/* SPDX-License-Identifier: BSD-3-Clause */ #include #include #include #include "tss_marshaling.h" #include #include static uint16_t tpm_tag; /* Depends on the command type. */ #define unmarshal_TPM_CAP(a, b) ibuf_read_be32(a, b) #define unmarshal_TPM_CC(a, b) ibuf_read_be32(a, b) #define unmarshal_TPM_PT(a, b) ibuf_read_be32(a, b) #define unmarshal_TPM_HANDLE(a, b) ibuf_read_be32(a, b) #define marshal_TPM_HANDLE(a, b) obuf_write_be32(a, b) #define marshal_TPMI_ALG_HASH(a, b) obuf_write_be16(a, b) static int marshal_startup(struct obuf *ob, const struct tpm2_startup *cmd_body) { return obuf_write_be16(ob, cmd_body->startup_type); } static int marshal_shutdown(struct obuf *ob, const struct tpm2_shutdown *cmd_body) { return obuf_write_be16(ob, cmd_body->shutdown_type); } static int marshal_get_capability(struct obuf *ob, const struct tpm2_get_capability *cmd_body) { int rc = 0; rc |= obuf_write_be32(ob, cmd_body->capability); rc |= obuf_write_be32(ob, cmd_body->property); rc |= obuf_write_be32(ob, cmd_body->propertyCount); return rc; } static int marshal_TPM2B(struct obuf *ob, const TPM2B *data) { int rc = 0; rc |= obuf_write_be16(ob, data->size); rc |= obuf_write(ob, data->buffer, data->size); return rc; } static int marshal_TPMA_NV(struct obuf *ob, const TPMA_NV *nv) { uint32_t v; memcpy(&v, nv, sizeof(v)); return obuf_write_be32(ob, v); } static int marshal_TPMS_NV_PUBLIC(struct obuf *ob, const TPMS_NV_PUBLIC *nvpub) { int rc = 0; rc |= marshal_TPM_HANDLE(ob, nvpub->nvIndex); rc |= marshal_TPMI_ALG_HASH(ob, nvpub->nameAlg); rc |= marshal_TPMA_NV(ob, &nvpub->attributes); rc |= marshal_TPM2B(ob, &nvpub->authPolicy.b); rc |= obuf_write_be16(ob, nvpub->dataSize); return rc; } static int marshal_TPMT_HA(struct obuf *ob, const TPMT_HA *tpmtha) { int rc = 0; rc |= marshal_TPMI_ALG_HASH(ob, tpmtha->hashAlg); switch (tpmtha->hashAlg) { case TPM_ALG_SHA1: rc |= obuf_write(ob, tpmtha->digest.sha1, tlcl_get_hash_size_from_algo(tpmtha->hashAlg)); break; case TPM_ALG_SHA256: rc |= obuf_write(ob, tpmtha->digest.sha256, tlcl_get_hash_size_from_algo(tpmtha->hashAlg)); break; case TPM_ALG_SM3_256: rc |= obuf_write(ob, tpmtha->digest.sm3_256, tlcl_get_hash_size_from_algo(tpmtha->hashAlg)); break; case TPM_ALG_SHA384: rc |= obuf_write(ob, tpmtha->digest.sha384, tlcl_get_hash_size_from_algo(tpmtha->hashAlg)); break; case TPM_ALG_SHA512: rc |= obuf_write(ob, tpmtha->digest.sha512, tlcl_get_hash_size_from_algo(tpmtha->hashAlg)); break; default: rc = -1; } return rc; } static int marshal_TPML_DIGEST_VALUES(struct obuf *ob, const TPML_DIGEST_VALUES *dvalues) { int i; int rc = 0; rc |= obuf_write_be32(ob, dvalues->count); for (i = 0; i < dvalues->count; i++) rc |= marshal_TPMT_HA(ob, &dvalues->digests[i]); return rc; } static int marshal_session_header(struct obuf *ob, const struct tpm2_session_header *session_header) { int rc = 0; struct obuf ob_sz; size_t prev_written; /* Snapshot current location to place size of header. */ if (obuf_splice_current(ob, &ob_sz, sizeof(uint32_t)) < 0) return -1; /* Write a size placeholder. */ rc |= obuf_write_be32(ob, 0); /* Keep track of session header data size by tracking num written. */ prev_written = obuf_nr_written(ob); rc |= obuf_write_be32(ob, session_header->session_handle); rc |= obuf_write_be16(ob, session_header->nonce_size); rc |= obuf_write(ob, session_header->nonce, session_header->nonce_size); rc |= obuf_write_be8(ob, session_header->session_attrs); rc |= obuf_write_be16(ob, session_header->auth_size); rc |= obuf_write(ob, session_header->auth, session_header->auth_size); /* Fill back in proper size of session header. */ rc |= obuf_write_be32(&ob_sz, obuf_nr_written(ob) - prev_written); return rc; } /* * Common session header can include one or two handles and an empty * session_header structure. */ static int marshal_common_session_header(struct obuf *ob, const uint32_t *handles, size_t handle_count) { size_t i; struct tpm2_session_header session_header; int rc = 0; tpm_tag = TPM_ST_SESSIONS; for (i = 0; i < handle_count; i++) rc |= marshal_TPM_HANDLE(ob, handles[i]); memset(&session_header, 0, sizeof(session_header)); session_header.session_handle = TPM_RS_PW; rc |= marshal_session_header(ob, &session_header); return rc; } static int marshal_nv_define_space(struct obuf *ob, const struct tpm2_nv_define_space_cmd *nvd_in) { const uint32_t handle[] = { TPM_RH_PLATFORM }; struct obuf ob_sz; size_t prev_written; int rc = 0; rc |= marshal_common_session_header(ob, handle, ARRAY_SIZE(handle)); rc |= marshal_TPM2B(ob, &nvd_in->auth.b); /* Snapshot current location to place size field. */ if (obuf_splice_current(ob, &ob_sz, sizeof(uint16_t)) < 0) return -1; /* Put placeholder for size */ rc |= obuf_write_be16(ob, 0); /* Keep track of nv define space data size by tracking num written. */ prev_written = obuf_nr_written(ob); rc |= marshal_TPMS_NV_PUBLIC(ob, &nvd_in->publicInfo); rc |= obuf_write_be16(&ob_sz, obuf_nr_written(ob) - prev_written); return rc; } static int marshal_nv_setbits(struct obuf *ob, const struct tpm2_nv_setbits_cmd *command_body) { int rc = 0; const uint32_t handles[] = { TPM_RH_PLATFORM, command_body->nvIndex }; rc |= marshal_common_session_header(ob, handles, ARRAY_SIZE(handles)); rc |= obuf_write_be64(ob, command_body->bits); return rc; } static int marshal_nv_write(struct obuf *ob, const struct tpm2_nv_write_cmd *command_body) { int rc = 0; const uint32_t handles[] = { TPM_RH_PLATFORM, command_body->nvIndex }; rc |= marshal_common_session_header(ob, handles, ARRAY_SIZE(handles)); rc |= marshal_TPM2B(ob, &command_body->data.b); rc |= obuf_write_be16(ob, command_body->offset); return rc; } static int marshal_nv_write_lock(struct obuf *ob, const struct tpm2_nv_write_lock_cmd *command_body) { const uint32_t handles[] = { TPM_RH_PLATFORM, command_body->nvIndex }; return marshal_common_session_header(ob, handles, ARRAY_SIZE(handles)); } static int marshal_pcr_extend(struct obuf *ob, const struct tpm2_pcr_extend_cmd *command_body) { int rc = 0; const uint32_t handles[] = { command_body->pcrHandle }; rc |= marshal_common_session_header(ob, handles, ARRAY_SIZE(handles)); rc |= marshal_TPML_DIGEST_VALUES(ob, &command_body->digests); return rc; } static int marshal_nv_read(struct obuf *ob, const struct tpm2_nv_read_cmd *command_body) { int rc = 0; const uint32_t handles[] = { TPM_RH_PLATFORM, command_body->nvIndex }; rc |= marshal_common_session_header(ob, handles, ARRAY_SIZE(handles)); rc |= obuf_write_be16(ob, command_body->size); rc |= obuf_write_be16(ob, command_body->offset); return rc; } /* TPM2_Clear command does not require parameters. */ static int marshal_clear(struct obuf *ob) { const uint32_t handle[] = { TPM_RH_PLATFORM }; return marshal_common_session_header(ob, handle, ARRAY_SIZE(handle)); } static