/********************************************************************************/ /* */ /* Parameter Unmarshaling */ /* Written by Ken Goldman */ /* IBM Thomas J. Watson Research Center */ /* */ /* (c) Copyright IBM Corporation 2015 - 2019 */ /* */ /* 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 /* The functions with the TSS_ prefix are preferred. They use an unsigned size. The functions without the prefix are deprecated. */ /* TPM_TSS_NOCMDCHECK defined strips the unmarshal functions used for command parameter checking TPM_TSS_NODEPRECATED defines strips the deprecated functions that used a signed size */ /* The int and array functions are common to TPM 1.2 and TPM 2.0 */ TPM_RC TSS_UINT8_Unmarshalu(UINT8 *target, BYTE **buffer, uint32_t *size) { if (*size < sizeof(UINT8)) { return TPM_RC_INSUFFICIENT; } *target = (*buffer)[0]; *buffer += sizeof(UINT8); *size -= sizeof(UINT8); return TPM_RC_SUCCESS; } #ifndef TPM_TSS_NOCMDCHECK TPM_RC TSS_INT8_Unmarshalu(INT8 *target, BYTE **buffer, uint32_t *size) { return TSS_UINT8_Unmarshalu((UINT8 *)target, buffer, size); } #endif /* TPM_TSS_NOCMDCHECK */ TPM_RC TSS_UINT16_Unmarshalu(uint16_t *target, BYTE **buffer, uint32_t *size) { if (*size < sizeof(uint16_t)) { return TPM_RC_INSUFFICIENT; } *target = ((uint16_t)((*buffer)[0]) << 8) | ((uint16_t)((*buffer)[1]) << 0); *buffer += sizeof(uint16_t); *size -= sizeof(uint16_t); return TPM_RC_SUCCESS; } TPM_RC TSS_UINT32_Unmarshalu(UINT32 *target, BYTE **buffer, uint32_t *size) { if (*size < sizeof(uint32_t)) { return TPM_RC_INSUFFICIENT; } *target = ((uint32_t)((*buffer)[0]) << 24) | ((uint32_t)((*buffer)[1]) << 16) | ((uint32_t)((*buffer)[2]) << 8) | ((uint32_t)((*buffer)[3]) << 0); *buffer += sizeof(uint32_t); *size -= sizeof(uint32_t); return TPM_RC_SUCCESS; } #ifndef TPM_TSS_NOCMDCHECK TPM_RC TSS_INT32_Unmarshalu(INT32 *target, BYTE **buffer, uint32_t *size) { return TSS_UINT32_Unmarshalu((UINT32 *)target, buffer, size); } #endif /* TPM_TSS_NOCMDCHECK */ TPM_RC TSS_UINT64_Unmarshalu(UINT64 *target, BYTE **buffer, uint32_t *size) { if (*size < sizeof(UINT64)) { return TPM_RC_INSUFFICIENT; } *target = ((UINT64)((*buffer)[0]) << 56) | ((UINT64)((*buffer)[1]) << 48) | ((UINT64)((*buffer)[2]) << 40) | ((UINT64)((*buffer)[3]) << 32) | ((UINT64)((*buffer)[4]) << 24) | ((UINT64)((*buffer)[5]) << 16) | ((UINT64)((*buffer)[6]) << 8) | ((UINT64)((*buffer)[7]) << 0); *buffer += sizeof(UINT64); *size -= sizeof(UINT64); return TPM_RC_SUCCESS; } TPM_RC TSS_Array_Unmarshalu(BYTE *targetBuffer, uint16_t targetSize, BYTE **buffer, uint32_t *size) { TPM_RC rc = TPM_RC_SUCCESS; if (*size < targetSize) { rc = TPM_RC_INSUFFICIENT; } else { memcpy(targetBuffer, *buffer, targetSize); *buffer += targetSize; *size -= targetSize; } return rc; } #ifndef TPM_TSS_NODEPRECATED #ifndef TPM_TSS_NOCMDCHECK TPM_RC UINT8_Unmarshal(UINT8 *target, BYTE **buffer, INT32 *size) { return TSS_UINT8_Unmarshalu(target, buffer, (uint32_t *)size); } TPM_RC INT8_Unmarshal(INT8 *target, BYTE **buffer, INT32 *size) { return TSS_INT8_Unmarshalu(target, buffer, (uint32_t *)size); } TPM_RC UINT16_Unmarshal(UINT16 *target, BYTE **buffer, INT32 *size) { return TSS_UINT16_Unmarshalu(target, buffer, (uint32_t *)size); } TPM_RC UINT32_Unmarshal(UINT32 *target, BYTE **buffer, INT32 *size) { return TSS_UINT32_Unmarshalu(target, buffer, (uint32_t *)size); } TPM_RC INT32_Unmarshal(INT32 *target, BYTE **buffer, INT32 *size) { return TSS_INT32_Unmarshalu(target, buffer, (uint32_t *)size); } TPM_RC UINT64_Unmarshal(UINT64 *target, BYTE **buffer, INT32 *size) { return TSS_UINT64_Unmarshalu(target, buffer, (uint32_t *)size); } TPM_RC Array_Unmarshal(BYTE *targetBuffer, UINT16 targetSize, BYTE **buffer, INT32 *size) { return TSS_Array_Unmarshalu(targetBuffer, targetSize, buffer, (uint32_t *)size); } #endif /* TPM_TSS_NOCMDCHECK */ #endif /* TPM_TSS_NODEPRECATED */ #ifdef TPM_TPM20 TPM_RC TSS_TPM2B_Unmarshalu(TPM2B *target, uint16_t targetSize, BYTE **buffer, uint32_t *size) { TPM_RC rc = TPM_RC_SUCCESS; if (rc == TPM_RC_SUCCESS) { rc = TSS_UINT16_Unmarshalu(&target->size, buffer, size); } if (rc == TPM_RC_SUCCESS) { if (target->size > targetSize) { rc = TPM_RC_SIZE; } } if (rc == TPM_RC_SUCCESS) { rc = TSS_Array_Unmarshalu(target->buffer, target->size, buffer, size); } return rc; } /* Table 5 - Definition of Types for Documentation Clarity */ TPM_RC TSS_TPM_KEY_BITS_Unmarshalu(TPM_KEY_BITS *target, BYTE **buffer, uint32_t *size) { TPM_RC rc = TPM_RC_SUCCESS; if (rc == TPM_RC_SUCCESS) { rc = TSS_UINT16_Unmarshalu(target, buffer, size); } return rc; } /* Table 7 - Definition of (UINT32) TPM_GENERATED Constants */ #ifndef TPM_TSS_NOCMDCHECK TPM_RC TSS_TPM_GENERATED_Unmarshalu(TPM_GENERATED *target, BYTE **buffer, uint32_t *size) { TPM_RC rc = TPM_RC_SUCCESS; if (rc == TPM_RC_SUCCESS) { rc = TSS_UINT32_Unmarshalu(target, buffer, size); } if (rc == TPM_RC_SUCCESS) { if (*target != TPM_GENERATED_VALUE) { rc = TPM_RC_VALUE; } } return rc; } #endif /* TPM_TSS_NOCMDCHECK */ /* Table 9 - Definition of (UINT16) TPM_ALG_ID Constants */ TPM_RC TSS_TPM_ALG_ID_Unmarshalu(TPM_ALG_ID *target, BYTE **buffer, uint32_t *size) { TPM_RC rc = TPM_RC_SUCCESS; if (rc == TPM_RC_SUCCESS) { rc = TSS_UINT16_Unmarshalu(target, buffer, size); } return rc; } /* Table 10 - Definition of (UINT16) {ECC} TPM_ECC_CURVE Constants */ #ifdef TPM_ALG_ECC TPM_RC TSS_TPM_ECC_CURVE_Unmarshalu(TPM_ECC_CURVE *target, BYTE **buffer, uint32_t *size) { TPM_RC rc = TPM_RC_SUCCESS; if (rc == TPM_RC_SUCCESS) { rc = TSS_UINT16_Unmarshalu(target, buffer, size); } return rc; } #endif /* TPM_ALG_ECC */ /* Table 13 - Definition of (UINT32) TPM_CC Constants (Numeric Order) */ TPM_RC TSS_TPM_CC_Unmarshalu(TPM_RC *target, BYTE **buffer, uint32_t *size) { TPM_RC rc = TPM_RC_SUCCESS; if (rc == TPM_RC_SUCCESS) { rc = TSS_UINT32_Unmarshalu(target, buffer, size); } return rc; } /* Table 17 - Definition of (UINT32) TPM_RC Constants (Actions) */ TPM_RC TSS_TPM_RC_Unmarshalu(TPM_RC *target, BYTE **buffer, uint32_t *size) { TPM_RC rc = TPM_RC_SUCCESS; if (rc == TPM_RC_SUCCESS) { rc = TSS_UINT32_Unmarshalu(target, buffer, size); } return rc; } #ifndef TPM_TSS_NOCMDCHECK /* Table 18 - Definition of (INT8) TPM_CLOCK_ADJUST Constants */ TPM_RC TSS_TPM_CLOCK_ADJUST_Unmarshalu(TPM_CLOCK_ADJUST *target, BYTE **buffer, uint32_t *size) { TPM_RC rc = TPM_RC_SUCCESS; if (rc == TPM_RC_SUCCESS) { rc = TSS_INT8_Unmarshalu(target, buffer, size); } if (rc == TPM_RC_SUCCESS) { switch (*target) { case TPM_CLOCK_COARSE_SLOWER: case TPM_CLOCK_MEDIUM_SLOWER: case TPM_CLOCK_FINE_SLOWER: case TPM_CLOCK_NO_CHANGE: case TPM_CLOCK_FINE_FASTER: case TPM_CLOCK_MEDIUM_FASTER: case TPM_CLOCK_COARSE_FASTER: break; default: rc = TPM_RC_VALUE; } } return rc; } /* Table 19 - Definition of (UINT16) TPM_EO Constants */ TPM_RC TSS_TPM_EO_Unmarshalu(TPM_EO *target, BYTE **buffer, uint32_t *size) { TPM_RC rc = TPM_RC_SUCCESS; if (rc == TPM_RC_SUCCESS) { rc = TSS_UINT16_Unmarshalu(target, buffer, size); } if (rc == TPM_RC_SUCCESS) { switch (*target) { case TPM_EO_EQ: case TPM_EO_NEQ: case TPM_EO_SIGNED_GT: case TPM_EO_UNSIGNED_GT: case TPM_EO_SIGNED_LT: case TPM_EO_UNSIGNED_LT: case TPM_EO_SIGNED_GE: case TPM_EO_UNSIGNED_GE: case TPM_EO_SIGNED_LE: case TPM_EO_UNSIGNED_LE: case TPM_EO_BITSET: case TPM_EO_BITCLEAR: break; default: rc = TPM_RC_VALUE; } } return rc; } #endif /* TPM_TSS_NOCMDCHECK */ /* Table 20 - Definition of (UINT16) TPM_ST Constants */ TPM_RC TSS_TPM_ST_Unmarshalu(TPM_ST *target, BYTE **buffer, uint32_t *size) { TPM_RC rc = TPM_RC_SUCCESS; if (rc == TPM_RC_SUCCESS) { rc = TSS_UINT16_Unmarshalu(target, buffer, size); } return rc; } #ifndef TPM_TSS_NOCMDCHECK /* Table 21 - Definition of (UINT16) TPM_SU Constants */ TPM_RC TSS_TPM_SU_Unmarshalu(TPM_SU *target, BYTE **buffer, uint32_t *size) { TPM_RC rc = TPM_RC_SUCCESS; if (rc == TPM_RC_SUCCESS) { rc = TSS_UINT16_Unmarshalu(target, buffer, size); } if (rc == TPM_RC_SUCCESS) { switch (*target) { case TPM_SU_CLEAR: case TPM_SU_STATE: break; default: rc = TPM_RC_VALUE; } } return rc; } #endif /* TPM_TSS_NOCMDCHECK */ /* Table 22 - Definition of (UINT8) TPM_SE Constants */ TPM_RC TSS_TPM_SE_Unmarshalu(TPM_SE *target, BYTE **buffer, uint32_t *size) { TPM_RC rc = TPM_RC_SUCCESS; if (rc == TPM_RC_SUCCESS) { rc = TSS_UINT8_Unmarshalu(target, buffer, size); } if (rc == TPM_RC_SUCCESS) { switch (*target) { case TPM_SE_HMAC: case TPM_SE_POLICY: case TPM_SE_TRIAL: break; default: rc = TPM_RC_VALUE; } } return rc; } /* Table 23 - Definition of (UINT32) TPM_CAP Constants */ TPM_RC TSS_TPM_CAP_Unmarshalu(TPM_CAP *target, BYTE **buffer, uint32_t *size) { TPM_RC rc = TPM_RC_SUCCESS; if (rc == TPM_RC_SUCCESS) { rc = TSS_UINT32_Unmarshalu(target, buffer, size); } return rc; } /* Table 24 - Definition of (UINT32) TPM_PT Constants */ TPM_RC TSS_TPM_PT_Unmarshalu(TPM_HANDLE *target, BYTE **buffer, uint32_t *size) { TPM_RC rc = TPM_RC_SUCCESS; if (rc == TPM_RC_SUCCESS) { rc = TSS_UINT32_Unmarshalu(target, buffer, size); } return rc; } /* Table 25 - Definition of (UINT32) TPM_PT_PCR Constants */ TPM_RC TSS_TPM_PT_PCR_Unmarshalu(TPM_PT_PCR *target, BYTE **buffer, uint32_t *size) { TPM_RC rc = TPM_RC_SUCCESS; if (rc == TPM_RC_SUCCESS) { rc = TSS_UINT32_Unmarshalu(target, buffer, size); } return rc; } /* Table 27 - Definition of Types for Handles */ TPM_RC TSS_TPM_HANDLE_Unmarshalu(TPM_HANDLE *target, BYTE **buffer, uint32_t *size) { TPM_RC rc = TPM_RC_SUCCESS; if (rc == TPM_RC_SUCCESS) { rc = TSS_UINT32_Unmarshalu(target, buffer, size); } return rc; } /* Table 31 - Definition of (UINT32) TPMA_ALGORITHM Bits */ TPM_RC TSS_TPMA_ALGORITHM_Unmarshalu(TPMA_ALGORITHM *target, BYTE **buffer, uint32_t *size) { TPM_RC rc = TPM_RC_SUCCESS; if (rc == TPM_RC_SUCCESS) { rc = TSS_UINT32_Unmarshalu(&target->val, buffer, size); } if (rc == TPM_RC_SUCCESS) { if (target->val & TPMA_ALGORITHM_RESERVED) { rc = TPM_RC_RESERVED_BITS; } } return rc; } /* Table 32 - Definition of (UINT32) TPMA_OBJECT Bits */ TPM_RC TSS_TPMA_OBJECT_Unmarshalu(TPMA_OBJECT *target, BYTE **buffer, uint32_t *size) { TPM_RC rc = TPM_RC_SUCCESS; if (rc == TPM_RC_SUCCESS) { rc = TSS_UINT32_Unmarshalu(&target->val, buffer, size); } if (rc == TPM_RC_SUCCESS) { if (target->val & TPMA_OBJECT_RESERVED) { rc = TPM_RC_RESERVED_BITS; } } return rc; } /* Table 33 - Definition of (UINT8) TPMA_SESSION Bits */ TPM_RC TSS_TPMA_SESSION_Unmarshalu(TPMA_SESSION *target, BYTE **buffer, uint32_t *size) { TPM_RC rc = TPM_RC_SUCCESS; if (rc == TPM_RC_SUCCESS) { rc = TSS_UINT8_Unmarshalu(&target->val, buffer, size); } if (rc == TPM_RC_SUCCESS) { if (target->val & TPMA_SESSION_RESERVED) { rc = TPM_RC_RESERVED_BITS; } } return rc; } /* Table 34 - Definition of (UINT8) TPMA_LOCALITY Bits */ TPM_RC TSS_TPMA_LOCALITY_Unmarshalu(TPMA_LOCALITY *target, BYTE **buffer, uint32_t *size) { TPM_RC rc = TPM_RC_SUCCESS; if (rc == TPM_RC_SUCCESS) { rc = TSS_UINT8_Unmarshalu(&target->val, buffer, size); } return rc; } /* Table 38 - Definition of (TPM_CC) TPMA_CC Bits */ TPM_RC TSS_TPMA_CC_Unmarshalu(TPMA_CC *target, BYTE **buffer, uint32_t *size) { TPM_RC rc = TPM_RC_SUCCESS; if (rc == TPM_RC_SUCCESS) { rc = TSS_UINT32_Unmarshalu(&target->val, buffer, size); } if (rc == TPM_RC_SUCCESS) { if (target->val & TPMA_CC_RESERVED) { rc = TPM_RC_RESERVED_BITS; } } return rc; } /* Table 39 - Definition of (BYTE) TPMI_YES_NO Type */ TPM_RC TSS_TPMI_YES_NO_Unmarshalu(TPMI_YES_NO *target, BYTE **buffer, uint32_t *size) { TPM_RC rc = TPM_RC_SUCCESS; if (rc == TPM_RC_SUCCESS) { rc = TSS_UINT8_Unmarshalu(target, buffer, size); } return rc; } /* Table 40 - Definition of (TPM_HANDLE) TPMI_DH_OBJECT Type */ TPM_RC TSS_TPMI_DH_OBJECT_Unmarshalu(TPMI_DH_OBJECT *target, BYTE **buffer, uint32_t *size, BOOL allowNull) { TPM_RC rc = TPM_RC_SUCCESS; if (rc == TPM_RC_SUCCESS) { rc = TSS_TPM_HANDLE_Unmarshalu(target, buffer, size); } if (rc == TPM_RC_SUCCESS) { BOOL isNotTransient = (*target < TRANSIENT_FIRST) || (*target > TRANSIENT_LAST); BOOL isNotPersistent = (*target < PERSISTENT_FIRST) || (*target > PERSISTENT_LAST); BOOL isNotLegalNull = (*target != TPM_RH_NULL) || !allowNull; if (isNotTransient && isNotPersistent && isNotLegalNull) { rc = TPM_RC_VALUE; } } return rc; } /* Table 41 - Definition of (TPM_HANDLE) TPMI_DH_PERSISTENT Type */ #ifndef TPM_TSS_NOCMDCHECK TPM_RC TSS_TPMI_DH_PERSISTENT_Unmarshalu(TPMI_DH_PERSISTENT *target, BYTE **buffer, uint32_t *size) { TPM_RC rc = TPM_RC_SUCCESS; if (rc == TPM_RC_SUCCESS) { rc = TSS_TPM_HANDLE_Unmarshalu(target, buffer, size); } if (rc == TPM_RC_SUCCESS) { BOOL isNotPersistent = (*target < PERSISTENT_FIRST) || (*target > PERSISTENT_LAST); if (isNotPersistent) { rc = TPM_RC_VALUE; } } return rc; } #endif /* TPM_TSS_NOCMDCHECK */ /* Table 42 - Definition of (TPM_HANDLE) TPMI_DH_ENTITY Type */ TPM_RC TSS_TPMI_DH_ENTITY_Unmarshalu(TPMI_DH_ENTITY *target, BYTE **buffer, uint32_t *size, BOOL allowNull) { TPM_RC rc = TPM_RC_SUCCESS; if (rc == TPM_RC_SUCCESS) { rc = TSS_TPM_HANDLE_Unmarshalu(target, buffer, size); } if (rc == TPM_RC_SUCCESS) { BOOL isNotOwner = *target != TPM_RH_OWNER; BOOL isNotEndorsement = *target != TPM_RH_ENDORSEMENT; BOOL isNotPlatform = *target != TPM_RH_PLATFORM; BOOL isNotLockout = *target != TPM_RH_LOCKOUT; BOOL isNotTransient = (*target < TRANSIENT_FIRST) || (*target > TRANSIENT_LAST); BOOL isNotPersistent = (*target < PERSISTENT_FIRST) || (*target > PERSISTENT_LAST); BOOL isNotNv = (*target < NV_INDEX_FIRST) || (*target > NV_INDEX_LAST); BOOL isNotPcr = (*target > PCR_LAST); BOOL isNotAuth = (*target < TPM_RH_AUTH_00) || (*target > TPM_RH_AUTH_FF); BOOL isNotLegalNull = (*target != TPM_RH_NULL) || !allowNull; if (isNotOwner && isNotEndorsement && isNotPlatform && isNotLockout && isNotTransient && isNotPersistent && isNotNv && isNotPcr && isNotAuth && isNotLegalNull) { rc = TPM_RC_VALUE; } } return rc; } /* Table 43 - Definition of (TPM_HANDLE) TPMI_DH_PCR Type */ #ifndef TPM_TSS_NOCMDCHECK TPM_RC TSS_TPMI_DH_PCR_Unmarshalu(TPMI_DH_PCR *target, BYTE **buffer, uint32_t *size, BOOL allowNull) { TPM_RC rc = TPM_RC_SUCCESS; if (rc == TPM_RC_SUCCESS) { rc = TSS_TPM_HANDLE_Unmarshalu(target, buffer, size); } if (rc == TPM_RC_SUCCESS) { BOOL isNotPcr = (*target > PCR_LAST); BOOL isNotLegalNull = (*target != TPM_RH_NULL) || !allowNull; if (isNotPcr && isNotLegalNull) { rc = TPM_RC_VALUE; } } return rc; } #endif /* TPM_TSS_NOCMDCHECK */ /* Table 44 - Definition of (TPM_HANDLE) TPMI_SH_AUTH_SESSION Type */ TPM_RC TSS_TPMI_SH_AUTH_SESSION_Unmarshalu(TPMI_SH_AUTH_SESSION *target, BYTE **buffer, uint32_t *size, BOOL allowPwd) { TPM_RC rc = TPM_RC_SUCCESS; if (rc == TPM_RC_SUCCESS) { rc = TSS_TPM_HANDLE_Unmarshalu(target, buffer, size); } if (rc == TPM_RC_SUCCESS) { BOOL isNotHmacSession = (*target < HMAC_SESSION_FIRST ) || (*target > HMAC_SESSION_LAST); BOOL isNotPolicySession = (*target < POLICY_SESSION_FIRST) || (*target > POLICY_SESSION_LAST); BOOL isNotLegalPwd = (*target != TPM_RS_PW) || !allowPwd; if (isNotHmacSession && isNotPolicySession && isNotLegalPwd) { rc = TPM_RC_VALUE; } } return rc; } /* Table 45 - Definition of (TPM_HANDLE) TPMI_SH_HMAC Type */ #ifndef TPM_TSS_NOCMDCHECK TPM_RC TSS_TPMI_SH_HMAC_Unmarshalu(TPMI_SH_HMAC *target, BYTE **buffer, uint32_t *size, BOOL allowNull) { TPM_RC rc = TPM_RC_SUCCESS; allowNull = allowNull; if (rc == TPM_RC_SUCCESS) { rc = TSS_TPM_HANDLE_Unmarshalu(target, buffer, size); } if (rc == TPM_RC_SUCCESS) { BOOL isNotHmacSession = (*target < HMAC_SESSION_FIRST ) || (*target > HMAC_SESSION_LAST); if (isNotHmacSession) { rc = TPM_RC_VALUE; } } return rc; } /* Table 46 - Definition of (TPM_HANDLE) TPMI_SH_POLICY Type */ TPM_RC TSS_TPMI_SH_POLICY_Unmarshalu(TPMI_SH_POLICY *target, BYTE **buffer, uint32_t *size, BOOL allowNull) { TPM_RC rc = TPM_RC_SUCCESS; allowNull = allowNull; if (rc == TPM_RC_SUCCESS) { rc = TSS_TPM_HANDLE_Unmarshalu(target, buffer, size); } if (rc == TPM_RC_SUCCESS) { BOOL isNotPolicySession = (*target < POLICY_SESSION_FIRST) || (*target > POLICY_SESSION_LAST); if (isNotPolicySession) { rc = TPM_RC_VALUE; } } return rc; } #endif /* TPM_TSS_NOCMDCHECK */ /* Table 47 - Definition of (TPM_HANDLE) TPMI_DH_CONTEXT Type */ TPM_RC TSS_TPMI_DH_CONTEXT_Unmarshalu(TPMI_DH_CONTEXT *target, BYTE **buffer, uint32_t *size, BOOL allowNull) { TPM_RC rc = TPM_RC_SUCCESS; allowNull = allowNull; if (rc == TPM_RC_SUCCESS) { rc = TSS_TPM_HANDLE_Unmarshalu(target, buffer, size); } if (rc == TPM_RC_SUCCESS) { BOOL isNotHmacSession = (*target < HMAC_SESSION_FIRST ) || (*target > HMAC_SESSION_LAST); BOOL isNotPolicySession = (*target < POLICY_SESSION_FIRST) || (*target > POLICY_SESSION_LAST); BOOL isNotTransient = (*target < TRANSIENT_FIRST) || (*target > TRANSIENT_LAST); if (isNotHmacSession && isNotPolicySession && isNotTransient) { rc = TPM_RC_VALUE; } } return rc; } /* Table 49 - Definition of (TPM_HANDLE) TPMI_DH_SAVED Type */ TPM_RC TSS_TPMI_DH_SAVED_Unmarshalu(TPMI_DH_SAVED *target, BYTE **buffer, uint32_t *size, BOOL allowNull) { TPM_RC rc = TPM_RC_SUCCESS; allowNull = allowNull; if (rc == TPM_RC_SUCCESS) { rc = TSS_TPM_HANDLE_Unmarshalu(target, buffer, size); } if (rc == TPM_RC_SUCCESS) { BOOL isNotHmacSession = (*target < HMAC_SESSION_FIRST ) || (*target > HMAC_SESSION_LAST); BOOL isNotPolicySession = (*target < POLICY_SESSION_FIRST) || (*target > POLICY_SESSION_LAST); BOOL isNotTransient = (*target != 0x80000000); BOOL isNotSequence = (*target != 0x80000001); BOOL isNotTransientStClear = (*target != 0x80000002); if (isNotHmacSession && isNotPolicySession && isNotTransient && isNotSequence && isNotTransientStClear) { rc = TPM_RC_VALUE; } } return rc; } /* Table 48 - Definition of (TPM_HANDLE) TPMI_RH_HIERARCHY Type */ TPM_RC TSS_TPMI_RH_HIERARCHY_Unmarshalu(TPMI_RH_HIERARCHY *target, BYTE **buffer, uint32_t *size, BOOL allowNull) { TPM_RC rc = TPM_RC_SUCCESS; if (rc == TPM_RC_SUCCESS) { rc = TSS_TPM_HANDLE_Unmarshalu(target, buffer, size); } if (rc == TPM_RC_SUCCESS) { switch (*target) { case TPM_RH_OWNER: case TPM_RH_PLATFORM: case TPM_RH_ENDORSEMENT: break; case TPM_RH_NULL: if (!allowNull) { rc = TPM_RC_VALUE; } break; default: rc = TPM_RC_VALUE; } } return rc; } /* Table 49 - Definition of (TPM_HANDLE) TPMI_RH_ENABLES Type */ #ifndef TPM_TSS_NOCMDCHECK TPM_RC TSS_TPMI_RH_ENABLES_Unmarshalu(TPMI_RH_ENABLES *target, BYTE **buffer, uint32_t *size, BOOL allowNull) { TPM_RC rc = TPM_RC_SUCCESS; if (rc == TPM_RC_SUCCESS) { rc = TSS_TPM_HANDLE_Unmarshalu(target, buffer, size); } if (rc == TPM_RC_SUCCESS) { switch (*target) { case TPM_RH_OWNER: case TPM_RH_PLATFORM: case TPM_RH_ENDORSEMENT: case TPM_RH_PLATFORM_NV: break; case TPM_RH_NULL: if (!allowNull) { rc = TPM_RC_VALUE; } break; default: rc = TPM_RC_VALUE; } } return rc; } /* Table 50 - Definition of (TPM_HANDLE) TPMI_RH_HIERARCHY_AUTH Type */ TPM_RC TSS_TPMI_RH_HIERARCHY_AUTH_Unmarshalu(TPMI_RH_HIERARCHY_AUTH *target, BYTE **buffer, uint32_t *size, BOOL allowNull) { TPM_RC rc = TPM_RC_SUCCESS; allowNull = allowNull; if (rc == TPM_RC_SUCCESS) { rc = TSS_TPM_HANDLE_Unmarshalu(target, buffer, size); } if (rc == TPM_RC_SUCCESS) { switch (*target) { case TPM_RH_OWNER: case TPM_RH_PLATFORM: case TPM_RH_ENDORSEMENT: case TPM_RH_LOCKOUT: break; default: rc = TPM_RC_VALUE; } } return rc; } /* Table 51 - Definition of (TPM_HANDLE) TPMI_RH_PLATFORM Type */ TPM_RC TSS_TPMI_RH_PLATFORM_Unmarshalu(TPMI_RH_PLATFORM *target, BYTE **buffer, uint32_t *size, BOOL allowNull) { TPM_RC rc = TPM_RC_SUCCESS; allowNull = allowNull; if (rc == TPM_RC_SUCCESS) { rc = TSS_TPM_HANDLE_Unmarshalu(target, buffer, size); } if (rc == TPM_RC_SUCCESS) { switch (*target) { case TPM_RH_PLATFORM: break; default: rc = TPM_RC_VALUE; } } return rc; } /* Table 53 - Definition of (TPM_HANDLE) TPMI_RH_ENDORSEMENT Type */ TPM_RC TSS_TPMI_RH_ENDORSEMENT_Unmarshalu(TPMI_RH_ENDORSEMENT *target, BYTE **buffer, uint32_t *size, BOOL allowNull) { TPM_RC rc = TPM_RC_SUCCESS; if (rc == TPM_RC_SUCCESS) { rc = TSS_TPM_HANDLE_Unmarshalu(target, buffer, size); } if (rc == TPM_RC_SUCCESS) { switch (*target) { case TPM_RH_ENDORSEMENT: break; case TPM_RH_NULL: if (!allowNull) { rc = TPM_RC_VALUE; } break; default: rc = TPM_RC_VALUE; } } return rc; } /* Table 54 - Definition of (TPM_HANDLE) TPMI_RH_PROVISION Type */ TPM_RC TSS_TPMI_RH_PROVISION_Unmarshalu(TPMI_RH_PROVISION *target, BYTE **buffer, uint32_t *size, BOOL allowNull) { TPM_RC rc = TPM_RC_SUCCESS; allowNull = allowNull; if (rc == TPM_RC_SUCCESS) { rc = TSS_TPM_HANDLE_Unmarshalu(target, buffer, size); } if (rc == TPM_RC_SUCCESS) { switch (*target) { case TPM_RH_OWNER: case TPM_RH_PLATFORM: break; default: rc = TPM_RC_VALUE; } } return rc; } /* Table 55 - Definition of (TPM_HANDLE) TPMI_RH_CLEAR Type */ TPM_RC TSS_TPMI_RH_CLEAR_Unmarshalu(TPMI_RH_CLEAR *target, BYTE **buffer, uint32_t *size, BOOL allowNull) { TPM_RC rc = TPM_RC_SUCCESS; allowNull = allowNull; if (rc == TPM_RC_SUCCESS) { rc = TSS_TPM_HANDLE_Unmarshalu(target, buffer, size); } if (rc == TPM_RC_SUCCESS) { switch (*target) { case TPM_RH_LOCKOUT: case TPM_RH_PLATFORM: break; default: rc = TPM_RC_VALUE; } } return rc; } /* Table 56 - Definition of (TPM_HANDLE) TPMI_RH_NV_AUTH Type */ TPM_RC TSS_TPMI_RH_NV_AUTH_Unmarshalu(TPMI_RH_NV_AUTH *target, BYTE **buffer, uint32_t *size, BOOL allowNull) { TPM_RC rc = TPM_RC_SUCCESS; allowNull = allowNull; if (rc == TPM_RC_SUCCESS) { rc = TSS_TPM_HANDLE_Unmarshalu(target, buffer, size); } if (rc == TPM_RC_SUCCESS) { switch (*target) { case TPM_RH_OWNER: case TPM_RH_PLATFORM: break; default: { BOOL isNotNv = (*target < NV_INDEX_FIRST) || (*target > NV_INDEX_LAST); if (isNotNv) { rc = TPM_RC_VALUE; } } } } return rc; } /* Table 57 - Definition of (TPM_HANDLE) TPMI_RH_LOCKOUT Type */ TPM_RC TSS_TPMI_RH_LOCKOUT_Unmarshalu(TPMI_RH_LOCKOUT *target, BYTE **buffer, uint32_t *size, BOOL allowNull) { TPM_RC rc = TPM_RC_SUCCESS; allowNull = allowNull; if (rc == TPM_RC_SUCCESS) { rc = TSS_TPM_HANDLE_Unmarshalu(target, buffer, size); } if (rc == TPM_RC_SUCCESS) { switch (*target) { case TPM_RH_LOCKOUT: break; default: rc = TPM_RC_VALUE; } } return rc; } #endif /* TPM_TSS_NOCMDCHECK */ /* Table 58 - Definition of (TPM_HANDLE) TPMI_RH_NV_INDEX Type */ TPM_RC TSS_TPMI_RH_NV_INDEX_Unmarshalu(TPMI_RH_NV_INDEX *target, BYTE **buffer, uint32_t *size, BOOL allowNull) { TPM_RC rc = TPM_RC_SUCCESS; allowNull = allowNull; if (rc == TPM_RC_SUCCESS) { rc = TSS_TPM_HANDLE_Unmarshalu(target, buffer, size); } if (rc == TPM_RC_SUCCESS) { BOOL isNotNv = (*target < NV_INDEX_FIRST) || (*target > NV_INDEX_LAST); if (isNotNv) { rc = TPM_RC_VALUE; } } return rc; } /* Table 59 - Definition of (TPM_ALG_ID) TPMI_ALG_HASH Type */ TPM_RC TSS_TPMI_ALG_HASH_Unmarshalu(TPMI_ALG_HASH *target, BYTE **buffer, uint32_t *size, BOOL allowNull) { TPM_RC rc = TPM_RC_SUCCESS; allowNull = allowNull; if (rc == TPM_RC_SUCCESS) { rc = TSS_TPM_ALG_ID_Unmarshalu(target, buffer, size); } return rc; } /* Table 61 - Definition of (TPM_ALG_ID) TPMI_ALG_SYM Type */ TPM_RC TSS_TPMI_ALG_SYM_Unmarshalu(TPMI_ALG_SYM *target, BYTE **buffer, uint32_t *size, BOOL allowNull) { TPM_RC rc = TPM_RC_SUCCESS; allowNull = allowNull; if (rc == TPM_RC_SUCCESS) { rc = TSS_TPM_ALG_ID_Unmarshalu(target, buffer, size); } return rc; } /* Table 62 - Definition of (TPM_ALG_ID) TPMI_ALG_SYM_OBJECT Type */ TPM_RC TSS_TPMI_ALG_SYM_OBJECT_Unmarshalu(TPMI_ALG_SYM_OBJECT *target, BYTE **buffer, uint32_t *size, BOOL allowNull) { TPM_RC rc = TPM_RC_SUCCESS; allowNull = allowNull; if (rc == TPM_RC_SUCCESS) { rc = TSS_TPM_ALG_ID_Unmarshalu(target, buffer, size); } return rc; } /* Table 63 - Definition of (TPM_ALG_ID) TPMI_ALG_SYM_MODE Type */ TPM_RC TSS_TPMI_ALG_SYM_MODE_Unmarshalu(TPMI_ALG_SYM_MODE *target, BYTE **buffer, uint32_t *size, BOOL allowNull) { TPM_RC rc = TPM_RC_SUCCESS; allowNull = allowNull; if (rc == TPM_RC_SUCCESS) { rc = TSS_TPM_ALG_ID_Unmarshalu(target, buffer, size); } return rc; } /* Table 64 - Definition of (TPM_ALG_ID) TPMI_ALG_KDF Type */ TPM_RC TSS_TPMI_ALG_KDF_Unmarshalu(TPMI_ALG_KDF *target, BYTE **buffer, uint32_t *size, BOOL allowNull) { TPM_RC rc = TPM_RC_SUCCESS; allowNull = allowNull; if (rc == TPM_RC_SUCCESS) { rc = TSS_TPM_ALG_ID_Unmarshalu(target, buffer, size); } return rc; } /* Table 65 - Definition of (TPM_ALG_ID) TPMI_ALG_SIG_SCHEME Type */ TPM_RC TSS_TPMI_ALG_SIG_SCHEME_Unmarshalu(TPMI_ALG_SIG_SCHEME *target, BYTE **buffer, uint32_t *size, BOOL allowNull) { TPM_RC rc = TPM_RC_SUCCESS; allowNull = allowNull; if (rc == TPM_RC_SUCCESS) { rc = TSS_TPM_ALG_ID_Unmarshalu(target, buffer, size); } return rc; } #ifndef TPM_TSS_NOCMDCHECK /* Table 66 - Definition of (TPM_ALG_ID) TPMI_ECC_KEY_EXCHANGE Type */ TPM_RC TSS_TPMI_ECC_KEY_EXCHANGE_Unmarshalu(TPMI_ECC_KEY_EXCHANGE *target, BYTE **buffer, uint32_t *size, BOOL allowNull) { TPM_RC rc = TPM_RC_SUCCESS; allowNull = allowNull; if (rc == TPM_RC_SUCCESS) { rc = TSS_TPM_ALG_ID_Unmarshalu(target, buffer, size); } return rc; } /* Table 67 - Definition of (TPM_ST) TPMI_ST_COMMAND_TAG Type */ TPM_RC TSS_TPMI_ST_COMMAND_TAG_Unmarshalu(TPMI_ST_COMMAND_TAG *target, BYTE **buffer, uint32_t *size) { TPM_RC rc = TPM_RC_SUCCESS; if (rc == TPM_RC_SUCCESS) { rc = TSS_TPM_ST_Unmarshalu(target, buffer, size); } if (rc == TPM_RC_SUCCESS) { switch (*target) { case TPM_ST_NO_SESSIONS: case TPM_ST_SESSIONS: break; default: rc = TPM_RC_BAD_TAG; } } return rc; } /* Table 70 TPMI_ALG_MAC_SCHEME */ TPM_RC TSS_TPMI_ALG_MAC_SCHEME_Unmarshalu(TPMI_ALG_MAC_SCHEME *target, BYTE **buffer, uint32_t *size, BOOL allowNull) { TPM_RC rc = TPM_RC_SUCCESS; allowNull = allowNull; if (rc == TPM_RC_SUCCESS) { rc = TSS_TPM_ALG_ID_Unmarshalu(target, buffer, size); } return rc; } /* Table 70 TPMI_ALG_CIPHER_MODE */ TPM_RC TSS_TPMI_ALG_CIPHER_MODE_Unmarshalu(TPMI_ALG_CIPHER_MODE*target, BYTE **buffer, uint32_t *size, BOOL allowNull) { TPM_RC rc = TPM_RC_SUCCESS; allowNull = allowNull; if (rc == TPM_RC_SUCCESS) { rc = TSS_TPM_ALG_ID_Unmarshalu(target, buffer, size); } return rc; } #endif /* TPM_TSS_NOCMDCHECK */ /* Table 68 - Definition of TPMS_EMPTY Structure */ /* NOTE: Marked as const function in header */ TPM_RC TSS_TPMS_EMPTY_Unmarshalu(TPMS_EMPTY *target, BYTE **buffer, uint32_t *size) { TPM_RC rc = TPM_RC_SUCCESS; target = target; buffer = buffer; size = size; return rc; } /* Table 70 - Definition of TPMU_HA Union */ TPM_RC TSS_TPMU_HA_Unmarshalu(TPMU_HA *target, BYTE **buffer, uint32_t *size, uint32_t selector) { TPM_RC rc = TPM_RC_SUCCESS; switch (selector) { #ifdef TPM_ALG_SHA1 case TPM_ALG_SHA1: rc = TSS_Array_Unmarshalu(target->sha1, SHA1_DIGEST_SIZE, buffer, size); break; #endif #ifdef TPM_ALG_SHA256 case TPM_ALG_SHA256: rc = TSS_Array_Unmarshalu(target->sha256, SHA256_DIGEST_SIZE, buffer, size); break; #endif #ifdef TPM_ALG_SHA384 case TPM_ALG_SHA384: rc =TSS_Array_Unmarshalu(target->sha384, SHA384_DIGEST_SIZE, buffer, size); break; #endif #ifdef TPM_ALG_SHA512 case TPM_ALG_SHA512: rc = TSS_Array_Unmarshalu(target->sha512, SHA512_DIGEST_SIZE, buffer, size); break; #endif #ifdef TPM_ALG_SM3_256 case TPM_ALG_SM3_256: rc = TSS_Array_Unmarshalu(target->sm3_256, SM3_256_DIGEST_SIZE, buffer, size); break; #endif case TPM_ALG_NULL: break; default: rc = TPM_RC_SELECTOR; } return rc; } /* Table 71 - Definition of TPMT_HA Structure */ TPM_RC TSS_TPMT_HA_Unmarshalu(TPMT_HA *target, BYTE **buffer, uint32_t *size, BOOL allowNull) { TPM_RC rc = TPM_RC_SUCCESS; if (rc == TPM_RC_SUCCESS) { rc = TSS_TPMI_ALG_HASH_Unmarshalu(&target->hashAlg, buffer, size, allowNull); } if (rc == TPM_RC_SUCCESS) { rc = TSS_TPMU_HA_Unmarshalu(&target->digest, buffer, size, target->hashAlg); } return rc; } /* Table 72 - Definition of TPM2B_DIGEST Structure */ TPM_RC TSS_TPM2B_DIGEST_Unmarshalu(TPM2B_DIGEST *target, BYTE **buffer, uint32_t *size) { TPM_RC rc = TPM_RC_SUCCESS; if (rc == TPM_RC_SUCCESS) { rc = TSS_TPM2B_Unmarshalu(&target->b, sizeof(target->t.buffer), buffer, size); } return rc; } /* Table 73 - Definition of TPM2B_DATA Structure */ TPM_RC TSS_TPM2B_DATA_Unmarshalu(TPM2B_DATA *target, BYTE **buffer, uint32_t *size) { TPM_RC rc = TPM_RC_SUCCESS; if (rc == TPM_RC_SUCCESS) { rc = TSS_TPM2B_Unmarshalu(&target->b, sizeof(target->t.buffer), buffer, size); } return rc; } /* Table 74 - Definition of Types for TPM2B_NONCE */ TPM_RC TSS_TPM2B_NONCE_Unmarshalu(TPM2B_NONCE *target, BYTE **buffer, uint32_t *size) { TPM_RC rc = TPM_RC_SUCCESS; if (rc == TPM_RC_SUCCESS) { rc = TSS_TPM2B_DIGEST_Unmarshalu(target, buffer, size); } return rc; } /* Table 75 - Definition of Types for TPM2B_AUTH */ TPM_RC TSS_TPM2B_AUTH_Unmarshalu(TPM2B_AUTH *target, BYTE **buffer, uint32_t *size) { TPM_RC rc = TPM_RC_SUCCESS; if (rc == TPM_RC_SUCCESS) { rc = TSS_TPM2B_DIGEST_Unmarshalu(target, buffer, size); } return rc; } #ifndef TPM_TSS_NOCMDCHECK /* Table 76 - Definition of Types for TPM2B_OPERAND */ TPM_RC TSS_TPM2B_OPERAND_Unmarshalu(TPM2B_OPERAND *target, BYTE **buffer, uint32_t *size) { TPM_RC rc = TPM_RC_SUCCESS; if (rc == TPM_RC_SUCCESS) { rc = TSS_TPM2B_DIGEST_Unmarshalu(target, buffer, size); } return rc; } /* Table 77 - Definition of TPM2B_EVENT Structure */ TPM_RC TSS_TPM2B_EVENT_Unmarshalu(TPM2B_EVENT *target, BYTE **buffer, uint32_t *size) { TPM_RC rc = TPM_RC_SUCCESS; if (rc == TPM_RC_SUCCESS) { rc = TSS_TPM2B_Unmarshalu(&target->b, sizeof(target->t.buffer), buffer, size); } return rc; } #endif /* TPM_TSS_NOCMDCHECK */ /* Table 78 - Definition of TPM2B_MAX_BUFFER Structure */ TPM_RC TSS_TPM2B_MAX_BUFFER_Unmarshalu(TPM2B_MAX_BUFFER *target, BYTE **buffer, uint32_t *size) { TPM_RC rc = TPM_RC_SUCCESS; if (rc == TPM_RC_SUCCESS) { rc = TSS_TPM2B_Unmarshalu(&target->b, sizeof(target->t.buffer), buffer, size); } return rc; } /* Table 79 - Definition of TPM2B_MAX_NV_BUFFER Structure */ TPM_RC TSS_TPM2B_MAX_NV_BUFFER_Unmarshalu(TPM2B_MAX_NV_BUFFER *target, BYTE **buffer, uint32_t *size) { TPM_RC rc = TPM_RC_SUCCESS; if (rc == TPM_RC_SUCCESS) { rc = TSS_TPM2B_Unmarshalu(&target->b, sizeof(target->t.buffer), buffer, size); } return rc; } /* Table 80 - Definition of TPM2B_TIMEOUT Structure */ TPM_RC TSS_TPM2B_TIMEOUT_Unmarshalu(TPM2B_TIMEOUT *target, BYTE **buffer, uint32_t *size) { TPM_RC rc = TPM_RC_SUCCESS; if (rc == TPM_RC_SUCCESS) { rc = TSS_TPM2B_DIGEST_Unmarshalu(target, buffer, size); } return rc; } /* Table 81 - Definition of TPM2B_IV Structure */ TPM_RC TSS_TPM2B_IV_Unmarshalu(TPM2B_IV *target, BYTE **buffer, uint32_t *size) { TPM_RC rc = TPM_RC_SUCCESS; if (rc == TPM_RC_SUCCESS) { rc = TSS_TPM2B_Unmarshalu(&target->b, sizeof(target->t.buffer), buffer, size); } return rc; } /* Table 83 - Definition of TPM2B_NAME Structure */ TPM_RC TSS_TPM2B_NAME_Unmarshalu(TPM2B_NAME *target, BYTE **buffer, uint32_t *size) { TPM_RC rc = TPM_RC_SUCCESS; if (rc == TPM_RC_SUCCESS) { rc = TSS_TPM2B_Unmarshalu(&target->b, sizeof(target->t.name), buffer, size); } return rc; } /* Table 85 - Definition of TPMS_PCR_SELECTION Structure */ TPM_RC TSS_TPMS_PCR_SELECTION_Unmarshalu(TPMS_PCR_SELECTION *target, BYTE **buffer, uint32_t *size) { TPM_RC rc = TPM_RC_SUCCESS; if (rc == TPM_RC_SUCCESS) { rc = TSS_TPMI_ALG_HASH_Unmarshalu(&target->hash, buffer, size, NO); } if (rc == TPM_RC_SUCCESS) { rc = TSS_UINT8_Unmarshalu(&target->sizeofSelect, buffer, size); } if (rc == TPM_RC_SUCCESS) { if (target->sizeofSelect > PCR_SELECT_MAX) { rc = TPM_RC_VALUE; } } if (rc == TPM_RC_SUCCESS) { rc = TSS_Array_Unmarshalu(target->pcrSelect, target->sizeofSelect, buffer, size); } return rc; } /* Table 88 - Definition of TPMT_TK_CREATION Structure */ TPM_RC TSS_TPMT_TK_CREATION_Unmarshalu(TPMT_TK_CREATION *target, BYTE **buffer, uint32_t *size) { TPM_RC rc = TPM_RC_SUCCESS; if (rc == TPM_RC_SUCCESS) { rc = TSS_TPM_ST_Unmarshalu(&target->tag, buffer, size); } if (rc == TPM_RC_SUCCESS) { if (target->tag != TPM_ST_CREATION) { rc = TPM_RC_TAG; } } if (rc == TPM_RC_SUCCESS) { rc = TSS_TPMI_RH_HIERARCHY_Unmarshalu(&target->hierarchy, buffer, size, YES); } if (rc == TPM_RC_SUCCESS) { rc = TSS_TPM2B_DIGEST_Unmarshalu(&target->digest, buffer, size); } return rc; } /* Table 89 - Definition of