printf("%*s", indent, ""); switch (source) { case TPM_CAP_ALGS: printf("%s TPM_CAP_ALGS\n", string); break; case TPM_CAP_HANDLES: printf("%s TPM_CAP_HANDLES\n", string); break; case TPM_CAP_COMMANDS: printf("%s TPM_CAP_COMMANDS\n", string); break; case TPM_CAP_PP_COMMANDS: printf("%s TPM_CAP_PP_COMMANDS\n", string); break; case TPM_CAP_AUDIT_COMMANDS: printf("%s TPM_CAP_AUDIT_COMMANDS\n", string); break; case TPM_CAP_PCRS: printf("%s TPM_CAP_PCRS\n", string); break; case TPM_CAP_TPM_PROPERTIES: printf("%s TPM_CAP_TPM_PROPERTIES\n", string); break; case TPM_CAP_PCR_PROPERTIES: printf("%s TPM_CAP_PCR_PROPERTIES\n", string); break; case TPM_CAP_ECC_CURVES: printf("%s TPM_CAP_ECC_CURVES\n", string); break; case TPM_CAP_AUTH_POLICIES: printf("%s TPM_CAP_AUTH_POLICIES\n", string); break; case TPM_CAP_VENDOR_PROPERTY: printf("%s TPM_CAP_VENDOR_PROPERTY\n", string); break; default: printf("%s TPM_CAP value %08x unknown\n", string, source); } return; } /* Table 26 - Definition of Types for Handles */ void TSS_TPM_HANDLE_Print(const char *string, TPM_HANDLE source, unsigned int indent) { printf("%*s", indent, ""); switch (source) { case TPM_RH_SRK: printf("%s TPM_RH_SRK\n", string); break; case TPM_RH_OWNER: printf("%s TPM_RH_OWNER\n", string); break; case TPM_RH_REVOKE: printf("%s TPM_RH_REVOKE\n", string); break; case TPM_RH_TRANSPORT: printf("%s TPM_RH_TRANSPORT\n", string); break; case TPM_RH_OPERATOR: printf("%s TPM_RH_OPERATOR\n", string); break; case TPM_RH_ADMIN: printf("%s TPM_RH_ADMIN\n", string); break; case TPM_RH_EK: printf("%s TPM_RH_EK\n", string); break; case TPM_RH_NULL: printf("%s TPM_RH_NULL\n", string); break; case TPM_RH_UNASSIGNED: printf("%s TPM_RH_UNASSIGNED\n", string); break; case TPM_RS_PW: printf("%s TPM_RS_PW\n", string); break; case TPM_RH_LOCKOUT: printf("%s TPM_RH_LOCKOUT\n", string); break; case TPM_RH_ENDORSEMENT: printf("%s TPM_RH_ENDORSEMENT\n", string); break; case TPM_RH_PLATFORM: printf("%s TPM_RH_PLATFORM\n", string); break; case TPM_RH_PLATFORM_NV: printf("%s TPM_RH_PLATFORM_NV\n", string); break; default: printf("%s TPM_HANDLE %08x\n", string, source); } return; } /* Table 30 - Definition of (UINT32) TPMA_ALGORITHM Bits */ void TSS_TPM_TPMA_ALGORITHM_Print(TPMA_ALGORITHM source, unsigned int indent) { if (source.val & TPMA_ALGORITHM_ASYMMETRIC) printf("%*s" "TPMA_ALGORITHM: asymmetric\n", indent, ""); if (source.val & TPMA_ALGORITHM_SYMMETRIC) printf("%*s" "TPMA_ALGORITHM: symmetric\n", indent, ""); if (source.val & TPMA_ALGORITHM_HASH) printf("%*s" "TPMA_ALGORITHM: hash\n", indent, ""); if (source.val & TPMA_ALGORITHM_OBJECT) printf("%*s" "TPMA_ALGORITHM: object\n", indent, ""); if (source.val & TPMA_ALGORITHM_SIGNING) printf("%*s" "TPMA_ALGORITHM: signing\n", indent, ""); if (source.val & TPMA_ALGORITHM_ENCRYPTING) printf("%*s" "TPMA_ALGORITHM: encrypting\n", indent, ""); if (source.val & TPMA_ALGORITHM_METHOD) printf("%*s" "TPMA_ALGORITHM: method\n", indent, ""); return; } /* Table 31 - Definition of (UINT32) TPMA_OBJECT Bits */ void TSS_TPMA_OBJECT_Print(const char *string, TPMA_OBJECT source, unsigned int indent) { printf("%*s%s: %08x\n", indent, "", string, source.val); if (source.val & TPMA_OBJECT_FIXEDTPM) printf("%*s%s: fixedTpm\n", indent, "", string); if (source.val & TPMA_OBJECT_STCLEAR) printf("%*s%s: stClear\n", indent, "", string); if (source.val & TPMA_OBJECT_FIXEDPARENT) printf("%*s%s: fixedParent\n", indent, "", string); if (source.val & TPMA_OBJECT_SENSITIVEDATAORIGIN) printf("%*s%s: sensitiveDataOrigin\n", indent, "", string); if (source.val & TPMA_OBJECT_USERWITHAUTH) printf("%*s%s: userWithAuth\n", indent, "", string); if (source.val & TPMA_OBJECT_ADMINWITHPOLICY) printf("%*s%s: adminWithPolicy\n", indent, "", string); if (source.val & TPMA_OBJECT_NODA) printf("%*s%s: noDA\n", indent, "", string); if (source.val & TPMA_OBJECT_ENCRYPTEDDUPLICATION) printf("%*s%s: encryptedDuplication\n", indent, "", string); if (source.val & TPMA_OBJECT_RESTRICTED) printf("%*s%s: restricted\n", indent, "", string); if (source.val & TPMA_OBJECT_DECRYPT) printf("%*s%s: decrypt\n", indent, "", string); if (source.val & TPMA_OBJECT_SIGN) printf("%*s%s: sign\n", indent, "", string); return; } /* Table 32 - Definition of (UINT8) TPMA_SESSION Bits */ void TSS_TPMA_SESSION_Print(TPMA_SESSION source, unsigned int indent) { if (source.val & TPMA_SESSION_CONTINUESESSION) printf("%*s" "TPMA_SESSION: continue\n", indent, ""); if (source.val & TPMA_SESSION_AUDITEXCLUSIVE) printf("%*s" "TPMA_SESSION: auditexclusive\n", indent, ""); if (source.val & TPMA_SESSION_AUDITRESET) printf("%*s" "TPMA_SESSION: auditreset\n", indent, ""); if (source.val & TPMA_SESSION_DECRYPT) printf("%*s" "TPMA_SESSION: decrypt\n", indent, ""); if (source.val & TPMA_SESSION_ENCRYPT) printf("%*s" "TPMA_SESSION: encrypt\n", indent, ""); if (source.val & TPMA_SESSION_AUDIT) printf("%*s" "TPMA_SESSION: audit\n", indent, ""); return; } /* Table 33 - Definition of (UINT8) TPMA_LOCALITY Bits */ void TSS_TPMA_LOCALITY_Print(TPMA_LOCALITY source, unsigned int indent) { if (source.val & TPMA_LOCALITY_ZERO) printf("%*s" "TPMA_LOCALITY: zero\n", indent, ""); if (source.val & TPMA_LOCALITY_ONE) printf("%*s" "TPMA_LOCALITY: one\n", indent, ""); if (source.val & TPMA_LOCALITY_TWO) printf("%*s" "TPMA_LOCALITY: two\n", indent, ""); if (source.val & TPMA_LOCALITY_THREE) printf("%*s" "TPMA_LOCALITY: three\n", indent, ""); if (source.val & TPMA_LOCALITY_FOUR) printf("%*s" "TPMA_LOCALITY: four\n", indent, ""); if (source.val & TPMA_LOCALITY_EXTENDED) printf("%*s" "TPMA_LOCALITY: extended\n", indent, ""); return; } /* Table 34 - Definition of (UINT32) TPMA_PERMANENT Bits */ void TSS_TPMA_PERMANENT_Print(TPMA_PERMANENT source, unsigned int