/* * Copyright (c) 2022 Arm Limited. All rights reserved. * * SPDX-License-Identifier: BSD-3-Clause * * DRTM service * * Authors: * Lucian Paul-Trifu * Brian Nezvadovitz 2021-02-01 */ #include #include #include #include #include #include #include #include "drtm_main.h" #include "drtm_measurements.h" #include "drtm_remediation.h" #include #include #include #include #include #include #include /* Structure to store DRTM features specific to the platform. */ static drtm_features_t plat_drtm_features; /* DRTM-formatted memory map. */ static drtm_memory_region_descriptor_table_t *plat_drtm_mem_map; /* DLME header */ struct_dlme_data_header dlme_data_hdr_init; /* Minimum data memory requirement */ uint64_t dlme_data_min_size; int drtm_setup(void) { bool rc; const plat_drtm_tpm_features_t *plat_tpm_feat; const plat_drtm_dma_prot_features_t *plat_dma_prot_feat; INFO("DRTM service setup\n"); /* Read boot PE ID from MPIDR */ plat_drtm_features.boot_pe_id = read_mpidr_el1() & MPIDR_AFFINITY_MASK; rc = drtm_dma_prot_init(); if (rc) { return INTERNAL_ERROR; } /* * initialise the platform supported crypto module that will * be used by the DRTM-service to calculate hash of DRTM- * implementation specific components */ crypto_mod_init(); /* Build DRTM-compatible address map. */ plat_drtm_mem_map = drtm_build_address_map(); if (plat_drtm_mem_map == NULL) { return INTERNAL_ERROR; } /* Get DRTM features from platform hooks. */ plat_tpm_feat = plat_drtm_get_tpm_features(); if (plat_tpm_feat == NULL) { return INTERNAL_ERROR; } plat_dma_prot_feat = plat_drtm_get_dma_prot_features(); if (plat_dma_prot_feat == NULL) { return INTERNAL_ERROR; } /* * Add up minimum DLME data memory. * * For systems with complete DMA protection there is only one entry in * the protected regions table. */ if (plat_dma_prot_feat->dma_protection_support == ARM_DRTM_DMA_PROT_FEATURES_DMA_SUPPORT_COMPLETE) { dlme_data_min_size = sizeof(drtm_memory_region_descriptor_table_t) + sizeof(drtm_mem_region_t); dlme_data_hdr_init.dlme_prot_regions_size = dlme_data_min_size; } else { /* * TODO set protected regions table size based on platform DMA * protection configuration */ panic(); } dlme_data_hdr_init.dlme_addr_map_size = drtm_get_address_map_size(); dlme_data_hdr_init.dlme_tcb_hashes_table_size = plat_drtm_get_tcb_hash_table_size(); dlme_data_hdr_init.dlme_impdef_region_size = plat_drtm_get_imp_def_dlme_region_size(); dlme_data_min_size += dlme_data_hdr_init.dlme_addr_map_size + PLAT_DRTM_EVENT_LOG_MAX_SIZE + dlme_data_hdr_init.dlme_tcb_hashes_table_size + dlme_data_hdr_init.dlme_impdef_region_size; dlme_data_min_size = page_align(dlme_data_min_size, UP)/PAGE_SIZE; /* Fill out platform DRTM features structure */ /* Only support default PCR schema (0x1) in this implementation. */ ARM_DRTM_TPM_FEATURES_SET_PCR_SCHEMA(plat_drtm_features.tpm_features, ARM_DRTM_TPM_FEATURES_PCR_SCHEMA_DEFAULT); ARM_DRTM_TPM_FEATURES_SET_TPM_HASH(plat_drtm_features.tpm_features, plat_tpm_feat->tpm_based_hash_support); ARM_DRTM_TPM_FEATURES_SET_FW_HASH(plat_drtm_features.tpm_features, plat_tpm_feat->firmware_hash_algorithm); ARM_DRTM_MIN_MEM_REQ_SET_MIN_DLME_DATA_SIZE(plat_drtm_features.minimum_memory_requirement, dlme_data_min_size); ARM_DRTM_MIN_MEM_REQ_SET_DCE_SIZE(plat_drtm_features.minimum_memory_requirement, plat_drtm_get_min_size_normal_world_dce()); ARM_DRTM_DMA_PROT_FEATURES_SET_MAX_REGIONS(plat_drtm_features.dma_prot_features, plat_dma_prot_feat->max_num_mem_prot_regions); ARM_DRTM_DMA_PROT_FEATURES_SET_DMA_SUPPORT(plat_drtm_features.dma_prot_features, plat_dma_prot_feat->dma_protection_support); ARM_DRTM_TCB_HASH_FEATURES_SET_MAX_NUM_HASHES(plat_drtm_features.tcb_hash_features, plat_drtm_get_tcb_hash_features()); return 0; } static inline void invalidate_icache_all(void) { __asm__ volatile("ic ialluis"); dsb(); isb(); } static inline uint64_t drtm_features_tpm(void *ctx) { SMC_RET2(ctx, 1ULL, /* TPM feature is supported */ plat_drtm_features.tpm_features); } static inline uint64_t drtm_features_mem_req(void *ctx) { SMC_RET2(ctx, 1ULL, /* memory req Feature is supported */ plat_drtm_features.minimum_memory_requirement); } static inline uint64_t drtm_features_boot_pe_id(void *ctx) { SMC_RET2(ctx, 1ULL, /* Boot PE feature is supported */ plat_drtm_features.boot_pe_id); } static inline uint64_t drtm_features_dma_prot(void *ctx) { SMC_RET2(ctx, 1ULL, /* DMA protection feature is supported */ plat_drtm_features.dma_prot_features); } static inline uint64_t drtm_features_tcb_hashes(void *ctx) { SMC_RET2(ctx, 1ULL, /* TCB hash feature is supported */ plat_drtm_features.tcb_hash_features); } static enum drtm_retc drtm_dl_check_caller_el(void *ctx) { uint64_t spsr_el3 = read_ctx_reg(get_el3state_ctx(ctx), CTX_SPSR_EL3); uint64_t dl_caller_el; uint64_t dl_caller_aarch; dl_caller_el = spsr_el3 >> MODE_EL_SHIFT & MODE_EL_MASK; dl_caller_aarch = spsr_el3 >> MODE_RW_SHIFT & MODE_RW_MASK; /* Caller's security state is checked from drtm_smc_handle function */ /* Caller can be NS-EL2/EL1 */ if (dl_caller_el == MODE_EL3) { ERROR("DRTM: invalid launch from EL3\n"); return DENIED; } if (dl_caller_aarch != MODE_RW_64) { ERROR("DRTM: invalid launch from non-AArch64 execution state\n"); return DENIED; } return SUCCESS; } static enum drtm_retc drtm_dl_check_cores(void) { bool running_on_single_core; uint64_t this_pe_aff_value = read_mpidr_el1() & MPIDR_AFFINITY_MASK; if (this_pe_aff_value != plat_drtm_features.boot_pe_id) { ERROR("DRTM: invalid launch on a non-boot PE\n"); return DENIED; } running_on_single_core = psci_is_last_on_cpu_safe(); if (!running_on_single_core) { ERROR("DRTM: invalid launch due to non-boot PE not being turned off\n"); return DENIED; } return SUCCESS; } static enum drtm_retc drtm_dl_prepare_dlme_data(const struct_drtm_dl_args *args) { int rc; uint64_t dlme_data_paddr; size_t dlme_data_max_size; uintptr_t dlme_data_mapping; struct_dlme_data_header *dlme_data_hdr; uint8_t *dlme_data_cursor; size_t dlme_data_mapping_bytes; size_t serialised_bytes_actual; dlme_data_paddr = args->dlme_paddr + args->dlme_data_off; dlme_data_max_size = args->dlme_size - args->dlme_data_off; /* * The capacity of the given DLME data region is checked when * the other dynamic launch arguments are. */ if (dlme_data_max_size < dlme_data_min_size) { ERROR("%s: assertion failed:" " dlme_data_max_size (%ld) < dlme_data_total_bytes_req (%ld)\n", __func__, dlme_data_max_size, dlme_data_min_size); panic(); } /* Map