/* SPDX-License-Identifier: BSD-3-Clause */ #include #include #include #include #include #include #include "tss_structures.h" #include "tss_marshaling.h" /* * This file provides interface between firmware and TPM2 device. The TPM1.2 * API was copied as is and relevant functions modified to comply with the * TPM2 specification. */ void *tpm_process_command(TPM_CC command, void *command_body) { struct obuf ob; struct ibuf ib; size_t out_size; size_t in_size; const uint8_t *sendb; /* Command/response buffer. */ static uint8_t cr_buffer[TPM_BUFFER_SIZE]; obuf_init(&ob, cr_buffer, sizeof(cr_buffer)); if (tpm_marshal_command(command, command_body, &ob) < 0) { printk(BIOS_ERR, "command %#x\n", command); return NULL; } sendb = obuf_contents(&ob, &out_size); in_size = sizeof(cr_buffer); if (tis_sendrecv(sendb, out_size, cr_buffer, &in_size)) { printk(BIOS_ERR, "tpm transaction failed\n"); return NULL; } ibuf_init(&ib, cr_buffer, in_size); return tpm_unmarshal_response(command, &ib); } static uint32_t tlcl_send_startup(TPM_SU type) { struct tpm2_startup startup; struct tpm2_response *response; startup.startup_type = type; response = tpm_process_command(TPM2_Startup, &startup); /* IO error, tpm2_response pointer is empty. */ if (response == NULL) { printk(BIOS_ERR, "%s: TPM communication error\n", __func__); return TPM_E_IOERROR; } printk(BIOS_INFO, "%s: Startup return code is %x\n", __func__, response->hdr.tpm_code); switch (response->hdr.tpm_code) { case TPM_RC_INITIALIZE: /* TPM already initialized. */ return TPM_E_INVALID_POSTINIT; case TPM2_RC_SUCCESS: return TPM_SUCCESS; } /* Collapse any other errors into TPM_E_IOERROR. */ return TPM_E_IOERROR; } uint32_t tlcl_resume(void) { return tlcl_send_startup(TPM_SU_STATE); } static uint32_t tlcl_send_shutdown(TPM_SU type) { struct tpm2_shutdown shutdown; struct tpm2_response *response; shutdown.shutdown_type = type; response = tpm_process_command(TPM2_Shutdown, &shutdown); /* IO error, tpm2_response pointer is empty. */ if (response == NULL) { printk(BIOS_ERR, "%s: TPM communication error\n", __func__); return TPM_E_IOERROR; } printk(BIOS_INFO, "%s: Shutdown return code is %x\n", __func__, response->hdr.tpm_code); if (response->hdr.tpm_code == TPM2_RC_SUCCESS) return TPM_SUCCESS; /* Collapse any other errors into TPM_E_IOERROR. */ return TPM_E_IOERROR; } uint32_t tlcl_save_state(void) { return tlcl_send_shutdown(TPM_SU_STATE); } uint32_t tlcl_assert_physical_presence(void) { /* * Nothing to do on TPM2 for this, use platform hierarchy availability * instead. */ return TPM_SUCCESS; } /* * The caller will provide the digest in a 32 byte buffer, let's consider it a * sha256 digest. */ uint32_t tlcl_extend(int pcr_num, const uint8_t *in_digest, uint8_t *out_digest) { struct tpm2_pcr_extend_cmd pcr_ext_cmd; struct tpm2_response *response; pcr_ext_cmd.pcrHandle = HR_PCR + pcr_num; pcr_ext_cmd.digests.count = 1; pcr_ext_cmd.digests.digests[0].hashAlg = TPM_ALG_SHA256; memcpy(pcr_ext_cmd.digests.digests[0].digest.sha256, in_digest, sizeof(pcr_ext_cmd.digests.digests[0].digest.sha256)); response = tpm_process_command(TPM2_PCR_Extend, &pcr_ext_cmd); printk(BIOS_INFO, "%s: response is %x\n", __func__, response ? response->hdr.tpm_code : -1); if (!response || response->hdr.tpm_code) return TPM_E_IOERROR; return TPM_SUCCESS; } uint32_t tlcl_finalize_physical_presence(void) { /* Nothing needs to be done with tpm2. */ printk(BIOS_INFO, "%s:%s:%d\n", __FILE__, __func__, __LINE__); return TPM_SUCCESS; } uint32_t