int marshal_selftest(struct obuf *ob, const struct tpm2_self_test *command_body) { return obuf_write_be8(ob, command_body->yes_no); } static int marshal_hierarchy_control(struct obuf *ob, const struct tpm2_hierarchy_control_cmd *command_body) { int rc = 0; struct tpm2_session_header session_header; tpm_tag = TPM_ST_SESSIONS; rc |= marshal_TPM_HANDLE(ob, TPM_RH_PLATFORM); memset(&session_header, 0, sizeof(session_header)); session_header.session_handle = TPM_RS_PW; rc |= marshal_session_header(ob, &session_header); rc |= marshal_TPM_HANDLE(ob, command_body->enable); rc |= obuf_write_be8(ob, command_body->state); return rc; } static int marshal_clear_control(struct obuf *ob, const struct tpm2_clear_control_cmd *command_body) { int rc = 0; struct tpm2_session_header session_header; tpm_tag = TPM_ST_SESSIONS; rc |= marshal_TPM_HANDLE(ob, TPM_RH_PLATFORM); memset(&session_header, 0, sizeof(session_header)); session_header.session_handle = TPM_RS_PW; rc |= marshal_session_header(ob, &session_header); rc |= obuf_write_be8(ob, command_body->disable); return rc; } static int marshal_cr50_vendor_command(struct obuf *ob, const void *command_body) { int rc = 0; const uint16_t *sub_command = command_body; switch (*sub_command) { case TPM2_CR50_SUB_CMD_IMMEDIATE_RESET: /* The 16-bit timeout parameter is optional for the * IMMEDIATE_RESET command. However in coreboot, the timeout * parameter must be specified. */ rc |= obuf_write_be16(ob, sub_command[0]); rc |= obuf_write_be16(ob, sub_command[1]); break; case TPM2_CR50_SUB_CMD_NVMEM_ENABLE_COMMITS: rc |= obuf_write_be16(ob, *sub_command); break; case TPM2_CR50_SUB_CMD_TURN_UPDATE_ON: rc |= obuf_write_be16(ob, sub_command[0]); rc |= obuf_write_be16(ob, sub_command[1]); break; case TPM2_CR50_SUB_CMD_GET_REC_BTN: rc |= obuf_write_be16(ob, *sub_command); break; case TPM2_CR50_SUB_CMD_TPM_MODE: /* The Cr50 TPM_MODE command supports an optional parameter. * When the parameter is present the Cr50 will attempt to change * the TPM state (enable or disable) and returns the new state * in the response. When the parameter is absent, the Cr50 * returns the current TPM state. * * coreboot currently only uses the TPM get capability and does * not set a new TPM state with the Cr50. */ rc |= obuf_write_be16(ob, *sub_command); break; case TPM2_CR50_SUB_CMD_GET_BOOT_MODE: rc |= obuf_write_be16(ob, *sub_command); break; case TPM2_CR50_SUB_CMD_RESET_EC: rc |= obuf_write_be16(ob, *sub_command); break; default: /* Unsupported subcommand. */ printk(BIOS_WARNING, "Unsupported cr50 subcommand: 0x%04x\n", *sub_command); rc = -1; break; } return rc; } int tpm_marshal_command(TPM_CC command, const void *tpm_command_body, struct obuf *ob) { struct obuf ob_hdr; const size_t hdr_sz = sizeof(uint16_t) + 2 * sizeof(uint32_t); int rc = 0; tpm_tag = TPM_ST_NO_SESSIONS; if (obuf_splice_current(ob, &ob_hdr, hdr_sz) < 0) return -1; /* Write TPM command header with placeholder field values. */ rc |= obuf_write_be16(ob, 0); rc |= obuf_write_be32(ob, 0); rc |= obuf_write_be32(ob, command); if (rc != 0) return rc; switch (command) { case TPM2_Startup: rc |= marshal_startup(ob, tpm_command_body); break; case TPM2_Shutdown: rc |= marshal_shutdown(ob, tpm_command_body); break; case TPM2_GetCapability: rc |= marshal_get_capability(ob, tpm_command_body); break; case TPM2_NV_Read: rc |= marshal_nv_read(ob, tpm_command_body); break; case