the DLME data region as NS memory. */ dlme_data_mapping_bytes = ALIGNED_UP(dlme_data_max_size, DRTM_PAGE_SIZE); rc = mmap_add_dynamic_region_alloc_va(dlme_data_paddr, &dlme_data_mapping, dlme_data_mapping_bytes, MT_RW_DATA | MT_NS | MT_SHAREABILITY_ISH); if (rc != 0) { WARN("DRTM: %s: mmap_add_dynamic_region() failed rc=%d\n", __func__, rc); return INTERNAL_ERROR; } dlme_data_hdr = (struct_dlme_data_header *)dlme_data_mapping; dlme_data_cursor = (uint8_t *)dlme_data_hdr + sizeof(*dlme_data_hdr); memcpy(dlme_data_hdr, (const void *)&dlme_data_hdr_init, sizeof(*dlme_data_hdr)); /* Set the header version and size. */ dlme_data_hdr->version = 1; dlme_data_hdr->this_hdr_size = sizeof(*dlme_data_hdr); /* Prepare DLME protected regions. */ drtm_dma_prot_serialise_table(dlme_data_cursor, &serialised_bytes_actual); assert(serialised_bytes_actual == dlme_data_hdr->dlme_prot_regions_size); dlme_data_cursor += serialised_bytes_actual; /* Prepare DLME address map. */ if (plat_drtm_mem_map != NULL) { memcpy(dlme_data_cursor, plat_drtm_mem_map, dlme_data_hdr->dlme_addr_map_size); } else { WARN("DRTM: DLME address map is not in the cache\n"); } dlme_data_cursor += dlme_data_hdr->dlme_addr_map_size; /* Prepare DRTM event log for DLME. */ drtm_serialise_event_log(dlme_data_cursor, &serialised_bytes_actual); assert(serialised_bytes_actual <= PLAT_DRTM_EVENT_LOG_MAX_SIZE); dlme_data_hdr->dlme_tpm_log_size = serialised_bytes_actual; dlme_data_cursor += serialised_bytes_actual; /* * TODO: Prepare the TCB hashes for DLME, currently its size * 0 */ dlme_data_cursor += dlme_data_hdr->dlme_tcb_hashes_table_size; /* Implementation-specific region size is unused. */ dlme_data_cursor += dlme_data_hdr->dlme_impdef_region_size; /* * Prepare DLME data size, includes all data region referenced above * alongwith the DLME data header */ dlme_data_hdr->dlme_data_size = dlme_data_cursor - (uint8_t *)dlme_data_hdr; /* Unmap the DLME data region. */ rc = mmap_remove_dynamic_region(dlme_data_mapping, dlme_data_mapping_bytes); if (rc != 0) { ERROR("%s(): mmap_remove_dynamic_region() failed" " unexpectedly rc=%d\n", __func__, rc); panic(); } return SUCCESS; } /* * Note: accesses to the dynamic launch args, and to the DLME data are * little-endian as required, thanks to TF-A BL31 init requirements. */ static enum drtm_retc drtm_dl_check_args(uint64_t x1, struct_drtm_dl_args *a_out) { uint64_t dlme_start, dlme_end; uint64_t dlme_img_start, dlme_img_ep, dlme_img_end; uint64_t dlme_data_start, dlme_data_end; uintptr_t va_mapping; size_t va_mapping_size; struct_drtm_dl_args *a; struct_drtm_dl_args args_buf; int rc; if (x1 % DRTM_PAGE_SIZE != 0) { ERROR("DRTM: parameters structure is not " DRTM_PAGE_SIZE_STR "-aligned\n"); return INVALID_PARAMETERS; } va_mapping_size = ALIGNED_UP(sizeof(struct_drtm_dl_args), DRTM_PAGE_SIZE); /* check DRTM parameters are within NS address region */ rc = plat_drtm_validate_ns_region(x1, va_mapping_size); if (rc != 0) { ERROR("DRTM: parameters lies within secure memory\n"); return INVALID_PARAMETERS; } rc = mmap_add_dynamic_region_alloc_va(x1, &va_mapping, va_mapping_size, MT_MEMORY | MT_NS | MT_RO | MT_SHAREABILITY_ISH); if (rc != 0) { WARN("DRTM: %s: mmap_add_dynamic_region() failed rc=%d\n", __func__, rc); return INTERNAL_ERROR; } a = (struct_drtm_dl_args *)va_mapping; /* Sanitize cache of data passed in args by the DCE Preamble. */ flush_dcache_range(va_mapping, va_mapping_size); args_buf = *a; rc = mmap_remove_dynamic_region(va_mapping, va_mapping_size); if (rc) { ERROR("%s(): mmap_remove_dynamic_region() failed unexpectedly" " rc=%d\n", __func__, rc); panic(); } a = &args_buf; if (!