/* Copyright 2016 The ChromiumOS Authors * Use of this source code is governed by a BSD-style license that can be * found in the LICENSE file. */ #include "2common.h" #include "2sysincludes.h" #include "tpm2_marshaling.h" static uint16_t tpm_tag; /* Depends on the command type. */ static int ph_disabled; /* Platform hierarchy disabled. */ static void write_be16(void *dest, uint16_t val) { uint8_t *byte_dest = dest; byte_dest[0] = val >> 8; byte_dest[1] = val; } static void write_be32(void *dest, uint32_t val) { uint8_t *byte_dest = dest; byte_dest[0] = val >> 24; byte_dest[1] = val >> 16; byte_dest[2] = val >> 8; byte_dest[3] = val; } static uint16_t read_be16(const void *src) { const uint8_t *s = src; return (((uint16_t)s[0]) << 8) | (((uint16_t)s[1]) << 0); } static inline uint32_t read_be32(const void *src) { const uint8_t *s = src; return (((uint32_t)s[0]) << 24) | (((uint32_t)s[1]) << 16) | (((uint32_t)s[2]) << 8) | (((uint32_t)s[3]) << 0); } /* * Each unmarshaling function receives a pointer to the buffer pointer and a * pointer to the size of data still in the buffer. The function extracts data * from the buffer and adjusts both buffer pointer and remaining data size. * * Should there be not enough data in the buffer to unmarshal the required * object, the remaining data size is set to -1 to indicate the error. The * remaining data size is expected to be set to zero once the last data item * has been extracted from the buffer. */ static uint8_t unmarshal_u8(void **buffer, int *buffer_space) { uint8_t value; if (*buffer_space < sizeof(value)) { *buffer_space = -1; /* Indicate a failure. */ return 0; } value = *(uint8_t *)(*buffer); *buffer = (void *) ((uintptr_t) (*buffer) + sizeof(value)); *buffer_space -= sizeof(value); return value; } static uint16_t unmarshal_u16(void **buffer, int *buffer_space) { uint16_t value; if (*buffer_space < sizeof(value)) { *buffer_space = -1; /* Indicate a failure. */ return 0; } value = read_be16(*buffer); *buffer = (void *) ((uintptr_t) (*buffer) + sizeof(value)); *buffer_space -= sizeof(value); return value; } static uint32_t unmarshal_u32(void **buffer, int *buffer_space) { uint32_t value; if (*buffer_space < sizeof(value)) { *buffer_space = -1; /* Indicate a failure. */ return 0; } value = read_be32(*buffer); *buffer = (void *) ((uintptr_t) (*buffer) + sizeof(value)); *buffer_space -= sizeof(value); return value; } #define unmarshal_TPM_HANDLE(a, b) unmarshal_u32(a, b) #define unmarshal_ALG_ID(a, b) unmarshal_u16(a, b) static void unmarshal_TPM2B(void **buffer, int *size, TPM2B *tpm2b) { tpm2b->size = unmarshal_u16(buffer, size); if (tpm2b->size > *size) { VB2_DEBUG("size mismatch: expected %d, remaining %d\n", tpm2b->size, *size); tpm2b->buffer = NULL; tpm2b->size = 0; *buffer = NULL; *size = -1; return; } tpm2b->buffer = *buffer; *buffer = ((uint8_t *)(*buffer)) + tpm2b->size; *size -= tpm2b->size; } static void unmarshal_authorization_section(void **buffer, int *size, const char *cmd_name) { /* * Let's ignore the authorisation section. It should be 5 bytes total, * just confirm that this is the case and report any discrepancy. */ if (*size != 5) VB2_DEBUG("unexpected authorisation section size %d for %s\n", *size, cmd_name); *buffer = ((uint8_t *)(*buffer)) + *size; *size = 0; } static void unmarshal_nv_read(void **buffer, int *size, struct nv_read_response *nvr) { /* Total size of the parameter field. */ nvr->params_size = unmarshal_u32(buffer, size); unmarshal_TPM2B(buffer, size, &nvr->buffer); if (nvr->params_size != (nvr->buffer.size + sizeof(nvr->buffer.size))) { VB2_DEBUG("parameter/buffer %d/%d size mismatch", nvr->params_size, nvr->buffer.size); return; } if (*size < 