177c27753SZelalem Aweke /* 2319fb084SSoby Mathew * Copyright (c) 2021-2022, ARM Limited and Contributors. All rights reserved. 377c27753SZelalem Aweke * 477c27753SZelalem Aweke * SPDX-License-Identifier: BSD-3-Clause 577c27753SZelalem Aweke */ 677c27753SZelalem Aweke 777c27753SZelalem Aweke #include <assert.h> 877c27753SZelalem Aweke #include <errno.h> 92461bd3aSManish Pandey #include <inttypes.h> 102461bd3aSManish Pandey #include <stdint.h> 1177c27753SZelalem Aweke #include <string.h> 1277c27753SZelalem Aweke 1377c27753SZelalem Aweke #include <arch_helpers.h> 1477c27753SZelalem Aweke #include <arch_features.h> 1577c27753SZelalem Aweke #include <bl31/bl31.h> 1677c27753SZelalem Aweke #include <common/debug.h> 1777c27753SZelalem Aweke #include <common/runtime_svc.h> 1877c27753SZelalem Aweke #include <context.h> 1977c27753SZelalem Aweke #include <lib/el3_runtime/context_mgmt.h> 2077c27753SZelalem Aweke #include <lib/el3_runtime/pubsub.h> 21f19dc624Sjohpow01 #include <lib/gpt_rme/gpt_rme.h> 2277c27753SZelalem Aweke 2377c27753SZelalem Aweke #include <lib/spinlock.h> 2477c27753SZelalem Aweke #include <lib/utils.h> 2577c27753SZelalem Aweke #include <lib/xlat_tables/xlat_tables_v2.h> 2677c27753SZelalem Aweke #include <plat/common/common_def.h> 2777c27753SZelalem Aweke #include <plat/common/platform.h> 2877c27753SZelalem Aweke #include <platform_def.h> 2977c27753SZelalem Aweke #include <services/rmmd_svc.h> 3077c27753SZelalem Aweke #include <smccc_helpers.h> 31a4cc85c1SSubhasish Ghosh #include <lib/extensions/sve.h> 3277c27753SZelalem Aweke #include "rmmd_initial_context.h" 3377c27753SZelalem Aweke #include "rmmd_private.h" 3477c27753SZelalem Aweke 3577c27753SZelalem Aweke /******************************************************************************* 368c980a4aSJavier Almansa Sobrino * RMM boot failure flag 378c980a4aSJavier Almansa Sobrino ******************************************************************************/ 388c980a4aSJavier Almansa Sobrino static bool rmm_boot_failed; 398c980a4aSJavier Almansa Sobrino 408c980a4aSJavier Almansa Sobrino /******************************************************************************* 4177c27753SZelalem Aweke * RMM context information. 4277c27753SZelalem Aweke ******************************************************************************/ 4377c27753SZelalem Aweke rmmd_rmm_context_t rmm_context[PLATFORM_CORE_COUNT]; 4477c27753SZelalem Aweke 4577c27753SZelalem Aweke /******************************************************************************* 4677c27753SZelalem Aweke * RMM entry point information. Discovered on the primary core and reused 4777c27753SZelalem Aweke * on secondary cores. 4877c27753SZelalem Aweke ******************************************************************************/ 4977c27753SZelalem Aweke static entry_point_info_t *rmm_ep_info; 5077c27753SZelalem Aweke 5177c27753SZelalem Aweke /******************************************************************************* 5277c27753SZelalem Aweke * Static function declaration. 5377c27753SZelalem Aweke ******************************************************************************/ 5477c27753SZelalem Aweke static int32_t rmm_init(void); 5577c27753SZelalem Aweke 5677c27753SZelalem Aweke /******************************************************************************* 5777c27753SZelalem Aweke * This function takes an RMM context pointer and performs a synchronous entry 5877c27753SZelalem Aweke * into it. 5977c27753SZelalem Aweke ******************************************************************************/ 6077c27753SZelalem Aweke uint64_t rmmd_rmm_sync_entry(rmmd_rmm_context_t *rmm_ctx) 6177c27753SZelalem Aweke { 6277c27753SZelalem Aweke uint64_t rc; 6377c27753SZelalem Aweke 6477c27753SZelalem Aweke assert(rmm_ctx != NULL); 6577c27753SZelalem Aweke 6677c27753SZelalem Aweke cm_set_context(&(rmm_ctx->cpu_ctx), REALM); 6777c27753SZelalem Aweke 6877c27753SZelalem Aweke /* Restore the realm context assigned above */ 6977c27753SZelalem Aweke cm_el1_sysregs_context_restore(REALM); 7077c27753SZelalem Aweke cm_el2_sysregs_context_restore(REALM); 7177c27753SZelalem Aweke cm_set_next_eret_context(REALM); 7277c27753SZelalem Aweke 7377c27753SZelalem Aweke /* Enter RMM */ 7477c27753SZelalem Aweke rc = rmmd_rmm_enter(&rmm_ctx->c_rt_ctx); 7577c27753SZelalem Aweke 768b95e848SZelalem Aweke /* 778b95e848SZelalem Aweke * Save realm context. EL1 and EL2 Non-secure 788b95e848SZelalem Aweke * contexts will be restored before exiting to 798b95e848SZelalem Aweke * Non-secure world, therefore there is no need 808b95e848SZelalem Aweke * to clear EL1 and EL2 context registers. 