TPM2_NV_DefineSpace: rc |= marshal_nv_define_space(ob, tpm_command_body); break; case TPM2_NV_SetBits: rc |= marshal_nv_setbits(ob, tpm_command_body); break; case TPM2_NV_Write: rc |= marshal_nv_write(ob, tpm_command_body); break; case TPM2_NV_WriteLock: rc |= marshal_nv_write_lock(ob, tpm_command_body); break; case TPM2_SelfTest: rc |= marshal_selftest(ob, tpm_command_body); break; case TPM2_Hierarchy_Control: rc |= marshal_hierarchy_control(ob, tpm_command_body); break; case TPM2_ClearControl: rc |= marshal_clear_control(ob, tpm_command_body); break; case TPM2_Clear: rc |= marshal_clear(ob); break; case TPM2_PCR_Extend: rc |= marshal_pcr_extend(ob, tpm_command_body); break; case TPM2_CR50_VENDOR_COMMAND: rc |= marshal_cr50_vendor_command(ob, tpm_command_body); break; default: printk(BIOS_INFO, "%s:%d:Request to marshal unsupported command %#x\n", __FILE__, __LINE__, command); rc = -1; } if (rc != 0) return rc; /* Fix up the command header with known values. */ rc |= obuf_write_be16(&ob_hdr, tpm_tag); rc |= obuf_write_be32(&ob_hdr, obuf_nr_written(ob)); return rc; } static int unmarshal_get_capability(struct ibuf *ib, struct get_cap_response *gcr) { int i; int rc = 0; rc |= ibuf_read_be8(ib, &gcr->more_data); rc |= unmarshal_TPM_CAP(ib, &gcr->cd.capability); if (rc != 0) return rc; switch (gcr->cd.capability) { case TPM_CAP_TPM_PROPERTIES: if (ibuf_read_be32(ib, &gcr->cd.data.tpmProperties.count)) return -1; if (gcr->cd.data.tpmProperties.count > ARRAY_SIZE (gcr->cd.data.tpmProperties.tpmProperty)) { printk(BIOS_INFO, "%s:%s:%d - %d - too many properties\n", __FILE__, __func__, __LINE__, gcr->cd.data.tpmProperties.count); return -1; } for (i = 0; i < gcr->cd.data.tpmProperties.count; i++) { TPMS_TAGGED_PROPERTY *pp; pp = gcr->cd.data.tpmProperties.tpmProperty + i; rc |= unmarshal_TPM_PT(ib, &pp->property); rc |= ibuf_read_be32(ib, &pp->value); } break; case TPM_CAP_PCRS: if (ibuf_read_be32(ib, &gcr->cd.data.assignedPCR.count)) return -1; if (gcr->cd.data.assignedPCR.count > ARRAY_SIZE(gcr->cd.data.assignedPCR.pcrSelections)) { printk(BIOS_INFO, "%s:%s:%d - %d - too many properties\n", __FILE__, __func__, __LINE__, gcr->cd.data.assignedPCR.count); return -1; } for (i = 0; i < gcr->cd.data.assignedPCR.count; i++) { TPMS_PCR_SELECTION *pp = &gcr->cd.data.assignedPCR.pcrSelections[i]; rc |= ibuf_read(ib, pp, sizeof(TPMS_PCR_SELECTION)); } break; default: printk(BIOS_ERR, "%s:%d - unable to unmarshal capability response", __func__, __LINE__); printk(BIOS_ERR, " for %d\n", gcr->cd.capability); rc = -1; break; } return rc; } static int unmarshal_TPM2B_MAX_NV_BUFFER(struct ibuf *ib, TPM2B_MAX_NV_BUFFER *nv_buffer) { if (ibuf_read_be16(ib, &nv_buffer->t.size)) return -1; nv_buffer->t.buffer = ibuf_oob_drain(ib, nv_buffer->t.size); if (nv_buffer->t.buffer == NULL) { printk(BIOS_ERR, "%s:%d - " "size mismatch: expected %d, remaining %zd\n", __func__, __LINE__, nv_buffer->t.size, ibuf_remaining(ib)); return -1; } return 0; } static int unmarshal_nv_read(struct ibuf *ib, struct nv_read_response *nvr) { /* Total size of the parameter field. */ if (ibuf_read_be32(ib, &nvr->params_size)) return -1; if (unmarshal_TPM2B_MAX_NV_BUFFER(ib, &nvr->buffer)) return -1; if (nvr->params_size != (nvr->buffer.t.size + sizeof(nvr->buffer.t.size))) { printk(BIOS_ERR, "%s:%d - parameter/buffer %d/%d size