0) return; unmarshal_authorization_section(buffer, size, "NV_Read"); } static void unmarshal_read_public(void **buffer, int *size, struct read_public_response *rpr) { unmarshal_TPM2B(buffer, size, &rpr->buffer); if (*size < 0) return; /* Drain the name & authorization sections. */ *buffer = ((uint8_t *)(*buffer)) + *size; *size = 0; } static void unmarshal_TPMS_NV_PUBLIC(void **buffer, int *size, TPMS_NV_PUBLIC *pub) { int tpm2b_size = unmarshal_u16(buffer, size); if (tpm2b_size > *size) { VB2_DEBUG("size mismatch: expected %d, remaining %d\n", tpm2b_size, *size); *size = -1; return; } *size -= tpm2b_size; pub->nvIndex = unmarshal_TPM_HANDLE(buffer, &tpm2b_size); pub->nameAlg = unmarshal_ALG_ID(buffer, &tpm2b_size); pub->attributes = unmarshal_u32(buffer, &tpm2b_size); unmarshal_TPM2B(buffer, &tpm2b_size, &pub->authPolicy); pub->dataSize = unmarshal_u16(buffer, &tpm2b_size); if (tpm2b_size != 0) { VB2_DEBUG("TPMS_NV_PUBLIC size doesn't match size field\n"); *size = -1; return; } } static void unmarshal_nv_read_public(void **buffer, int *size, struct nv_read_public_response *nv_pub) { unmarshal_TPMS_NV_PUBLIC(buffer, size, &nv_pub->nvPublic); unmarshal_TPM2B(buffer, size, &nv_pub->nvName); if (*size > 0) { VB2_DEBUG("extra %d bytes after nvName\n", *size); *size = -1; return; } } static void unmarshal_TPML_TAGGED_TPM_PROPERTY(void **buffer, int *size, TPML_TAGGED_TPM_PROPERTY *prop) { prop->count = unmarshal_u32(buffer, size); if (prop->count != 1) { *size = -1; VB2_DEBUG("Request to unmarshal unsupported " "number of properties: %u\n", prop->count); return; } prop->tpm_property[0].property = unmarshal_u32(buffer, size); prop->tpm_property[0].value = unmarshal_u32(buffer, size); } static void unmarshal_TPMS_CAPABILITY_DATA(void **buffer, int *size, TPMS_CAPABILITY_DATA *cap_data) { cap_data->capability = unmarshal_u32(buffer, size); switch (cap_data->capability) { case TPM_CAP_TPM_PROPERTIES: unmarshal_TPML_TAGGED_TPM_PROPERTY(buffer, size, &cap_data->data. tpm_properties); break; default: *size = -1; VB2_DEBUG("Request to unmarshal unsupported capability %#x\n", cap_data->capability); } } static void unmarshal_get_capability(void **buffer, int *size, struct get_capability_response *cap) { /* Total size of the parameter field. */ cap->more_data = unmarshal_u8(buffer, size); unmarshal_TPMS_CAPABILITY_DATA(buffer, size, &cap->capability_data); } static void unmarshal_get_random(void **buffer, int *size, struct get_random_response *random) { unmarshal_TPM2B(buffer, size, &random->random_bytes); } static void unmarshal_create_primary(void **buffer, int *size, struct create_primary_response *resp) { resp->object_handle = unmarshal_TPM_HANDLE(buffer, size); /* Drain the remaining sections. */ *buffer = ((uint8_t *)(*buffer)) + *size; *size = 0; } /* * Each marshaling function receives a pointer to the buffer to marshal into, * a pointer to the data item to be marshaled, and a pointer to the remaining * room in the buffer. */ /* * Marshaling an arbitrary blob requires its size in addition to common * parameter set. */ static void marshal_blob(void **buffer, void *blob, size_t blob_size, int *buffer_space) { if (*buffer_space < blob_size) { *buffer_space = -1; return; } memcpy(*buffer, blob, blob_size); *buffer_space -= blob_size; *buffer = (void *)((uintptr_t)(*buffer) + blob_size); } static void marshal_u8(void **buffer, uint8_t value, int *buffer_space) { uint8_t *bp = *buffer; if (*buffer_space < sizeof(value)) { *buffer_space = -1; return; } *bp++ = value; *buffer = bp; *buffer_space -= sizeof(value); } static void marshal_u16(void **buffer, uint16_t value, int *buffer_space) { if (*buffer_space < sizeof(value)) { *buffer_space = -1; return; } write_be16(*buffer, value); *buffer = (void *)((uintptr_t)(*buffer) + sizeof(value)); *buffer_space -= sizeof(value); } static void marshal_u32(void **buffer, uint32_t value, int *buffer_space) { if (*buffer_space < sizeof(value)) { *buffer_space = -1; return; } write_be32(*buffer, value); *buffer = (void *)((uintptr_t)(*buffer) + sizeof(value)); *buffer_space -= sizeof(value); } #define marshal_TPM_HANDLE(a, b, c) marshal_u32(a, b, c) #define marshal_TPM_SU(a, b, c) marshal_u16(a, b, c) #define marshal_ALG_ID(a, b, c) marshal_u16(a, b, c) #define marshal_TPMI_ALG_HASH(a, b, c) marshal_u16(a, b, c) /* * For TPM2B* structures the size field (16 or 32 bits) goes before the data. * When marshaling, we first reserve the space for the size field, then * marshal the data, then fill the reserved size field with the actual size * of the marshaled data. */ typedef struct { int size; void *location; } tpm2_marshal_size_field; static void marshal_reserve_size_field(void **buffer, tpm2_marshal_size_field *field, int field_size, int *buffer_space) { if (field_size != sizeof(uint32_t) && field_size != sizeof(uint16_t)) { VB2_DEBUG("Unsupported size field size: %d\n", field_size); *buffer_space = -1; return; } if (*buffer_space < field_size) { *buffer_space = -1; return; } field->size = field_size; field->location = *buffer; *buffer_space -= field_size; *buffer = (void *)(((uintptr_t) *buffer) + field_size); } static void marshal_fill_size_field(void **buffer, tpm2_marshal_size_field *field, int include_size_field, int *buffer_space) { uintptr_t size = (uintptr_t) *buffer - (uintptr_t) field->location; if (*buffer_space < 0) return; /* The structure did not fit. */ if (!include_size_field) size -= field->size; if (field->size == sizeof(uint32_t)) marshal_u32(&field->location, size, &field->size); else /* if (field->size == sizeof(uint16_t)) */ marshal_u16(&field->location, size, &field->size); } static void marshal_session_header(void **buffer, struct tpm2_session_header *session_header, int *buffer_space) { tpm2_marshal_size_field size_field; /* Skip room for the session header size. */ marshal_reserve_size_field(buffer, &size_field, sizeof(uint32_t), buffer_space); marshal_u32(buffer, session_header->session_handle, buffer_space); marshal_u16(buffer, session_header->nonce_size, buffer_space); marshal_blob(buffer, session_header->nonce, session_header->nonce_size, buffer_space); marshal_u8(buffer, session_header->session_attrs, buffer_space); marshal_u16(buffer, session_header->auth_size, buffer_space); marshal_blob(buffer, session_header->auth, session_header->auth_size, buffer_space); /* Paste in the session size. */ marshal_fill_size_field(buffer, &size_field, 0, buffer_space); } static void marshal_TPM2B(void **buffer, TPM2B *data, int *buffer_space) { size_t total_size = data->size + sizeof(data->size); if (total_size > *buffer_space) { *buffer_space = -1; return; } marshal_u16(buffer, data->size, buffer_space); memcpy(*buffer, data->buffer, data->size); *buffer = ((uint8_t *)(*buffer)) + data->size; *buffer_space -= data->size; } static void marshal_TPMS_NV_PUBLIC(void **buffer, TPMS_NV_PUBLIC *data, int *buffer_space) { tpm2_marshal_size_field size_field; /* Skip room for the size. */ marshal_reserve_size_field(buffer, &size_field, sizeof(uint16_t), buffer_space); marshal_TPM_HANDLE(buffer, data->nvIndex, buffer_space); marshal_ALG_ID(buffer, data->nameAlg, buffer_space); marshal_u32(buffer, data->attributes, buffer_space); marshal_TPM2B(buffer, &data->authPolicy, buffer_space); marshal_u16(buffer, data->dataSize, buffer_space); /* Paste in the structure size. */ marshal_fill_size_field(buffer, &size_field, 0, buffer_space); } static