indent) { printf("%*s" "TPMA_PERMANENT: ownerAuthSet %s\n", indent, "", (source.val & TPMA_PERMANENT_OWNERAUTHSET) ? "yes" : "no"); printf("%*s" "TPMA_PERMANENT: endorsementAuthSet %s\n", indent, "", (source.val & TPMA_PERMANENT_ENDORSEMENTAUTHSET) ? "yes" : "no"); printf("%*s" "TPMA_PERMANENT: lockoutAuthSet %s\n", indent, "", (source.val & TPMA_PERMANENT_LOCKOUTAUTHSET) ? "yes" : "no"); printf("%*s" "TPMA_PERMANENT: disableClear %s\n", indent, "", (source.val & TPMA_PERMANENT_DISABLECLEAR) ? "yes" : "no"); printf("%*s" "TPMA_PERMANENT: inLockout %s\n", indent, "", (source.val & TPMA_PERMANENT_INLOCKOUT) ? "yes" : "no"); printf("%*s" "TPMA_PERMANENT: tpmGeneratedEPS %s\n", indent, "", (source.val & TPMA_PERMANENT_TPMGENERATEDEPS) ? "yes" : "no"); return; } /* Table 35 - Definition of (UINT32) TPMA_STARTUP_CLEAR Bits */ void TSS_TPMA_STARTUP_CLEAR_Print(TPMA_STARTUP_CLEAR source, unsigned int indent) { printf("%*s" "TPMA_STARTUP_CLEAR: phEnable %s\n", indent, "", (source.val & TPMA_STARTUP_CLEAR_PHENABLE) ? "yes" : "no"); printf("%*s" "TPMA_STARTUP_CLEAR: shEnable %s\n", indent, "", (source.val & TPMA_STARTUP_CLEAR_SHENABLE) ? "yes" : "no"); printf("%*s" "TPMA_STARTUP_CLEAR: ehEnable %s\n", indent, "", (source.val & TPMA_STARTUP_CLEAR_EHENABLE) ? "yes" : "no"); printf("%*s" "TPMA_STARTUP_CLEAR: phEnableNV %s\n", indent, "", (source.val & TPMA_STARTUP_CLEAR_PHENABLENV) ? "yes" : "no"); printf("%*s" "TPMA_STARTUP_CLEAR: orderly %s\n", indent, "", (source.val & TPMA_STARTUP_CLEAR_ORDERLY) ? "yes" : "no"); return; } /* Table 36 - Definition of (UINT32) TPMA_MEMORY Bits */ void TSS_TPMA_MEMORY_Print(TPMA_MEMORY source, unsigned int indent) { printf("%*s" "TPMA_MEMORY: sharedRAM %s\n", indent, "", (source.val & TPMA_MEMORY_SHAREDRAM) ? "yes" : "no"); printf("%*s" "TPMA_MEMORY: sharedNV %s\n", indent, "", (source.val & TPMA_MEMORY_SHAREDNV) ? "yes" : "no"); printf("%*s" "TPMA_MEMORY: objectCopiedToRam %s\n", indent, "", (source.val & TPMA_MEMORY_OBJECTCOPIEDTORAM) ? "yes" : "no"); return; } /* Table 38 - Definition of (UINT32) TPMA_MODES Bits */ void TSS_TPMA_MODES_Print(TPMA_MODES source, unsigned int indent) { printf("%*s" "TPMA_MODES: TPMA_MODES_FIPS_140_2 %s\n", indent, "", (source.val & TPMA_MODES_FIPS_140_2) ? "yes" : "no"); return; } /* Table 39 - Definition of (BYTE) TPMI_YES_NO Type */ void TSS_TPMI_YES_NO_Print(const char *string, TPMI_YES_NO source, unsigned int indent) { printf("%*s", indent, ""); switch (source) { case NO: printf("%s no\n", string); break; case YES: printf("%s yes\n", string); break; default: printf("%s TPMI_YES_NO %02x unknown\n", string, source); } return; } /* Table 75 - Definition of TPMU_HA Union */ void TSS_TPMU_HA_Print(TPMU_HA *source, uint32_t selector, unsigned int indent) { switch (selector) { #ifdef TPM_ALG_SHA1 case TPM_ALG_SHA1: TSS_PrintAlli("sha1", indent, source->sha1, SHA1_DIGEST_SIZE); break; #endif #ifdef TPM_ALG_SHA256 case TPM_ALG_SHA256: TSS_PrintAlli("sha256", indent, source->sha256, SHA256_DIGEST_SIZE); break; #endif #ifdef TPM_ALG_SHA384 case TPM_ALG_SHA384: TSS_PrintAlli("sha384", indent, source->sha384, SHA384_DIGEST_SIZE); break; #endif #ifdef TPM_ALG_SHA512 case TPM_ALG_SHA512: TSS_PrintAlli("sha512", indent, source->sha512, SHA512_DIGEST_SIZE); break; #endif #ifdef TPM_ALG_SM3_256 case TPM_ALG_SM3_256: TSS_PrintAlli("sm3_256", indent, source->sm3_256, SM3_256_DIGEST_SIZE); break; #endif case TPM_ALG_NULL: break; default: printf("%*s" "TPMU_HA: selection %08x not implemented\n", indent, "", selector); } return; } /* Table 76 - Definition of TPMT_HA Structure */ void TSS_TPMT_HA_Print(TPMT_HA *source, unsigned int indent) { TSS_TPM_ALG_ID_Print("hashAlg", source->hashAlg, indent+2); TSS_TPMU_HA_Print(&source->digest, source->hashAlg, indent+2); return; } /* Table 89 - Definition of TPMS_PCR_SELECT Structure */ void TSS_TPMS_PCR_SELECT_Print(TPMS_PCR_SELECT *source, unsigned int indent) { printf("%*s" "TSS_TPMS_PCR_SELECT sizeofSelect %u\n", indent, "", source->sizeofSelect); TSS_PrintAlli("pcrSelect", indent, source->pcrSelect, source->sizeofSelect); return; } /* Table 90 - Definition of TPMS_PCR_SELECTION Structure */ void TSS_TPMS_PCR_SELECTION_Print(TPMS_PCR_SELECTION *source, unsigned int indent) { TSS_TPM_ALG_ID_Print("hash", source->hash, indent+2); TSS_PrintAlli("TPMS_PCR_SELECTION", indent+2, source->pcrSelect, source->sizeofSelect); return; } /* Table 93 - Definition of TPMT_TK_CREATION Structure */ void TSS_TPMT_TK_CREATION_Print(TPMT_TK_CREATION *source, unsigned int indent) { TSS_TPM_ST_Print("tag", source->tag, indent); TSS_TPM_HANDLE_Print("hierarchy", source->hierarchy, indent); TSS_TPM2B_Print("TPMT_TK_CREATION digest", indent, &source->digest.b); return; } /* Table 94 - Definition of TPMT_TK_VERIFIED Structure */ void TSS_TPMT_TK_VERIFIED_Print(TPMT_TK_VERIFIED *source, unsigned int indent) { TSS_TPM_ST_Print("tag", source->tag, indent); TSS_TPM_HANDLE_Print("hierarchy", source->hierarchy, indent); TSS_TPM2B_Print("TPMT_TK_VERIFIED digest", indent, &source->digest.b); return; } /* Table 95 - Definition of TPMT_TK_AUTH Structure */ void TSS_TPMT_TK_AUTH_Print(TPMT_TK_AUTH *source, unsigned int indent) { TSS_TPM_ST_Print("tag", source->tag, indent); TSS_TPM_HANDLE_Print("hierarchy", source->hierarchy, indent); TSS_TPM2B_Print("TPMT_TK_AUTH digest", indent, &source->digest.b); return; } /* Table 96 - Definition of TPMT_TK_HASHCHECK Structure */ void TSS_TPMT_TK_HASHCHECK_Print(TPMT_TK_HASHCHECK *source, unsigned int indent) { TSS_TPM_ST_Print("tag", source->tag, indent); TSS_TPM_HANDLE_Print("hierarchy", source->hierarchy, indent); TSS_TPM2B_Print("TPMT_TK_AUTH digest", indent, &source->digest.b); return; } /* Table 101 - Definition of TPML_CC Structure */ void TSS_TPML_CC_Print(TPML_CC *source, unsigned int indent) { uint32_t i; printf("%*s" "TPML_CC count %u\n", indent, "", source->count); for (i = 0 ; (i < source->count) ; i++) { TSS_TPM_CC_Print("commandCode", source->commandCodes[i], indent); } return; } /* Table 102 - Definition of TPML_PCR_SELECTION Structure */ void TSS_TPML_PCR_SELECTION_Print(TPML_PCR_SELECTION *source, unsigned int indent) { uint32_t i; printf("%*s" "TPML_PCR_SELECTION count %u\n", indent, "", source->count); for (i = 0 ; (i < source->count) ; i++) { TSS_TPMS_PCR_SELECTION_Print(&source->pcrSelections[i], indent); } return; } /* Table 103 - Definition of TPML_ALG Structure */ void TSS_TPML_ALG_Print(TPML_ALG *source, unsigned int indent) { uint32_t i; printf("%*s" "TPML_ALG count %u\n", indent, "", source->count); for (i = 0 ; (i < source->count) ; i++) { TSS_TPM_ALG_ID_Print("algorithms", source->algorithms[i], indent); } return; } /* Table 105 - Definition of TPML_DIGEST Structure */ void TSS_TPML_DIGEST_Print(TPML_DIGEST *source, unsigned int indent) { uint32_t i; printf("%*s" "TPML_DIGEST count %u\n", indent, "", source->count); for (i = 0 ; (i < source->count) ; i++) { TSS_TPM2B_Print("TPML_DIGEST digest", indent, &source->digests[i].b); } return; } /* Table 106 - Definition of TPML_DIGEST_VALUES Structure */ void TSS_TPML_DIGEST_VALUES_Print(TPML_DIGEST_VALUES *source, unsigned int indent) { uint32_t i; printf("%*s" "TPML_DIGEST_VALUES count %u\n", indent, "", source->count); for (i = 0 ; (i < source->count) ; i++) { TSS_TPMT_HA_Print(&source->digests[i], indent); } return; } /* Table 115 - Definition of TPMS_CLOCK_INFO Structure */ void TSS_TPMS_CLOCK_INFO_Print(TPMS_CLOCK_INFO *source, unsigned int indent) { printf("%*s" "TPMS_CLOCK_INFO clock %"PRIu64"\n", indent, "", source->clock); printf("%*s" "TPMS_CLOCK_INFO resetCount %u\n", indent, "", source->resetCount); printf("%*s" "TPMS_CLOCK_INFO restartCount %u\n", indent, "", source->restartCount); printf("%*s" "TPMS_CLOCK_INFO safe %x\n", indent, "", source->safe); return; } /* Table 116 - Definition of TPMS_TIME_INFO Structure */ void TSS_TPMS_TIME_INFO_Print(TPMS_TIME_INFO *source, unsigned int indent) { uint64_t days; uint64_t hours; uint64_t minutes; uint64_t seconds; printf("%*s" "TPMS_TIME_INFO time %"PRIu64" msec", indent, "", source->time); days = source->time/(1000 * 60 * 60 * 24); hours = (source->time % (1000 * 60 * 60 * 24)) / (1000 * 60 * 60); minutes = (source->time % (1000 * 60 * 60)) / (1000 * 60); seconds = (source->time % (1000 * 60)) / (1000); printf(" - %"PRIu64" days %"PRIu64" hours %"PRIu64" minutes %"PRIu64" seconds\n", days, hours, minutes, seconds); TSS_TPMS_CLOCK_INFO_Print(&source->clockInfo, indent+2); return; } /* Table 117 - Definition of TPMS_TIME_ATTEST_INFO Structure */ void TSS_TPMS_TIME_ATTEST_INFO_Print(TPMS_TIME_ATTEST_INFO *source, unsigned int indent) { TSS_TPMS_TIME_INFO_Print(&source->time, indent+2); printf("%*s" "TPMS_TIME_ATTEST_INFO firmwareVersion %"PRIu64"\n", indent, "", source->firmwareVersion); return; } /* Table 118 - Definition of TPMS_CERTIFY_INFO Structure */ void TSS_TPMS_CERTIFY_INFO_Print(TPMS_CERTIFY_INFO *source, unsigned int indent) { TSS_TPM2B_Print("TPMS_CERTIFY_INFO name", indent, &source->name.b); TSS_TPM2B_Print("TPMS_CERTIFY_INFO qualifiedName", indent, &source->qualifiedName.b); return; } /* Table 119 - Definition of TPMS_QUOTE_INFO Structure */ void TSS_TPMS_QUOTE_INFO_Print(TPMS_QUOTE_INFO *source, unsigned int indent) { TSS_TPML_PCR_SELECTION_Print(&source->pcrSelect, indent+2); TSS_TPM2B_Print("TPMS_QUOTE_INFO pcrDigest", indent+2, &source->pcrDigest.b); return; } /* Table 120 - Definition of TPMS_COMMAND_AUDIT_INFO Structure */ void TSS_TPMS_COMMAND_AUDIT_INFO_Print(TPMS_COMMAND_AUDIT_INFO *source, unsigned int indent) { printf("%*s" "TPMS_COMMAND_AUDIT_INFO auditCounter %"PRIu64"\n", indent, "", source->auditCounter); TSS_TPM_ALG_ID_Print("digestAlg", source->digestAlg, indent); TSS_TPM2B_Print("TPMS_COMMAND_AUDIT_INFO auditDigest", indent, &source->auditDigest.b); TSS_TPM2B_Print("TPMS_COMMAND_AUDIT_INFO commandDigest", indent, &source->commandDigest.b); return; } /* Table 121 - Definition of TPMS_SESSION_AUDIT_INFO Structure */ void TSS_TPMS_SESSION_AUDIT_INFO_Print(TPMS_SESSION_AUDIT_INFO *source, unsigned int indent) { printf("%*s" "TPMS_SESSION_AUDIT_INFO exclusiveSession %d\n", indent, "", source->exclusiveSession); TSS_TPM2B_Print("TPMS_SESSION_AUDIT_INFO sessionDigest", indent, &source->sessionDigest.b); return; } /* Table 122 - Definition of TPMS_CREATION_INFO Structure */ void TSS_TPMS_CREATION_INFO_Print(TPMS_CREATION_INFO *source, unsigned int indent) { TSS_TPM2B_Print("TPMS_CREATION_INFO objectName", indent, &source->objectName.b); TSS_TPM2B_Print("TPMS_CREATION_INFO creationHash", indent, &source->creationHash.b); return; } /* Table 123 - Definition of TPMS_NV_CERTIFY_INFO Structure */ void TSS_TPMS_NV_CERTIFY_INFO_Print(TPMS_NV_CERTIFY_INFO *source, unsigned int indent) { TSS_TPM2B_Print("TPMS_NV_CERTIFY_INFO indexName", indent, &source->indexName.b); printf("%*s" "TPMS_NV_CERTIFY_INFO offset %d\n", indent, "", source->offset); TSS_TPM2B_Print("TPMS_NV_CERTIFY_INFO nvContents", indent, &source->nvContents.b); return; } /* Table 125 - Definition of TPMS_NV_DIGEST_CERTIFY_INFO Structure */ void TSS_TPMS_NV_DIGEST_CERTIFY_INFO_Print(TPMS_NV_DIGEST_CERTIFY_INFO *source, unsigned int indent) { TSS_TPM2B_Print("TPMS_NV_DIGEST_CERTIFY_INFO indexName", indent, &source->indexName.b); TSS_TPM2B_Print("TPMS_NV_DIGEST_CERTIFY_INFO nvDigest", indent, &source->nvDigest.b); return; } /* Table 124 - Definition of (TPM_ST) TPMI_ST_ATTEST Type */ void TSS_TPMI_ST_ATTEST_Print(const char *string, TPMI_ST_ATTEST