((a->version >= ARM_DRTM_PARAMS_MIN_VERSION) && (a->version <= ARM_DRTM_PARAMS_MAX_VERSION))) { ERROR("DRTM: parameters structure version %u is unsupported\n", a->version); return NOT_SUPPORTED; } if (!(a->dlme_img_off < a->dlme_size && a->dlme_data_off < a->dlme_size)) { ERROR("DRTM: argument offset is outside of the DLME region\n"); return INVALID_PARAMETERS; } dlme_start = a->dlme_paddr; dlme_end = a->dlme_paddr + a->dlme_size; dlme_img_start = a->dlme_paddr + a->dlme_img_off; dlme_img_ep = dlme_img_start + a->dlme_img_ep_off; dlme_img_end = dlme_img_start + a->dlme_img_size; dlme_data_start = a->dlme_paddr + a->dlme_data_off; dlme_data_end = dlme_end; /* Check the DLME regions arguments. */ if ((dlme_start % DRTM_PAGE_SIZE) != 0) { ERROR("DRTM: argument DLME region is not " DRTM_PAGE_SIZE_STR "-aligned\n"); return INVALID_PARAMETERS; } if (!(dlme_start < dlme_end && dlme_start <= dlme_img_start && dlme_img_start < dlme_img_end && dlme_start <= dlme_data_start && dlme_data_start < dlme_data_end)) { ERROR("DRTM: argument DLME region is discontiguous\n"); return INVALID_PARAMETERS; } if (dlme_img_start < dlme_data_end && dlme_data_start < dlme_img_end) { ERROR("DRTM: argument DLME regions overlap\n"); return INVALID_PARAMETERS; } /* Check the DLME image region arguments. */ if ((dlme_img_start % DRTM_PAGE_SIZE) != 0) { ERROR("DRTM: argument DLME image region is not " DRTM_PAGE_SIZE_STR "-aligned\n"); return INVALID_PARAMETERS; } if (!(dlme_img_start <= dlme_img_ep && dlme_img_ep < dlme_img_end)) { ERROR("DRTM: DLME entry point is outside of the DLME image region\n"); return INVALID_PARAMETERS; } if ((dlme_img_ep % 4) != 0) { ERROR("DRTM: DLME image entry point is not 4-byte-aligned\n"); return INVALID_PARAMETERS; } /* Check the DLME data region arguments. */ if ((dlme_data_start % DRTM_PAGE_SIZE) != 0) { ERROR("DRTM: argument DLME data region is not " DRTM_PAGE_SIZE_STR "-aligned\n"); return INVALID_PARAMETERS; } if (dlme_data_end - dlme_data_start < dlme_data_min_size) { ERROR("DRTM: argument DLME data region is short of %lu bytes\n", dlme_data_min_size - (size_t)(dlme_data_end - dlme_data_start)); return INVALID_PARAMETERS; } /* check DLME region (paddr + size) is within a NS address region */ rc = plat_drtm_validate_ns_region(dlme_start, (size_t)a->dlme_size); if (rc != 0) { ERROR("DRTM: DLME region lies within secure memory\n"); return INVALID_PARAMETERS; } /* Check the Normal World DCE region arguments. */ if (a->dce_nwd_paddr != 0) { uint32_t dce_nwd_start = a->dce_nwd_paddr; uint32_t dce_nwd_end = dce_nwd_start + a->dce_nwd_size; if (!