void marshal_nv_define_space(void **buffer, struct tpm2_nv_define_space_cmd *command_body, int *buffer_space) { struct tpm2_session_header session_header; /* Use platform authorization if PLATFORMCREATE is set, and owner * authorization otherwise (per TPM2 Spec. Part 2. Section 31.3.1). * Owner authorization with empty password will work only until * ownership is taken. Platform authorization will work only until * platform hierarchy is disabled (i.e. in firmware or in recovery * mode). */ if (command_body->publicInfo.attributes & TPMA_NV_PLATFORMCREATE) marshal_TPM_HANDLE(buffer, TPM_RH_PLATFORM, buffer_space); else marshal_TPM_HANDLE(buffer, TPM_RH_OWNER, buffer_space); memset(&session_header, 0, sizeof(session_header)); session_header.session_handle = TPM_RS_PW; marshal_session_header(buffer, &session_header, buffer_space); tpm_tag = TPM_ST_SESSIONS; marshal_TPM2B(buffer, &command_body->auth, buffer_space); marshal_TPMS_NV_PUBLIC(buffer, &command_body->publicInfo, buffer_space); } static void marshal_nv_undefine_space(void **buffer, struct tpm2_nv_undefine_space_cmd *command_body, int *buffer_space) { struct tpm2_session_header session_header; /* Use platform authorization if PLATFORMCREATE is set, and owner * authorization otherwise (per TPM2 Spec. Part 2. Section 31.3.1). * Owner authorization with empty password will work only until * ownership is taken. Platform authorization will work only until * platform hierarchy is disabled (i.e. in firmware or in recovery * mode). */ if (command_body->use_platform_auth) marshal_TPM_HANDLE(buffer, TPM_RH_PLATFORM, buffer_space); else marshal_TPM_HANDLE(buffer, TPM_RH_OWNER, buffer_space); marshal_TPM_HANDLE(buffer, command_body->nvIndex, buffer_space); memset(&session_header, 0, sizeof(session_header)); session_header.session_handle = TPM_RS_PW; marshal_session_header(buffer, &session_header, buffer_space); tpm_tag = TPM_ST_SESSIONS; } /* Determine which authorization should be used when writing or write-locking * an NV index. * * Use a simplified approach: * 1) Use platform auth for indexes defined by TPM and Platform, as * specified in "Registry of reserved TPM 2.0 handles and localities". * That will only work for indexes with PPWRITE, and until the platform * hierarchy is disabled. * 2) Use empty password auth for other indexes. * That will only work for indexes with AUTHWRITE and empty auth value. * * A more honest approach would require the caller to specify the * authorization, or would check the NV index attributes. * But that's not needed now, as all indexes defined by firmware are * in the TPM range and have PPWRITE. The indexes defined by the * OS are in the Owner range and have either OWNERWRITE or AUTHWRITE, * but we don't ever use Tlcl to write to OWNERWRITE indexes. */ static TPM_HANDLE get_nv_index_write_auth(TPMI_RH_NV_INDEX nvIndex) { return nvIndex >= TPMI_RH_NV_INDEX_OWNER_START ? nvIndex : TPM_RH_PLATFORM; } static void marshal_nv_write(void **buffer, struct tpm2_nv_write_cmd *command_body, int *buffer_space) { struct tpm2_session_header session_header; marshal_TPM_HANDLE(buffer, get_nv_index_write_auth(command_body->nvIndex), buffer_space); marshal_TPM_HANDLE(buffer, command_body->nvIndex, buffer_space); memset(&session_header, 0, sizeof(session_header)); session_header.session_handle = TPM_RS_PW; marshal_session_header(buffer, &session_header, buffer_space); tpm_tag = TPM_ST_SESSIONS; marshal_TPM2B(buffer, &command_body->data, buffer_space); marshal_u16(buffer, command_body->offset, buffer_space); } static void marshal_nv_read(void **buffer, struct tpm2_nv_read_cmd *command_body, int *buffer_space) { struct tpm2_session_header session_header; /* Use empty password