tlcl_force_clear(void) { struct tpm2_response *response; response = tpm_process_command(TPM2_Clear, NULL); printk(BIOS_INFO, "%s: response is %x\n", __func__, response ? response->hdr.tpm_code : -1); if (!response || response->hdr.tpm_code) return TPM_E_IOERROR; return TPM_SUCCESS; } uint32_t tlcl_clear_control(bool disable) { struct tpm2_response *response; struct tpm2_clear_control_cmd cc = { .disable = 0, }; response = tpm_process_command(TPM2_ClearControl, &cc); printk(BIOS_INFO, "%s: response is %x\n", __func__, response ? response->hdr.tpm_code : -1); if (!response || response->hdr.tpm_code) return TPM_E_IOERROR; return TPM_SUCCESS; } static uint8_t tlcl_init_done; /* This function is called directly by vboot, uses vboot return types. */ uint32_t tlcl_lib_init(void) { if (tlcl_init_done) return VB2_SUCCESS; if (tis_init()) { printk(BIOS_ERR, "%s: tis_init returned error\n", __func__); return VB2_ERROR_UNKNOWN; } if (tis_open()) { printk(BIOS_ERR, "%s: tis_open returned error\n", __func__); return VB2_ERROR_UNKNOWN; } tlcl_init_done = 1; return VB2_SUCCESS; } uint32_t tlcl_physical_presence_cmd_enable(void) { printk(BIOS_INFO, "%s:%s:%d\n", __FILE__, __func__, __LINE__); return TPM_SUCCESS; } uint32_t tlcl_read(uint32_t index, void *data, uint32_t length) { struct tpm2_nv_read_cmd nv_readc; struct tpm2_response *response; memset(&nv_readc, 0, sizeof(nv_readc)); nv_readc.nvIndex = HR_NV_INDEX + index; nv_readc.size = length; response = tpm_process_command(TPM2_NV_Read, &nv_readc); /* Need to map tpm error codes into internal values. */ if (!response) return TPM_E_READ_FAILURE; printk(BIOS_INFO, "%s:%d index %#x return code %x\n", __FILE__, __LINE__, index, response->hdr.tpm_code); switch (response->hdr.tpm_code) { case 0: break; /* Uninitialized, returned if the space hasn't been written. */ case TPM_RC_NV_UNINITIALIZED: /* * Bad index, cr50 specific value, returned if the space * hasn't been defined. */ case TPM_RC_CR50_NV_UNDEFINED: return TPM_E_BADINDEX; default: return TPM_E_READ_FAILURE; } if (length > response->nvr.buffer.t.size) return TPM_E_RESPONSE_TOO_LARGE; if (length < response->nvr.buffer.t.size) return TPM_E_READ_EMPTY; memcpy(data, response->nvr.buffer.t.buffer, length); return TPM_SUCCESS; } uint32_t tlcl_self_test_full(void) { struct tpm2_self_test st; struct tpm2_response *response; st.yes_no = 1; response = tpm_process_command(TPM2_SelfTest, &st); printk(BIOS_INFO, "%s: response is %x\n", __func__, response ? response->hdr.tpm_code : -1); return TPM_SUCCESS; } uint32_t tlcl_lock_nv_write(uint32_t index) { struct tpm2_response *response; /* TPM Wll reject attempts to write at non-defined index. */ struct tpm2_nv_write_lock_cmd nv_wl = { .nvIndex = HR_NV_INDEX + index, }; response = tpm_process_command(TPM2_NV_WriteLock, &nv_wl); printk(BIOS_INFO, "%s: response is %x\n", __func__, response ? response->hdr.tpm_code : -1); if (!response || response->hdr.tpm_code) return TPM_E_IOERROR; return TPM_SUCCESS; } uint32_t tlcl_startup(void) { return tlcl_send_startup(TPM_SU_CLEAR); } uint32_t tlcl_write(uint32_t index, const void *data, uint32_t length) { struct tpm2_nv_write_cmd nv_writec; struct tpm2_response *response; memset(&nv_writec, 0, sizeof(nv_writec)); nv_writec.nvIndex = HR_NV_INDEX + index; nv_writec.data.t.size = length; nv_writec.data.t.buffer = data; response = tpm_process_command(TPM2_NV_Write, &nv_writec); printk(BIOS_INFO, "%s: response is %x\n", __func__, response ? response->hdr.tpm_code : -1); /* Need to map tpm error codes into internal values. */ if (!response || response->hdr.tpm_code) return TPM_E_WRITE_FAILURE; return TPM_SUCCESS; } uint32_t tlcl_set_bits(uint32_t index, uint64_t bits) { struct tpm2_nv_setbits_cmd nvsb_cmd; struct tpm2_response *response; /* Prepare the command structure */ memset(&nvsb_cmd, 0, sizeof(nvsb_cmd)); nvsb_cmd.nvIndex = HR_NV_INDEX + index; nvsb_cmd.bits = bits; response = tpm_process_command(TPM2_NV_SetBits, &nvsb_cmd); printk(BIOS_INFO, "%s: response is %x\n", __func__, response ? response->hdr.tpm_code : -1); /* Need to map tpm error codes into internal values. */ if (!response || response->hdr.tpm_code) return TPM_E_WRITE_FAILURE; return TPM_SUCCESS; } uint32_t tlcl_define_space(uint32_t space_index, size_t space_size, const TPMA_NV nv_attributes, const uint8_t *nv_policy, size_t nv_policy_size) { struct tpm2_nv_define_space_cmd nvds_cmd; struct tpm2_response *response; /* Prepare the define space command structure. */ memset(&nvds_cmd, 0, sizeof(nvds_cmd)); nvds_cmd.publicInfo.dataSize = space_size; nvds_cmd.publicInfo.nvIndex = HR_NV_INDEX + space_index; nvds_cmd.publicInfo.nameAlg = TPM_ALG_SHA256; nvds_cmd.publicInfo.attributes = nv_attributes; /* * Use policy digest based on default pcr0 value. This makes * sure that the space can not be deleted as soon as PCR0 * value has been extended from default. */ if (nv_policy && nv_policy_size) { nvds_cmd.publicInfo.authPolicy.t.buffer = nv_policy; nvds_cmd.publicInfo.authPolicy.t.size = nv_policy_size; } response = tpm_process_command(TPM2_NV_DefineSpace, &nvds_cmd); printk(BIOS_INFO, "%s: response is %x\n", __func__, response ? response->hdr.tpm_code : -1); if (!response) return TPM_E_NO_DEVICE; /* Map TPM2 retrun codes into common vboot represenation. */ switch (response->hdr.tpm_code) { case TPM2_RC_SUCCESS: return TPM_SUCCESS; case TPM2_RC_NV_DEFINED: return TPM_E_NV_DEFINED; default: return TPM_E_INTERNAL_INCONSISTENCY; } } uint16_t tlcl_get_hash_size_from_algo(TPMI_ALG_HASH hash_algo) { uint16_t value; switch (hash_algo) { case TPM_ALG_ERROR: value = 1; break; case TPM_ALG_SHA1: value = SHA1_DIGEST_SIZE; break; case TPM_ALG_SHA256: value = SHA256_DIGEST_SIZE; break; case TPM_ALG_SHA384: value = SHA384_DIGEST_SIZE; break; case TPM_ALG_SHA512: value = SHA512_DIGEST_SIZE; break; case TPM_ALG_SM3_256: value = SM3_256_DIGEST_SIZE; break; default: printk(BIOS_SPEW, "%s: unknown hash algorithm %d\n", __func__, hash_algo); value = 0; }; return value; } uint32_t tlcl_disable_platform_hierarchy(void) { struct tpm2_response *response; struct tpm2_hierarchy_control_cmd hc = { .enable = TPM_RH_PLATFORM, .state = 0, }; response = tpm_process_command(TPM2_Hierarchy_Control, &hc); if (!response || response->hdr.tpm_code) return TPM_E_INTERNAL_INCONSISTENCY; return TPM_SUCCESS; } uint32_t tlcl_get_capability(TPM_CAP capability, uint32_t property, uint32_t property_count, TPMS_CAPABILITY_DATA *capability_data) { struct tpm2_get_capability cmd; struct tpm2_response *response; cmd.capability = capability; cmd.property = property; cmd.propertyCount = property_count; if (property_count > 1) { printk(BIOS_ERR, "%s: property_count more than one not " "supported yet\n", __func__); return TPM_E_IOERROR; } response = tpm_process_command(TPM2_GetCapability, &cmd); if (!response) { printk(BIOS_ERR, "%s: Command Failed\n", __func__); return TPM_E_IOERROR; } memcpy(capability_data, &response->gc.cd, sizeof(TPMS_CAPABILITY_DATA)); return TPM_SUCCESS; }