TPMT_TK_VERIFIED Structure */ TPM_RC TSS_TPMT_TK_VERIFIED_Unmarshalu(TPMT_TK_VERIFIED *target, BYTE **buffer, uint32_t *size) { TPM_RC rc = TPM_RC_SUCCESS; if (rc == TPM_RC_SUCCESS) { rc = TSS_TPM_ST_Unmarshalu(&target->tag, buffer, size); } if (rc == TPM_RC_SUCCESS) { if (target->tag != TPM_ST_VERIFIED) { rc = TPM_RC_TAG; } } if (rc == TPM_RC_SUCCESS) { rc = TSS_TPMI_RH_HIERARCHY_Unmarshalu(&target->hierarchy, buffer, size, YES); } if (rc == TPM_RC_SUCCESS) { rc = TSS_TPM2B_DIGEST_Unmarshalu(&target->digest, buffer, size); } return rc; } /* Table 90 - Definition of TPMT_TK_AUTH Structure */ TPM_RC TSS_TPMT_TK_AUTH_Unmarshalu(TPMT_TK_AUTH *target, BYTE **buffer, uint32_t *size) { TPM_RC rc = TPM_RC_SUCCESS; if (rc == TPM_RC_SUCCESS) { rc = TSS_TPM_ST_Unmarshalu(&target->tag, buffer, size); } if (rc == TPM_RC_SUCCESS) { if ((target->tag != TPM_ST_AUTH_SIGNED) && (target->tag != TPM_ST_AUTH_SECRET)) { rc = TPM_RC_TAG; } } if (rc == TPM_RC_SUCCESS) { rc = TSS_TPMI_RH_HIERARCHY_Unmarshalu(&target->hierarchy, buffer, size, YES); } if (rc == TPM_RC_SUCCESS) { rc = TSS_TPM2B_DIGEST_Unmarshalu(&target->digest, buffer, size); } return rc; } /* Table 91 - Definition of TPMT_TK_HASHCHECK Structure */ TPM_RC TSS_TPMT_TK_HASHCHECK_Unmarshalu(TPMT_TK_HASHCHECK *target, BYTE **buffer, uint32_t *size) { TPM_RC rc = TPM_RC_SUCCESS; if (rc == TPM_RC_SUCCESS) { rc = TSS_TPM_ST_Unmarshalu(&target->tag, buffer, size); } if (rc == TPM_RC_SUCCESS) { if (target->tag != TPM_ST_HASHCHECK) { rc = TPM_RC_TAG; } } if (rc == TPM_RC_SUCCESS) { rc = TSS_TPMI_RH_HIERARCHY_Unmarshalu(&target->hierarchy, buffer, size, YES); } if (rc == TPM_RC_SUCCESS) { rc = TSS_TPM2B_DIGEST_Unmarshalu(&target->digest, buffer, size); } return rc; } /* Table 92 - Definition of TPMS_ALG_PROPERTY Structure */ TPM_RC TSS_TPMS_ALG_PROPERTY_Unmarshalu(TPMS_ALG_PROPERTY *target, BYTE **buffer, uint32_t *size) { TPM_RC rc = TPM_RC_SUCCESS; if (rc == TPM_RC_SUCCESS) { rc = TSS_TPM_ALG_ID_Unmarshalu(&target->alg, buffer, size); } if (rc == TPM_RC_SUCCESS) { rc = TSS_TPMA_ALGORITHM_Unmarshalu(&target->algProperties, buffer, size); } return rc; } /* Table 93 - Definition of TPMS_TAGGED_PROPERTY Structure */ TPM_RC TSS_TPMS_TAGGED_PROPERTY_Unmarshalu(TPMS_TAGGED_PROPERTY *target, BYTE **buffer, uint32_t *size) { TPM_RC rc = TPM_RC_SUCCESS; if (rc == TPM_RC_SUCCESS) { rc = TSS_TPM_PT_Unmarshalu(&target->property, buffer, size); } if (rc == TPM_RC_SUCCESS) { rc = TSS_UINT32_Unmarshalu(&target->value, buffer, size); } return rc; } /* Table 94 - Definition of TPMS_TAGGED_PCR_SELECT Structure */ TPM_RC TSS_TPMS_TAGGED_PCR_SELECT_Unmarshalu(TPMS_TAGGED_PCR_SELECT *target, BYTE **buffer, uint32_t *size) { TPM_RC rc = TPM_RC_SUCCESS; if (rc == TPM_RC_SUCCESS) { rc = TSS_TPM_PT_PCR_Unmarshalu(&target->tag, buffer, size); } if (rc == TPM_RC_SUCCESS) { rc = TSS_UINT8_Unmarshalu(&target->sizeofSelect, buffer, size); } if (rc == TPM_RC_SUCCESS) { rc = TSS_Array_Unmarshalu(target->pcrSelect, target->sizeofSelect, buffer, size); } return rc; } /* Table 100 - Definition of TPMS_TAGGED_POLICY Structure */ TPM_RC TSS_TPMS_TAGGED_POLICY_Unmarshalu(TPMS_TAGGED_POLICY *target, BYTE **buffer, uint32_t *size) { TPM_RC rc = TPM_RC_SUCCESS; if (rc == TPM_RC_SUCCESS) { rc = TSS_TPM_HANDLE_Unmarshalu(&target->handle, buffer, size); } if (rc == TPM_RC_SUCCESS) { rc = TSS_TPMT_HA_Unmarshalu(&target->policyHash, buffer, size, YES); } return rc; } /* Table 95 - Definition of TPML_CC Structure */ TPM_RC TSS_TPML_CC_Unmarshalu(TPML_CC *target, BYTE **buffer, uint32_t *size) { TPM_RC rc = TPM_RC_SUCCESS; uint32_t i; if (rc == TPM_RC_SUCCESS) { rc = TSS_UINT32_Unmarshalu(&target->count, buffer, size); } if (rc == TPM_RC_SUCCESS) { if (target->count > MAX_CAP_CC) { rc = TPM_RC_SIZE; } } for (i = 0 ; (rc == TPM_RC_SUCCESS) && (i < target->count) ; i++) { rc = TSS_TPM_CC_Unmarshalu(&target->commandCodes[i], buffer, size); } return rc; } /* Table 96 - Definition of TPML_CCA Structure */ TPM_RC TSS_TPML_CCA_Unmarshalu(TPML_CCA *target, BYTE **buffer, uint32_t *size) { TPM_RC rc = TPM_RC_SUCCESS; uint32_t i; if (rc == TPM_RC_SUCCESS) { rc = TSS_UINT32_Unmarshalu(&target->count, buffer, size); } if (rc == TPM_RC_SUCCESS) { if (target->count > MAX_CAP_CC) { rc = TPM_RC_SIZE; } } for (i = 0 ; (rc == TPM_RC_SUCCESS) && (i < target->count) ; i++) { rc = TSS_TPMA_CC_Unmarshalu(&target->commandAttributes[i], buffer, size); } return rc; } /* Table 97 - Definition of TPML_ALG Structure */ TPM_RC TSS_TPML_ALG_Unmarshalu(TPML_ALG *target, BYTE **buffer, uint32_t *size) { TPM_RC rc = TPM_RC_SUCCESS; uint32_t i; if (rc == TPM_RC_SUCCESS) { rc = TSS_UINT32_Unmarshalu(&target->count, buffer, size); } if (rc == TPM_RC_SUCCESS) { if (target->count > MAX_ALG_LIST_SIZE) { rc = TPM_RC_SIZE; } } for (i = 0 ; (rc == TPM_RC_SUCCESS) && (i < target->count) ; i++) { rc = TSS_TPM_ALG_ID_Unmarshalu(&target->algorithms[i], buffer, size); } return rc; } /* Table 98 - Definition of TPML_HANDLE Structure */ TPM_RC TSS_TPML_HANDLE_Unmarshalu(TPML_HANDLE *target, BYTE **buffer, uint32_t *size) { TPM_RC rc = TPM_RC_SUCCESS; uint32_t i; if (rc == TPM_RC_SUCCESS) { rc = TSS_UINT32_Unmarshalu(&target->count, buffer, size); } if (rc == TPM_RC_SUCCESS) { if (target->count > MAX_CAP_HANDLES) { rc = TPM_RC_SIZE; } } for (i = 0 ; (rc == TPM_RC_SUCCESS) && (i < target->count) ; i++) { rc = TSS_TPM_HANDLE_Unmarshalu(&target->handle[i], buffer, size); } return rc; } /* Table 99 - Definition of TPML_DIGEST Structure */ /* PolicyOr has a restriction of at least a count of two. This function is also used to unmarshal PCR_Read, where a count of one is permitted. */ TPM_RC TSS_TPML_DIGEST_Unmarshalu(TPML_DIGEST *target, BYTE **buffer, uint32_t *size, uint32_t minCount) { TPM_RC rc = TPM_RC_SUCCESS; uint32_t i; if (rc == TPM_RC_SUCCESS) { rc = TSS_UINT32_Unmarshalu(&target->count, buffer, size); } if (rc == TPM_RC_SUCCESS) { if (target->count < minCount) { rc = TPM_RC_SIZE; } } if (rc == TPM_RC_SUCCESS) { if (target->count > 8) { rc = TPM_RC_SIZE; } } for (i = 0 ; (rc == TPM_RC_SUCCESS) && (i < target->count) ; i++) { rc = TSS_TPM2B_DIGEST_Unmarshalu(&target->digests[i], buffer, size); } return rc; } /* Table 100 - Definition of TPML_DIGEST_VALUES Structure */ TPM_RC TSS_TPML_DIGEST_VALUES_Unmarshalu(TPML_DIGEST_VALUES *target, BYTE **buffer, uint32_t *size) { TPM_RC rc = TPM_RC_SUCCESS; uint32_t i; if (rc == TPM_RC_SUCCESS) { rc = TSS_UINT32_Unmarshalu(&target->count, buffer, size); } if (rc == TPM_RC_SUCCESS) { if (target->count > HASH_COUNT) { rc = TPM_RC_SIZE; } } for (i = 0 ; (rc == TPM_RC_SUCCESS) && (i < target->count) ; i++) { rc = TSS_TPMT_HA_Unmarshalu(&target->digests[i], buffer, size, NO); } return rc; } /* Table 102 - Definition of TPML_PCR_SELECTION Structure */ TPM_RC TSS_TPML_PCR_SELECTION_Unmarshalu(TPML_PCR_SELECTION *target, BYTE **buffer, uint32_t *size) { TPM_RC rc = TPM_RC_SUCCESS; uint32_t i; if (rc == TPM_RC_SUCCESS) { rc = TSS_UINT32_Unmarshalu(&target->count, buffer, size); } if (rc == TPM_RC_SUCCESS) { if (target->count > HASH_COUNT) { rc = TPM_RC_SIZE; } } for (i = 0 ; (rc == TPM_RC_SUCCESS) && (i < target->count) ; i++) { rc = TSS_TPMS_PCR_SELECTION_Unmarshalu(&target->pcrSelections[i], buffer, size); } return rc; } /* Table 103 - Definition of TPML_ALG_PROPERTY Structure */ TPM_RC TSS_TPML_ALG_PROPERTY_Unmarshalu(TPML_ALG_PROPERTY *target, BYTE **buffer, uint32_t *size) { TPM_RC rc = TPM_RC_SUCCESS; uint32_t i; if (rc == TPM_RC_SUCCESS) { rc = TSS_UINT32_Unmarshalu(&target->count, buffer, size); } if (rc == TPM_RC_SUCCESS) { if (target->count > MAX_CAP_ALGS) { rc = TPM_RC_SIZE; } } for (i = 0 ; (rc == TPM_RC_SUCCESS) && (i < target->count) ; i++) { rc = TSS_TPMS_ALG_PROPERTY_Unmarshalu(&target->algProperties[i], buffer, size); } return rc; } /* Table 104 - Definition of TPML_TAGGED_TPM_PROPERTY Structure */ TPM_RC TSS_TPML_TAGGED_TPM_PROPERTY_Unmarshalu(TPML_TAGGED_TPM_PROPERTY *target, BYTE **buffer, uint32_t *size) { TPM_RC rc = TPM_RC_SUCCESS; uint32_t i; if (rc == TPM_RC_SUCCESS) { rc = TSS_UINT32_Unmarshalu(&target->count, buffer, size); } if (rc == TPM_RC_SUCCESS) { if (target->count > MAX_TPM_PROPERTIES) { rc = TPM_RC_SIZE; } } for (i = 0 ; (rc == TPM_RC_SUCCESS) && (i < target->count) ; i++) { rc = TSS_TPMS_TAGGED_PROPERTY_Unmarshalu(&target->tpmProperty[i], buffer, size); } return rc; } /* Table 105 - Definition of TPML_TAGGED_PCR_PROPERTY Structure */ TPM_RC TSS_TPML_TAGGED_PCR_PROPERTY_Unmarshalu(TPML_TAGGED_PCR_PROPERTY *target, BYTE **buffer, uint32_t *size) { TPM_RC rc = TPM_RC_SUCCESS; uint32_t i; if (rc == TPM_RC_SUCCESS) { rc = TSS_UINT32_Unmarshalu(&target->count, buffer, size); } if (rc == TPM_RC_SUCCESS) { if (target->count > MAX_PCR_PROPERTIES) { rc = TPM_RC_SIZE; } } for (i = 0 ; (rc == TPM_RC_SUCCESS) && (i < target->count) ; i++) { rc = TSS_TPMS_TAGGED_PCR_SELECT_Unmarshalu(&target->pcrProperty[i], buffer, size); } return rc; } /* Table 106 - Definition of {ECC} TPML_ECC_CURVE Structure */ TPM_RC TSS_TPML_ECC_CURVE_Unmarshalu(TPML_ECC_CURVE *target, BYTE **buffer, uint32_t *size) { TPM_RC rc = TPM_RC_SUCCESS; uint32_t i; if (rc == TPM_RC_SUCCESS) { rc = TSS_UINT32_Unmarshalu(&target->count, buffer, size); } if (rc == TPM_RC_SUCCESS) { if (target->count > MAX_ECC_CURVES) { rc = TPM_RC_SIZE; } } for (i = 0 ; (rc == TPM_RC_SUCCESS) && (i < target->count) ; i++) { rc = TSS_TPM_ECC_CURVE_Unmarshalu(&target->eccCurves[i], buffer, size); } return rc; } /* Table 112 - Definition of TPML_TAGGED_POLICY Structure */ TPM_RC TSS_TPML_TAGGED_POLICY_Unmarshalu(TPML_TAGGED_POLICY *target, BYTE **buffer, uint32_t *size) { TPM_RC rc = TPM_RC_SUCCESS; uint32_t i; if (rc == TPM_RC_SUCCESS) { rc = TSS_UINT32_Unmarshalu(&target->count, buffer, size); } if (rc == TPM_RC_SUCCESS) { if (target->count > MAX_TAGGED_POLICIES) { rc = TPM_RC_SIZE; } } for (i = 0 ; (rc == TPM_RC_SUCCESS) && (i < target->count) ; i++) { rc = TSS_TPMS_TAGGED_POLICY_Unmarshalu(&target->policies[i], buffer, size); } return rc; } /* Table 107 - Definition of TPMU_CAPABILITIES Union */ TPM_RC TSS_TPMU_CAPABILITIES_Unmarshalu(TPMU_CAPABILITIES *target, BYTE **buffer, uint32_t *size, uint32_t selector) { TPM_RC rc = TPM_RC_SUCCESS; switch (selector) { case TPM_CAP_ALGS: rc = TSS_TPML_ALG_PROPERTY_Unmarshalu(&target->algorithms, buffer, size); break; case TPM_CAP_HANDLES: rc = TSS_TPML_HANDLE_Unmarshalu(&target->handles, buffer, size); break; case TPM_CAP_COMMANDS: rc = TSS_TPML_CCA_Unmarshalu(&target->command, buffer, size); break; case TPM_CAP_PP_COMMANDS: rc = TSS_TPML_CC_Unmarshalu(&target->ppCommands, buffer, size); break; case TPM_CAP_AUDIT_COMMANDS: rc = TSS_TPML_CC_Unmarshalu(&target->auditCommands, buffer, size); break; case TPM_CAP_PCRS: rc = TSS_TPML_PCR_SELECTION_Unmarshalu(&target->assignedPCR, buffer, size); break; case TPM_CAP_TPM_PROPERTIES: rc = TSS_TPML_TAGGED_TPM_PROPERTY_Unmarshalu(&target->tpmProperties, buffer, size); break; case TPM_CAP_PCR_PROPERTIES: rc = TSS_TPML_TAGGED_PCR_PROPERTY_Unmarshalu(&target->pcrProperties, buffer, size); break; case TPM_CAP_ECC_CURVES: rc = TSS_TPML_ECC_CURVE_Unmarshalu(&target->eccCurves, buffer, size); break; case TPM_CAP_AUTH_POLICIES: rc = TSS_TPML_TAGGED_POLICY_Unmarshalu(&target->authPolicies, buffer, size); break; default: rc = TPM_RC_SELECTOR; } return rc; } /* Table 108 - Definition of TPMS_CAPABILITY_DATA Structure */ TPM_RC TSS_TPMS_CAPABILITY_DATA_Unmarshalu(TPMS_CAPABILITY_DATA *target, BYTE **buffer, uint32_t *size) { TPM_RC rc = TPM_RC_SUCCESS; if (rc == TPM_RC_SUCCESS) { rc = TSS_TPM_CAP_Unmarshalu(&target->capability, buffer, size); } if (rc == TPM_RC_SUCCESS) { rc = TSS_TPMU_CAPABILITIES_Unmarshalu(&target->data, buffer, size, target->capability); } return rc; } /* Table 109 - Definition of TPMS_CLOCK_INFO Structure */ TPM_RC TSS_TPMS_CLOCK_INFO_Unmarshalu(TPMS_CLOCK_INFO *target, BYTE **buffer, uint32_t *size) { TPM_RC rc = TPM_RC_SUCCESS; if (rc == TPM_RC_SUCCESS) { rc = TSS_UINT64_Unmarshalu(&target->clock, buffer, size); } if (rc == TPM_RC_SUCCESS) { rc = TSS_UINT32_Unmarshalu(&target->resetCount, buffer, size); } if (rc == TPM_RC_SUCCESS) { rc = TSS_UINT32_Unmarshalu(&target->restartCount, buffer, size); } if (rc == TPM_RC_SUCCESS) { rc = TSS_TPMI_YES_NO_Unmarshalu(&target->safe, buffer, size); } return rc; } /* Table 110 - Definition of TPMS_TIME_INFO Structure */ TPM_RC TSS_TPMS_TIME_INFO_Unmarshalu(TPMS_TIME_INFO *target, BYTE **buffer, uint32_t *size) { TPM_RC rc = TPM_RC_SUCCESS; if (rc == TPM_RC_SUCCESS) { rc = TSS_UINT64_Unmarshalu(&target->time, buffer, size); } if (rc == TPM_RC_SUCCESS) { rc = TSS_TPMS_CLOCK_INFO_Unmarshalu(&target->clockInfo, buffer, size); } return rc; } #ifndef TPM_TSS_NOCMDCHECK /* Table 111 - Definition of TPMS_TIME_ATTEST_INFO Structure */ TPM_RC TSS_TPMS_TIME_ATTEST_INFO_Unmarshalu(TPMS_TIME_ATTEST_INFO *target, BYTE **buffer, uint32_t *size) { TPM_RC rc = TPM_RC_SUCCESS; if (rc == TPM_RC_SUCCESS) { rc = TSS_TPMS_TIME_INFO_Unmarshalu(&target->time, buffer, size); } if (rc == TPM_RC_SUCCESS) { rc = TSS_UINT64_Unmarshalu(&target->firmwareVersion, buffer, size); } return rc; } /* Table 112 - Definition of TPMS_CERTIFY_INFO Structure */ TPM_RC TSS_TPMS_CERTIFY_INFO_Unmarshalu(TPMS_CERTIFY_INFO *target, BYTE **buffer, uint32_t *size) { TPM_RC rc = TPM_RC_SUCCESS; if (rc == TPM_RC_SUCCESS) { rc = TSS_TPM2B_NAME_Unmarshalu(&target->name, buffer, size); } if (rc == TPM_RC_SUCCESS) { rc = TSS_TPM2B_NAME_Unmarshalu(&target->qualifiedName, buffer, size); } return rc; } /* Table 113 - Definition of TPMS_QUOTE_INFO Structure */ TPM_RC TSS_TPMS_QUOTE_INFO_Unmarshalu(TPMS_QUOTE_INFO *target, BYTE **buffer, uint32_t *size) { TPM_RC rc = TPM_RC_SUCCESS; if (rc == TPM_RC_SUCCESS) { rc = TSS_TPML_PCR_SELECTION_Unmarshalu(&target->pcrSelect, buffer, size); } if (rc == TPM_RC_SUCCESS) { rc = TSS_TPM2B_DIGEST_Unmarshalu(&target->pcrDigest, buffer, size); } return rc; } /* Table 114 - Definition of TPMS_COMMAND_AUDIT_INFO Structure */ TPM_RC TSS_TPMS_COMMAND_AUDIT_INFO_Unmarshalu(TPMS_COMMAND_AUDIT_INFO *target, BYTE **buffer, uint32_t *size) { TPM_RC rc = TPM_RC_SUCCESS; if (rc == TPM_RC_SUCCESS) { rc = TSS_UINT64_Unmarshalu(&target->auditCounter, buffer, size); } if (rc == TPM_RC_SUCCESS) { rc = TSS_TPM_ALG_ID_Unmarshalu(&target->digestAlg, buffer, size); } if (rc == TPM_RC_SUCCESS) { rc = TSS_TPM2B_DIGEST_Unmarshalu(&target->auditDigest, buffer, size); } if (rc == TPM_RC_SUCCESS) { rc = TSS_TPM2B_DIGEST_Unmarshalu(&target->commandDigest, buffer, size); } return rc; } /* Table 115 - Definition of TPMS_SESSION_AUDIT_INFO Structure */ TPM_RC TSS_TPMS_SESSION_AUDIT_INFO_Unmarshalu(TPMS_SESSION_AUDIT_INFO *target, BYTE **buffer, uint32_t *size) { TPM_RC rc = TPM_RC_SUCCESS; if (rc == TPM_RC_SUCCESS) { rc = TSS_TPMI_YES_NO_Unmarshalu(&target->exclusiveSession, buffer, size); } if (rc == TPM_RC_SUCCESS) { rc = TSS_TPM2B_DIGEST_Unmarshalu(&target->sessionDigest, buffer, size); } return rc; } /* Table 116 - Definition of TPMS_CREATION_INFO Structure */ TPM_RC TSS_TPMS_CREATION_INFO_Unmarshalu(TPMS_CREATION_INFO *target, BYTE **buffer, uint32_t *size) { TPM_RC rc = TPM_RC_SUCCESS; if (rc == TPM_RC_SUCCESS) { rc = TSS_TPM2B_NAME_Unmarshalu(&target->objectName, buffer, size); } if (rc == TPM_RC_SUCCESS) { rc = TSS_TPM2B_DIGEST_Unmarshalu(&target->creationHash, buffer, size); } return rc; } /* Table 117 - Definition of TPMS_NV_CERTIFY_INFO Structure */ TPM_RC TSS_TPMS_NV_CERTIFY_INFO_Unmarshalu(TPMS_NV_CERTIFY_INFO *target, BYTE **buffer, uint32_t *size) { TPM_RC rc = TPM_RC_SUCCESS; if (rc == TPM_RC_SUCCESS) { rc = TSS_TPM2B_NAME_Unmarshalu(&target->indexName, buffer, size); } if (rc == TPM_RC_SUCCESS) { rc = TSS_UINT16_Unmarshalu(&target->offset, buffer, size); } if (rc == TPM_RC_SUCCESS) { rc = TSS_TPM2B_MAX_NV_BUFFER_Unmarshalu(&target->nvContents, buffer, size); } return rc; } /* Table 125 - Definition of TPMS_NV_DIGEST_CERTIFY_INFO Structure */ TPM_RC TSS_TPMS_NV_DIGEST_CERTIFY_INFO_Unmarshalu(TPMS_NV_DIGEST_CERTIFY_INFO *target, BYTE **buffer, uint32_t *size) { TPM_RC rc = TPM_RC_SUCCESS; if (rc == TPM_RC_SUCCESS) { rc = TSS_TPM2B_NAME_Unmarshalu(&target->indexName, buffer, size); } if (rc == TPM_RC_SUCCESS) { rc = TSS_TPM2B_DIGEST_Unmarshalu(&target->nvDigest, buffer, size); } return rc; } /* Table 118 - Definition of (TPM_ST) TPMI_ST_ATTEST Type */ TPM_RC TSS_TPMI_ST_ATTEST_Unmarshalu(TPMI_ST_ATTEST *target, BYTE **buffer, uint32_t *size) { TPM_RC rc = TPM_RC_SUCCESS; if (rc == TPM_RC_SUCCESS) { rc = TSS_TPM_ST_Unmarshalu(target, buffer, size); } return rc; } /* Table 119 - Definition of TPMU_ATTEST Union */ TPM_RC TSS_TPMU_ATTEST_Unmarshalu(TPMU_ATTEST *target, BYTE **buffer, uint32_t *size, uint32_t selector) { TPM_RC rc = TPM_RC_SUCCESS; switch (selector) { case TPM_ST_ATTEST_CERTIFY: rc = TSS_TPMS_CERTIFY_INFO_Unmarshalu(&target->certify, buffer, size); break; case TPM_ST_ATTEST_CREATION: rc = TSS_TPMS_CREATION_INFO_Unmarshalu(&target->creation, buffer, size); break; case TPM_ST_ATTEST_QUOTE: rc = TSS_TPMS_QUOTE_INFO_Unmarshalu(&target->quote, buffer, size); break; case TPM_ST_ATTEST_COMMAND_AUDIT: rc = TSS_TPMS_COMMAND_AUDIT_INFO_Unmarshalu(&target->commandAudit, buffer, size); break; case TPM_ST_ATTEST_SESSION_AUDIT: rc = TSS_TPMS_SESSION_AUDIT_INFO_Unmarshalu(&target->sessionAudit, buffer, size); break; case TPM_ST_ATTEST_TIME: rc = TSS_TPMS_TIME_ATTEST_INFO_Unmarshalu(&target->time, buffer, size); break; case TPM_ST_ATTEST_NV: rc = TSS_TPMS_NV_CERTIFY_INFO_Unmarshalu(&target->nv, buffer, size); break; case TPM_ST_ATTEST_NV_DIGEST: rc = TSS_TPMS_NV_DIGEST_CERTIFY_INFO_Unmarshalu(&target->nvDigest, buffer, size); break; default: rc = TPM_RC_SELECTOR; } return rc; } /* Table 120 - Definition of TPMS_ATTEST Structure */ TPM_RC TSS_TPMS_ATTEST_Unmarshalu(TPMS_ATTEST *target, BYTE **buffer, uint32_t *size) { TPM_RC rc = TPM_RC_SUCCESS; if (rc == TPM_RC_SUCCESS) { rc = TSS_TPM_GENERATED_Unmarshalu(&target->magic, buffer, size); } if (rc == TPM_RC_SUCCESS) { rc = TSS_TPMI_ST_ATTEST_Unmarshalu(&target->type, buffer, size); } if (rc == TPM_RC_SUCCESS) { rc = TSS_TPM2B_NAME_Unmarshalu(&target->qualifiedSigner, buffer, size); } if (rc == TPM_RC_SUCCESS) { rc = TSS_TPM2B_DATA_Unmarshalu(&target->extraData, buffer, size); } if (rc == TPM_RC_SUCCESS) { rc = TSS_TPMS_CLOCK_INFO_Unmarshalu(&target->clockInfo, buffer, size); } if (rc == TPM_RC_SUCCESS) { rc = TSS_UINT64_Unmarshalu(&target->firmwareVersion, buffer, size); } if (rc == TPM_RC_SUCCESS) { rc = TSS_TPMU_ATTEST_Unmarshalu(&target->attested, buffer, size, target->type); } return rc; } #endif /* TPM_TSS_NOCMDCHECK */ /* Table 121 - Definition of TPM2B_ATTEST Structure */ TPM_RC TSS_TPM2B_ATTEST_Unmarshalu(TPM2B_ATTEST *target, BYTE **buffer, uint32_t *size) { TPM_RC rc = TPM_RC_SUCCESS; if (rc == TPM_RC_SUCCESS) { rc = TSS_TPM2B_Unmarshalu(&target->b, sizeof(target->t.attestationData), buffer, size); } return rc; } /* Table 123 - Definition of TPMS_AUTH_RESPONSE Structure */ TPM_RC TSS_TPMS_AUTH_RESPONSE_Unmarshalu(TPMS_AUTH_RESPONSE *target, BYTE **buffer, uint32_t *size) { TPM_RC rc = TPM_RC_SUCCESS; if (rc == TPM_RC_SUCCESS) { rc = TSS_TPM2B_NONCE_Unmarshalu(&target->nonce, buffer, size); } if (rc == TPM_RC_SUCCESS) { rc = TSS_TPMA_SESSION_Unmarshalu(&target->sessionAttributes, buffer, size); } if (rc == TPM_RC_SUCCESS) { rc = TSS_TPM2B_AUTH_Unmarshalu(&target->hmac, buffer, size); } return rc; } /* Table 124 - Definition of {!ALG.S} (TPM_KEY_BITS) TPMI_!ALG.S_KEY_BITS Type */ #ifdef TPM_ALG_AES TPM_RC TSS_TPMI_AES_KEY_BITS_Unmarshalu(TPMI_AES_KEY_BITS *target, BYTE **buffer, uint32_t *size) { TPM_RC rc = TPM_RC_SUCCESS; if (rc == TPM_RC_SUCCESS) { rc = TSS_TPM_KEY_BITS_Unmarshalu(target, buffer, size); } return rc; } #endif /* TPM_ALG_AES */ #ifndef TPM_TSS_NOCMDCHECK #ifdef TPM_ALG_CAMELLIA TPM_RC TSS_TPMI_CAMELLIA_KEY_BITS_Unmarshalu(TPMI_CAMELLIA_KEY_BITS *target, BYTE **buffer, uint32_t *size) { TPM_RC rc = TPM_RC_SUCCESS; if (rc == TPM_RC_SUCCESS) { rc = TSS_TPM_KEY_BITS_Unmarshalu(target, buffer, size); } return rc; } #endif /* TPM_ALG_CAMELLIA */ #ifdef TPM_ALG_SM4 TPM_RC TSS_TPMI_SM4_KEY_BITS_Unmarshalu(TPMI_SM4_KEY_BITS *target, BYTE **buffer, uint32_t *size) { TPM_RC rc = TPM_RC_SUCCESS; if (rc == TPM_RC_SUCCESS) { rc = TSS_TPM_KEY_BITS_Unmarshalu(target, buffer, size); } return rc; } #endif /* TPM_ALG_SM4 */ #endif /* TPM_TSS_NOCMDCHECK */ /* Table 125 - Definition of TPMU_SYM_KEY_BITS Union */ TPM_RC TSS_TPMU_SYM_KEY_BITS_Unmarshalu(TPMU_SYM_KEY_BITS *target, BYTE **buffer, uint32_t *size, uint32_t selector) { TPM_RC rc = TPM_RC_SUCCESS; switch (selector) { #ifdef TPM_ALG_AES case TPM_ALG_AES: rc = TSS_TPMI_AES_KEY_BITS_Unmarshalu(&target->aes, buffer, size); break; #endif #ifdef TPM_ALG_SM4 case TPM_ALG_SM4: rc = TSS_TPMI_SM4_KEY_BITS_Unmarshalu(&target->sm4, buffer, size); break; #endif #ifdef TPM_ALG_CAMELLIA case TPM_ALG_CAMELLIA: rc = TSS_TPMI_CAMELLIA_KEY_BITS_Unmarshalu(&target->camellia, buffer, size); break; #endif #ifdef TPM_ALG_XOR case TPM_ALG_XOR: rc = TSS_TPMI_ALG_HASH_Unmarshalu(&target->xorr, buffer, size, NO); break; #endif case TPM_ALG_NULL: break; default: rc = TPM_RC_SELECTOR; } return rc; } /* Table 126 - Definition of TPMU_SYM_MODE Union */ TPM_RC TSS_TPMU_SYM_MODE_Unmarshalu(TPMU_SYM_MODE *target, BYTE **buffer, uint32_t *size, uint32_t selector) { TPM_RC rc = TPM_RC_SUCCESS; switch (selector) { #ifdef TPM_ALG_AES case TPM_ALG_AES: rc = TSS_TPMI_ALG_SYM_MODE_Unmarshalu(&target->aes, buffer, size, YES); break; #endif #ifdef TPM_ALG_SM4 case TPM_ALG_SM4: rc = TSS_TPMI_ALG_SYM_MODE_Unmarshalu(&target->sm4, buffer, size, YES); break; #endif #ifdef TPM_ALG_CAMELLIA case TPM_ALG_CAMELLIA: rc = TSS_TPMI_ALG_SYM_MODE_Unmarshalu(&target->camellia, buffer, size, YES); break; #endif case TPM_ALG_XOR: case TPM_ALG_NULL: break; default: rc = TPM_RC_SELECTOR; } return rc; } /* Table 128 - Definition of TPMT_SYM_DEF Structure */ TPM_RC TSS_TPMT_SYM_DEF_Unmarshalu(TPMT_SYM_DEF *target, BYTE **buffer, uint32_t *size, BOOL allowNull) { TPM_RC rc = TPM_RC_SUCCESS; if (rc == TPM_RC_SUCCESS) { rc = TSS_TPMI_ALG_SYM_Unmarshalu(&target->algorithm, buffer, size, allowNull); } if (rc == TPM_RC_SUCCESS) { rc = TSS_TPMU_SYM_KEY_BITS_Unmarshalu(&target->keyBits, buffer, size, target->algorithm); } if (rc == TPM_RC_SUCCESS) { rc = TSS_TPMU_SYM_MODE_Unmarshalu(&target->mode, buffer, size, target->algorithm); } return rc; } /* Table 129 - Definition of TPMT_SYM_DEF_OBJECT Structure */ TPM_RC TSS_TPMT_SYM_DEF_OBJECT_Unmarshalu(TPMT_SYM_DEF_OBJECT *target, BYTE **buffer, uint32_t *size, BOOL allowNull) { TPM_RC rc = TPM_RC_SUCCESS; if (rc == TPM_RC_SUCCESS) { rc = TSS_TPMI_ALG_SYM_OBJECT_Unmarshalu(&target->algorithm, buffer, size, allowNull); } if (rc == TPM_RC_SUCCESS) { rc = TSS_TPMU_SYM_KEY_BITS_Unmarshalu(&target->keyBits, buffer, size, target->algorithm); } if (rc == TPM_RC_SUCCESS) { rc = TSS_TPMU_SYM_MODE_Unmarshalu(&target->mode, buffer, size, target->algorithm); } return rc; } #ifndef TPM_TSS_NOCMDCHECK /* Table 130 - Definition of TPM2B_SYM_KEY Structure */ TPM_RC TSS_TPM2B_SYM_KEY_Unmarshalu(TPM2B_SYM_KEY *target, BYTE **buffer, uint32_t *size) { TPM_RC rc = TPM_RC_SUCCESS; if (rc == TPM_RC_SUCCESS) { rc = TSS_TPM2B_Unmarshalu(&target->b, sizeof(target->t.buffer), buffer, size); } return rc; } #endif /* TPM_TSS_NOCMDCHECK */ /* Table 131 - Definition of TPMS_SYMCIPHER_PARMS Structure */ TPM_RC TSS_TPMS_SYMCIPHER_PARMS_Unmarshalu(TPMS_SYMCIPHER_PARMS *target, BYTE **buffer, uint32_t *size) { TPM_RC rc = TPM_RC_SUCCESS; if (rc == TPM_RC_SUCCESS) { rc = TSS_TPMT_SYM_DEF_OBJECT_Unmarshalu(&target->sym, buffer, size, NO); } return rc; } /* Table 132 - Definition of TPM2B_SENSITIVE_DATA Structure */ TPM_RC TSS_TPM2B_SENSITIVE_DATA_Unmarshalu(TPM2B_SENSITIVE_DATA *target, BYTE **buffer, uint32_t *size) { TPM_RC rc = TPM_RC_SUCCESS; if (rc == TPM_RC_SUCCESS) { rc = TSS_TPM2B_Unmarshalu(&target->b, sizeof(target->t.buffer), buffer, size); } return rc; } #ifndef TPM_TSS_NOCMDCHECK /* Table 133 - Definition of TPMS_SENSITIVE_CREATE Structure */ TPM_RC TSS_TPMS_SENSITIVE_CREATE_Unmarshalu(TPMS_SENSITIVE_CREATE *target, BYTE **buffer, uint32_t *size) { TPM_RC rc = TPM_RC_SUCCESS; if (rc == TPM_RC_SUCCESS) { rc = TSS_TPM2B_AUTH_Unmarshalu(&target->userAuth, buffer, size); } if (rc == TPM_RC_SUCCESS) { rc = TSS_TPM2B_SENSITIVE_DATA_Unmarshalu(&target->data, buffer, size); } return rc; } /* Table 134 - Definition of TPM2B_SENSITIVE_CREATE Structure */ TPM_RC TSS_TPM2B_SENSITIVE_CREATE_Unmarshalu(TPM2B_SENSITIVE_CREATE *target, BYTE **buffer, uint32_t *size) { TPM_RC rc = TPM_RC_SUCCESS; uint32_t startSize = 0; if (rc == TPM_RC_SUCCESS) { rc = TSS_UINT16_Unmarshalu(&target->size, buffer, size); } if (rc == TPM_RC_SUCCESS) { if (target->size == 0) { rc = TPM_RC_SIZE; } } if (rc == TPM_RC_SUCCESS) { startSize = *size; } if (rc == TPM_RC_SUCCESS) { rc = TSS_TPMS_SENSITIVE_CREATE_Unmarshalu(&target->sensitive, buffer, size); } if (rc == TPM_RC_SUCCESS) { if (target->size != startSize - *size) { rc = TPM_RC_SIZE; } } return rc; } #endif /* TPM_TSS_NOCMDCHECK */ /* Table 135 - Definition of TPMS_SCHEME_HASH Structure */ TPM_RC TSS_TPMS_SCHEME_HASH_Unmarshalu(TPMS_SCHEME_HASH *target, BYTE **buffer, uint32_t *size) { TPM_RC rc = TPM_RC_SUCCESS; if (rc == TPM_RC_SUCCESS) { rc = TSS_TPMI_ALG_HASH_Unmarshalu(&target->hashAlg, buffer, size, NO); } return rc; } /* Table 136 - Definition of {ECC} TPMS_SCHEME_ECDAA Structure */ TPM_RC TSS_TPMS_SCHEME_ECDAA_Unmarshalu(TPMS_SCHEME_ECDAA *target, BYTE **buffer, uint32_t *size) { TPM_RC rc = TPM_RC_SUCCESS; if (rc == TPM_RC_SUCCESS) { rc = TSS_TPMI_ALG_HASH_Unmarshalu(&target->hashAlg, buffer, size, NO); } if (rc == TPM_RC_SUCCESS) { rc = TSS_UINT16_Unmarshalu(&target->count, buffer, size); } return rc; } /* Table 137 - Definition of (TPM_ALG_ID) TPMI_ALG_KEYEDHASH_SCHEME Type */ TPM_RC TSS_TPMI_ALG_KEYEDHASH_SCHEME_Unmarshalu(TPMI_ALG_KEYEDHASH_SCHEME *target, BYTE **buffer, uint32_t *size, BOOL allowNull) { TPM_RC rc = TPM_RC_SUCCESS; allowNull = allowNull; if (rc == TPM_RC_SUCCESS) { rc = TSS_TPM_ALG_ID_Unmarshalu(target, buffer, size); } return rc; } /* Table 138 - Definition of Types for HMAC_SIG_SCHEME */ TPM_RC TSS_TPMS_SCHEME_HMAC_Unmarshalu(TPMS_SCHEME_HMAC *target, BYTE **buffer, uint32_t *size) { TPM_RC rc = TPM_RC_SUCCESS; if (rc == TPM_RC_SUCCESS) { rc = TSS_TPMS_SCHEME_HASH_Unmarshalu(target, buffer, size); } return rc; } /* Table 139 - Definition of TPMS_SCHEME_XOR Structure */ TPM_RC TSS_TPMS_SCHEME_XOR_Unmarshalu(TPMS_SCHEME_XOR *target, BYTE **buffer, uint32_t *size) { TPM_RC rc = TPM_RC_SUCCESS; if (rc == TPM_RC_SUCCESS) { rc = TSS_TPMI_ALG_HASH_Unmarshalu(&target->hashAlg, buffer, size, NO); /* as of rev 147 */ } if (rc == TPM_RC_SUCCESS) { rc = TSS_TPMI_ALG_KDF_Unmarshalu(&target->kdf, buffer, size, YES); } return rc; } /* Table 140 - Definition of TPMU_SCHEME_KEYEDHASH Union */ TPM_RC TSS_TPMU_SCHEME_KEYEDHASH_Unmarshalu(TPMU_SCHEME_KEYEDHASH *target, BYTE **buffer, uint32_t *size, uint32_t selector) { TPM_RC rc = TPM_RC_SUCCESS; switch (selector) { #ifdef TPM_ALG_HMAC case TPM_ALG_HMAC: rc = TSS_TPMS_SCHEME_HMAC_Unmarshalu(&target->hmac, buffer, size); break; #endif #ifdef TPM_ALG_XOR case TPM_ALG_XOR: rc = TSS_TPMS_SCHEME_XOR_Unmarshalu(&target->xorr, buffer, size); break; #endif case TPM_ALG_NULL: break; default: rc = TPM_RC_SELECTOR; } return rc; } /* Table 141 - Definition of TPMT_KEYEDHASH_SCHEME Structure */ TPM_RC TSS_TPMT_KEYEDHASH_SCHEME_Unmarshalu(TPMT_KEYEDHASH_SCHEME *target, BYTE **buffer, uint32_t *size, BOOL allowNull) { TPM_RC rc = TPM_RC_SUCCESS; if (rc == TPM_RC_SUCCESS) { rc = TSS_TPMI_ALG_KEYEDHASH_SCHEME_Unmarshalu(&target->scheme, buffer, size, allowNull); } if (rc == TPM_RC_SUCCESS) { rc = TSS_TPMU_SCHEME_KEYEDHASH_Unmarshalu(&target->details, buffer, size, target->scheme); } return rc; } /* Table 142 - Definition of {RSA} Types for RSA Signature Schemes */ TPM_RC TSS_TPMS_SIG_SCHEME_RSAPSS_Unmarshalu(TPMS_SIG_SCHEME_RSAPSS *target, BYTE **buffer, uint32_t *size) { TPM_RC rc = TPM_RC_SUCCESS; if (rc == TPM_RC_SUCCESS) { rc = TSS_TPMS_SCHEME_HASH_Unmarshalu(target, buffer, size); } return rc; } /* Table 142 - Definition of {RSA} Types for RSA Signature Schemes */ TPM_RC TSS_TPMS_SIG_SCHEME_RSASSA_Unmarshalu(TPMS_SIG_SCHEME_RSASSA *target, BYTE **buffer, uint32_t *size) { TPM_RC rc = TPM_RC_SUCCESS; if (rc == TPM_RC_SUCCESS) { rc = TSS_TPMS_SCHEME_HASH_Unmarshalu(target, buffer, size); } return rc; } /* Table 143 - Definition of {ECC} Types for ECC Signature Schemes */ TPM_RC TSS_TPMS_SIG_SCHEME_ECDAA_Unmarshalu(TPMS_SIG_SCHEME_ECDAA *target, BYTE **buffer, uint32_t *size) { TPM_RC rc = TPM_RC_SUCCESS; if (rc == TPM_RC_SUCCESS) { rc = TSS_TPMS_SCHEME_ECDAA_Unmarshalu(target, buffer, size); } return rc; } /* Table 143 - Definition of {ECC} Types for ECC Signature Schemes */ TPM_RC TSS_TPMS_SIG_SCHEME_ECDSA_Unmarshalu(TPMS_SIG_SCHEME_ECDSA *target, BYTE **buffer, uint32_t *size) { TPM_RC rc = TPM_RC_SUCCESS; if (rc == TPM_RC_SUCCESS) { rc = TSS_TPMS_SCHEME_HASH_Unmarshalu(target, buffer, size); } return rc; } /* Table 143 - Definition of {ECC} Types for ECC Signature Schemes */ TPM_RC TSS_TPMS_SIG_SCHEME_ECSCHNORR_Unmarshalu(TPMS_SIG_SCHEME_ECSCHNORR *target, BYTE **buffer, uint32_t *size) { TPM_RC rc = TPM_RC_SUCCESS; if (rc == TPM_RC_SUCCESS) { rc = TSS_TPMS_SCHEME_HASH_Unmarshalu(target, buffer, size); } return rc; } /* Table 143 - Definition of {ECC} Types for ECC Signature Schemes */ TPM_RC TSS_TPMS_SIG_SCHEME_SM2_Unmarshalu(TPMS_SIG_SCHEME_SM2 *target, BYTE **buffer, uint32_t *size) { TPM_RC rc = TPM_RC_SUCCESS; if (rc == TPM_RC_SUCCESS) { rc = TSS_TPMS_SCHEME_HASH_Unmarshalu(target, buffer, size); } return rc; } #ifndef TPM_TSS_NOCMDCHECK /* Table 144 - Definition of TPMU_SIG_SCHEME Union */ TPM_RC TSS_TPMU_SIG_SCHEME_Unmarshalu(TPMU_SIG_SCHEME *target, BYTE **buffer, uint32_t *size, uint32_t selector) { TPM_RC rc = TPM_RC_SUCCESS; switch (selector) { #ifdef TPM_ALG_RSASSA case TPM_ALG_RSASSA: rc = TSS_TPMS_SIG_SCHEME_RSASSA_Unmarshalu(&target->rsassa, buffer, size); break; #endif #ifdef TPM_ALG_RSAPSS case TPM_ALG_RSAPSS: rc = TSS_TPMS_SIG_SCHEME_RSAPSS_Unmarshalu(&target->rsapss, buffer, size); break; #endif #ifdef TPM_ALG_ECDSA case TPM_ALG_ECDSA: rc = TSS_TPMS_SIG_SCHEME_ECDSA_Unmarshalu(&target->ecdsa, buffer, size); break; #endif #ifdef TPM_ALG_ECDAA case TPM_ALG_ECDAA: rc = TSS_TPMS_SIG_SCHEME_ECDAA_Unmarshalu(&target->ecdaa, buffer, size); break; #endif #ifdef TPM_ALG_SM2 case TPM_ALG_SM2: rc = TSS_TPMS_SIG_SCHEME_SM2_Unmarshalu(&target->sm2, buffer, size); break; #endif #ifdef TPM_ALG_ECSCHNORR case TPM_ALG_ECSCHNORR: rc = TSS_TPMS_SIG_SCHEME_ECSCHNORR_Unmarshalu(&target->ecSchnorr, buffer, size); break; #endif #ifdef TPM_ALG_HMAC case TPM_ALG_HMAC: rc = TSS_TPMS_SCHEME_HMAC_Unmarshalu(&target->hmac, buffer, size); break; #endif case TPM_ALG_NULL: break; default: rc = TPM_RC_SELECTOR; } return rc; } /* Table 145 - Definition of TPMT_SIG_SCHEME Structure */ TPM_RC TSS_TPMT_SIG_SCHEME_Unmarshalu(TPMT_SIG_SCHEME *target, BYTE **buffer, uint32_t *size, BOOL allowNull) { TPM_RC rc = TPM_RC_SUCCESS; if (rc == TPM_RC_SUCCESS) { rc = TSS_TPMI_ALG_SIG_SCHEME_Unmarshalu(&target->scheme, buffer, size, allowNull); } if (rc == TPM_RC_SUCCESS) { rc = TSS_TPMU_SIG_SCHEME_Unmarshalu(&target->details, buffer, size, target->scheme); } return rc; } #endif /* TPM_TSS_NOCMDCHECK */ /* Table 146 - Definition of Types for {RSA} Encryption Schemes */ TPM_RC TSS_TPMS_ENC_SCHEME_OAEP_Unmarshalu(TPMS_ENC_SCHEME_OAEP *target, BYTE **buffer, uint32_t *size) { TPM_RC rc = TPM_RC_SUCCESS; if (rc == TPM_RC_SUCCESS) { rc = TSS_TPMS_SCHEME_HASH_Unmarshalu(target, buffer, size); } return rc; } /* Table 146 - Definition of Types for {RSA} Encryption Schemes */ /* NOTE: Marked as const function in header */ TPM_RC TSS_TPMS_ENC_SCHEME_RSAES_Unmarshalu(TPMS_ENC_SCHEME_RSAES *target, BYTE **buffer, uint32_t *size) { TPM_RC rc = TPM_RC_SUCCESS; if (rc == TPM_RC_SUCCESS) { rc = TSS_TPMS_EMPTY_Unmarshalu(target, buffer, size); } return rc; } /* Table 147 - Definition of Types for {ECC} ECC Key Exchange */ TPM_RC TSS_TPMS_KEY_SCHEME_ECDH_Unmarshalu(TPMS_KEY_SCHEME_ECDH *target, BYTE **buffer, uint32_t *size) { TPM_RC rc = TPM_RC_SUCCESS; if (rc == TPM_RC_SUCCESS) { rc = TSS_TPMS_SCHEME_HASH_Unmarshalu(target, buffer, size); } return rc; } #ifndef TPM_TSS_NOCMDCHECK /* Table 147 - Definition of Types for {ECC} ECC Key Exchange */ TPM_RC TSS_TPMS_KEY_SCHEME_ECMQV_Unmarshalu(TPMS_KEY_SCHEME_ECMQV *target, BYTE **buffer, uint32_t *size) { TPM_RC rc = TPM_RC_SUCCESS; if (rc == TPM_RC_SUCCESS) { rc = TSS_TPMS_SCHEME_HASH_Unmarshalu(target, buffer, size); } return rc; } #endif /* TPM_TSS_NOCMDCHECK */ /* Table 148 - Definition of Types for KDF Schemes, hash-based key- or mask-generation functions */ TPM_RC TSS_TPMS_SCHEME_KDF1_SP800_108_Unmarshalu(TPMS_SCHEME_KDF1_SP800_108 *target, BYTE **buffer, uint32_t *size) { TPM_RC rc = TPM_RC_SUCCESS; if (rc == TPM_RC_SUCCESS) { rc = TSS_TPMS_SCHEME_HASH_Unmarshalu(target, buffer, size); } return rc; } /* Table 148 - Definition of Types for KDF Schemes, hash-based key- or mask-generation functions */ TPM_RC TSS_TPMS_SCHEME_KDF1_SP800_56A_Unmarshalu(TPMS_SCHEME_KDF1_SP800_56A *target, BYTE **buffer, uint32_t *size) { TPM_RC rc = TPM_RC_SUCCESS; if (rc == TPM_RC_SUCCESS) { rc = TSS_TPMS_SCHEME_HASH_Unmarshalu(target, buffer, size); } return rc; } #ifndef TPM_TSS_NOCMDCHECK /* Table 148 - Definition of Types for KDF Schemes, hash-based key- or mask-generation functions */ TPM_RC TSS_TPMS_SCHEME_KDF2_Unmarshalu(TPMS_SCHEME_KDF2 *target, BYTE **buffer, uint32_t *size) { TPM_RC rc = TPM_RC_SUCCESS; if (rc == TPM_RC_SUCCESS) { rc = TSS_TPMS_SCHEME_HASH_Unmarshalu(target, buffer, size); } return rc; } #endif /* TPM_TSS_NOCMDCHECK */ /* Table 148 - Definition of Types for KDF Schemes, hash-based key- or mask-generation functions */ TPM_RC TSS_TPMS_SCHEME_MGF1_Unmarshalu(TPMS_SCHEME_MGF1 *target, BYTE **buffer, uint32_t *size) { TPM_RC rc = TPM_RC_SUCCESS; if (rc == TPM_RC_SUCCESS) { rc = TSS_TPMS_SCHEME_HASH_Unmarshalu(target, buffer, size); } return rc; } /* Table 149 - Definition of TPMU_KDF_SCHEME Union */ TPM_RC TSS_TPMU_KDF_SCHEME_Unmarshalu(TPMU_KDF_SCHEME *target, BYTE **buffer, uint32_t *size, uint32_t selector) { TPM_RC rc = TPM_RC_SUCCESS; switch (selector) { #ifdef TPM_ALG_MGF1 case TPM_ALG_MGF1: rc = TSS_TPMS_SCHEME_MGF1_Unmarshalu(&target->mgf1, buffer, size); break; #endif #ifdef TPM_ALG_KDF1_SP800_56A case TPM_ALG_KDF1_SP800_56A: rc = TSS_TPMS_SCHEME_KDF1_SP800_56A_Unmarshalu(&target->kdf1_SP800_56a, buffer, size); break; #endif #ifdef TPM_ALG_KDF2 case TPM_ALG_KDF2: rc = TSS_TPMS_SCHEME_KDF2_Unmarshalu(&target->kdf2, buffer, size); break; #endif #ifdef TPM_ALG_KDF1_SP800_108 case TPM_ALG_KDF1_SP800_108: rc = TSS_TPMS_SCHEME_KDF1_SP800_108_Unmarshalu(&target->kdf1_sp800_108, buffer, size); break; #endif case TPM_ALG_NULL: break; default: rc = TPM_RC_SELECTOR; } return rc; } /* Table 150 - Definition of TPMT_KDF_SCHEME Structure */ TPM_RC TSS_TPMT_KDF_SCHEME_Unmarshalu(TPMT_KDF_SCHEME *target, BYTE **buffer, uint32_t *size, BOOL allowNull) { TPM_RC rc = TPM_RC_SUCCESS; if (rc == TPM_RC_SUCCESS) { rc = TSS_TPMI_ALG_KDF_Unmarshalu(&target->scheme, buffer, size, allowNull); } if (rc == TPM_RC_SUCCESS) { rc = TSS_TPMU_KDF_SCHEME_Unmarshalu(&target->details, buffer, size, target->scheme); } return rc; } /* Table 151 - Definition of (TPM_ALG_ID) TPMI_ALG_ASYM_SCHEME Type <> */ #if 0 TPM_RC TSS_TPMI_ALG_ASYM_SCHEME_Unmarshalu(TPMI_ALG_ASYM_SCHEME *target, BYTE **buffer, uint32_t *size, BOOL allowNull) { TPM_RC rc = TPM_RC_SUCCESS; if (rc == TPM_RC_SUCCESS) { rc = TSS_TPM_ALG_ID_Unmarshalu(target, buffer, size); } return rc; } #endif /* 0 */ /* Table 152 - Definition of TPMU_ASYM_SCHEME Union */ TPM_RC TSS_TPMU_ASYM_SCHEME_Unmarshalu(TPMU_ASYM_SCHEME *target, BYTE **buffer, uint32_t *size, uint32_t selector) { TPM_RC rc = TPM_RC_SUCCESS; switch (selector) { #ifdef TPM_ALG_ECDH case TPM_ALG_ECDH: rc = TSS_TPMS_KEY_SCHEME_ECDH_Unmarshalu(&target->ecdh, buffer, size); break; #endif #ifdef TPM_ALG_ECMQV case TPM_ALG_ECMQV: rc = TSS_TPMS_KEY_SCHEME_ECMQV_Unmarshalu(&target->ecmqvh, buffer, size); break; #endif #ifdef TPM_ALG_RSASSA case TPM_ALG_RSASSA: rc = TSS_TPMS_SIG_SCHEME_RSASSA_Unmarshalu(&target->rsassa, buffer, size); break; #endif #ifdef TPM_ALG_RSAPSS case TPM_ALG_RSAPSS: rc = TSS_TPMS_SIG_SCHEME_RSAPSS_Unmarshalu(&target->rsapss, buffer, size); break; #endif #ifdef TPM_ALG_ECDSA case TPM_ALG_ECDSA: rc = TSS_TPMS_SIG_SCHEME_ECDSA_Unmarshalu(&target->ecdsa, buffer, size); break; #endif #ifdef TPM_ALG_ECDAA case TPM_ALG_ECDAA: rc = TSS_TPMS_SIG_SCHEME_ECDAA_Unmarshalu(&target->ecdaa, buffer, size); break; #endif #ifdef TPM_ALG_SM2 case TPM_ALG_SM2: rc = TSS_TPMS_SIG_SCHEME_SM2_Unmarshalu(&target->sm2, buffer, size); break; #endif #ifdef TPM_ALG_ECSCHNORR case TPM_ALG_ECSCHNORR: rc = TSS_TPMS_SIG_SCHEME_ECSCHNORR_Unmarshalu(&target->ecSchnorr, buffer, size); break; #endif #ifdef TPM_ALG_RSAES case TPM_ALG_RSAES: rc = TSS_TPMS_ENC_SCHEME_RSAES_Unmarshalu(&target->rsaes, buffer, size); break; #endif #ifdef TPM_ALG_OAEP case TPM_ALG_OAEP: rc = TSS_TPMS_ENC_SCHEME_OAEP_Unmarshalu(&target->oaep, buffer, size); break; #endif case TPM_ALG_NULL: break; default: rc = TPM_RC_SELECTOR; } return rc; } /* Table 153 - Definition of TPMT_ASYM_SCHEME Structure <> */ #if 0 TPM_RC TSS_TPMT_ASYM_SCHEME_Unmarshalu(TPMT_ASYM_SCHEME *target, BYTE **buffer, uint32_t *size, BOOL allowNull) { TPM_RC rc = TPM_RC_SUCCESS; if (rc == TPM_RC_SUCCESS) { rc = TSS_TPMI_ALG_ASYM_SCHEME_Unmarshalu(&target->scheme, buffer, size, allowNull); } if (rc == TPM_RC_SUCCESS) { rc = TSS_TPMU_ASYM_SCHEME_Unmarshalu(&target->details, buffer, size, target->scheme); } return rc; } #endif /* 0 */ /* Table 154 - Definition of (TPM_ALG_ID) {RSA} TPMI_ALG_RSA_SCHEME Type */ TPM_RC TSS_TPMI_ALG_RSA_SCHEME_Unmarshalu(TPMI_ALG_RSA_SCHEME *target, BYTE **buffer, uint32_t *size, BOOL allowNull) { TPM_RC rc = TPM_RC_SUCCESS; allowNull = allowNull; if (rc == TPM_RC_SUCCESS) { rc = TSS_TPM_ALG_ID_Unmarshalu(target, buffer, size); } return rc; } /* Table 155 - Definition of {RSA} TPMT_RSA_SCHEME Structure */ TPM_RC TSS_TPMT_RSA_SCHEME_Unmarshalu(TPMT_RSA_SCHEME *target, BYTE **buffer, uint32_t *size, BOOL allowNull) { TPM_RC rc = TPM_RC_SUCCESS; if (rc == TPM_RC_SUCCESS) { rc = TSS_TPMI_ALG_RSA_SCHEME_Unmarshalu(&target->scheme, buffer, size, allowNull); } if (rc == TPM_RC_SUCCESS) { rc = TSS_TPMU_ASYM_SCHEME_Unmarshalu(&target->details, buffer, size, target->scheme); } return rc; } #ifndef TPM_TSS_NOCMDCHECK /* Table 156 - Definition of (TPM_ALG_ID) {RSA} TPMI_ALG_RSA_DECRYPT Type */ TPM_RC TSS_TPMI_ALG_RSA_DECRYPT_Unmarshalu(TPMI_ALG_RSA_DECRYPT *target, BYTE **buffer, uint32_t *size, BOOL allowNull) { TPM_RC rc = TPM_RC_SUCCESS; allowNull = allowNull; if (rc == TPM_RC_SUCCESS) { rc = TSS_TPM_ALG_ID_Unmarshalu(target, buffer, size); } return rc; } /* Table 157 - Definition of {RSA} TPMT_RSA_DECRYPT Structure */ TPM_RC TSS_TPMT_RSA_DECRYPT_Unmarshalu(TPMT_RSA_DECRYPT *target, BYTE **buffer, uint32_t *size, BOOL allowNull) { TPM_RC rc = TPM_RC_SUCCESS; if (rc == TPM_RC_SUCCESS) { rc = TSS_TPMI_ALG_RSA_DECRYPT_Unmarshalu(&target->scheme, buffer, size, allowNull); } if (rc == TPM_RC_SUCCESS) { rc = TSS_TPMU_ASYM_SCHEME_Unmarshalu(&target->details, buffer, size, target->scheme); } return rc; } #endif /* TPM_TSS_NOCMDCHECK */ /* Table 158 - Definition of {RSA} TPM2B_PUBLIC_KEY_RSA Structure */ TPM_RC TSS_TPM2B_PUBLIC_KEY_RSA_Unmarshalu(TPM2B_PUBLIC_KEY_RSA *target, BYTE **buffer, uint32_t *size) { TPM_RC rc = TPM_RC_SUCCESS; if (rc == TPM_RC_SUCCESS) { rc = TSS_TPM2B_Unmarshalu(&target->b, sizeof(target->t.buffer), buffer, size); } return rc; } /* Table 159 - Definition of {RSA} (TPM_KEY_BITS) TPMI_RSA_KEY_BITS Type */ TPM_RC TSS_TPMI_RSA_KEY_BITS_Unmarshalu(TPMI_RSA_KEY_BITS *target, BYTE **buffer, uint32_t *size) { TPM_RC rc = TPM_RC_SUCCESS; if (rc == TPM_RC_SUCCESS) { rc = TSS_TPM_KEY_BITS_Unmarshalu(target, buffer, size); } return rc; } #ifndef TPM_TSS_NOCMDCHECK /* Table 160 - Definition of {RSA} TPM2B_PRIVATE_KEY_RSA Structure */ TPM_RC TSS_TPM2B_PRIVATE_KEY_RSA_Unmarshalu(TPM2B_PRIVATE_KEY_RSA *target, BYTE **buffer, uint32_t *size) { TPM_RC rc = TPM_RC_SUCCESS; if (rc == TPM_RC_SUCCESS) { rc = TSS_TPM2B_Unmarshalu(&target->b, sizeof(target->t.buffer), buffer, size); } return rc; } #endif /* TPM_TSS_NOCMDCHECK */ /* Table 161 - Definition of {ECC} TPM2B_ECC_PARAMETER Structure */ TPM_RC TSS_TPM2B_ECC_PARAMETER_Unmarshalu(TPM2B_ECC_PARAMETER *target, BYTE **buffer, uint32_t *size) { TPM_RC rc = TPM_RC_SUCCESS; if (rc == TPM_RC_SUCCESS) { rc = TSS_TPM2B_Unmarshalu(&target->b, sizeof(target->t.buffer), buffer, size); } return rc; } /* Table 162 - Definition of {ECC} TPMS_ECC_POINT Structure */ TPM_RC TSS_TPMS_ECC_POINT_Unmarshalu(TPMS_ECC_POINT *target, BYTE **buffer, uint32_t *size) { TPM_RC rc = TPM_RC_SUCCESS; if (rc == TPM_RC_SUCCESS) { rc = TSS_TPM2B_ECC_PARAMETER_Unmarshalu(&target->x, buffer, size); } if (rc == TPM_RC_SUCCESS) { rc = TSS_TPM2B_ECC_PARAMETER_Unmarshalu(&target->y, buffer, size); } return rc; } /* Table 163 - Definition of {ECC} TPM2B_ECC_POINT Structure */ TPM_RC TSS_TPM2B_ECC_POINT_Unmarshalu(TPM2B_ECC_POINT *target, BYTE **buffer, uint32_t *size) { TPM_RC rc = TPM_RC_SUCCESS; uint32_t startSize = 0; if (rc == TPM_RC_SUCCESS) { rc = TSS_UINT16_Unmarshalu(&target->size, buffer, size); } if (rc == TPM_RC_SUCCESS) { if (target->size == 0) { rc = TPM_RC_SIZE; } } if (rc == TPM_RC_SUCCESS) { startSize = *size; } if (rc == TPM_RC_SUCCESS) { rc = TSS_TPMS_ECC_POINT_Unmarshalu(&target->point, buffer, size); } if (rc == TPM_RC_SUCCESS) { if (target->size != startSize - *size) { rc = TPM_RC_SIZE; } } return rc; } /* Table 164 - Definition of (TPM_ALG_ID) {ECC} TPMI_ALG_ECC_SCHEME Type */ TPM_RC TSS_TPMI_ALG_ECC_SCHEME_Unmarshalu(TPMI_ALG_ECC_SCHEME *target, BYTE **buffer, uint32_t *size, BOOL allowNull) { TPM_RC rc = TPM_RC_SUCCESS; allowNull = allowNull; if (rc == TPM_RC_SUCCESS) { rc = TSS_TPM_ALG_ID_Unmarshalu(target, buffer, size); } return rc; } /* Table 165 - Definition of {ECC} (TPM_ECC_CURVE) TPMI_ECC_CURVE Type */ TPM_RC TSS_TPMI_ECC_CURVE_Unmarshalu(TPMI_ECC_CURVE *target, BYTE **buffer, uint32_t *size) { TPM_RC rc = TPM_RC_SUCCESS; if (rc == TPM_RC_SUCCESS) { rc = TSS_TPM_ECC_CURVE_Unmarshalu(target, buffer, size); } return rc; } /* Table 166 - Definition of (TPMT_SIG_SCHEME) {ECC} TPMT_ECC_SCHEME Structure */ TPM_RC TSS_TPMT_ECC_SCHEME_Unmarshalu(TPMT_ECC_SCHEME *target, BYTE **buffer, uint32_t *size, BOOL allowNull) { TPM_RC rc = TPM_RC_SUCCESS; if (rc == TPM_RC_SUCCESS) { rc = TSS_TPMI_ALG_ECC_SCHEME_Unmarshalu(&target->scheme, buffer, size, allowNull); } if (rc == TPM_RC_SUCCESS) { rc = TSS_TPMU_ASYM_SCHEME_Unmarshalu(&target->details, buffer, size, target->scheme); } return rc; } /* Table 167 - Definition of {ECC} TPMS_ALGORITHM_DETAIL_ECC Structure */ TPM_RC TSS_TPMS_ALGORITHM_DETAIL_ECC_Unmarshalu(TPMS_ALGORITHM_DETAIL_ECC *target, BYTE **buffer, uint32_t *size) { TPM_RC rc = TPM_RC_SUCCESS; if (rc == TPM_RC_SUCCESS) { rc = TSS_TPM_ECC_CURVE_Unmarshalu(&target->curveID, buffer, size); } if (rc == TPM_RC_SUCCESS) { rc = TSS_UINT16_Unmarshalu(&target->keySize, buffer, size); } if (rc == TPM_RC_SUCCESS) { rc = TSS_TPMT_KDF_SCHEME_Unmarshalu(&target->kdf, buffer, size, YES); } if (rc == TPM_RC_SUCCESS) { rc = TSS_TPMT_ECC_SCHEME_Unmarshalu(&target->sign, buffer, size, YES); } if (rc == TPM_RC_SUCCESS) { rc = TSS_TPM2B_ECC_PARAMETER_Unmarshalu(&target->p, buffer, size); } if (rc == TPM_RC_SUCCESS) { rc = TSS_TPM2B_ECC_PARAMETER_Unmarshalu(&target->a, buffer, size); } if (rc == TPM_RC_SUCCESS) { rc = TSS_TPM2B_ECC_PARAMETER_Unmarshalu(&target->b, buffer, size); } if (rc == TPM_RC_SUCCESS) { rc = TSS_TPM2B_ECC_PARAMETER_Unmarshalu(&target->gX, buffer, size); } if (rc == TPM_RC_SUCCESS) { rc = TSS_TPM2B_ECC_PARAMETER_Unmarshalu(&target->gY, buffer, size); } if (rc == TPM_RC_SUCCESS) { rc = TSS_TPM2B_ECC_PARAMETER_Unmarshalu(&target->n, buffer, size); } if (rc == TPM_RC_SUCCESS) { rc = TSS_TPM2B_ECC_PARAMETER_Unmarshalu(&target->h, buffer, size); } return rc; } /* Table 168 - Definition of {RSA} TPMS_SIGNATURE_RSA Structure */ TPM_RC TSS_TPMS_SIGNATURE_RSA_Unmarshalu(TPMS_SIGNATURE_RSA *target, BYTE **buffer, uint32_t *size) { TPM_RC rc = TPM_RC_SUCCESS; if (rc == TPM_RC_SUCCESS) { rc = TSS_TPMI_ALG_HASH_Unmarshalu(&target->hash, buffer, size, NO); } if (rc == TPM_RC_SUCCESS) { rc = TSS_TPM2B_PUBLIC_KEY_RSA_Unmarshalu(&target->sig, buffer, size); } return rc; } /* Table 169 - Definition of Types for {RSA} Signature */ TPM_RC TSS_TPMS_SIGNATURE_RSASSA_Unmarshalu(TPMS_SIGNATURE_RSASSA *target, BYTE **buffer, uint32_t *size) { TPM_RC rc = TPM_RC_SUCCESS; if (rc == TPM_RC_SUCCESS) { rc = TSS_TPMS_SIGNATURE_RSA_Unmarshalu(target, buffer, size); } return rc; } /* Table 169 - Definition of Types for {RSA} Signature */ TPM_RC TSS_TPMS_SIGNATURE_RSAPSS_Unmarshalu(TPMS_SIGNATURE_RSAPSS *target, BYTE **buffer, uint32_t *size) { TPM_RC rc = TPM_RC_SUCCESS; if (rc == TPM_RC_SUCCESS) { rc = TSS_TPMS_SIGNATURE_RSA_Unmarshalu(target, buffer, size); } return rc; } /* Table 170 - Definition of {ECC} TPMS_SIGNATURE_ECC Structure */ TPM_RC TSS_TPMS_SIGNATURE_ECC_Unmarshalu(TPMS_SIGNATURE_ECC *target, BYTE **buffer, uint32_t *size) { TPM_RC rc = TPM_RC_SUCCESS; if (rc == TPM_RC_SUCCESS) { rc = TSS_TPMI_ALG_HASH_Unmarshalu(&target->hash, buffer, size, NO); } if (rc == TPM_RC_SUCCESS) { rc = TSS_TPM2B_ECC_PARAMETER_Unmarshalu(&target->signatureR, buffer, size); } if (rc == TPM_RC_SUCCESS) { rc = TSS_TPM2B_ECC_PARAMETER_Unmarshalu(&target->signatureS, buffer, size); } return rc; } /* Table 171 - Definition of Types for {ECC} TPMS_SIGNATURE_ECC */ TPM_RC TSS_TPMS_SIGNATURE_ECDSA_Unmarshalu(TPMS_SIGNATURE_ECDSA *target, BYTE **buffer, uint32_t *size) { TPM_RC rc = TPM_RC_SUCCESS; if (rc == TPM_RC_SUCCESS) { rc = TSS_TPMS_SIGNATURE_ECC_Unmarshalu(target, buffer, size); } return rc; } TPM_RC TSS_TPMS_SIGNATURE_ECDAA_Unmarshalu(TPMS_SIGNATURE_ECDAA *target, BYTE **buffer, uint32_t *size) { TPM_RC rc = TPM_RC_SUCCESS; if (rc == TPM_RC_SUCCESS) { rc = TSS_TPMS_SIGNATURE_ECC_Unmarshalu(target, buffer, size); } return rc; } TPM_RC TSS_TPMS_SIGNATURE_SM2_Unmarshalu(TPMS_SIGNATURE_SM2 *target, BYTE **buffer, uint32_t *size) { TPM_RC rc = TPM_RC_SUCCESS; if (rc == TPM_RC_SUCCESS) { rc = TSS_TPMS_SIGNATURE_ECC_Unmarshalu(target, buffer, size); } return rc; } TPM_RC TSS_TPMS_SIGNATURE_ECSCHNORR_Unmarshalu(TPMS_SIGNATURE_ECSCHNORR *target, BYTE **buffer, uint32_t *size) { TPM_RC rc = TPM_RC_SUCCESS; if (rc == TPM_RC_SUCCESS) { rc = TSS_TPMS_SIGNATURE_ECC_Unmarshalu(target, buffer, size); } return rc; } /* Table 172 - Definition of TPMU_SIGNATURE Union */ TPM_RC TSS_TPMU_SIGNATURE_Unmarshalu(TPMU_SIGNATURE *target, BYTE **buffer, uint32_t *size, uint32_t selector) { TPM_RC rc = TPM_RC_SUCCESS; switch (selector) { #ifdef TPM_ALG_RSASSA case TPM_ALG_RSASSA: rc = TSS_TPMS_SIGNATURE_RSASSA_Unmarshalu(&target->rsassa, buffer, size); break; #endif #ifdef TPM_ALG_RSAPSS case TPM_ALG_RSAPSS: rc = TSS_TPMS_SIGNATURE_RSAPSS_Unmarshalu(&target->rsapss, buffer, size); break; #endif #ifdef TPM_ALG_ECDSA case TPM_ALG_ECDSA: rc = TSS_TPMS_SIGNATURE_ECDSA_Unmarshalu(&target->ecdsa, buffer, size); break; #endif #ifdef TPM_ALG_ECDAA case TPM_ALG_ECDAA: rc = TSS_TPMS_SIGNATURE_ECDAA_Unmarshalu(&target->ecdaa, buffer, size); break; #endif #ifdef TPM_ALG_SM2 case TPM_ALG_SM2: rc = TSS_TPMS_SIGNATURE_SM2_Unmarshalu(&target->sm2, buffer, size); break; #endif #ifdef TPM_ALG_ECSCHNORR case TPM_ALG_ECSCHNORR: rc = TSS_TPMS_SIGNATURE_ECSCHNORR_Unmarshalu(&target->ecschnorr, buffer, size); break; #endif #ifdef TPM_ALG_HMAC case TPM_ALG_HMAC: rc = TSS_TPMT_HA_Unmarshalu(&target->hmac, buffer, size, NO); break; #endif case TPM_ALG_NULL: break; default: rc = TPM_RC_SELECTOR; } return rc; } /* Table 173 - Definition of TPMT_SIGNATURE Structure */ TPM_RC TSS_TPMT_SIGNATURE_Unmarshalu(TPMT_SIGNATURE *target, BYTE **buffer, uint32_t *size, BOOL allowNull) { TPM_RC rc = TPM_RC_SUCCESS; if (rc == TPM_RC_SUCCESS) { rc = TSS_TPMI_ALG_SIG_SCHEME_Unmarshalu(&target->sigAlg, buffer, size, allowNull); } if (rc == TPM_RC_SUCCESS) { rc = TSS_TPMU_SIGNATURE_Unmarshalu(&target->signature, buffer, size, target->sigAlg); } return rc; } /* Table 175 - Definition of TPM2B_ENCRYPTED_SECRET Structure */ TPM_RC TSS_TPM2B_ENCRYPTED_SECRET_Unmarshalu(TPM2B_ENCRYPTED_SECRET *target, BYTE **buffer, uint32_t *size) { TPM_RC rc = TPM_RC_SUCCESS; if (rc == TPM_RC_SUCCESS) { rc = TSS_TPM2B_Unmarshalu(&target->b, sizeof(target->t.secret), buffer, size); } return rc; } /* Table 176 - Definition of (TPM_ALG_ID) TPMI_ALG_PUBLIC Type */ TPM_RC TSS_TPMI_ALG_PUBLIC_Unmarshalu(TPMI_ALG_PUBLIC *target, BYTE **buffer, uint32_t *size) { TPM_RC rc = TPM_RC_SUCCESS; if (rc == TPM_RC_SUCCESS) { rc = TSS_TPM_ALG_ID_Unmarshalu(target, buffer, size); } return rc; } /* Table 177 - Definition of TPMU_PUBLIC_ID Union */ TPM_RC TSS_TPMU_PUBLIC_ID_Unmarshalu(TPMU_PUBLIC_ID *target, BYTE **buffer, uint32_t *size, uint32_t selector) { TPM_RC rc = TPM_RC_SUCCESS; switch (selector) { #ifdef TPM_ALG_KEYEDHASH case TPM_ALG_KEYEDHASH: rc = TSS_TPM2B_DIGEST_Unmarshalu(&target->keyedHash, buffer, size); break; #endif #ifdef TPM_ALG_SYMCIPHER case TPM_ALG_SYMCIPHER: rc = TSS_TPM2B_DIGEST_Unmarshalu(&target->sym, buffer, size); break; #endif #ifdef TPM_ALG_RSA case TPM_ALG_RSA: rc = TSS_TPM2B_PUBLIC_KEY_RSA_Unmarshalu(&target->rsa, buffer, size); break; #endif #ifdef TPM_ALG_ECC case TPM_ALG_ECC: rc = TSS_TPMS_ECC_POINT_Unmarshalu(&target->ecc, buffer, size); break; #endif default: rc = TPM_RC_SELECTOR; } return rc; } /* Table 178 - Definition of TPMS_KEYEDHASH_PARMS Structure */ TPM_RC TSS_TPMS_KEYEDHASH_PARMS_Unmarshalu(TPMS_KEYEDHASH_PARMS *target, BYTE **buffer, uint32_t *size) { TPM_RC rc = TPM_RC_SUCCESS; if (rc == TPM_RC_SUCCESS) { rc = TSS_TPMT_KEYEDHASH_SCHEME_Unmarshalu(&target->scheme, buffer, size, YES); } return rc; } /* Table 179 - Definition of TPMS_ASYM_PARMS Structure <> */ #if 0 TPM_RC TSS_TPMS_ASYM_PARMS_Unmarshalu(TPMS_ASYM_PARMS *target, BYTE **buffer, uint32_t *size) { TPM_RC rc = TPM_RC_SUCCESS; if (rc == TPM_RC_SUCCESS) { rc = TSS_TPMT_SYM_DEF_OBJECT_Unmarshalu(&target->symmetric, buffer, size, YES); } if (rc == TPM_RC_SUCCESS) { rc = TSS_TPMT_ASYM_SCHEME_Unmarshalu(&target->scheme, buffer, size, YES); } return rc; } #endif /* Table 180 - Definition of {RSA} TPMS_RSA_PARMS Structure */ TPM_RC TSS_TPMS_RSA_PARMS_Unmarshalu(TPMS_RSA_PARMS *target, BYTE **buffer, uint32_t *size) { TPM_RC rc = TPM_RC_SUCCESS; if (rc == TPM_RC_SUCCESS) { rc = TSS_TPMT_SYM_DEF_OBJECT_Unmarshalu(&target->symmetric, buffer, size, YES); } if (rc == TPM_RC_SUCCESS) { rc = TSS_TPMT_RSA_SCHEME_Unmarshalu(&target->scheme, buffer, size, YES); } if (rc == TPM_RC_SUCCESS) { rc = TSS_TPMI_RSA_KEY_BITS_Unmarshalu(&target->keyBits, buffer, size); } if (rc == TPM_RC_SUCCESS) { rc = TSS_UINT32_Unmarshalu(&target->exponent, buffer, size); } return rc; } /* Table 181 - Definition of {ECC} TPMS_ECC_PARMS Structure */ TPM_RC TSS_TPMS_ECC_PARMS_Unmarshalu(TPMS_ECC_PARMS *target, BYTE **buffer, uint32_t *size) { TPM_RC rc = TPM_RC_SUCCESS; if (rc == TPM_RC_SUCCESS) { rc = TSS_TPMT_SYM_DEF_OBJECT_Unmarshalu(&target->symmetric, buffer, size, YES); } if (rc == TPM_RC_SUCCESS) { rc = TSS_TPMT_ECC_SCHEME_Unmarshalu(&target->scheme, buffer, size, YES); } if (rc == TPM_RC_SUCCESS) { rc = TSS_TPMI_ECC_CURVE_Unmarshalu(&target->curveID, buffer, size); } if (rc == TPM_RC_SUCCESS) { rc = TSS_TPMT_KDF_SCHEME_Unmarshalu(&target->kdf, buffer, size, YES); } return rc; } /* Table 182 - Definition of TPMU_PUBLIC_PARMS Union */ TPM_RC TSS_TPMU_PUBLIC_PARMS_Unmarshalu(TPMU_PUBLIC_PARMS *target, BYTE **buffer, uint32_t *size, uint32_t selector) { TPM_RC rc = TPM_RC_SUCCESS; switch (selector) { #ifdef TPM_ALG_KEYEDHASH case TPM_ALG_KEYEDHASH: rc = TSS_TPMS_KEYEDHASH_PARMS_Unmarshalu(&target->keyedHashDetail, buffer, size); break; #endif #ifdef TPM_ALG_SYMCIPHER case TPM_ALG_SYMCIPHER: rc = TSS_TPMS_SYMCIPHER_PARMS_Unmarshalu(&target->symDetail, buffer, size); break; #endif #ifdef TPM_ALG_RSA case TPM_ALG_RSA: rc = TSS_TPMS_RSA_PARMS_Unmarshalu(&target->rsaDetail, buffer, size); break; #endif #ifdef TPM_ALG_ECC case TPM_ALG_ECC: rc = TSS_TPMS_ECC_PARMS_Unmarshalu(&target->eccDetail, buffer, size); break; #endif default: rc = TPM_RC_SELECTOR; } return rc; } #ifndef TPM_TSS_NOCMDCHECK /* Table 183 - Definition of TPMT_PUBLIC_PARMS Structure */ TPM_RC TSS_TPMT_PUBLIC_PARMS_Unmarshalu(TPMT_PUBLIC_PARMS *target, BYTE **buffer, uint32_t *size) { TPM_RC rc = TPM_RC_SUCCESS; if (rc == TPM_RC_SUCCESS) { rc = TSS_TPMI_ALG_PUBLIC_Unmarshalu(&target->type, buffer, size); } if (rc == TPM_RC_SUCCESS) { rc = TSS_TPMU_PUBLIC_PARMS_Unmarshalu(&target->parameters, buffer, size, target->type); } return rc; } #endif /* TPM_TSS_NOCMDCHECK */ /* Table 184 - Definition of TPMT_PUBLIC Structure */ TPM_RC TSS_TPMT_PUBLIC_Unmarshalu(TPMT_PUBLIC *target, BYTE **buffer, uint32_t *size, BOOL allowNull) { TPM_RC rc = TPM_RC_SUCCESS; if (rc == TPM_RC_SUCCESS) { rc = TSS_TPMI_ALG_PUBLIC_Unmarshalu(&target->type, buffer, size); } if (rc == TPM_RC_SUCCESS) { rc = TSS_TPMI_ALG_HASH_Unmarshalu(&target->nameAlg, buffer, size, allowNull); } if (rc == TPM_RC_SUCCESS) { rc = TSS_TPMA_OBJECT_Unmarshalu(&target->objectAttributes, buffer, size); } if (rc == TPM_RC_SUCCESS) { rc = TSS_TPM2B_DIGEST_Unmarshalu(&target->authPolicy, buffer, size); } if (rc == TPM_RC_SUCCESS) { rc = TSS_TPMU_PUBLIC_PARMS_Unmarshalu(&target->parameters, buffer, size, target->type); } if (rc == TPM_RC_SUCCESS) { rc = TSS_TPMU_PUBLIC_ID_Unmarshalu(&target->unique, buffer, size, target->type); } return rc; } /* Table 185 - Definition of TPM2B_PUBLIC Structure */ TPM_RC TSS_TPM2B_PUBLIC_Unmarshalu(TPM2B_PUBLIC *target, BYTE **buffer, uint32_t *size, BOOL allowNull) { TPM_RC rc = TPM_RC_SUCCESS; uint32_t startSize = 0; if (rc == TPM_RC_SUCCESS) { rc = TSS_UINT16_Unmarshalu(&target->size, buffer, size); } if (rc == TPM_RC_SUCCESS) { if (target->size == 0) { rc = TPM_RC_SIZE; } } if (rc == TPM_RC_SUCCESS) { startSize = *size; } if (rc == TPM_RC_SUCCESS) { rc = TSS_TPMT_PUBLIC_Unmarshalu(&target->publicArea, buffer, size, allowNull); } if (rc == TPM_RC_SUCCESS) { if (target->size != startSize - *size) { rc = TPM_RC_SIZE; } } return rc; } #ifndef TPM_TSS_NOCMDCHECK /* Table 192 - Definition of TPM2B_TEMPLATE Structure */ TPM_RC TSS_TPM2B_TEMPLATE_Unmarshalu(TPM2B_TEMPLATE *target, BYTE **buffer, uint32_t *size) { TPM_RC rc = TPM_RC_SUCCESS; if (rc == TPM_RC_SUCCESS) { rc = TSS_TPM2B_Unmarshalu(&target->b, sizeof(target->t.buffer), buffer, size); } return rc; } /* Table 187 - Definition of TPMU_SENSITIVE_COMPOSITE Union */ TPM_RC TSS_TPMU_SENSITIVE_COMPOSITE_Unmarshalu(TPMU_SENSITIVE_COMPOSITE *target, BYTE **buffer, uint32_t *size, uint32_t selector) { TPM_RC rc = TPM_RC_SUCCESS; switch (selector) { #ifdef TPM_ALG_RSA case TPM_ALG_RSA: rc = TSS_TPM2B_PRIVATE_KEY_RSA_Unmarshalu(&target->rsa, buffer, size); break; #endif #ifdef TPM_ALG_ECC case TPM_ALG_ECC: rc = TSS_TPM2B_ECC_PARAMETER_Unmarshalu(&target->ecc, buffer, size); break; #endif #ifdef TPM_ALG_KEYEDHASH case TPM_ALG_KEYEDHASH: rc = TSS_TPM2B_SENSITIVE_DATA_Unmarshalu(&target->bits, buffer, size); break; #endif #ifdef TPM_ALG_SYMCIPHER case TPM_ALG_SYMCIPHER: rc = TSS_TPM2B_SYM_KEY_Unmarshalu(&target->sym, buffer, size); break; #endif default: rc = TPM_RC_SELECTOR; } return rc; } /* Table 188 - Definition of TPMT_SENSITIVE Structure */ TPM_RC TSS_TPMT_SENSITIVE_Unmarshalu(TPMT_SENSITIVE *target, BYTE **buffer, uint32_t *size) { TPM_RC rc = TPM_RC_SUCCESS; if (rc == TPM_RC_SUCCESS) { rc = TSS_TPMI_ALG_PUBLIC_Unmarshalu(&target->sensitiveType, buffer, size); } if (rc == TPM_RC_SUCCESS) { rc = TSS_TPM2B_AUTH_Unmarshalu(&target->authValue, buffer, size); } if (rc == TPM_RC_SUCCESS) { rc = TSS_TPM2B_DIGEST_Unmarshalu(&target->seedValue, buffer, size); } if (rc == TPM_RC_SUCCESS) { rc = TSS_TPMU_SENSITIVE_COMPOSITE_Unmarshalu(&target->sensitive, buffer, size, target->sensitiveType); } return rc; } /* Table 189 - Definition of TPM2B_SENSITIVE Structure */ TPM_RC TSS_TPM2B_SENSITIVE_Unmarshalu(TPM2B_SENSITIVE *target, BYTE **buffer, uint32_t *size) { TPM_RC rc = TPM_RC_SUCCESS; uint32_t startSize = 0; if (rc == TPM_RC_SUCCESS) { rc = TSS_UINT16_Unmarshalu(&target->t.size, buffer, size); } if (target->t.size != 0) { if (rc == TPM_RC_SUCCESS) { startSize = *size; } if (rc == TPM_RC_SUCCESS) { rc = TSS_TPMT_SENSITIVE_Unmarshalu(&target->t.sensitiveArea, buffer, size); } if (rc == TPM_RC_SUCCESS) { if (target->t.size != startSize - *size) { rc = TPM_RC_SIZE; } } } return rc; } #endif /* TPM_TSS_NOCMDCHECK */ /* Table 191 - Definition of TPM2B_PRIVATE Structure */ TPM_RC TSS_TPM2B_PRIVATE_Unmarshalu(TPM2B_PRIVATE *target, BYTE **buffer, uint32_t *size) { TPM_RC rc = TPM_RC_SUCCESS; if (rc == TPM_RC_SUCCESS) { rc = TSS_TPM2B_Unmarshalu(&target->b, sizeof(target->t.buffer), buffer, size); } return rc; } /* Table 193 - Definition of TPM2B_ID_OBJECT Structure */ TPM_RC TSS_TPM2B_ID_OBJECT_Unmarshalu(TPM2B_ID_OBJECT *target, BYTE **buffer, uint32_t *size) { TPM_RC rc = TPM_RC_SUCCESS; if (rc == TPM_RC_SUCCESS) { rc = TSS_TPM2B_Unmarshalu(&target->b, sizeof(target->t.credential), buffer, size); } return rc; } /* Table 196 - Definition of (UINT32) TPMA_NV Bits */ TPM_RC TSS_TPMA_NV_Unmarshalu(TPMA_NV *target, BYTE **buffer, uint32_t *size) { TPM_RC rc = TPM_RC_SUCCESS; if (rc == TPM_RC_SUCCESS) { rc = TSS_UINT32_Unmarshalu(&target->val, buffer, size); } if (rc == TPM_RC_SUCCESS) { if (target->val & TPMA_NV_RESERVED) { rc = TPM_RC_RESERVED_BITS; } } return rc; } /* Table 197 - Definition of TPMS_NV_PUBLIC Structure */ TPM_RC TSS_TPMS_NV_PUBLIC_Unmarshalu(TPMS_NV_PUBLIC *target, BYTE **buffer, uint32_t *size) { TPM_RC rc = TPM_RC_SUCCESS; if (rc == TPM_RC_SUCCESS) { rc = TSS_TPMI_RH_NV_INDEX_Unmarshalu(&target->nvIndex, buffer, size, NO); } if (rc == TPM_RC_SUCCESS) { rc = TSS_TPMI_ALG_HASH_Unmarshalu(&target->nameAlg, buffer, size, NO); } if (rc == TPM_RC_SUCCESS) { rc = TSS_TPMA_NV_Unmarshalu(&target->attributes, buffer, size); } if (rc == TPM_RC_SUCCESS) { rc = TSS_TPM2B_DIGEST_Unmarshalu(&target->authPolicy, buffer, size); } if (rc == TPM_RC_SUCCESS) { rc = TSS_UINT16_Unmarshalu(&target->dataSize, buffer, size); } return rc; } /* Table 198 - Definition of TPM2B_NV_PUBLIC Structure */ TPM_RC TSS_TPM2B_NV_PUBLIC_Unmarshalu(TPM2B_NV_PUBLIC *target, BYTE **buffer, uint32_t *size) { TPM_RC rc = TPM_RC_SUCCESS; uint32_t startSize = 0; if (rc == TPM_RC_SUCCESS) { rc = TSS_UINT16_Unmarshalu(&target->size, buffer, size); } if (rc == TPM_RC_SUCCESS) { if (target->size == 0) { rc = TPM_RC_SIZE; } } if (rc == TPM_RC_SUCCESS) { startSize = *size; } if (rc == TPM_RC_SUCCESS) { rc = TSS_TPMS_NV_PUBLIC_Unmarshalu(&target->nvPublic, buffer, size); } if (rc == TPM_RC_SUCCESS) { if (target->size != startSize - *size) { rc = TPM_RC_SIZE; } } return rc; } #ifndef TPM_TSS_NOCMDCHECK /* Table 199 - Definition of TPM2B_CONTEXT_SENSITIVE Structure */ TPM_RC TSS_TPM2B_CONTEXT_SENSITIVE_Unmarshalu(TPM2B_CONTEXT_SENSITIVE *target, BYTE **buffer, uint32_t *size) { TPM_RC rc = TPM_RC_SUCCESS; if (rc == TPM_RC_SUCCESS) { rc = TSS_TPM2B_Unmarshalu(&target->b, sizeof(target->t.buffer), buffer, size); } return rc; } /* Table 200 - Definition of TPMS_CONTEXT_DATA Structure */ TPM_RC TSS_TPMS_CONTEXT_DATA_Unmarshalu(TPMS_CONTEXT_DATA *target, BYTE **buffer, uint32_t *size) { TPM_RC rc = TPM_RC_SUCCESS; if (rc == TPM_RC_SUCCESS) { rc = TSS_TPM2B_DIGEST_Unmarshalu(&target->integrity, buffer, size); } if (rc == TPM_RC_SUCCESS) { rc = TSS_TPM2B_CONTEXT_SENSITIVE_Unmarshalu(&target->encrypted, buffer, size); } return rc; } #endif /* TPM_TSS_NOCMDCHECK */ /* Table 201 - Definition of TPM2B_CONTEXT_DATA Structure */ TPM_RC TSS_TPM2B_CONTEXT_DATA_Unmarshalu(TPM2B_CONTEXT_DATA *target, BYTE **buffer, uint32_t *size) { TPM_RC rc = TPM_RC_SUCCESS; if (rc == TPM_RC_SUCCESS) { rc = TSS_TPM2B_Unmarshalu(&target->b, sizeof(target->t.buffer), buffer, size); } return rc; } /* Table 202 - Definition of TPMS_CONTEXT Structure */ TPM_RC TSS_TPMS_CONTEXT_Unmarshalu(TPMS_CONTEXT *target, BYTE **buffer, uint32_t *size) { TPM_RC rc = TPM_RC_SUCCESS; if (rc == TPM_RC_SUCCESS) { rc = TSS_UINT64_Unmarshalu(&target->sequence, buffer, size); } if (rc == TPM_RC_SUCCESS) { rc = TSS_TPMI_DH_SAVED_Unmarshalu(&target->savedHandle, buffer, size, NO); } if (rc == TPM_RC_SUCCESS) { rc = TSS_TPMI_RH_HIERARCHY_Unmarshalu(&target->hierarchy, buffer, size, YES); } if (rc == TPM_RC_SUCCESS) { rc = TSS_TPM2B_CONTEXT_DATA_Unmarshalu(&target->contextBlob, buffer, size); } return rc; } /* Table 204 - Definition of TPMS_CREATION_DATA Structure */ TPM_RC TSS_TPMS_CREATION_DATA_Unmarshalu(TPMS_CREATION_DATA *target, BYTE **buffer, uint32_t *size) { TPM_RC rc = TPM_RC_SUCCESS; if (rc == TPM_RC_SUCCESS) { rc = TSS_TPML_PCR_SELECTION_Unmarshalu(&target->pcrSelect, buffer, size); } if (rc == TPM_RC_SUCCESS) { rc = TSS_TPM2B_DIGEST_Unmarshalu(&target->pcrDigest, buffer, size); } if (rc == TPM_RC_SUCCESS) { rc = TSS_TPMA_LOCALITY_Unmarshalu(&target->locality, buffer, size); } if (rc == TPM_RC_SUCCESS) { rc = TSS_TPM_ALG_ID_Unmarshalu(&target->parentNameAlg, buffer, size); } if (rc == TPM_RC_SUCCESS) { rc = TSS_TPM2B_NAME_Unmarshalu(&target->parentName, buffer, size); } if (rc == TPM_RC_SUCCESS) { rc = TSS_TPM2B_NAME_Unmarshalu(&target->parentQualifiedName, buffer, size); } if (rc == TPM_RC_SUCCESS) { rc = TSS_TPM2B_DATA_Unmarshalu(&target->outsideInfo, buffer, size); } return rc; } /* Table 205 - Definition of TPM2B_CREATION_DATA Structure */ TPM_RC TSS_TPM2B_CREATION_DATA_Unmarshalu(TPM2B_CREATION_DATA *target, BYTE **buffer, uint32_t *size) { TPM_RC rc = TPM_RC_SUCCESS; uint32_t startSize = 0; if (rc == TPM_RC_SUCCESS) { rc = TSS_UINT16_Unmarshalu(&target->size, buffer, size); } if (rc == TPM_RC_SUCCESS) { if (target->size == 0) { rc = TPM_RC_SIZE; } } if (rc == TPM_RC_SUCCESS) { startSize = *size; } if (rc == TPM_RC_SUCCESS) { rc = TSS_TPMS_CREATION_DATA_Unmarshalu(&target->creationData, buffer, size); } if (rc == TPM_RC_SUCCESS) { if (target->size != startSize - *size) { rc = TPM_RC_SIZE; } } return rc; } #ifndef TPM_TSS_NOCMDCHECK /* Deprecated functions that use a sized value for the size parameter. The recommended functions use an unsigned value. */ TPM_RC TPM2B_Unmarshal(TPM2B *target, UINT16 targetSize, BYTE **buffer, INT32 *size) { return TSS_TPM2B_Unmarshalu(target, targetSize, buffer, (uint32_t *)size); } TPM_RC TPM_KEY_BITS_Unmarshal(TPM_KEY_BITS *target, BYTE **buffer, INT32 *size) { return TSS_TPM_KEY_BITS_Unmarshalu(target, buffer, (uint32_t *)size); } TPM_RC TPM_GENERATED_Unmarshal(TPM_GENERATED *target, BYTE **buffer, INT32 *size) { return TSS_TPM_GENERATED_Unmarshalu(target, buffer, (uint32_t *)size); } TPM_RC TPM_ALG_ID_Unmarshal(TPM_ALG_ID *target, BYTE **buffer, INT32 *size) { return TSS_TPM_ALG_ID_Unmarshalu(target, buffer, (uint32_t *)size); } TPM_RC TPM_ECC_CURVE_Unmarshal(TPM_ECC_CURVE *target, BYTE **buffer, INT32 *size) { return TSS_TPM_ECC_CURVE_Unmarshalu(target, buffer, (uint32_t *)size); } TPM_RC TPM_CC_Unmarshal(TPM_RC *target, BYTE **buffer, INT32 *size) { return TSS_TPM_CC_Unmarshalu(target, buffer, (uint32_t *)size); } TPM_RC TPM_RC_Unmarshal(TPM_RC *target, BYTE **buffer, INT32 *size) { return TSS_TPM_RC_Unmarshalu(target, buffer, (uint32_t *)size); } TPM_RC TPM_CLOCK_ADJUST_Unmarshal(TPM_CLOCK_ADJUST *target, BYTE **buffer, INT32 *size) { return TSS_TPM_CLOCK_ADJUST_Unmarshalu(target, buffer, (uint32_t *)size); } TPM_RC TPM_EO_Unmarshal(TPM_EO *target, BYTE **buffer, INT32 *size) { return TSS_TPM_EO_Unmarshalu(target, buffer, (uint32_t *)size); } TPM_RC