auth if platform hierarchy is disabled */ if (ph_disabled) marshal_TPM_HANDLE(buffer, command_body->nvIndex, buffer_space); else marshal_TPM_HANDLE(buffer, TPM_RH_PLATFORM, buffer_space); marshal_TPM_HANDLE(buffer, command_body->nvIndex, buffer_space); memset(&session_header, 0, sizeof(session_header)); session_header.session_handle = TPM_RS_PW; marshal_session_header(buffer, &session_header, buffer_space); tpm_tag = TPM_ST_SESSIONS; marshal_u16(buffer, command_body->size, buffer_space); marshal_u16(buffer, command_body->offset, buffer_space); } static void marshal_nv_read_lock(void **buffer, struct tpm2_nv_read_lock_cmd *command_body, int *buffer_space) { struct tpm2_session_header session_header; tpm_tag = TPM_ST_SESSIONS; marshal_TPM_HANDLE(buffer, command_body->nvIndex, buffer_space); marshal_TPM_HANDLE(buffer, command_body->nvIndex, buffer_space); memset(&session_header, 0, sizeof(session_header)); session_header.session_handle = TPM_RS_PW; marshal_session_header(buffer, &session_header, buffer_space); } static void marshal_nv_write_lock(void **buffer, struct tpm2_nv_write_lock_cmd *command_body, int *buffer_space) { struct tpm2_session_header session_header; tpm_tag = TPM_ST_SESSIONS; marshal_TPM_HANDLE(buffer, get_nv_index_write_auth(command_body->nvIndex), buffer_space); marshal_TPM_HANDLE(buffer, command_body->nvIndex, buffer_space); memset(&session_header, 0, sizeof(session_header)); session_header.session_handle = TPM_RS_PW; marshal_session_header(buffer, &session_header, buffer_space); } static void marshal_nv_read_public(void **buffer, struct tpm2_nv_read_public_cmd *command_body, int *buffer_space) { tpm_tag = TPM_ST_NO_SESSIONS; marshal_TPM_HANDLE(buffer, command_body->nvIndex, buffer_space); } static void marshal_hierarchy_control(void **buffer, struct tpm2_hierarchy_control_cmd *command_body, int *buffer_space) { struct tpm2_session_header session_header; tpm_tag = TPM_ST_SESSIONS; marshal_TPM_HANDLE(buffer, TPM_RH_PLATFORM, buffer_space); memset(&session_header, 0, sizeof(session_header)); session_header.session_handle = TPM_RS_PW; marshal_session_header(buffer, &session_header, buffer_space); marshal_TPM_HANDLE(buffer, command_body->enable, buffer_space); marshal_u8(buffer, command_body->state, buffer_space); } static void marshal_read_public(void **buffer, struct tpm2_read_public_cmd *command_body, int *buffer_space) { marshal_u32(buffer, command_body->object_handle, buffer_space); } static void marshal_get_capability(void **buffer, struct tpm2_get_capability_cmd *command_body, int *buffer_space) { tpm_tag = TPM_ST_NO_SESSIONS; marshal_u32(buffer, command_body->capability, buffer_space); marshal_u32(buffer, command_body->property, buffer_space); marshal_u32(buffer, command_body->property_count, buffer_space); } static void marshal_get_random(void **buffer, struct tpm2_get_random_cmd *command_body, int *buffer_space) { tpm_tag = TPM_ST_NO_SESSIONS; marshal_u16(buffer, command_body->bytes_requested, buffer_space); } static void marshal_clear(void **buffer, void *command_body, int *buffer_space) { struct tpm2_session_header session_header; tpm_tag = TPM_ST_SESSIONS; marshal_TPM_HANDLE(buffer, TPM_RH_PLATFORM, buffer_space); memset(&session_header, 0, sizeof(session_header)); session_header.session_handle = TPM_RS_PW; marshal_session_header(buffer, &session_header, buffer_space); } static void marshal_self_test(void **buffer, struct tpm2_self_test_cmd *command_body, int *buffer_space) { tpm_tag = TPM_ST_NO_SESSIONS; marshal_u8(buffer, command_body->full_test, buffer_space); } static void marshal_startup(void **buffer, struct tpm2_startup_cmd *command_body, int *buffer_space) { tpm_tag = TPM_ST_NO_SESSIONS; marshal_TPM_SU(buffer, command_body->startup_type, buffer_space); } static void marshal_shutdown(void **buffer, struct tpm2_shutdown_cmd *command_body, int *buffer_space) { tpm_tag = TPM_ST_NO_SESSIONS; marshal_TPM_SU(buffer, command_body->shutdown_type, buffer_space); } static void marshal_evict_control(void **buffer, struct tpm2_evict_control_cmd *command_body, int *buffer_space) { struct tpm2_session_header session_header; marshal_TPM_HANDLE(buffer, command_body->auth, buffer_space); marshal_TPM_HANDLE(buffer, command_body->object_handle, buffer_space); memset(&session_header, 0, sizeof(session_header)); session_header.session_handle = TPM_RS_PW; marshal_session_header(buffer, &session_header, buffer_space); tpm_tag = TPM_ST_SESSIONS; marshal_TPM_HANDLE(buffer, command_body->persistent_handle, buffer_space); } static void marshal_create_primary(void **buffer, struct tpm2_create_primary_cmd *command_body, int *buffer_space) { struct tpm2_session_header session_header; marshal_TPM_HANDLE(buffer, command_body->primary_handle, buffer_space); memset(&session_header, 0, sizeof(session_header)); session_header.session_handle = TPM_RS_PW; marshal_session_header(buffer, &session_header, buffer_space); tpm_tag = TPM_ST_SESSIONS; marshal_TPM2B(buffer, &command_body->in_sensitive, buffer_space); marshal_TPM2B(buffer, &command_body->in_public, buffer_space); // Empty outsideInfo. marshal_u16(buffer, 0, buffer_space); // Empty creationPCR. marshal_u32(buffer, 0, buffer_space); } static void marshal_TPMT_HA(void **buffer, TPMT_HA *data, int *buffer_space) { if (data->hashAlg != TPM_ALG_SHA256) { VB2_DEBUG("Unsupported TPMT_HA hash algorithm: %#x\n", data->hashAlg); *buffer_space = -1; return; } marshal_TPMI_ALG_HASH(buffer, data->hashAlg, buffer_space); /* We only support SHA256 now. */ marshal_blob(buffer, data->digest.sha256, SHA256_DIGEST_SIZE, buffer_space); } static void marshal_TPML_DIGEST_VALUES(void **buffer, TPML_DIGEST_VALUES *data, int *buffer_space) { int i; marshal_u32(buffer, data->count, buffer_space); for (i = 0; i < data->count; i++) marshal_TPMT_HA(buffer, &data->digests[i], buffer_space); } static void marshal_pcr_extend(void **buffer, struct tpm2_pcr_extend_cmd *command_body, int *buffer_space) { struct tpm2_session_header session_header; tpm_tag = TPM_ST_SESSIONS; marshal_TPM_HANDLE(buffer, command_body->pcrHandle, buffer_space); memset(&session_header, 0, sizeof(session_header)); session_header.session_handle = TPM_RS_PW; marshal_session_header(buffer, &session_header, buffer_space); marshal_TPML_DIGEST_VALUES(buffer, &command_body->digests, buffer_space); } int tpm_marshal_command(TPM_CC command, void *tpm_command_body, void *buffer, int buffer_size) { void *cmd_body = (uint8_t *)buffer + sizeof(struct tpm_header); int max_body_size = buffer_size - sizeof(struct tpm_header); int body_size = max_body_size; /* Will be modified when marshaling some commands. */ tpm_tag = TPM_ST_NO_SESSIONS; switch (command) { case TPM2_NV_DefineSpace: marshal_nv_define_space(&cmd_body, tpm_command_body, &body_size); break; case TPM2_NV_UndefineSpace: marshal_nv_undefine_space(&cmd_body, tpm_command_body, &body_size); break; case TPM2_NV_Read: marshal_nv_read(&cmd_body, tpm_command_body, &body_size); break; case TPM2_NV_Write: marshal_nv_write(&cmd_body, tpm_command_body, &body_size); break; case TPM2_NV_ReadLock: marshal_nv_read_lock(&cmd_body, tpm_command_body, &body_size); break; case TPM2_NV_WriteLock: marshal_nv_write_lock(&cmd_body, tpm_command_body, &body_size); break; case TPM2_NV_ReadPublic: marshal_nv_read_public(&cmd_body, tpm_command_body, &body_size); break; case TPM2_Hierarchy_Control: marshal_hierarchy_control(&cmd_body, tpm_command_body, &body_size); break; case