(dce_nwd_start < dce_nwd_end)) { ERROR("DRTM: argument Normal World DCE region is dicontiguous\n"); return INVALID_PARAMETERS; } if (dce_nwd_start < dlme_end && dlme_start < dce_nwd_end) { ERROR("DRTM: argument Normal World DCE regions overlap\n"); return INVALID_PARAMETERS; } } /* * Map and sanitize the cache of data range passed by DCE Preamble. This * is required to avoid / defend against racing with cache evictions */ va_mapping_size = ALIGNED_UP((dlme_end - dlme_start), DRTM_PAGE_SIZE); rc = mmap_add_dynamic_region_alloc_va(dlme_img_start, &va_mapping, va_mapping_size, MT_MEMORY | MT_NS | MT_RO | MT_SHAREABILITY_ISH); if (rc != 0) { ERROR("DRTM: %s: mmap_add_dynamic_region_alloc_va() failed rc=%d\n", __func__, rc); return INTERNAL_ERROR; } flush_dcache_range(va_mapping, va_mapping_size); rc = mmap_remove_dynamic_region(va_mapping, va_mapping_size); if (rc) { ERROR("%s(): mmap_remove_dynamic_region() failed unexpectedly" " rc=%d\n", __func__, rc); panic(); } *a_out = *a; return SUCCESS; } static void drtm_dl_reset_dlme_el_state(enum drtm_dlme_el dlme_el) { uint64_t sctlr; /* * TODO: Set PE state according to the PSCI's specification of the initial * state after CPU_ON, or to reset values if unspecified, where they exist, * or define sensible values otherwise. */ switch (dlme_el) { case DLME_AT_EL1: sctlr = read_sctlr_el1(); break; case DLME_AT_EL2: sctlr = read_sctlr_el2(); break; default: /* Not reached */ ERROR("%s(): dlme_el has the unexpected value %d\n", __func__, dlme_el); panic(); } sctlr &= ~(/* Disable DLME's EL MMU, since the existing page-tables are untrusted. */ SCTLR_M_BIT | SCTLR_EE_BIT /* Little-endian data accesses. */ ); sctlr |= SCTLR_C_BIT | SCTLR_I_BIT; /* Allow instruction and data caching. */ switch (dlme_el) { case DLME_AT_EL1: write_sctlr_el1(sctlr); break; case DLME_AT_EL2: write_sctlr_el2(sctlr); break; } } static void drtm_dl_reset_dlme_context(enum drtm_dlme_el dlme_el) { void *ns_ctx = cm_get_context(NON_SECURE); gp_regs_t *gpregs = get_gpregs_ctx(ns_ctx); uint64_t spsr_el3 = read_ctx_reg(get_el3state_ctx(ns_ctx), CTX_SPSR_EL3); /* Reset all gpregs, including SP_EL0. */ memset(gpregs, 0, sizeof(*gpregs)); /* Reset SP_ELx. */ switch (dlme_el) { case DLME_AT_EL1: write_sp_el1(0); break; case DLME_AT_EL2: write_sp_el2(0); break; } /* * DLME's async exceptions are masked to avoid a NWd attacker's timed * interference with any state we established trust in or measured. */ spsr_el3 |= SPSR_DAIF_MASK << SPSR_DAIF_SHIFT; write_ctx_reg(get_el3state_ctx(ns_ctx), CTX_SPSR_EL3, spsr_el3); } static void drtm_dl_prepare_eret_to_dlme(const struct_drtm_dl_args *args, enum drtm_dlme_el dlme_el) { void *ctx = cm_get_context(NON_SECURE); uint64_t dlme_ep = DL_ARGS_GET_DLME_ENTRY_POINT(args); uint64_t spsr_el3 = read_ctx_reg(get_el3state_ctx(ctx), CTX_SPSR_EL3); /* Next ERET is to the DLME's EL. */ spsr_el3 &= ~(MODE_EL_MASK << MODE_EL_SHIFT); switch (dlme_el) { case DLME_AT_EL1: spsr_el3 |= MODE_EL1 << MODE_EL_SHIFT; break; case DLME_AT_EL2: spsr_el3 |= MODE_EL2 << MODE_EL_SHIFT; break; } /* Next ERET is to the DLME entry point. */ cm_set_elr_spsr_el3(NON_SECURE, dlme_ep, spsr_el3); } static uint64_t drtm_dynamic_launch(uint64_t x1, void *handle) { enum drtm_retc ret = SUCCESS; enum drtm_retc dma_prot_ret; struct_drtm_dl_args args; /* DLME should be highest NS exception level */ enum drtm_dlme_el dlme_el = (el_implemented(2) != EL_IMPL_NONE) ? MODE_EL2 : MODE_EL1; /* Ensure that only boot PE is powered on */ ret = drtm_dl_check_cores(); if (ret != SUCCESS) { SMC_RET1(handle, ret); } /* * Ensure that execution state is AArch64 and the caller * is highest non-secure exception level */ ret = drtm_dl_check_caller_el(handle); if (ret != SUCCESS) { SMC_RET1(handle, ret); } ret = drtm_dl_check_args(x1, &args); if (ret != SUCCESS) { SMC_RET1(handle, ret); } /* Ensure that there are no SDEI event registered */ #if SDEI_SUPPORT if (sdei_get_registered_event_count() != 0) { SMC_RET1(handle, DENIED); } #endif /* SDEI_SUPPORT */ /* * Engage the DMA protections. The launch cannot proceed without the DMA * protections due to potential TOC/TOU vulnerabilities w.r.t. the DLME * region (and to the NWd DCE region). */ ret = drtm_dma_prot_engage(&args.dma_prot_args, DL_ARGS_GET_DMA_PROT_TYPE(&args)); if (ret != SUCCESS) { SMC_RET1(handle, ret); } /* * The DMA protection is now engaged. Note that any failure mode that * returns an error to the DRTM-launch caller must now disengage DMA * protections before returning to the caller. */ ret = drtm_take_measurements(&args); if (ret != SUCCESS) { goto err_undo_dma_prot; } ret = drtm_dl_prepare_dlme_data(&args); if (ret != SUCCESS) { goto err_undo_dma_prot; } /* * Note that, at the time of writing, the DRTM spec allows a successful * launch from NS-EL1 to return to a DLME in NS-EL2. The practical risk * of a privilege escalation, e.g. due to a compromised hypervisor, is * considered small enough not to warrant the specification of additional * DRTM conduits that would be necessary to maintain OSs' abstraction from * the presence of EL2 were the dynamic launch only be allowed from the * highest NS EL. */ dlme_el = (el_implemented(2) != EL_IMPL_NONE) ? MODE_EL2 : MODE_EL1; drtm_dl_reset_dlme_el_state(dlme_el); drtm_dl_reset_dlme_context(dlme_el); drtm_dl_prepare_eret_to_dlme(&args, dlme_el); /* * As per DRTM beta0 spec table #28 invalidate the instruction cache * before jumping to the DLME. This is required to defend against * potentially-malicious cache contents. */ invalidate_icache_all(); /* Return the DLME region's address in x0, and the DLME data offset in x1.*/ SMC_RET2(handle, args.dlme_paddr, args.dlme_data_off); err_undo_dma_prot: dma_prot_ret = drtm_dma_prot_disengage(); if (dma_prot_ret != SUCCESS) { ERROR("%s(): drtm_dma_prot_disengage() failed unexpectedly" " rc=%d\n", __func__, ret); panic(); } SMC_RET1(handle, ret); } uint64_t drtm_smc_handler(uint32_t smc_fid, uint64_t x1, uint64_t x2, uint64_t x3, uint64_t x4, void *cookie, void *handle, uint64_t flags) { /* Check that the SMC call is from the Normal World. */ if (!is_caller_non_secure(flags)) { SMC_RET1(handle, NOT_SUPPORTED); } switch (smc_fid) { case ARM_DRTM_SVC_VERSION: INFO("DRTM service handler: version\n"); /* Return the version of current implementation */ SMC_RET1(handle, ARM_DRTM_VERSION); break; /* not reached */ case ARM_DRTM_SVC_FEATURES: if (((x1 >> ARM_DRTM_FUNC_SHIFT) & ARM_DRTM_FUNC_MASK) == ARM_DRTM_FUNC_ID) { /* Dispatch function-based queries. */ switch (x1 & FUNCID_MASK) { case ARM_DRTM_SVC_VERSION: SMC_RET1(handle, SUCCESS); break; /* not reached */ case ARM_DRTM_SVC_FEATURES: SMC_RET1(handle, SUCCESS); break; /* not reached */ case ARM_DRTM_SVC_UNPROTECT_MEM: SMC_RET1(handle, SUCCESS); break; /* not reached */ case ARM_DRTM_SVC_DYNAMIC_LAUNCH: SMC_RET1(handle, SUCCESS); break; /* not reached */ case ARM_DRTM_SVC_CLOSE_LOCALITY: WARN("ARM_DRTM_SVC_CLOSE_LOCALITY feature %s", "is not supported\n"); SMC_RET1(handle, NOT_SUPPORTED); break; /* not reached */ case ARM_DRTM_SVC_GET_ERROR: SMC_RET1(handle, SUCCESS); break; /* not reached */ case ARM_DRTM_SVC_SET_ERROR: SMC_RET1(handle, SUCCESS); break; /* not reached */ case ARM_DRTM_SVC_SET_TCB_HASH: WARN("ARM_DRTM_SVC_TCB_HASH feature %s", "is not supported\n"); SMC_RET1(handle, NOT_SUPPORTED); break; /* not reached */ case ARM_DRTM_SVC_LOCK_TCB_HASH: WARN("ARM_DRTM_SVC_LOCK_TCB_HASH feature %s", "is not supported\n"); SMC_RET1(handle, NOT_SUPPORTED); break; /* not reached */ default: ERROR("Unknown DRTM service function\n"); SMC_RET1(handle, NOT_SUPPORTED); break; /* not reached */ } } else { /* Dispatch feature-based queries. */ switch (x1 & ARM_DRTM_FEAT_ID_MASK) { case ARM_DRTM_FEATURES_TPM: INFO("++ DRTM service handler: TPM features\n"); return drtm_features_tpm(handle); break; /* not reached */ case ARM_DRTM_FEATURES_MEM_REQ: INFO("++ DRTM service handler: Min. mem." " requirement features\n"); return drtm_features_mem_req(handle); break; /* not reached */ case ARM_DRTM_FEATURES_DMA_PROT: INFO("++ DRTM service handler: " "DMA protection features\n"); return drtm_features_dma_prot(handle); break; /* not reached */ case ARM_DRTM_FEATURES_BOOT_PE_ID: INFO("++ DRTM service handler: " "Boot PE ID features\n"); return drtm_features_boot_pe_id(handle); break; /* not reached */ case ARM_DRTM_FEATURES_TCB_HASHES: INFO("++ DRTM service handler: " "TCB-hashes features\n"); return drtm_features_tcb_hashes(handle); break; /* not reached */ default: ERROR("Unknown ARM DRTM service feature\n"); SMC_RET1(handle, NOT_SUPPORTED); break; /* not reached */ } } case ARM_DRTM_SVC_UNPROTECT_MEM: INFO("DRTM service handler: unprotect mem\n"); return drtm_unprotect_mem(handle); break; /* not reached */ case ARM_DRTM_SVC_DYNAMIC_LAUNCH: INFO("DRTM service handler: dynamic launch\n"); return drtm_dynamic_launch(x1, handle); break; /* not reached */ case ARM_DRTM_SVC_CLOSE_LOCALITY: WARN("DRTM service handler: close locality %s\n", "is not supported"); SMC_RET1(handle, NOT_SUPPORTED); break; /* not reached */ case ARM_DRTM_SVC_GET_ERROR: INFO("DRTM service handler: get error\n"); drtm_get_error(handle); break; /* not reached */ case ARM_DRTM_SVC_SET_ERROR: INFO("DRTM service handler: set error\n"); drtm_set_error(x1, handle); break; /* not reached */ case ARM_DRTM_SVC_SET_TCB_HASH: WARN("DRTM service handler: set TCB hash %s\n", "is not supported"); SMC_RET1(handle, NOT_SUPPORTED); break; /* not reached */ case ARM_DRTM_SVC_LOCK_TCB_HASH: WARN("DRTM service handler: lock TCB hash %s\n", "is not supported"); SMC_RET1(handle, NOT_SUPPORTED); break; /* not reached */ default: ERROR("Unknown DRTM service function: 0x%x\n", smc_fid); SMC_RET1(handle, SMC_UNK); break; /* not reached */ } /* not reached */ SMC_RET1(handle, SMC_UNK); }