TPM_ST_Unmarshal(TPM_ST *target, BYTE **buffer, INT32 *size) { return TSS_TPM_ST_Unmarshalu(target, buffer, (uint32_t *)size); } TPM_RC TPM_SU_Unmarshal(TPM_SU *target, BYTE **buffer, INT32 *size) { return TSS_TPM_SU_Unmarshalu(target, buffer, (uint32_t *)size); } TPM_RC TPM_SE_Unmarshal(TPM_SE *target, BYTE **buffer, INT32 *size) { return TSS_TPM_SE_Unmarshalu(target, buffer, (uint32_t *)size); } TPM_RC TPM_CAP_Unmarshal(TPM_CAP *target, BYTE **buffer, INT32 *size) { return TSS_TPM_CAP_Unmarshalu(target, buffer, (uint32_t *)size); } TPM_RC TPM_PT_Unmarshal(TPM_HANDLE *target, BYTE **buffer, INT32 *size) { return TSS_TPM_PT_Unmarshalu(target, buffer, (uint32_t *)size); } TPM_RC TPM_PT_PCR_Unmarshal(TPM_PT_PCR *target, BYTE **buffer, INT32 *size) { return TSS_TPM_PT_PCR_Unmarshalu(target, buffer, (uint32_t *)size); } TPM_RC TPM_HANDLE_Unmarshal(TPM_HANDLE *target, BYTE **buffer, INT32 *size) { return TSS_TPM_HANDLE_Unmarshalu(target, buffer, (uint32_t *)size); } TPM_RC TPMA_ALGORITHM_Unmarshal(TPMA_ALGORITHM *target, BYTE **buffer, INT32 *size) { return TSS_TPMA_ALGORITHM_Unmarshalu(target, buffer, (uint32_t *)size); } TPM_RC TPMA_OBJECT_Unmarshal(TPMA_OBJECT *target, BYTE **buffer, INT32 *size) { return TSS_TPMA_OBJECT_Unmarshalu(target, buffer, (uint32_t *)size); } TPM_RC TPMA_SESSION_Unmarshal(TPMA_SESSION *target, BYTE **buffer, INT32 *size) { return TSS_TPMA_SESSION_Unmarshalu(target, buffer, (uint32_t *)size); } TPM_RC TPMA_LOCALITY_Unmarshal(TPMA_LOCALITY *target, BYTE **buffer, INT32 *size) { return TSS_TPMA_LOCALITY_Unmarshalu(target, buffer, (uint32_t *)size); } TPM_RC TPMA_CC_Unmarshal(TPMA_CC *target, BYTE **buffer, INT32 *size) { return TSS_TPMA_CC_Unmarshalu(target, buffer, (uint32_t *)size); } TPM_RC TPMI_YES_NO_Unmarshal(TPMI_YES_NO *target, BYTE **buffer, INT32 *size) { return TSS_TPMI_YES_NO_Unmarshalu(target, buffer, (uint32_t *)size); } TPM_RC TPMI_DH_OBJECT_Unmarshal(TPMI_DH_OBJECT *target, BYTE **buffer, INT32 *size, BOOL allowNull) { return TSS_TPMI_DH_OBJECT_Unmarshalu(target, buffer, (uint32_t *)size, allowNull); } #if 0 TPM_RC TPMI_DH_PARENT_Unmarshal(TPMI_DH_PARENT *target, BYTE **buffer, INT32 *size, BOOL allowNull) { return TSS_TPMI_DH_PARENT_Unmarshalu(target, buffer, (uint32_t *)size, allowNull); } #endif TPM_RC TPMI_DH_PERSISTENT_Unmarshal(TPMI_DH_PERSISTENT *target, BYTE **buffer, INT32 *size) { return TSS_TPMI_DH_PERSISTENT_Unmarshalu(target, buffer, (uint32_t *)size); } TPM_RC TPMI_DH_ENTITY_Unmarshal(TPMI_DH_ENTITY *target, BYTE **buffer, INT32 *size, BOOL allowNull) { return TSS_TPMI_DH_ENTITY_Unmarshalu(target, buffer, (uint32_t *)size, allowNull); } TPM_RC TPMI_DH_PCR_Unmarshal(TPMI_DH_PCR *target, BYTE **buffer, INT32 *size, BOOL allowNull) { return TSS_TPMI_DH_PCR_Unmarshalu(target, buffer, (uint32_t *)size, allowNull); } TPM_RC TPMI_SH_AUTH_SESSION_Unmarshal(TPMI_SH_AUTH_SESSION *target, BYTE **buffer, INT32 *size, BOOL allowPwd) { return TSS_TPMI_SH_AUTH_SESSION_Unmarshalu(target, buffer, (uint32_t *)size, allowPwd); } TPM_RC TPMI_SH_HMAC_Unmarshal(TPMI_SH_HMAC *target, BYTE **buffer, INT32 *size, BOOL allowNull) { return TSS_TPMI_SH_HMAC_Unmarshalu(target, buffer, (uint32_t *)size, allowNull); } TPM_RC TPMI_SH_POLICY_Unmarshal(TPMI_SH_POLICY *target, BYTE **buffer, INT32 *size, BOOL allowNull) { return TSS_TPMI_SH_POLICY_Unmarshalu(target, buffer, (uint32_t *)size, allowNull); } TPM_RC TPMI_DH_CONTEXT_Unmarshal(TPMI_DH_CONTEXT *target, BYTE **buffer, INT32 *size, BOOL allowNull) { return TSS_TPMI_DH_CONTEXT_Unmarshalu(target, buffer, (uint32_t *)size, allowNull); } TPM_RC TPMI_RH_HIERARCHY_Unmarshal(TPMI_RH_HIERARCHY *target, BYTE **buffer, INT32 *size, BOOL allowNull) { return TSS_TPMI_RH_HIERARCHY_Unmarshalu(target, buffer, (uint32_t *)size, allowNull); } TPM_RC TPMI_RH_ENABLES_Unmarshal(TPMI_RH_ENABLES *target, BYTE **buffer, INT32 *size, BOOL allowNull) { return TSS_TPMI_RH_ENABLES_Unmarshalu(target, buffer, (uint32_t *)size, allowNull); } TPM_RC TPMI_RH_HIERARCHY_AUTH_Unmarshal(TPMI_RH_HIERARCHY_AUTH *target, BYTE **buffer, INT32 *size, BOOL allowNull) { return TSS_TPMI_RH_HIERARCHY_AUTH_Unmarshalu(target, buffer, (uint32_t *)size, allowNull); } TPM_RC TPMI_RH_PLATFORM_Unmarshal(TPMI_RH_PLATFORM *target, BYTE **buffer, INT32 *size, BOOL allowNull) { return TSS_TPMI_RH_PLATFORM_Unmarshalu(target, buffer, (uint32_t *)size, allowNull); } TPM_RC TPMI_RH_ENDORSEMENT_Unmarshal(TPMI_RH_ENDORSEMENT *target, BYTE **buffer, INT32 *size, BOOL allowNull) { return TSS_TPMI_RH_ENDORSEMENT_Unmarshalu(target, buffer, (uint32_t *)size, allowNull); } TPM_RC TPMI_RH_PROVISION_Unmarshal(TPMI_RH_PROVISION *target, BYTE **buffer, INT32 *size, BOOL allowNull) { return TSS_TPMI_RH_PROVISION_Unmarshalu(target, buffer, (uint32_t *)size, allowNull); } TPM_RC TPMI_RH_CLEAR_Unmarshal(TPMI_RH_CLEAR *target, BYTE **buffer, INT32 *size, BOOL allowNull) { return TSS_TPMI_RH_CLEAR_Unmarshalu(target, buffer, (uint32_t *)size, allowNull); } TPM_RC TPMI_RH_NV_AUTH_Unmarshal(TPMI_RH_NV_AUTH *target, BYTE **buffer, INT32 *size, BOOL allowNull) { return TSS_TPMI_RH_NV_AUTH_Unmarshalu(target, buffer, (uint32_t *)size, allowNull); } TPM_RC TPMI_RH_LOCKOUT_Unmarshal(TPMI_RH_LOCKOUT *target, BYTE **buffer, INT32 *size, BOOL allowNull) { return TSS_TPMI_RH_LOCKOUT_Unmarshalu(target, buffer, (uint32_t *)size, allowNull); } TPM_RC TPMI_RH_NV_INDEX_Unmarshal(TPMI_RH_NV_INDEX *target, BYTE **buffer, INT32 *size, BOOL allowNull) { return TSS_TPMI_RH_NV_INDEX_Unmarshalu(target, buffer, (uint32_t *)size, allowNull); } TPM_RC TPMI_ALG_HASH_Unmarshal(TPMI_ALG_HASH *target, BYTE **buffer, INT32 *size, BOOL allowNull) { return TSS_TPMI_ALG_HASH_Unmarshalu(target, buffer, (uint32_t *)size, allowNull); } TPM_RC TPMI_ALG_SYM_Unmarshal(TPMI_ALG_SYM *target, BYTE **buffer, INT32 *size, BOOL allowNull) { return TSS_TPMI_ALG_SYM_Unmarshalu(target, buffer, (uint32_t *)size, allowNull); } TPM_RC TPMI_ALG_SYM_OBJECT_Unmarshal(TPMI_ALG_SYM_OBJECT *target, BYTE **buffer, INT32 *size, BOOL allowNull) { return TSS_TPMI_ALG_SYM_OBJECT_Unmarshalu(target, buffer, (uint32_t *)size, allowNull); } TPM_RC TPMI_ALG_SYM_MODE_Unmarshal(TPMI_ALG_SYM_MODE *target, BYTE **buffer, INT32 *size, BOOL allowNull) { return TSS_TPMI_ALG_SYM_MODE_Unmarshalu(target, buffer, (uint32_t *)size, allowNull); } TPM_RC TPMI_ALG_KDF_Unmarshal(TPMI_ALG_KDF *target, BYTE **buffer, INT32 *size, BOOL allowNull) { return TSS_TPMI_ALG_KDF_Unmarshalu(target, buffer, (uint32_t *)size, allowNull); } TPM_RC TPMI_ALG_SIG_SCHEME_Unmarshal(TPMI_ALG_SIG_SCHEME *target, BYTE **buffer, INT32 *size, BOOL allowNull) { return TSS_TPMI_ALG_SIG_SCHEME_Unmarshalu(target, buffer, (uint32_t *)size, allowNull); } TPM_RC TPMI_ECC_KEY_EXCHANGE_Unmarshal(TPMI_ECC_KEY_EXCHANGE *target, BYTE **buffer, INT32 *size, BOOL allowNull) { return TSS_TPMI_ECC_KEY_EXCHANGE_Unmarshalu(target, buffer, (uint32_t *)size, allowNull); } TPM_RC TPMI_ST_COMMAND_TAG_Unmarshal(TPMI_ST_COMMAND_TAG *target, BYTE **buffer, INT32 *size) { return TSS_TPMI_ST_COMMAND_TAG_Unmarshalu(target, buffer, (uint32_t *)size); } TPM_RC TPMI_ALG_MAC_SCHEME_Unmarshal(TPMI_ALG_MAC_SCHEME *target, BYTE **buffer, INT32 *size, BOOL allowNull) { return TSS_TPMI_ALG_MAC_SCHEME_Unmarshalu(target, buffer, (uint32_t *)size, allowNull); } TPM_RC TPMI_ALG_CIPHER_MODE_Unmarshal(TPMI_ALG_CIPHER_MODE *target, BYTE **buffer, INT32 *size, BOOL allowNull) { return TSS_TPMI_ALG_CIPHER_MODE_Unmarshalu(target, buffer, (uint32_t *)size, allowNull); } /* NOTE: Marked as const function in header */ TPM_RC TPMS_EMPTY_Unmarshal(TPMS_EMPTY *target, BYTE **buffer, INT32 *size) { return TSS_TPMS_EMPTY_Unmarshalu(target, buffer, (uint32_t *)size); } TPM_RC TPMU_HA_Unmarshal(TPMU_HA *target, BYTE **buffer, INT32 *size, UINT32 selector) { return TSS_TPMU_HA_Unmarshalu(target, buffer, (uint32_t *)size, selector); } TPM_RC TPMT_HA_Unmarshal(TPMT_HA *target, BYTE **buffer, INT32 *size, BOOL allowNull) { return TSS_TPMT_HA_Unmarshalu(target, buffer, (uint32_t *)size, allowNull); } TPM_RC TPM2B_DIGEST_Unmarshal(TPM2B_DIGEST *target, BYTE **buffer, INT32 *size) { return TSS_TPM2B_DIGEST_Unmarshalu(target, buffer, (uint32_t *)size); } TPM_RC TPM2B_DATA_Unmarshal(TPM2B_DATA *target, BYTE **buffer, INT32 *size) { return TSS_TPM2B_DATA_Unmarshalu(target, buffer, (uint32_t *)size); } TPM_RC TPM2B_NONCE_Unmarshal(TPM2B_NONCE *target, BYTE **buffer, INT32 *size) { return TSS_TPM2B_NONCE_Unmarshalu(target, buffer, (uint32_t *)size); } TPM_RC TPM2B_AUTH_Unmarshal(TPM2B_AUTH *target, BYTE **buffer, INT32 *size) { return TSS_TPM2B_AUTH_Unmarshalu(target, buffer, (uint32_t *)size); } TPM_RC TPM2B_OPERAND_Unmarshal(TPM2B_OPERAND *target, BYTE **buffer, INT32 *size) { return TSS_TPM2B_OPERAND_Unmarshalu(target, buffer, (uint32_t *)size); } TPM_RC TPM2B_EVENT_Unmarshal(TPM2B_EVENT *target, BYTE **buffer, INT32 *size) { return TSS_TPM2B_EVENT_Unmarshalu(target, buffer, (uint32_t *)size); } TPM_RC TPM2B_MAX_BUFFER_Unmarshal(TPM2B_MAX_BUFFER *target, BYTE **buffer, INT32 *size) { return TSS_TPM2B_MAX_BUFFER_Unmarshalu(target, buffer, (uint32_t *)size); } TPM_RC TPM2B_MAX_NV_BUFFER_Unmarshal(TPM2B_MAX_NV_BUFFER *target, BYTE **buffer, INT32 *size) { return TSS_TPM2B_MAX_NV_BUFFER_Unmarshalu(target, buffer, (uint32_t *)size); } TPM_RC TPM2B_TIMEOUT_Unmarshal(TPM2B_TIMEOUT *target, BYTE **buffer, INT32 *size) { return TSS_TPM2B_TIMEOUT_Unmarshalu(target, buffer, (uint32_t *)size); } TPM_RC TPM2B_IV_Unmarshal(TPM2B_IV *target, BYTE **buffer, INT32 *size) { return TSS_TPM2B_IV_Unmarshalu(target, buffer, (uint32_t *)size); } TPM_RC TPM2B_NAME_Unmarshal(TPM2B_NAME *target, BYTE **buffer, INT32 *size) { return TSS_TPM2B_NAME_Unmarshalu(target, buffer, (uint32_t *)size); } TPM_RC TPMS_PCR_SELECTION_Unmarshal(TPMS_PCR_SELECTION *target, BYTE **buffer, INT32 *size) { return TSS_TPMS_PCR_SELECTION_Unmarshalu(target, buffer, (uint32_t *)size); } TPM_RC TPMT_TK_CREATION_Unmarshal(TPMT_TK_CREATION *target, BYTE **buffer, INT32 *size) { return TSS_TPMT_TK_CREATION_Unmarshalu(target, buffer, (uint32_t *)size); } TPM_RC TPMT_TK_VERIFIED_Unmarshal(TPMT_TK_VERIFIED *target, BYTE **buffer, INT32 *size) { return TSS_TPMT_TK_VERIFIED_Unmarshalu(target, buffer, (uint32_t *)size); } TPM_RC TPMT_TK_AUTH_Unmarshal(TPMT_TK_AUTH *target, BYTE **buffer, INT32 *size) { return TSS_TPMT_TK_AUTH_Unmarshalu(target, buffer, (uint32_t *)size); } TPM_RC TPMT_TK_HASHCHECK_Unmarshal(TPMT_TK_HASHCHECK *target, BYTE **buffer, INT32 *size) { return TSS_TPMT_TK_HASHCHECK_Unmarshalu(target, buffer, (uint32_t *)size); } TPM_RC TPMS_ALG_PROPERTY_Unmarshal(TPMS_ALG_PROPERTY *target, BYTE **buffer, INT32 *size) { return TSS_TPMS_ALG_PROPERTY_Unmarshalu(target, buffer, (uint32_t *)size); } TPM_RC TPMS_TAGGED_PROPERTY_Unmarshal(TPMS_TAGGED_PROPERTY *target, BYTE **buffer, INT32 *size) { return TSS_TPMS_TAGGED_PROPERTY_Unmarshalu(target, buffer, (uint32_t *)size); } TPM_RC TPMS_TAGGED_PCR_SELECT_Unmarshal(TPMS_TAGGED_PCR_SELECT *target, BYTE **buffer, INT32 *size) { return TSS_TPMS_TAGGED_PCR_SELECT_Unmarshalu(target, buffer, (uint32_t *)size); } TPM_RC TPML_CC_Unmarshal(TPML_CC *target, BYTE **buffer, INT32 *size) { return TSS_TPML_CC_Unmarshalu(target, buffer, (uint32_t *)size); } TPM_RC TPML_CCA_Unmarshal(TPML_CCA *target, BYTE **buffer, INT32 *size) { return TSS_TPML_CCA_Unmarshalu(target, buffer, (uint32_t *)size); } TPM_RC TPML_ALG_Unmarshal(TPML_ALG *target, BYTE **buffer, INT32 *size) { return TSS_TPML_ALG_Unmarshalu(target, buffer, (uint32_t *)size); } TPM_RC TPML_HANDLE_Unmarshal(TPML_HANDLE *target, BYTE **buffer, INT32 *size) { return TSS_TPML_HANDLE_Unmarshalu(target, buffer, (uint32_t *)size); } TPM_RC TPML_DIGEST_Unmarshal(TPML_DIGEST *target, BYTE **buffer, INT32 *size,uint32_t minCount) { return TSS_TPML_DIGEST_Unmarshalu(target, buffer, (uint32_t *)size, minCount); } TPM_RC TPML_DIGEST_VALUES_Unmarshal(TPML_DIGEST_VALUES *target, BYTE **buffer, INT32 *size) { return TSS_TPML_DIGEST_VALUES_Unmarshalu(target, buffer, (uint32_t *)size); } TPM_RC TPML_PCR_SELECTION_Unmarshal(TPML_PCR_SELECTION *target, BYTE **buffer, INT32 *size) { return TSS_TPML_PCR_SELECTION_Unmarshalu(target, buffer, (uint32_t *)size); } TPM_RC TPML_ALG_PROPERTY_Unmarshal(TPML_ALG_PROPERTY *target, BYTE **buffer, INT32 *size) { return TSS_TPML_ALG_PROPERTY_Unmarshalu(target, buffer, (uint32_t *)size); } TPM_RC TPML_TAGGED_TPM_PROPERTY_Unmarshal(TPML_TAGGED_TPM_PROPERTY *target, BYTE **buffer, INT32 *size) { return TSS_TPML_TAGGED_TPM_PROPERTY_Unmarshalu(target, buffer, (uint32_t *)size); } TPM_RC TPML_TAGGED_PCR_PROPERTY_Unmarshal(TPML_TAGGED_PCR_PROPERTY *target, BYTE **buffer, INT32 *size) { return TSS_TPML_TAGGED_PCR_PROPERTY_Unmarshalu(target, buffer, (uint32_t *)size); } TPM_RC TPML_ECC_CURVE_Unmarshal(TPML_ECC_CURVE *target, BYTE **buffer, INT32 *size) { return TSS_TPML_ECC_CURVE_Unmarshalu(target, buffer, (uint32_t *)size); } #if 0 TPM_RC TPML_TAGGED_POLICY_Unmarshal(TPML_TAGGED_POLICY *target, BYTE **buffer, INT32 *size) { return TSS_TPML_TAGGED_POLICY_Unmarshalu(target, buffer, (uint32_t *)size); } #endif TPM_RC TPMU_CAPABILITIES_Unmarshal(TPMU_CAPABILITIES *target, BYTE **buffer, INT32 *size, UINT32 selector) { return TSS_TPMU_CAPABILITIES_Unmarshalu(target, buffer, (uint32_t *)size, selector); } TPM_RC TPMS_CLOCK_INFO_Unmarshal(TPMS_CLOCK_INFO *target, BYTE **buffer, INT32 *size) { return TSS_TPMS_CLOCK_INFO_Unmarshalu(target, buffer, (uint32_t *)size); } TPM_RC TPMS_TIME_INFO_Unmarshal(TPMS_TIME_INFO *target, BYTE **buffer, INT32 *size) { return TSS_TPMS_TIME_INFO_Unmarshalu(target, buffer, (uint32_t *)size); } TPM_RC TPMS_TIME_ATTEST_INFO_Unmarshal(TPMS_TIME_ATTEST_INFO *target, BYTE **buffer, INT32 *size) { return TSS_TPMS_TIME_ATTEST_INFO_Unmarshalu(target, buffer, (uint32_t *)size); } TPM_RC TPMS_CERTIFY_INFO_Unmarshal(TPMS_CERTIFY_INFO *target, BYTE **buffer, INT32 *size) { return TSS_TPMS_CERTIFY_INFO_Unmarshalu(target, buffer, (uint32_t *)size); } TPM_RC TPMS_QUOTE_INFO_Unmarshal(TPMS_QUOTE_INFO *target, BYTE **buffer, INT32 *size) { return TSS_TPMS_QUOTE_INFO_Unmarshalu(target, buffer, (uint32_t *)size); } TPM_RC TPMS_COMMAND_AUDIT_INFO_Unmarshal(TPMS_COMMAND_AUDIT_INFO *target, BYTE **buffer, INT32 *size) { return TSS_TPMS_COMMAND_AUDIT_INFO_Unmarshalu(target, buffer, (uint32_t *)size); } TPM_RC TPMS_SESSION_AUDIT_INFO_Unmarshal(TPMS_SESSION_AUDIT_INFO *target, BYTE **buffer, INT32 *size) { return TSS_TPMS_SESSION_AUDIT_INFO_Unmarshalu(target, buffer, (uint32_t *)size); } TPM_RC TPMS_CREATION_INFO_Unmarshal(TPMS_CREATION_INFO *target, BYTE **buffer, INT32 *size) { return TSS_TPMS_CREATION_INFO_Unmarshalu(target, buffer, (uint32_t *)size); } TPM_RC TPMS_NV_CERTIFY_INFO_Unmarshal(TPMS_NV_CERTIFY_INFO *target, BYTE **buffer, INT32 *size) { return TSS_TPMS_NV_CERTIFY_INFO_Unmarshalu(target, buffer, (uint32_t *)size); } TPM_RC TPMI_ST_ATTEST_Unmarshal(TPMI_ST_ATTEST *target, BYTE **buffer, INT32 *size) { return TSS_TPMI_ST_ATTEST_Unmarshalu(target, buffer, (uint32_t *)size); } TPM_RC TPMU_ATTEST_Unmarshal(TPMU_ATTEST *target, BYTE **buffer, INT32 *size, UINT32 selector) { return TSS_TPMU_ATTEST_Unmarshalu(target, buffer, (uint32_t *)size, selector); } TPM_RC TPMS_ATTEST_Unmarshal(TPMS_ATTEST *target, BYTE **buffer, INT32 *size) { return TSS_TPMS_ATTEST_Unmarshalu(target, buffer, (uint32_t *)size); } TPM_RC TPM2B_ATTEST_Unmarshal(TPM2B_ATTEST *target, BYTE **buffer, INT32 *size) { return TSS_TPM2B_ATTEST_Unmarshalu(target, buffer, (uint32_t *)size); } TPM_RC TPMS_CAPABILITY_DATA_Unmarshal(TPMS_CAPABILITY_DATA *target, BYTE **buffer, INT32 *size) { return TSS_TPMS_CAPABILITY_DATA_Unmarshalu(target, buffer, (uint32_t *)size); } TPM_RC TPMS_AUTH_RESPONSE_Unmarshal(TPMS_AUTH_RESPONSE *target, BYTE **buffer, INT32 *size) { return TSS_TPMS_AUTH_RESPONSE_Unmarshalu(target, buffer, (uint32_t *)size); } TPM_RC TPMI_AES_KEY_BITS_Unmarshal(TPMI_AES_KEY_BITS *target, BYTE **buffer, INT32 *size) { return TSS_TPMI_AES_KEY_BITS_Unmarshalu(target, buffer, (uint32_t *)size); } TPM_RC TPMU_SYM_KEY_BITS_Unmarshal(TPMU_SYM_KEY_BITS *target, BYTE **buffer, INT32 *size, UINT32 selector) { return TSS_TPMU_SYM_KEY_BITS_Unmarshalu(target, buffer, (uint32_t *)size, selector); } TPM_RC TPMU_SYM_MODE_Unmarshal(TPMU_SYM_MODE *target, BYTE **buffer, INT32 *size, UINT32 selector) { return TSS_TPMU_SYM_MODE_Unmarshalu(target, buffer, (uint32_t *)size, selector); } TPM_RC TPMT_SYM_DEF_Unmarshal(TPMT_SYM_DEF *target, BYTE **buffer, INT32 *size, BOOL allowNull) { return TSS_TPMT_SYM_DEF_Unmarshalu(target, buffer, (uint32_t *)size, allowNull); } TPM_RC TPMT_SYM_DEF_OBJECT_Unmarshal(TPMT_SYM_DEF_OBJECT *target, BYTE **buffer, INT32 *size, BOOL allowNull) { return TSS_TPMT_SYM_DEF_OBJECT_Unmarshalu(target, buffer, (uint32_t *)size, allowNull); } TPM_RC TPM2B_SYM_KEY_Unmarshal(TPM2B_SYM_KEY *target, BYTE **buffer, INT32 *size) { return TSS_TPM2B_SYM_KEY_Unmarshalu(target, buffer, (uint32_t *)size); } TPM_RC TPMS_SYMCIPHER_PARMS_Unmarshal(TPMS_SYMCIPHER_PARMS *target, BYTE **buffer, INT32 *size) { return TSS_TPMS_SYMCIPHER_PARMS_Unmarshalu(target, buffer, (uint32_t *)size); } #if 0 TPM_RC TPM2B_LABEL_Unmarshal(TPM2B_LABEL *target, BYTE **buffer, INT32 *size) { return TSS_TPM2B_LABEL_Unmarshalu(target, buffer, (uint32_t *)size); } #endif TPM_RC TPM2B_SENSITIVE_DATA_Unmarshal(TPM2B_SENSITIVE_DATA *target, BYTE **buffer, INT32 *size) { return TSS_TPM2B_SENSITIVE_DATA_Unmarshalu(target, buffer, (uint32_t *)size); } TPM_RC TPMS_SENSITIVE_CREATE_Unmarshal(TPMS_SENSITIVE_CREATE *target, BYTE **buffer, INT32 *size) { return TSS_TPMS_SENSITIVE_CREATE_Unmarshalu(target, buffer, (uint32_t *)size); } TPM_RC TPM2B_SENSITIVE_CREATE_Unmarshal(TPM2B_SENSITIVE_CREATE *target, BYTE **buffer, INT32 *size) { return TSS_TPM2B_SENSITIVE_CREATE_Unmarshalu(target, buffer, (uint32_t *)size); } TPM_RC TPMS_SCHEME_HASH_Unmarshal(TPMS_SCHEME_HASH *target, BYTE **buffer, INT32 *size) { return TSS_TPMS_SCHEME_HASH_Unmarshalu(target, buffer, (uint32_t *)size); } TPM_RC TPMS_SCHEME_ECDAA_Unmarshal(TPMS_SCHEME_ECDAA *target, BYTE **buffer, INT32 *size) { return TSS_TPMS_SCHEME_ECDAA_Unmarshalu(target, buffer, (uint32_t *)size); } TPM_RC TPMI_ALG_KEYEDHASH_SCHEME_Unmarshal(TPMI_ALG_KEYEDHASH_SCHEME *target, BYTE **buffer, INT32 *size, BOOL allowNull) { return TSS_TPMI_ALG_KEYEDHASH_SCHEME_Unmarshalu(target, buffer, (uint32_t *)size, allowNull); } TPM_RC TPMS_SCHEME_HMAC_Unmarshal(TPMS_SCHEME_HMAC *target, BYTE **buffer, INT32 *size) { return TSS_TPMS_SCHEME_HMAC_Unmarshalu(target, buffer, (uint32_t *)size); } TPM_RC TPMS_SCHEME_XOR_Unmarshal(TPMS_SCHEME_XOR *target, BYTE **buffer, INT32 *size) { return TSS_TPMS_SCHEME_XOR_Unmarshalu(target, buffer, (uint32_t *)size); } TPM_RC TPMU_SCHEME_KEYEDHASH_Unmarshal(TPMU_SCHEME_KEYEDHASH *target, BYTE **buffer, INT32 *size, UINT32 selector) { return TSS_TPMU_SCHEME_KEYEDHASH_Unmarshalu(target, buffer, (uint32_t *)size, selector); } TPM_RC TPMT_KEYEDHASH_SCHEME_Unmarshal(TPMT_KEYEDHASH_SCHEME *target, BYTE **buffer, INT32 *size, BOOL allowNull) { return TSS_TPMT_KEYEDHASH_SCHEME_Unmarshalu(target, buffer, (uint32_t *)size, allowNull); } TPM_RC TPMS_SIG_SCHEME_ECDAA_Unmarshal(TPMS_SIG_SCHEME_ECDAA *target, BYTE **buffer, INT32 *size) { return TSS_TPMS_SIG_SCHEME_ECDAA_Unmarshalu(target, buffer, (uint32_t *)size); } TPM_RC TPMS_SIG_SCHEME_ECDSA_Unmarshal(TPMS_SIG_SCHEME_ECDSA *target, BYTE **buffer, INT32 *size) { return TSS_TPMS_SIG_SCHEME_ECDSA_Unmarshalu(target, buffer, (uint32_t *)size); } TPM_RC TPMS_SIG_SCHEME_ECSCHNORR_Unmarshal(TPMS_SIG_SCHEME_ECSCHNORR *target, BYTE **buffer, INT32 *size) { return TSS_TPMS_SIG_SCHEME_ECSCHNORR_Unmarshalu(target, buffer, (uint32_t *)size); } TPM_RC TPMS_SIG_SCHEME_RSAPSS_Unmarshal(TPMS_SIG_SCHEME_RSAPSS *target, BYTE **buffer, INT32 *size) { return TSS_TPMS_SIG_SCHEME_RSAPSS_Unmarshalu(target, buffer, (uint32_t *)size); } TPM_RC TPMS_SIG_SCHEME_RSASSA_Unmarshal(TPMS_SIG_SCHEME_RSASSA *target, BYTE **buffer, INT32 *size) { return TSS_TPMS_SIG_SCHEME_RSASSA_Unmarshalu(target, buffer, (uint32_t *)size); } TPM_RC TPMS_SIG_SCHEME_SM2_Unmarshal(TPMS_SIG_SCHEME_SM2 *target, BYTE **buffer, INT32 *size) { return TSS_TPMS_SIG_SCHEME_SM2_Unmarshalu(target, buffer, (uint32_t *)size); } TPM_RC TPMU_SIG_SCHEME_Unmarshal(TPMU_SIG_SCHEME *target, BYTE **buffer, INT32 *size, UINT32 selector) { return TSS_TPMU_SIG_SCHEME_Unmarshalu(target, buffer, (uint32_t *)size, selector); } TPM_RC TPMT_SIG_SCHEME_Unmarshal(TPMT_SIG_SCHEME *target, BYTE **buffer, INT32 *size, BOOL allowNull) { return TSS_TPMT_SIG_SCHEME_Unmarshalu(target, buffer, (uint32_t *)size, allowNull); } TPM_RC TPMS_ENC_SCHEME_OAEP_Unmarshal(TPMS_ENC_SCHEME_OAEP *target, BYTE **buffer, INT32 *size) { return TSS_TPMS_ENC_SCHEME_OAEP_Unmarshalu(target, buffer, (uint32_t *)size); } /* NOTE: Marked as const function in header */ TPM_RC TPMS_ENC_SCHEME_RSAES_Unmarshal(TPMS_ENC_SCHEME_RSAES *target, BYTE **buffer, INT32 *size) { return TSS_TPMS_ENC_SCHEME_RSAES_Unmarshalu(target, buffer, (uint32_t *)size); } TPM_RC TPMS_KEY_SCHEME_ECDH_Unmarshal(TPMS_KEY_SCHEME_ECDH *target, BYTE **buffer, INT32 *size) { return TSS_TPMS_KEY_SCHEME_ECDH_Unmarshalu(target, buffer, (uint32_t *)size); } TPM_RC TPMS_KEY_SCHEME_ECMQV_Unmarshal(TPMS_KEY_SCHEME_ECMQV *target, BYTE **buffer, INT32 *size) { return TSS_TPMS_KEY_SCHEME_ECMQV_Unmarshalu(target, buffer, (uint32_t *)size); } TPM_RC TPMS_SCHEME_KDF1_SP800_108_Unmarshal(TPMS_SCHEME_KDF1_SP800_108 *target, BYTE **buffer, INT32 *size) { return TSS_TPMS_SCHEME_KDF1_SP800_108_Unmarshalu(target, buffer, (uint32_t *)size); } TPM_RC TPMS_SCHEME_KDF1_SP800_56A_Unmarshal(TPMS_SCHEME_KDF1_SP800_56A *target, BYTE **buffer, INT32 *size) { return TSS_TPMS_SCHEME_KDF1_SP800_56A_Unmarshalu(target, buffer, (uint32_t *)size); } TPM_RC TPMS_SCHEME_KDF2_Unmarshal(TPMS_SCHEME_KDF2 *target, BYTE **buffer, INT32 *size) { return TSS_TPMS_SCHEME_KDF2_Unmarshalu(target, buffer, (uint32_t *)size); } TPM_RC TPMS_SCHEME_MGF1_Unmarshal(TPMS_SCHEME_MGF1 *target, BYTE **buffer, INT32 *size) { return TSS_TPMS_SCHEME_MGF1_Unmarshalu(target, buffer, (uint32_t *)size); } TPM_RC TPMU_KDF_SCHEME_Unmarshal(TPMU_KDF_SCHEME *target, BYTE **buffer, INT32 *size, UINT32 selector) { return TSS_TPMU_KDF_SCHEME_Unmarshalu(target, buffer, (uint32_t *)size, selector); } TPM_RC TPMT_KDF_SCHEME_Unmarshal(TPMT_KDF_SCHEME *target, BYTE **buffer, INT32 *size, BOOL allowNull) { return TSS_TPMT_KDF_SCHEME_Unmarshalu(target, buffer, (uint32_t *)size, allowNull); } #if 0 TPM_RC TPMI_ALG_ASYM_SCHEME_Unmarshal(TPMI_ALG_ASYM_SCHEME *target, BYTE **buffer, INT32 *size, BOOL allowNull) { return TSS_TPMI_ALG_ASYM_SCHEME_Unmarshalu(target, buffer, (uint32_t *)size, allowNull); } #endif TPM_RC TPMU_ASYM_SCHEME_Unmarshal(TPMU_ASYM_SCHEME *target, BYTE **buffer, INT32 *size, UINT32 selector) { return TSS_TPMU_ASYM_SCHEME_Unmarshalu(target, buffer, (uint32_t *)size, selector); } #if 0 TPM_RC TPMT_ASYM_SCHEME_Unmarshal(TPMT_ASYM_SCHEME *target, BYTE **buffer, INT32 *size, BOOL allowNull) { return TSS_TPMT_ASYM_SCHEME_Unmarshalu(target, buffer, (uint32_t *)size, allowNull); } #endif TPM_RC TPMI_ALG_RSA_SCHEME_Unmarshal(TPMI_ALG_RSA_SCHEME *target, BYTE **buffer, INT32 *size, BOOL allowNull) { return TSS_TPMI_ALG_RSA_SCHEME_Unmarshalu(target, buffer, (uint32_t *)size, allowNull); } TPM_RC TPMT_RSA_SCHEME_Unmarshal(TPMT_RSA_SCHEME *target, BYTE **buffer, INT32 *size, BOOL allowNull) { return TSS_TPMT_RSA_SCHEME_Unmarshalu(target, buffer, (uint32_t *)size, allowNull); } TPM_RC TPMI_ALG_RSA_DECRYPT_Unmarshal(TPMI_ALG_RSA_DECRYPT *target, BYTE **buffer, INT32 *size, BOOL allowNull) { return TSS_TPMI_ALG_RSA_DECRYPT_Unmarshalu(target, buffer, (uint32_t *)size, allowNull); } TPM_RC TPMT_RSA_DECRYPT_Unmarshal(TPMT_RSA_DECRYPT *target, BYTE **buffer, INT32 *size, BOOL allowNull) { return TSS_TPMT_RSA_DECRYPT_Unmarshalu(target, buffer, (uint32_t *)size, allowNull); } TPM_RC TPM2B_PUBLIC_KEY_RSA_Unmarshal(TPM2B_PUBLIC_KEY_RSA *target, BYTE **buffer, INT32 *size) { return TSS_TPM2B_PUBLIC_KEY_RSA_Unmarshalu(target, buffer, (uint32_t *)size); } TPM_RC TPMI_RSA_KEY_BITS_Unmarshal(TPMI_RSA_KEY_BITS *target, BYTE **buffer, INT32 *size) { return TSS_TPMI_RSA_KEY_BITS_Unmarshalu(target, buffer, (uint32_t *)size); } TPM_RC TPM2B_PRIVATE_KEY_RSA_Unmarshal(TPM2B_PRIVATE_KEY_RSA *target, BYTE **buffer, INT32 *size) { return TSS_TPM2B_PRIVATE_KEY_RSA_Unmarshalu(target, buffer, (uint32_t *)size); } TPM_RC TPM2B_ECC_PARAMETER_Unmarshal(TPM2B_ECC_PARAMETER *target, BYTE **buffer, INT32 *size) { return TSS_TPM2B_ECC_PARAMETER_Unmarshalu(target, buffer, (uint32_t *)size); } TPM_RC TPMS_ECC_POINT_Unmarshal(TPMS_ECC_POINT *target, BYTE **buffer, INT32 *size) { return TSS_TPMS_ECC_POINT_Unmarshalu(target, buffer, (uint32_t *)size); } TPM_RC TPM2B_ECC_POINT_Unmarshal(TPM2B_ECC_POINT *target, BYTE **buffer, INT32 *size) { return TSS_TPM2B_ECC_POINT_Unmarshalu(target, buffer, (uint32_t *)size); } TPM_RC TPMI_ALG_ECC_SCHEME_Unmarshal(TPMI_ALG_ECC_SCHEME *target, BYTE **buffer, INT32 *size, BOOL allowNull) { return TSS_TPMI_ALG_ECC_SCHEME_Unmarshalu(target, buffer, (uint32_t *)size, allowNull); } TPM_RC TPMI_ECC_CURVE_Unmarshal(TPMI_ECC_CURVE *target, BYTE **buffer, INT32 *size) { return TSS_TPMI_ECC_CURVE_Unmarshalu(target, buffer, (uint32_t *)size); } TPM_RC TPMT_ECC_SCHEME_Unmarshal(TPMT_ECC_SCHEME *target, BYTE **buffer, INT32 *size, BOOL allowNull) { return TSS_TPMT_ECC_SCHEME_Unmarshalu(target, buffer, (uint32_t *)size, allowNull); } TPM_RC TPMS_ALGORITHM_DETAIL_ECC_Unmarshal(TPMS_ALGORITHM_DETAIL_ECC *target, BYTE **buffer, INT32 *size) { return TSS_TPMS_ALGORITHM_DETAIL_ECC_Unmarshalu(target, buffer, (uint32_t *)size); } TPM_RC TPMS_SIGNATURE_RSA_Unmarshal(TPMS_SIGNATURE_RSA *target, BYTE **buffer, INT32 *size) { return TSS_TPMS_SIGNATURE_RSA_Unmarshalu(target, buffer, (uint32_t *)size); } TPM_RC TPMS_SIGNATURE_RSASSA_Unmarshal(TPMS_SIGNATURE_RSASSA *target, BYTE **buffer, INT32 *size) { return TSS_TPMS_SIGNATURE_RSASSA_Unmarshalu(target, buffer, (uint32_t *)size); } TPM_RC TPMS_SIGNATURE_RSAPSS_Unmarshal(TPMS_SIGNATURE_RSAPSS *target, BYTE **buffer, INT32 *size) { return TSS_TPMS_SIGNATURE_RSAPSS_Unmarshalu(target, buffer, (uint32_t *)size); } TPM_RC TPMS_SIGNATURE_ECC_Unmarshal(TPMS_SIGNATURE_ECC *target, BYTE **buffer, INT32 *size) { return TSS_TPMS_SIGNATURE_ECC_Unmarshalu(target, buffer, (uint32_t *)size); } TPM_RC TPMS_SIGNATURE_ECDSA_Unmarshal(TPMS_SIGNATURE_ECDSA *target, BYTE **buffer, INT32 *size) { return TSS_TPMS_SIGNATURE_ECDSA_Unmarshalu(target, buffer, (uint32_t *)size); } TPM_RC TPMS_SIGNATURE_ECDAA_Unmarshal(TPMS_SIGNATURE_ECDAA *target, BYTE **buffer, INT32 *size) { return TSS_TPMS_SIGNATURE_ECDAA_Unmarshalu(target, buffer, (uint32_t *)size); } TPM_RC TPMS_SIGNATURE_SM2_Unmarshal(TPMS_SIGNATURE_SM2 *target, BYTE **buffer, INT32 *size) { return TSS_TPMS_SIGNATURE_SM2_Unmarshalu(target, buffer, (uint32_t *)size); } TPM_RC TPMS_SIGNATURE_ECSCHNORR_Unmarshal(TPMS_SIGNATURE_ECSCHNORR *target, BYTE **buffer, INT32 *size) { return TSS_TPMS_SIGNATURE_ECSCHNORR_Unmarshalu(target, buffer, (uint32_t *)size); } TPM_RC TPMU_SIGNATURE_Unmarshal(TPMU_SIGNATURE *target, BYTE **buffer, INT32 *size, UINT32 selector) { return TSS_TPMU_SIGNATURE_Unmarshalu(target, buffer, (uint32_t *)size, selector); } TPM_RC TPMT_SIGNATURE_Unmarshal(TPMT_SIGNATURE *target, BYTE **buffer, INT32 *size, BOOL allowNull) { return TSS_TPMT_SIGNATURE_Unmarshalu(target, buffer, (uint32_t *)size, allowNull); } TPM_RC TPM2B_ENCRYPTED_SECRET_Unmarshal(TPM2B_ENCRYPTED_SECRET *target, BYTE **buffer, INT32 *size) { return TSS_TPM2B_ENCRYPTED_SECRET_Unmarshalu(target, buffer, (uint32_t *)size); } TPM_RC TPMI_ALG_PUBLIC_Unmarshal(TPMI_ALG_PUBLIC *target, BYTE **buffer, INT32 *size) { return TSS_TPMI_ALG_PUBLIC_Unmarshalu(target, buffer, (uint32_t *)size); } TPM_RC TPMU_PUBLIC_ID_Unmarshal(TPMU_PUBLIC_ID *target, BYTE **buffer, INT32 *size, UINT32 selector) { return TSS_TPMU_PUBLIC_ID_Unmarshalu(target, buffer, (uint32_t *)size, selector); } TPM_RC TPMS_KEYEDHASH_PARMS_Unmarshal(TPMS_KEYEDHASH_PARMS *target, BYTE **buffer, INT32 *size) { return TSS_TPMS_KEYEDHASH_PARMS_Unmarshalu(target, buffer, (uint32_t *)size); } #if 0 TPM_RC TPMS_ASYM_PARMS_Unmarshal(TPMS_ASYM_PARMS *target, BYTE **buffer, INT32 *size) { return TSS_TPMS_ASYM_PARMS_Unmarshalu(target, buffer, (uint32_t *)size); } #endif TPM_RC TPMS_RSA_PARMS_Unmarshal(TPMS_RSA_PARMS *target, BYTE **buffer, INT32 *size) { return TSS_TPMS_RSA_PARMS_Unmarshalu(target, buffer, (uint32_t *)size); } TPM_RC TPMS_ECC_PARMS_Unmarshal(TPMS_ECC_PARMS *target, BYTE **buffer, INT32 *size) { return TSS_TPMS_ECC_PARMS_Unmarshalu(target, buffer, (uint32_t *)size); } TPM_RC TPMU_PUBLIC_PARMS_Unmarshal(TPMU_PUBLIC_PARMS *target, BYTE **buffer, INT32 *size, UINT32 selector) { return TSS_TPMU_PUBLIC_PARMS_Unmarshalu(target, buffer, (uint32_t *)size, selector); } TPM_RC TPMT_PUBLIC_PARMS_Unmarshal(TPMT_PUBLIC_PARMS *target, BYTE **buffer, INT32 *size) { return TSS_TPMT_PUBLIC_PARMS_Unmarshalu(target, buffer, (uint32_t *)size); } TPM_RC TPMT_PUBLIC_Unmarshal(TPMT_PUBLIC *target, BYTE **buffer, INT32 *size, BOOL allowNull) { return TSS_TPMT_PUBLIC_Unmarshalu(target, buffer, (uint32_t *)size, allowNull); } TPM_RC TPM2B_PUBLIC_Unmarshal(TPM2B_PUBLIC *target, BYTE **buffer, INT32 *size, BOOL allowNull) { return TSS_TPM2B_PUBLIC_Unmarshalu(target, buffer, (uint32_t *)size, allowNull); } TPM_RC TPM2B_TEMPLATE_Unmarshal(TPM2B_TEMPLATE *target, BYTE **buffer, INT32 *size) { return TSS_TPM2B_TEMPLATE_Unmarshalu(target, buffer, (uint32_t *)size); } TPM_RC TPMU_SENSITIVE_COMPOSITE_Unmarshal(TPMU_SENSITIVE_COMPOSITE *target, BYTE **buffer, INT32 *size, UINT32 selector) { return TSS_TPMU_SENSITIVE_COMPOSITE_Unmarshalu(target, buffer, (uint32_t *)size, selector); } TPM_RC TPMT_SENSITIVE_Unmarshal(TPMT_SENSITIVE *target, BYTE **buffer, INT32 *size) { return TSS_TPMT_SENSITIVE_Unmarshalu(target, buffer, (uint32_t *)size); } TPM_RC TPM2B_SENSITIVE_Unmarshal(TPM2B_SENSITIVE *target, BYTE **buffer, INT32 *size) { return TSS_TPM2B_SENSITIVE_Unmarshalu(target, buffer, (uint32_t *)size); } TPM_RC TPM2B_PRIVATE_Unmarshal(TPM2B_PRIVATE *target, BYTE **buffer, INT32 *size) { return TSS_TPM2B_PRIVATE_Unmarshalu(target, buffer, (uint32_t *)size); } TPM_RC TPM2B_ID_OBJECT_Unmarshal(TPM2B_ID_OBJECT *target, BYTE **buffer, INT32 *size) { return TSS_TPM2B_ID_OBJECT_Unmarshalu(target, buffer, (uint32_t *)size); } TPM_RC TPMA_NV_Unmarshal(TPMA_NV *target, BYTE **buffer, INT32 *size) { return TSS_TPMA_NV_Unmarshalu(target, buffer, (uint32_t *)size); } TPM_RC TPMS_NV_PUBLIC_Unmarshal(TPMS_NV_PUBLIC *target, BYTE **buffer, INT32 *size) { return TSS_TPMS_NV_PUBLIC_Unmarshalu(target, buffer, (uint32_t *)size); } TPM_RC TPM2B_NV_PUBLIC_Unmarshal(TPM2B_NV_PUBLIC *target, BYTE **buffer, INT32 *size) { return TSS_TPM2B_NV_PUBLIC_Unmarshalu(target, buffer, (uint32_t *)size); } TPM_RC TPM2B_CONTEXT_SENSITIVE_Unmarshal(TPM2B_CONTEXT_SENSITIVE *target, BYTE **buffer, INT32 *size) { return TSS_TPM2B_CONTEXT_SENSITIVE_Unmarshalu(target, buffer, (uint32_t *)size); } TPM_RC TPMS_CONTEXT_DATA_Unmarshal(TPMS_CONTEXT_DATA *target, BYTE **buffer, INT32 *size) { return TSS_TPMS_CONTEXT_DATA_Unmarshalu(target, buffer, (uint32_t *)size); } TPM_RC TPM2B_CONTEXT_DATA_Unmarshal(TPM2B_CONTEXT_DATA *target, BYTE **buffer, INT32 *size) { return TSS_TPM2B_CONTEXT_DATA_Unmarshalu(target, buffer, (uint32_t *)size); } TPM_RC TPMS_CONTEXT_Unmarshal(TPMS_CONTEXT *target, BYTE **buffer, INT32 *size) { return TSS_TPMS_CONTEXT_Unmarshalu(target, buffer, (uint32_t *)size); } TPM_RC TPMS_CREATION_DATA_Unmarshal(TPMS_CREATION_DATA *target, BYTE **buffer, INT32 *size) { return TSS_TPMS_CREATION_DATA_Unmarshalu(target, buffer, (uint32_t *)size); } TPM_RC TPM2B_CREATION_DATA_Unmarshal(TPM2B_CREATION_DATA *target, BYTE **buffer, INT32 *size) { return TSS_TPM2B_CREATION_DATA_Unmarshalu(target, buffer, (uint32_t *)size); } #endif /* TPM_TSS_NOCMDCHECK */ #endif /* TPM_TPM20 */