/* Copyright 2019 The Chromium OS Authors. All rights reserved. * Use of this source code is governed by a BSD-style license that can be * found in the LICENSE file. */ /* Stuff from tpm2 directory. */ #define HIDE_EC_STDLIB #define NV_C #include "Global.h" #undef NV_C #include "NV_fp.h" #include "tpm_generated.h" #include "nvmem.h" #include "util.h" #define NVMEM_CR50_SIZE 272 #ifndef TEST_FUZZ uint32_t nvmem_user_sizes[NVMEM_NUM_USERS] = {MOCK_NV_MEMORY_SIZE, NVMEM_CR50_SIZE}; #endif uint32_t s_evictNvStart; uint32_t s_evictNvEnd; /* Calculate size of TPM NVMEM. */ #define MOCK_NV_MEMORY_SIZE \ (NVMEM_PARTITION_SIZE - sizeof(struct nvmem_tag) - NVMEM_CR50_SIZE) /* * Sizes of the reserved objects stored in the TPM NVMEM. Note that the second * last object is in fact a variable size field starting with 4 bytes of size * and then up to 512 bytes of actual index data. The array below assumes that * the full 512 bytes of the index space are used. */ const uint16_t res_sizes[] = {4, 2, 2, 2, 66, 66, 66, 66, 66, 66, 34, 34, 34, 66, 66, 66, 8, 4, 134, 28, 3, 4, 4, 4, 4, 4, 2, 15, 2, 8, 4, 4, 4, 96, 2844, 424, 516, 8}; static uint16_t res_addrs[ARRAY_SIZE(res_sizes)]; BOOL NvEarlyStageFindHandle(TPM_HANDLE handle) { size_t i; res_addrs[0] = 0; for (i = 1; i < ARRAY_SIZE(res_addrs); i++) res_addrs[i] = res_addrs[i - 1] + res_sizes[i - 1]; s_evictNvStart = res_addrs[i - 1] + res_sizes[i - 1]; s_evictNvEnd = MOCK_NV_MEMORY_SIZE; return 0; } void NvGetReserved(UINT32 index, NV_RESERVED_ITEM *ri) { if (index < ARRAY_SIZE(res_sizes)) { ri->size = res_sizes[index]; ri->offset = res_addrs[index]; } else { ri->size = 0; } } UINT16 UINT16_Marshal(UINT16 *source, BYTE **buffer, INT32 *size) { uint16_t value; if (!size || (*size < sizeof(value))) return 0; value = htobe16(*source); memcpy(*buffer, &value, sizeof(value)); *buffer += sizeof(value); *size -= sizeof(value); return sizeof(value); } UINT16 UINT32_Marshal(UINT32 *source, BYTE **buffer, INT32 *size) { uint32_t value; if (!size || (*size < sizeof(value))) return 0; value = htobe32(*source); memcpy(*buffer, &value, sizeof(value)); *buffer += sizeof(value); *size -= sizeof(value); return sizeof(value); } UINT16 UINT64_Marshal(UINT64 *source, BYTE **buffer, INT32 *size) { uint64_t value; if (!size || (*size < sizeof(value))) return 0; value = htobe64(*source); memcpy(*buffer, &value, sizeof(value)); *buffer += sizeof(value); *size -= sizeof(value); return sizeof(value); } UINT16 TPM2B_DIGEST_Marshal(TPM2B_DIGEST *source, BYTE **buffer, INT32 *size) { UINT16 total_size; INT32 i; uint8_t *p; total_size = UINT16_Marshal(&source->t.size, buffer, size); p = *buffer; for (i = 0; (i < source->t.size) && *size; ++i) { *p++ = source->t.buffer[i]; *size -= 1; } total_size += i; *buffer = p; return total_size; } uint16_t TPM2B_AUTH_Marshal(TPM2B_AUTH *source, BYTE **buffer, INT32 *size) { return TPM2B_DIGEST_Marshal(source, buffer, size); } uint16_t TPM2B_NONCE_Marshal(TPM2B_AUTH *source, BYTE **buffer, INT32 *size) { return TPM2B_DIGEST_Marshal(source, buffer, size); } TPM_RC UINT16_Unmarshal(UINT16 *target, BYTE **buffer, INT32 *size) { uint16_t value; if (!size || *size < sizeof(value)) return TPM_RC_INSUFFICIENT; memcpy(&value, *buffer, sizeof(value)); *target = be16toh(value); *buffer += sizeof(value); *size -= sizeof(value); return TPM_RC_SUCCESS; } TPM_RC UINT32_Unmarshal(UINT32 *target, BYTE **buffer, INT32 *size) { uint32_t value; if (!size || *size < sizeof(value)) return TPM_RC_INSUFFICIENT; memcpy(&value, *buffer, sizeof(value)); *target = be32toh(value); *buffer += sizeof(value); *size -= sizeof(value); return TPM_RC_SUCCESS; } TPM_RC UINT64_Unmarshal(UINT64 *target, BYTE **buffer, INT32 *size) { uint64_t value; if (!size || *size < sizeof(value)) return TPM_RC_INSUFFICIENT; memcpy(&value, *buffer, sizeof(value)); *target = be64toh(value); *buffer += sizeof(value); *size -= sizeof(value); return TPM_RC_SUCCESS; } TPM_RC TPM2B_DIGEST_Unmarshal(TPM2B_DIGEST *target, BYTE **buffer, INT32 *size) { TPM_RC result; INT32 i; uint8_t *p; result = UINT16_Unmarshal(&target->t.size, buffer, size); if (result != TPM_RC_SUCCESS) return result; if (target->t.size == 0) return TPM_RC_SUCCESS; if ((target->t.size > sizeof(TPMU_HA)) || (target->t.size > *size)) return TPM_RC_SIZE; p = *buffer; for (i = 0; i < target->t.size; ++i) target->t.buffer[i] = *p++; *buffer = p; *size -= i; return TPM_RC_SUCCESS; } TPM_RC TPM2B_AUTH_Unmarshal(TPM2B_AUTH *target, BYTE **buffer, INT32 *size) { return TPM2B_DIGEST_Unmarshal(target, buffer, size); } TPM_RC TPM2B_NONCE_Unmarshal(TPM2B_AUTH *target, BYTE **buffer, INT32 *size) { return TPM2B_DIGEST_Unmarshal(target, buffer, size); }