TPM2_GetCapability: marshal_get_capability(&cmd_body, tpm_command_body, &body_size); break; case TPM2_GetRandom: marshal_get_random(&cmd_body, tpm_command_body, &body_size); break; case TPM2_Clear: marshal_clear(&cmd_body, tpm_command_body, &body_size); break; case TPM2_SelfTest: marshal_self_test(&cmd_body, tpm_command_body, &body_size); break; case TPM2_Startup: marshal_startup(&cmd_body, tpm_command_body, &body_size); break; case TPM2_Shutdown: marshal_shutdown(&cmd_body, tpm_command_body, &body_size); break; case TPM2_PCR_Extend: marshal_pcr_extend(&cmd_body, tpm_command_body, &body_size); break; case TPM2_ReadPublic: marshal_read_public(&cmd_body, tpm_command_body, &body_size); break; case TPM2_EvictControl: marshal_evict_control(&cmd_body, tpm_command_body, &body_size); break; case TPM2_CreatePrimary: marshal_create_primary(&cmd_body, tpm_command_body, &body_size); break; default: body_size = -1; VB2_DEBUG("Request to marshal unsupported command %#x\n", command); } if (body_size > 0) { /* See how much room was taken by marshaling. */ body_size = max_body_size - body_size; body_size += sizeof(struct tpm_header); marshal_u16(&buffer, tpm_tag, &max_body_size); marshal_u32(&buffer, body_size, &max_body_size); marshal_u32(&buffer, command, &max_body_size); } return body_size; } int tpm_unmarshal_response(TPM_CC command, void *response_body, int cr_size, struct tpm2_response *response) { if (cr_size < sizeof(struct tpm_header)) return -1; response->hdr.tpm_tag = unmarshal_u16(&response_body, &cr_size); response->hdr.tpm_size = unmarshal_u32(&response_body, &cr_size); response->hdr.tpm_code = unmarshal_u32(&response_body, &cr_size); if (!cr_size) { if (response->hdr.tpm_size != sizeof(response->hdr)) VB2_DEBUG("size mismatch in response to command %#x\n", command); return 0; } switch (command) { case TPM2_NV_Read: unmarshal_nv_read(&response_body, &cr_size, &response->nvr); break; case TPM2_NV_ReadPublic: unmarshal_nv_read_public(&response_body, &cr_size, &response->nv_read_public); break; case TPM2_GetCapability: unmarshal_get_capability(&response_body, &cr_size, &response->cap); break; case TPM2_GetRandom: unmarshal_get_random(&response_body, &cr_size, &response->random); break; case TPM2_ReadPublic: unmarshal_read_public(&response_body, &cr_size, &response->read_pub); break; case TPM2_CreatePrimary: unmarshal_create_primary(&response_body, &cr_size, &response->create_primary); break; case TPM2_Hierarchy_Control: case TPM2_NV_Write: case TPM2_NV_WriteLock: case TPM2_NV_ReadLock: case TPM2_Clear: case TPM2_SelfTest: case TPM2_Startup: case TPM2_Shutdown: case TPM2_NV_DefineSpace: case TPM2_NV_UndefineSpace: case TPM2_PCR_Extend: case TPM2_EvictControl: /* Session data included in response can be safely ignored. */ cr_size = 0; break; default: { int i; VB2_DEBUG("Request to unmarshal unexpected command %#x," " code %#x", command, response->hdr.tpm_code); for (i = 0; i < cr_size; i++) { if (!(i % 16)) VB2_DEBUG_RAW("\n"); VB2_DEBUG_RAW("%2.2x ", ((uint8_t *)response_body)[i]); } } VB2_DEBUG("\n"); return -1; } if (cr_size) { VB2_DEBUG("got %d bytes back in response to %#x," " failed to parse (%d)\n", response->hdr.tpm_size, command, cr_size); return -1; } /* The entire message have been parsed. */ return 0; } uint32_t tpm_get_packet_size(const uint8_t *packet) { /* 0: tag (16 bit) * 2: size (32 bit) */ return read_be32(packet + 2); } uint32_t tpm_get_packet_response_code(const uint8_t *packet) { /* 0: tag (16 bit) * 2: size (32 bit) * 6: resp code (32 bit) */ return read_be32(packet + 6); } void tpm_set_ph_disabled(int flag) { ph_disabled = flag; } int tpm_is_ph_disabled(void) { return ph_disabled; }