selector, unsigned int indent) { printf("%*s", indent, ""); switch (selector) { case TPM_ST_ATTEST_CERTIFY: printf("%s TPM_ST_ATTEST_CERTIFY\n", string); break; case TPM_ST_ATTEST_CREATION: printf("%s TPM_ST_ATTEST_CREATION\n", string); break; case TPM_ST_ATTEST_QUOTE: printf("%s TPM_ST_ATTEST_QUOTE\n", string); break; case TPM_ST_ATTEST_COMMAND_AUDIT: printf("%s TPM_ST_ATTEST_COMMAND_AUDIT\n", string); break; case TPM_ST_ATTEST_SESSION_AUDIT: printf("%s TPM_ST_ATTEST_SESSION_AUDIT\n", string); break; case TPM_ST_ATTEST_TIME: printf("%s TPM_ST_ATTEST_TIME\n", string); break; case TPM_ST_ATTEST_NV: printf("%s TPM_ST_ATTEST_NV\n", string); break; case TPM_ST_ATTEST_NV_DIGEST: printf("%s TPM_ST_ATTEST_NV_DIGEST\n", string); break; default: printf("%s TPMI_ST_ATTEST_Print: selection %04hx not implemented\n", string, selector); } return; } /* Table 125 - Definition of TPMU_ATTEST Union */ void TSS_TPMU_ATTEST_Print(TPMU_ATTEST *source, TPMI_ST_ATTEST selector, unsigned int indent) { switch (selector) { case TPM_ST_ATTEST_CERTIFY: TSS_TPMS_CERTIFY_INFO_Print(&source->certify, indent+2); break; case TPM_ST_ATTEST_CREATION: TSS_TPMS_CREATION_INFO_Print(&source->creation, indent+2); break; case TPM_ST_ATTEST_QUOTE: TSS_TPMS_QUOTE_INFO_Print(&source->quote, indent+2); break; case TPM_ST_ATTEST_COMMAND_AUDIT: TSS_TPMS_COMMAND_AUDIT_INFO_Print(&source->commandAudit, indent+2); break; case TPM_ST_ATTEST_SESSION_AUDIT: TSS_TPMS_SESSION_AUDIT_INFO_Print(&source->sessionAudit, indent+2); break; case TPM_ST_ATTEST_TIME: TSS_TPMS_TIME_ATTEST_INFO_Print(&source->time, indent+2); break; case TPM_ST_ATTEST_NV: TSS_TPMS_NV_CERTIFY_INFO_Print(&source->nv, indent+2); break; case TPM_ST_ATTEST_NV_DIGEST: TSS_TPMS_NV_DIGEST_CERTIFY_INFO_Print(&source->nvDigest, indent+2); break; default: printf("%*s" "TPMU_ATTEST selection %04hx not implemented\n", indent, "", selector); } return; } /* Table 126 - Definition of TPMS_ATTEST Structure */ void TSS_TPMS_ATTEST_Print(TPMS_ATTEST *source, unsigned int indent) { printf("%*s" "TPMS_ATTEST magic %08x\n", indent+2, "", source->magic); TSS_TPMI_ST_ATTEST_Print("type", source->type, indent+2); TSS_TPM2B_Print("TPMS_ATTEST qualifiedSigner", indent+2, &source->qualifiedSigner.b); TSS_TPM2B_Print("TPMS_ATTEST extraData", indent+2, &source->extraData.b); TSS_TPMS_CLOCK_INFO_Print(&source->clockInfo, indent+2); printf("%*s" "TPMS_ATTEST firmwareVersion %"PRIu64"\n", indent+2, "", source->firmwareVersion); TSS_TPMU_ATTEST_Print(&source->attested, source->type, indent+2); return; } #if 0 /* Removed because it required a large stack allocation. The utilities didn't use it, but rather did the unmarshal and print themselves. */ /* Table 127 - Definition of TPM2B_ATTEST Structure */ void TSS_TPM2B_ATTEST_Print(TPM2B_ATTEST *source, unsigned int indent) { TPM_RC rc = 0; TPMS_ATTEST attests; uint32_t size; uint8_t *buffer = NULL; /* unmarshal the TPMS_ATTEST from the TPM2B_ATTEST */ if (rc == 0) { buffer = source->t.attestationData; size = source->t.size; rc = TSS_TPMS_ATTEST_Unmarshalu(&attests, &buffer, &size); } if (rc == 0) { TSS_TPMS_ATTEST_Print(&attests, indent+2); } else { printf("%*s" "TPMS_ATTEST_Unmarshal failed\n", indent, ""); } return; } #endif /* Table 128 - Definition of TPMS_AUTH_COMMAND Structure */ void TSS_TPMS_AUTH_COMMAND_Print(TPMS_AUTH_COMMAND *source, unsigned int indent) { TSS_TPM_HANDLE_Print("sessionHandle", source->sessionHandle, indent); TSS_TPM2B_Print("TPMS_AUTH_COMMAND nonce", indent, &source->nonce.b); TSS_TPMA_SESSION_Print(source->sessionAttributes, indent); TSS_TPM2B_Print("TPMS_AUTH_COMMAND hmac", indent, &source->hmac.b); return; } /* Table 129 - Definition of TPMS_AUTH_RESPONSE Structure */ void TSS_TPMS_AUTH_RESPONSE_Print(TPMS_AUTH_RESPONSE *source, unsigned int indent) { TSS_PrintAlli("TPMS_AUTH_RESPONSE nonce", indent, source->nonce.t.buffer, source->nonce.t.size); TSS_TPMA_SESSION_Print(source->sessionAttributes, indent); TSS_TPM2B_Print("TPMS_AUTH_RESPONSE hmac", indent, &source->hmac.b); return; } /* Table 130 - Definition of {!ALG.S} (TPM_KEY_BITS) TPMI_!ALG.S_KEY_BITS Type */ void TSS_TPM_KEY_BITS_Print(TPM_KEY_BITS source, unsigned int indent) { printf("%*s" "TPM_KEY_BITS %u\n", indent, "", source); return; } /* Table 131 - Definition of TPMU_SYM_KEY_BITS Union */ void TSS_TPMU_SYM_KEY_BITS_Print(TPMU_SYM_KEY_BITS *source, TPMI_ALG_SYM selector, unsigned int indent) { switch (selector) { #ifdef TPM_ALG_AES case TPM_ALG_AES: TSS_TPM_KEY_BITS_Print(source->aes, indent); break; #endif #ifdef TPM_ALG_SM4 case TPM_ALG_SM4: TSS_TPM_KEY_BITS_Print(source->sm4, indent); break; #endif #ifdef TPM_ALG_CAMELLIA case TPM_ALG_CAMELLIA: TSS_TPM_KEY_BITS_Print(source->camellia, indent); break; #endif #ifdef TPM_ALG_XOR case TPM_ALG_XOR: TSS_TPM_ALG_ID_Print("xorr", source->xorr, indent); break; #endif default: printf("%*s" "TPMI_ALG_SYM value %04hx unknown\n", indent, "", selector); } return; } /* Table 134 - Definition of TPMT_SYM_DEF Structure */ void TSS_TPMT_SYM_DEF_Print(TPMT_SYM_DEF *source, unsigned int indent) { TSS_TPM_ALG_ID_Print("algorithm", source->algorithm, indent); TSS_TPMU_SYM_KEY_BITS_Print(&source->keyBits, source->algorithm, indent); TSS_TPM_ALG_ID_Print("mode", source->mode.sym, indent); return; } /* Table 135 - Definition of TPMT_SYM_DEF_OBJECT Structure */ void TSS_TPMT_SYM_DEF_OBJECT_Print(TPMT_SYM_DEF_OBJECT *source, unsigned int indent) { TSS_TPM_ALG_ID_Print("algorithm", source->algorithm, indent+2); if (source->algorithm != TPM_ALG_NULL) { printf("%*s" "keyBits: %u\n", indent+2, "", source->keyBits.sym); TSS_TPM_ALG_ID_Print("mode", source->mode.sym, indent+2); } return; } /* Table 139 - Definition of TPMS_DERIVE Structure */ void TSS_TPMS_DERIVE_Print(TPMS_DERIVE *source, unsigned int indent) { TSS_TPM2B_Print("TPMS_DERIVE label", indent, &source->label.b); TSS_TPM2B_Print("TPMS_DERIVE context", indent, &source->context.b); return; } /* Table 143 - Definition of TPMS_SENSITIVE_CREATE Structure */ void TSS_TPMS_SENSITIVE_CREATE_Print(TPMS_SENSITIVE_CREATE *source, unsigned int indent) { TSS_TPM2B_Print("userAuth", indent, &source->userAuth.b); TSS_TPM2B_Print("data", indent, &source->data.b); return; } /* Table 144 - Definition of TPM2B_SENSITIVE_CREATE Structure */ void TSS_TPM2B_SENSITIVE_CREATE_Print(const char *string, TPM2B_SENSITIVE_CREATE *source, unsigned int indent) { printf("%*s" "%s\n", indent, "", string); TSS_TPMS_SENSITIVE_CREATE_Print(&source->sensitive, indent+2); return; } /* Table 146 - Definition of {ECC} TPMS_SCHEME_ECDAA Structure */ void TSS_TPMS_SCHEME_ECDAA_Print(TPMS_SCHEME_ECDAA *source, unsigned int indent) { TSS_TPM_ALG_ID_Print("hashAlg", source->hashAlg, indent+2); printf("%*s" "TPMS_SCHEME_ECDAA count %u\n", indent+2, "", source->count); return; } /* Table 149 - Definition of TPMS_SCHEME_XOR Structure */ void TSS_TPMS_SCHEME_XOR_Print(TPMS_SCHEME_XOR *source, unsigned int indent) { TSS_TPM_ALG_ID_Print("hashAlg", source->hashAlg, indent+2); TSS_TPM_ALG_ID_Print("kdf", source->kdf, indent+2); return; } /* Table 150 - Definition of TPMU_SCHEME_KEYEDHASH Union */ void TSS_TPMU_SCHEME_KEYEDHASH_Print(TPMU_SCHEME_KEYEDHASH *source, TPMI_ALG_KEYEDHASH_SCHEME selector, unsigned int indent) { switch (selector) { #ifdef TPM_ALG_HMAC case TPM_ALG_HMAC: TSS_TPM_ALG_ID_Print("hmac", source->hmac.hashAlg, indent+2); break; #endif #ifdef TPM_ALG_XOR case TPM_ALG_XOR: TSS_TPMS_SCHEME_XOR_Print(&source->xorr, indent+2); break; #endif default: printf("%*s" "TPMU_SCHEME_KEYEDHASH selection %04hx not implemented\n", indent, "", selector); } return; } /* Table 151 - Definition of TPMT_KEYEDHASH_SCHEME Structure */ void TSS_TPMT_KEYEDHASH_SCHEME_Print(TPMT_KEYEDHASH_SCHEME *source, unsigned int indent) { TSS_TPM_ALG_ID_Print("scheme", source->scheme, indent+2); if (source->scheme != TPM_ALG_NULL) { TSS_TPMU_SCHEME_KEYEDHASH_Print(&source->details, source->scheme, indent+2); } return; } /* Table 154 - Definition of TPMU_SIG_SCHEME Union */ void TSS_TPMU_SIG_SCHEME_Print(TPMU_SIG_SCHEME *source, TPMI_ALG_SIG_SCHEME selector, unsigned int indent) { switch (selector) { #ifdef TPM_ALG_RSASSA case TPM_ALG_RSASSA: TSS_TPM_ALG_ID_Print("rsassa", source->rsassa.hashAlg, indent+2); break; #endif #ifdef TPM_ALG_RSAPSS case TPM_ALG_RSAPSS: TSS_TPM_ALG_ID_Print("rsapss", source->rsapss.hashAlg, indent+2); break; #endif #ifdef TPM_ALG_ECDSA case TPM_ALG_ECDSA: TSS_TPM_ALG_ID_Print("ecdsa", source->ecdsa.hashAlg, indent+2); break; #endif #ifdef TPM_ALG_ECDAA case TPM_ALG_ECDAA: TSS_TPMS_SCHEME_ECDAA_Print(&source->ecdaa, indent+2); break; #endif #ifdef TPM_ALG_SM2 case TPM_ALG_SM2: TSS_TPM_ALG_ID_Print("sm2", source->sm2.hashAlg, indent+2); break; #endif #ifdef TPM_ALG_ECSCHNORR case TPM_ALG_ECSCHNORR: TSS_TPM_ALG_ID_Print("ecSchnorr", source->ecSchnorr.hashAlg, indent+2); break; #endif #ifdef TPM_ALG_HMAC case TPM_ALG_HMAC: TSS_TPM_ALG_ID_Print("hmac", source->hmac.hashAlg, indent+2); break; #endif default: printf("%*s" "TPMU_SIG_SCHEME selection %04hx not implemented\n", indent, "", selector); } return; } /* Table " Definition", 155 - Definition of TPMT_SIG_SCHEME Structure */ void TSS_TPMT_SIG_SCHEME_Print(TPMT_SIG_SCHEME *source, unsigned int indent) { TSS_TPM_ALG_ID_Print("scheme", source->scheme, indent+2); if (source->scheme != TPM_ALG_NULL) { TSS_TPMU_SIG_SCHEME_Print(&source->details, source->scheme, indent+2); } return; } /* Table 160 - Definition of TPMT_KDF_SCHEME Structure */ void TSS_TPMT_KDF_SCHEME_Print(TPMT_KDF_SCHEME *source, unsigned int indent) { TSS_TPM_ALG_ID_Print("scheme", source->scheme, indent+2); if (source->scheme != TPM_ALG_NULL) { TSS_TPM_ALG_ID_Print("details", source->details.mgf1.hashAlg, indent+2); } return; } /* Table 162 - Definition of TPMU_ASYM_SCHEME Union */ void TSS_TPMU_ASYM_SCHEME_Print(TPMU_ASYM_SCHEME *source, TPMI_ALG_ASYM_SCHEME selector, unsigned int indent) { switch (selector) { #ifdef TPM_ALG_ECDH case TPM_ALG_ECDH: TSS_TPM_ALG_ID_Print("ecdh", source->ecdh.hashAlg, indent+2); break; #endif #ifdef TPM_ALG_ECMQV case TPM_ALG_ECMQV: TSS_TPM_ALG_ID_Print("ecmqvh", source->ecmqvh.hashAlg, indent+2); break; #endif #ifdef TPM_ALG_RSASSA case TPM_ALG_RSASSA: TSS_TPM_ALG_ID_Print("rsassa", source->rsassa.hashAlg, indent+2); break; #endif #ifdef TPM_ALG_RSAPSS case TPM_ALG_RSAPSS: TSS_TPM_ALG_ID_Print("rsapss", source->rsapss.hashAlg, indent+2); break; #endif #ifdef TPM_ALG_ECDSA case TPM_ALG_ECDSA: TSS_TPM_ALG_ID_Print("ecdsa", source->ecdsa.hashAlg, indent+2); break; #endif #ifdef TPM_ALG_ECDAA case TPM_ALG_ECDAA: TSS_TPMS_SCHEME_ECDAA_Print(&source->ecdaa, indent+2); break; #endif #ifdef TPM_ALG_SM2 case TPM_ALG_SM2: TSS_TPM_ALG_ID_Print("sm2", source->sm2.hashAlg, indent+2); break; #endif #ifdef TPM_ALG_ECSCHNORR case TPM_ALG_ECSCHNORR: TSS_TPM_ALG_ID_Print("ecSchnorr", source->ecSchnorr.hashAlg, indent+2); break; #endif #ifdef TPM_ALG_RSAES case TPM_ALG_RSAES: break; #endif #ifdef TPM_ALG_OAEP case TPM_ALG_OAEP: TSS_TPM_ALG_ID_Print("oaep", source->oaep.hashAlg, indent+2); break; #endif default: printf("%*s" "TPMU_ASYM_SCHEME selection %04hx not implemented\n", indent, "", selector); } return; } /* Table 163 - Definition of TPMT_ASYM_SCHEME Structure <> */ void TSS_TPMT_ASYM_SCHEME_Print(TPMT_ASYM_SCHEME *source, unsigned int indent) { TSS_TPM_ALG_ID_Print("scheme", source->scheme, indent+2); if (source->scheme != TPM_ALG_NULL) { TSS_TPMU_ASYM_SCHEME_Print(&source->details, source->scheme, indent+2); } return; } /* Table 165 - Definition