mismatch", __func__, __LINE__, nvr->params_size, nvr->buffer.t.size); return -1; } /* * Let's ignore the authorization section. It should be 5 bytes total, * just confirm that this is the case and report any discrepancy. */ if (ibuf_remaining(ib) != 5) printk(BIOS_ERR, "%s:%d - unexpected authorization section size %zd\n", __func__, __LINE__, ibuf_remaining(ib)); ibuf_oob_drain(ib, ibuf_remaining(ib)); return 0; } static int unmarshal_vendor_command(struct ibuf *ib, struct vendor_command_response *vcr) { if (ibuf_read_be16(ib, &vcr->vc_subcommand)) return -1; switch (vcr->vc_subcommand) { case TPM2_CR50_SUB_CMD_IMMEDIATE_RESET: break; case TPM2_CR50_SUB_CMD_NVMEM_ENABLE_COMMITS: break; case TPM2_CR50_SUB_CMD_TURN_UPDATE_ON: return ibuf_read_be8(ib, &vcr->num_restored_headers); case TPM2_CR50_SUB_CMD_GET_REC_BTN: return ibuf_read_be8(ib, &vcr->recovery_button_state); case TPM2_CR50_SUB_CMD_TPM_MODE: return ibuf_read_be8(ib, &vcr->tpm_mode); case TPM2_CR50_SUB_CMD_GET_BOOT_MODE: return ibuf_read_be8(ib, &vcr->boot_mode); case TPM2_CR50_SUB_CMD_RESET_EC: break; default: printk(BIOS_ERR, "%s:%d - unsupported vendor command %#04x!\n", __func__, __LINE__, vcr->vc_subcommand); return -1; } return 0; } struct tpm2_response *tpm_unmarshal_response(TPM_CC command, struct ibuf *ib) { static struct tpm2_response tpm2_static_resp; int rc = 0; rc |= ibuf_read_be16(ib, &tpm2_static_resp.hdr.tpm_tag); rc |= ibuf_read_be32(ib, &tpm2_static_resp.hdr.tpm_size); rc |= unmarshal_TPM_CC(ib, &tpm2_static_resp.hdr.tpm_code); if (rc != 0) return NULL; if (ibuf_capacity(ib) != tpm2_static_resp.hdr.tpm_size) { printk(BIOS_ERR, "%s: size mismatch in response to command %#x\n", __func__, command); return NULL; } /* On errors, we're not sure what the TPM is returning. None of the commands we use actually expect useful data payloads for errors, so just ignore any data after the header. */ if (tpm2_static_resp.hdr.tpm_code != TPM2_RC_SUCCESS) return &tpm2_static_resp; switch (command) { case TPM2_Startup: case TPM2_Shutdown: case TPM2_SelfTest: break; case TPM2_GetCapability: rc |= unmarshal_get_capability(ib, &tpm2_static_resp.gc); break; case TPM2_NV_Read: rc |= unmarshal_nv_read(ib, &tpm2_static_resp.nvr); break; case TPM2_Hierarchy_Control: case TPM2_Clear: case TPM2_ClearControl: case TPM2_NV_DefineSpace: case TPM2_NV_SetBits: case TPM2_NV_Write: case TPM2_NV_WriteLock: case TPM2_PCR_Extend: /* Session data included in response can be safely ignored. */ ibuf_oob_drain(ib, ibuf_remaining(ib)); break; case TPM2_CR50_VENDOR_COMMAND: rc |= unmarshal_vendor_command(ib, &tpm2_static_resp.vcr); break; default: { size_t i; size_t sz_left; const uint8_t *data; printk(BIOS_INFO, "%s:%d:" "Request to unmarshal unexpected command %#x," " code %#x", __func__, __LINE__, command, tpm2_static_resp.hdr.tpm_code); sz_left = ibuf_remaining(ib); data = ibuf_oob_drain(ib, sz_left); for (i = 0; i < sz_left; i++) { if (!(i % 16)) printk(BIOS_INFO, "\n"); printk(BIOS_INFO, "%2.2x ", data[i]); } } printk(BIOS_INFO, "\n"); return NULL; } if (ibuf_remaining(ib)) { printk(BIOS_INFO, "%s:%d got %d bytes back in response to %#x," " failed to parse (%zd)\n", __func__, __LINE__, tpm2_static_resp.hdr.tpm_size, command, ibuf_remaining(ib)); return NULL; } if (rc) printk(BIOS_WARNING, "%s had one or more failures.\n", __func__); /* The entire message have been parsed. */ return &tpm2_static_resp; }