of {RSA} TPMT_RSA_SCHEME Structure */ void TSS_TPMT_RSA_SCHEME_Print(TPMT_RSA_SCHEME *source, unsigned int indent) { TSS_TPM_ALG_ID_Print("scheme", source->scheme, indent); if (source->scheme != TPM_ALG_NULL) { TSS_TPM_ALG_ID_Print("details", source->details.anySig.hashAlg, indent+2); } return; } /* Table 167 - Definition of {RSA} TPMT_RSA_DECRYPT Structure */ void TSS_TPMT_RSA_DECRYPT_Print(TPMT_RSA_DECRYPT *source, unsigned int indent) { TSS_TPM_ALG_ID_Print("scheme", source->scheme, indent+2); if (source->scheme != TPM_ALG_NULL) { TSS_TPMU_ASYM_SCHEME_Print(&source->details, source->scheme, indent+2); } return; } /* Table 169 - Definition of {RSA} (TPM_KEY_BITS) TPMI_RSA_KEY_BITS Type */ void TSS_TPMI_RSA_KEY_BITS_Print(TPMI_RSA_KEY_BITS source, unsigned int indent) { printf("%*s" "TPM_KEY_BITS keyBits: %u\n", indent, "", source); return; } /* Table 172 - Definition of {ECC} TPMS_ECC_POINT Structure */ void TSS_TPMS_ECC_POINT_Print(TPMS_ECC_POINT *source, unsigned int indent) { TSS_TPM2B_Print("TPMS_ECC_POINT x", indent+2, &source->x.b); TSS_TPM2B_Print("TPMS_ECC_POINT y", indent+2, &source->y.b); return; } /* Table 173 - Definition of {ECC} TPM2B_ECC_POINT Structure */ void TSS_TPM2B_ECC_POINT_Print(const char *string, TPM2B_ECC_POINT *source, unsigned int indent) { printf("%*s" "%s\n", indent, "", string); TSS_TPMS_ECC_POINT_Print(&source->point, indent); return; } /* Table 175 - Definition of {ECC} (TPM_ECC_CURVE) TPMI_ECC_CURVE Type */ void TSS_TPMI_ECC_CURVE_Print(const char *string, TPMI_ECC_CURVE source, unsigned int indent) { printf("%*s", indent, ""); switch (source) { case TPM_ECC_BN_P256: printf("%s TPM_ECC_BN_P256\n", string); break; case TPM_ECC_NIST_P256: printf("%s TPM_ECC_NIST_P256\n", string); break; case TPM_ECC_NIST_P384: printf("%s TPM_ECC_NIST_P384\n", string); break; default: printf("%s TPMI_ECC_CURVE %04hx unknown\n", string, source); } return; } /* Table 176 - Definition of (TPMT_SIG_SCHEME) {ECC} TPMT_ECC_SCHEME Structure */ void TSS_TPMT_ECC_SCHEME_Print(TPMT_ECC_SCHEME *source, unsigned int indent) { TSS_TPM_ALG_ID_Print("scheme", source->scheme, indent+2); if (source->scheme != TPM_ALG_NULL) { TSS_TPM_ALG_ID_Print("details", source->details.anySig.hashAlg, indent+2); } return; } /* Table 177 - Definition of {ECC} TPMS_ALGORITHM_DETAIL_ECC Structure */ void TSS_TPMS_ALGORITHM_DETAIL_ECC_Print(TPMS_ALGORITHM_DETAIL_ECC *source, unsigned int indent) { TSS_TPM_ECC_CURVE_Print("curveID", source->curveID, indent+2); printf("%*s" "TPMS_ALGORITHM_DETAIL_ECC keySize %u\n", indent+2, "", source->keySize); TSS_TPMT_KDF_SCHEME_Print(&source->kdf, indent+2); TSS_TPMT_ECC_SCHEME_Print(&source->sign, indent+2); TSS_TPM2B_Print("TPMS_ALGORITHM_DETAIL_ECC p", indent, &source->p.b); TSS_TPM2B_Print("TPMS_ALGORITHM_DETAIL_ECC a", indent, &source->a.b); TSS_TPM2B_Print("TPMS_ALGORITHM_DETAIL_ECC b", indent, &source->b.b); TSS_TPM2B_Print("TPMS_ALGORITHM_DETAIL_ECC gX", indent, &source->gX.b); TSS_TPM2B_Print("TPMS_ALGORITHM_DETAIL_ECC gY", indent, &source->gY.b); TSS_TPM2B_Print("TPMS_ALGORITHM_DETAIL_ECC n", indent, &source->n.b); TSS_TPM2B_Print("TPMS_ALGORITHM_DETAIL_ECC h", indent, &source->h.b); return; } /* Table 178 - Definition of {RSA} TPMS_SIGNATURE_RSA Structure */ void TSS_TPMS_SIGNATURE_RSA_Print(TPMS_SIGNATURE_RSA *source, unsigned int indent) { TSS_TPM_ALG_ID_Print("hash", source->hash, indent+2); TSS_TPM2B_Print("TPMS_SIGNATURE_RSA sig", indent+2, &source->sig.b); return; } /* Table 179 - Definition of Types for {RSA} Signature */ void TSS_TPMS_SIGNATURE_RSASSA_Print(TPMS_SIGNATURE_RSASSA *source, unsigned int indent) { TSS_TPMS_SIGNATURE_RSA_Print(source, indent+2); return; } /* Table 180 - Definition of {ECC} TPMS_SIGNATURE_ECC Structure */ void TSS_TPMS_SIGNATURE_ECC_Print(TPMS_SIGNATURE_ECC *source, unsigned int indent) { TSS_TPM_ALG_ID_Print("hash", source->hash, indent); TSS_TPM2B_Print("TPMS_SIGNATURE_ECC signatureR", indent, &source->signatureR.b); TSS_TPM2B_Print("TPMS_SIGNATURE_ECC signatureS", indent, &source->signatureS.b); return; } /* Table 182 - Definition of TPMU_SIGNATURE Union */ void TSS_TPMU_SIGNATURE_Print(TPMU_SIGNATURE *source, TPMI_ALG_SIG_SCHEME selector, unsigned int indent) { switch (selector) { #ifdef TPM_ALG_RSASSA case TPM_ALG_RSASSA: TSS_TPMS_SIGNATURE_RSA_Print(&source->rsassa, indent+2); break; #endif #ifdef TPM_ALG_RSAPSS case TPM_ALG_RSAPSS: TSS_TPMS_SIGNATURE_RSA_Print(&source->rsapss, indent+2); break; #endif #ifdef TPM_ALG_ECDSA case TPM_ALG_ECDSA: TSS_TPMS_SIGNATURE_ECC_Print(&source->ecdsa, indent+2); break; #endif #ifdef TPM_ALG_ECDAA case TPM_ALG_ECDAA: TSS_TPMS_SIGNATURE_ECC_Print(&source->ecdaa, indent+2); break; #endif #ifdef TPM_ALG_SM2 case TPM_ALG_SM2: TSS_TPMS_SIGNATURE_ECC_Print(&source->sm2, indent+2); break; #endif #ifdef TPM_ALG_ECSCHNORR case TPM_ALG_ECSCHNORR: TSS_TPMS_SIGNATURE_ECC_Print(&source->ecschnorr, indent+2); break; #endif #ifdef TPM_ALG_HMAC case TPM_ALG_HMAC: TSS_TPMT_HA_Print(&source->hmac, indent+2); break; #endif default: printf("%*s" "TPMU_SIGNATURE selection %04hx not implemented\n", indent, "", selector); } } /* Table 183 - Definition of TPMT_SIGNATURE Structure */ void TSS_TPMT_SIGNATURE_Print(TPMT_SIGNATURE *source, unsigned int indent) { TSS_TPM_ALG_ID_Print("sigAlg", source->sigAlg, indent+2); if (source->sigAlg != TPM_ALG_NULL) { TSS_TPMU_SIGNATURE_Print(&source->signature, source->sigAlg, indent); } return; } /* Table 186 - Definition of (TPM_ALG_ID) TPMI_ALG_PUBLIC Type */ void TSS_TPMI_ALG_PUBLIC_Print(const char *string, TPMI_ALG_PUBLIC source, unsigned int indent) { printf("%*s", indent, ""); switch (source) { #ifdef TPM_ALG_KEYEDHASH case TPM_ALG_KEYEDHASH: printf("%s TPM_ALG_KEYEDHASH\n", string); break; #endif #ifdef TPM_ALG_RSA case TPM_ALG_RSA: printf("%s TPM_ALG_RSA\n", string); break; #endif #ifdef TPM_ALG_ECC case TPM_ALG_ECC: printf("%s TPM_ALG_ECC\n", string); break; #endif #ifdef TPM_ALG_SYMCIPHER case TPM_ALG_SYMCIPHER: printf("%s TPM_ALG_SYMCIPHER\n", string); break; #endif default: printf("%s selection %04hx not implemented\n", string, source); } return; } /* Table 187 - Definition of TPMU_PUBLIC_ID Union */ void TSS_TPMU_PUBLIC_ID_Print(TPMU_PUBLIC_ID *source, TPMI_ALG_PUBLIC selector, unsigned int indent) { switch (selector) { #ifdef TPM_ALG_KEYEDHASH case TPM_ALG_KEYEDHASH: TSS_TPM2B_Print("TPM_ALG_KEYEDHASH keyedHash", indent, &source->keyedHash.b); break; #endif #ifdef TPM_ALG_SYMCIPHER case TPM_ALG_SYMCIPHER: TSS_TPM2B_Print("TPM_ALG_SYMCIPHER sym", indent, &source->sym.b); break; #endif #ifdef TPM_ALG_RSA case TPM_ALG_RSA: TSS_TPM2B_Print("TPM_ALG_RSA rsa", indent, &source->rsa.b); break; #endif #ifdef TPM_ALG_ECC case TPM_ALG_ECC: TSS_TPM2B_Print("TPM_ALG_ECC x", indent, &source->ecc.x.b); TSS_TPM2B_Print("TPM_ALG_ECC y", indent, &source->ecc.y.b); break; #endif default: printf("%*s" "TPMU_PUBLIC_ID_Print: selection %04hx not implemented\n", indent, "", selector); } return; } /* Table 188 - Definition of TPMS_KEYEDHASH_PARMS Structure */ void TSS_TPMS_KEYEDHASH_PARMS_Print(TPMS_KEYEDHASH_PARMS *source, unsigned int indent) { TSS_TPMT_KEYEDHASH_SCHEME_Print(&source->scheme, indent); return; } /* Table 189 - Definition of TPMS_ASYM_PARMS Structure <> */ void TSS_TPMS_ASYM_PARMS_Print(TPMS_ASYM_PARMS *source, unsigned int indent) { TSS_TPMT_SYM_DEF_OBJECT_Print(&source->symmetric, indent+2); TSS_TPMT_ASYM_SCHEME_Print(&source->scheme, indent+2); return; } /* Table 190 - Definition of {RSA} TPMS_RSA_PARMS Structure */ void TSS_TPMS_RSA_PARMS_Print(TPMS_RSA_PARMS *source, unsigned int indent) { TSS_TPMT_SYM_DEF_OBJECT_Print(&source->symmetric, indent); TSS_TPMT_RSA_SCHEME_Print(&source->scheme, indent); TSS_TPMI_RSA_KEY_BITS_Print(source->keyBits, indent); printf("%*s" "TPMS_RSA_PARMS exponent %08x\n", indent, "", source->exponent); return; } /* Table 191 - Definition of {ECC} TPMS_ECC_PARMS Structure */ void TSS_TPMS_ECC_PARMS_Print(TPMS_ECC_PARMS *source, unsigned int indent) { TSS_TPMT_SYM_DEF_OBJECT_Print(&source->symmetric, indent); TSS_TPMT_ECC_SCHEME_Print(&source->scheme, indent); TSS_TPMI_ECC_CURVE_Print("curveID", source->curveID, indent); TSS_TPMT_KDF_SCHEME_Print(&source->kdf, indent); return; } /* Table 192 - Definition of TPMU_PUBLIC_PARMS Union */ void TSS_TPMU_PUBLIC_PARMS_Print(TPMU_PUBLIC_PARMS *source, uint32_t selector, unsigned int indent) { switch (selector) { case TPM_ALG_KEYEDHASH: printf("%*s" "TPMU_PUBLIC_PARMS keyedHashDetail\n", indent, ""); TSS_TPMS_KEYEDHASH_PARMS_Print(&source->keyedHashDetail, indent); break; #if 0 case TPM_ALG_SYMCIPHER: printf("%*s" "TPMU_PUBLIC_PARMS symDetail\n", indent, ""); TSS_TPMS_SYMCIPHER_PARMS_Print(&source->symDetail, indent); break; #endif #ifdef TPM_ALG_RSA case TPM_ALG_RSA: printf("%*s" "TPMU_PUBLIC_PARMS rsaDetail\n", indent, ""); TSS_TPMS_RSA_PARMS_Print(&source->rsaDetail, indent); break; #endif #ifdef TPM_ALG_ECC case TPM_ALG_ECC: printf("%*s" "TPMU_PUBLIC_PARMS eccDetail\n", indent, ""); TSS_TPMS_ECC_PARMS_Print(&source->eccDetail, indent); break; #endif default: printf("%*s" "TPMU_PUBLIC_PARMS: selector %04x not implemented\n", indent, "", selector); } return; } /* Table 193 - Definition of TPMT_PUBLIC_PARMS Structure */ void TSS_TPMT_PUBLIC_PARMS_Print(TPMT_PUBLIC_PARMS *source, unsigned int indent) { TSS_TPM_ALG_ID_Print("type", source->type, indent); TSS_TPMU_PUBLIC_PARMS_Print(&source->parameters, source->type, indent); return; } /* Table 194 - Definition of TPMT_PUBLIC Structure */ void TSS_TPMT_PUBLIC_Print(TPMT_PUBLIC *source, unsigned int indent) { TSS_TPMI_ALG_PUBLIC_Print("type", source->type, indent); TSS_TPM_ALG_ID_Print("nameAlg", source->nameAlg, indent); TSS_TPMA_OBJECT_Print("objectAttributes", source->objectAttributes, indent); TSS_TPM2B_Print("authPolicy", indent, &source->authPolicy.b); TSS_TPMU_PUBLIC_PARMS_Print(&source->parameters, source->type, indent); TSS_TPMU_PUBLIC_ID_Print(&source->unique, source->type, indent); return; } /* Table 195 - Definition of TPM2B_PUBLIC Structure */ void TSS_TPM2B_PUBLIC_Print(const char *string, TPM2B_PUBLIC *source, unsigned int indent) { printf("%*s" "%s\n", indent, "", string); TSS_TPMT_PUBLIC_Print(&source->publicArea, indent+2); return; } /* Table 198 - Definition of TPMU_SENSITIVE_COMPOSITE Union */ void TSS_TPMU_SENSITIVE_COMPOSITE_Print(TPMU_SENSITIVE_COMPOSITE *source, uint32_t selector, unsigned int indent) { switch (selector) { #ifdef TPM_ALG_RSA case TPM_ALG_RSA: TSS_TPM2B_Print("TPMU_SENSITIVE_COMPOSITE rsa", indent+2, &source->rsa.b); break; #endif #ifdef TPM_ALG_ECC case TPM_ALG_ECC: TSS_TPM2B_Print("TPMU_SENSITIVE_COMPOSITE ecc", indent+2, &source->ecc.b); break; #endif #ifdef TPM_ALG_KEYEDHASH case TPM_ALG_KEYEDHASH: TSS_TPM2B_Print("TPMU_SENSITIVE_COMPOSITE bits", indent+2, &source->bits.b); break; #endif #ifdef TPM_ALG_SYMCIPHER case TPM_ALG_SYMCIPHER: TSS_TPM2B_Print("TPMU_SENSITIVE_COMPOSITE sym", indent+2, &source->sym.b); break; #endif default: printf("%*s" "TPMU_SENSITIVE_COMPOSITE: selection %08x not implemented \n", indent+2, "", selector); } return; } /* Table 199 - Definition of TPMT_SENSITIVE Structure */ void TSS_TPMT_SENSITIVE_Print(TPMT_SENSITIVE *source, unsigned int indent) { TSS_TPM_ALG_ID_Print("sensitiveType", source->sensitiveType, indent+2); TSS_TPM2B_Print("TPMT_SENSITIVE authValue", indent+2, &source->authValue.b); TSS_TPM2B_Print("TPMT_SENSITIVE seedValue", indent+2, &source->seedValue.b); TSS_TPMU_SENSITIVE_COMPOSITE_Print(&source->sensitive, source->sensitiveType, indent+2); return; } /* Table 200 - Definition of TPM2B_SENSITIVE Structure */ void TSS_TPM2B_SENSITIVE_Print(TPM2B_SENSITIVE *source, unsigned int indent) { printf("%*s" "TPM2B_SENSITIVE size %u\n", indent+2, "", source->t.size); if (source->t.size != 0) { TSS_TPMT_SENSITIVE_Print(&source->t.sensitiveArea, indent+2); } return; } /* Table 207 - Definition of TPMS_NV_PIN_COUNTER_PARAMETERS Structure */ void TSS_TPMS_NV_PIN_COUNTER_PARAMETERS_Print(TPMS_NV_PIN_COUNTER_PARAMETERS *source, unsigned int indent) { printf("%*s" "pinCount %u\n", indent+2, "", source->pinCount); printf("%*s" "pinLimit %u\n", indent+2, "", source->pinLimit); return; } /* Table 208 - Definition of (UINT32) TPMA_NV Bits */ void TSS_TPMA_NV_Print(TPMA_NV source, unsigned int indent) { uint32_t nvType; if (source.val & TPMA_NVA_PPWRITE) printf("%*s" "TPMA_NV_PPWRITE\n", indent, ""); if (source.val & TPMA_NVA_OWNERWRITE) printf("%*s" "TPMA_NV_OWNERWRITE\n", indent, ""); if (source.val & TPMA_NVA_AUTHWRITE) printf("%*s" "TPMA_NV_AUTHWRITE\n", indent, ""); if (source.val & TPMA_NVA_POLICYWRITE) printf("%*s" "TPMA_NV_POLICYWRITE\n", indent, ""); nvType = (source.val & TPMA_NVA_TPM_NT_MASK) >> 4; switch (nvType) { case TPM_NT_ORDINARY: printf("%*s" "TPM_NT_ORDINARY\n", indent, ""); break; case TPM_NT_COUNTER: printf("%*s" "TPM_NT_COUNTER\n", indent, ""); break; case TPM_NT_BITS: printf("%*s" "TPM_NT_COUNTER\n", indent, ""); break; case TPM_NT_EXTEND: printf("%*s" "TPM_NT_EXTEND\n", indent, ""); break; case TPM_NT_PIN_FAIL: printf("%*s" "TPM_NT_PIN_FAIL\n", indent, ""); break; case TPM_NT_PIN_PASS: printf("%*s" "TPM_NT_PIN_PASS\n", indent, ""); break; default: printf("%*s" "TPMA_NV type %02x unknown\n", indent, "", nvType); } if (source.val & TPMA_NVA_POLICY_DELETE) printf("%*s" "TPMA_NV_POLICY_DELETE\n", indent, ""); if (source.val & TPMA_NVA_WRITELOCKED) printf("%*s" "TPMA_NV_WRITELOCKED\n", indent, ""); if (source.val & TPMA_NVA_WRITEALL) printf("%*s" "TPMA_NV_WRITEALL\n", indent, ""); if (source.val & TPMA_NVA_WRITEDEFINE) printf("%*s" "TPMA_NV_WRITEDEFINE\n", indent, ""); if (source.val & TPMA_NVA_WRITE_STCLEAR) printf("%*s" "TPMA_NV_WRITE_STCLEAR\n", indent, ""); if (source.val & TPMA_NVA_GLOBALLOCK) printf("%*s" "TPMA_NV_GLOBALLOCK\n", indent, ""); if (source.val & TPMA_NVA_PPREAD) printf("%*s" "TPMA_NV_PPREAD\n", indent, ""); if (source.val & TPMA_NVA_OWNERREAD) printf("%*s" "TPMA_NV_OWNERREAD\n", indent, ""); if (source.val & TPMA_NVA_AUTHREAD) printf("%*s" "TPMA_NV_AUTHREAD\n", indent, ""); if (source.val & TPMA_NVA_POLICYREAD) printf("%*s" "TPMA_NV_POLICYREAD\n", indent, ""); if (source.val & TPMA_NVA_NO_DA) printf("%*s" "TPMA_NV_NO_DA\n", indent, ""); if (source.val & TPMA_NVA_ORDERLY) printf("%*s" "TPMA_NV_ORDERLY\n", indent, ""); if (source.val & TPMA_NVA_CLEAR_STCLEAR) printf("%*s" "TPMA_NV_CLEAR_STCLEAR\n", indent, ""); if (source.val & TPMA_NVA_READLOCKED) printf("%*s" "TPMA_NV_READLOCKED\n", indent, ""); if (source.val & TPMA_NVA_WRITTEN) printf("%*s" "TPMA_NV_WRITTEN\n", indent, ""); if (source.val & TPMA_NVA_PLATFORMCREATE) printf("%*s" "TPMA_NV_PLATFORMCREATE\n", indent, ""); if (source.val & TPMA_NVA_READ_STCLEAR) printf("%*s" "TPMA_NV_READ_STCLEAR\n", indent, ""); return; } /* Table 209 - Definition of TPMS_NV_PUBLIC Structure */ void TSS_TPMS_NV_PUBLIC_Print(TPMS_NV_PUBLIC *source, unsigned int indent) { printf("%*s" "TPMS_NV_PUBLIC nvIndex %08x\n", indent+2, "", source->nvIndex); TSS_TPM_ALG_ID_Print("nameAlg", source->nameAlg, indent+2); TSS_TPMA_NV_Print(source->attributes, indent+2); TSS_TPM2B_Print("TPMS_NV_PUBLIC authPolicy", indent+2, &source->authPolicy.b); printf("%*s" "TPMS_NV_PUBLIC dataSize %u\n", indent+2, "", source->dataSize); return; } /* Table 210 - Definition of TPM2B_NV_PUBLIC Structure */ void TSS_TPM2B_NV_PUBLIC_Print(TPM2B_NV_PUBLIC *source, unsigned int indent) { TSS_TPMS_NV_PUBLIC_Print(&source->nvPublic, indent+2); return; } /* Table 212 - Definition of TPMS_CONTEXT_DATA Structure */ void TSS_TPMS_CONTEXT_DATA_Print(TPMS_CONTEXT_DATA *source, unsigned int indent) { TSS_TPM2B_Print("TPMS_CONTEXT_DATA integrity", indent+2, &source->integrity.b); TSS_TPM2B_Print("TPMS_CONTEXT_DATA encrypted", indent+2, &source->encrypted.b); return; } /* Table 214 - Definition of TPMS_CONTEXT Structure */ void TSS_TPMS_CONTEXT_Print(TPMS_CONTEXT *source, unsigned int indent) { printf("%*s" "TPMS_CONTEXT sequence %"PRIu64"\n", indent+2, "", source->sequence); TSS_TPM_HANDLE_Print("savedHandle", source->savedHandle, indent+2); TSS_TPM_HANDLE_Print("hierarchy", source->hierarchy, indent+2); TSS_TPM2B_Print("TPMS_CONTEXT contextBlob", indent+2, &source->contextBlob.b); return; } /* Table 216 - Definition of TPMS_CREATION_DATA Structure */ void TSS_TPMS_CREATION_DATA_Print(TPMS_CREATION_DATA *source, unsigned int indent) { TSS_TPML_PCR_SELECTION_Print(&source->pcrSelect, indent+2); TSS_TPM2B_Print("TPMS_CREATION_DATA pcrDigest", indent+2, &source->pcrDigest.b); TSS_TPMA_LOCALITY_Print(source->locality, indent+2); TSS_TPM_ALG_ID_Print("parentNameAlg", source->parentNameAlg, indent+2); TSS_TPM2B_Print("TPMS_CREATION_DATA parentName", indent+2, &source->parentName.b); TSS_TPM2B_Print("TPMS_CREATION_DATA parentQualifiedName", indent+2, &source->parentQualifiedName.b); TSS_TPM2B_Print("TPMS_CREATION_DATA outsideInfo", indent+2, &source->outsideInfo.b); return; } /* Table 217 - Definition of TPM2B_CREATION_DATA Structure */ void TSS_TPM2B_CREATION_DATA_Print(TPM2B_CREATION_DATA *source, unsigned int indent) { printf("%*s" "TPM2B_CREATION_DATA size %u\n", indent+2, "", source->size); TSS_TPMS_CREATION_DATA_Print(&source->creationData, indent+2); return; } #endif /* TPM_TPM20 */ #endif /* TPM_TSS_NO_PRINT */