818b95e848SZelalem Aweke */ 8277c27753SZelalem Aweke cm_el1_sysregs_context_save(REALM); 8377c27753SZelalem Aweke cm_el2_sysregs_context_save(REALM); 8477c27753SZelalem Aweke 8577c27753SZelalem Aweke return rc; 8677c27753SZelalem Aweke } 8777c27753SZelalem Aweke 8877c27753SZelalem Aweke /******************************************************************************* 8977c27753SZelalem Aweke * This function returns to the place where rmmd_rmm_sync_entry() was 9077c27753SZelalem Aweke * called originally. 9177c27753SZelalem Aweke ******************************************************************************/ 9277c27753SZelalem Aweke __dead2 void rmmd_rmm_sync_exit(uint64_t rc) 9377c27753SZelalem Aweke { 9477c27753SZelalem Aweke rmmd_rmm_context_t *ctx = &rmm_context[plat_my_core_pos()]; 9577c27753SZelalem Aweke 9677c27753SZelalem Aweke /* Get context of the RMM in use by this CPU. */ 9777c27753SZelalem Aweke assert(cm_get_context(REALM) == &(ctx->cpu_ctx)); 9877c27753SZelalem Aweke 9977c27753SZelalem Aweke /* 10077c27753SZelalem Aweke * The RMMD must have initiated the original request through a 10177c27753SZelalem Aweke * synchronous entry into RMM. Jump back to the original C runtime 10277c27753SZelalem Aweke * context with the value of rc in x0; 10377c27753SZelalem Aweke */ 10477c27753SZelalem Aweke rmmd_rmm_exit(ctx->c_rt_ctx, rc); 10577c27753SZelalem Aweke 10677c27753SZelalem Aweke panic(); 10777c27753SZelalem Aweke } 10877c27753SZelalem Aweke 10977c27753SZelalem Aweke static void rmm_el2_context_init(el2_sysregs_t *regs) 11077c27753SZelalem Aweke { 11177c27753SZelalem Aweke regs->ctx_regs[CTX_SPSR_EL2 >> 3] = REALM_SPSR_EL2; 11277c27753SZelalem Aweke regs->ctx_regs[CTX_SCTLR_EL2 >> 3] = SCTLR_EL2_RES1; 11377c27753SZelalem Aweke } 11477c27753SZelalem Aweke 11577c27753SZelalem Aweke /******************************************************************************* 116a4cc85c1SSubhasish Ghosh * Enable architecture extensions on first entry to Realm world. 117a4cc85c1SSubhasish Ghosh ******************************************************************************/ 118a4cc85c1SSubhasish Ghosh static void manage_extensions_realm(cpu_context_t *ctx) 119a4cc85c1SSubhasish Ghosh { 120a4cc85c1SSubhasish Ghosh #if ENABLE_SVE_FOR_NS 121a4cc85c1SSubhasish Ghosh /* 122a4cc85c1SSubhasish Ghosh * Enable SVE and FPU in realm context when it is enabled for NS. 123a4cc85c1SSubhasish Ghosh * Realm manager must ensure that the SVE and FPU register 124a4cc85c1SSubhasish Ghosh * contexts are properly managed. 125a4cc85c1SSubhasish Ghosh */ 126a4cc85c1SSubhasish Ghosh sve_enable(ctx); 127a4cc85c1SSubhasish Ghosh #else 128a4cc85c1SSubhasish Ghosh /* 129a4cc85c1SSubhasish Ghosh * Disable SVE and FPU in realm context when it is disabled for NS. 130a4cc85c1SSubhasish Ghosh */ 131a4cc85c1SSubhasish Ghosh sve_disable(ctx); 132a4cc85c1SSubhasish Ghosh #endif /* ENABLE_SVE_FOR_NS */ 133a4cc85c1SSubhasish Ghosh } 134a4cc85c1SSubhasish Ghosh 135a4cc85c1SSubhasish Ghosh /******************************************************************************* 13677c27753SZelalem Aweke * Jump to the RMM for the first time. 13777c27753SZelalem Aweke ******************************************************************************/ 13877c27753SZelalem Aweke static int32_t rmm_init(void) 13977c27753SZelalem Aweke { 1408c980a4aSJavier Almansa Sobrino long rc; 14177c27753SZelalem Aweke rmmd_rmm_context_t *ctx = &rmm_context[plat_my_core_pos()]; 14277c27753SZelalem Aweke 14377c27753SZelalem Aweke INFO("RMM init start.\n"); 14477c27753SZelalem Aweke 145a4cc85c1SSubhasish Ghosh /* Enable architecture extensions */ 146a4cc85c1SSubhasish Ghosh manage_extensions_realm(&ctx->cpu_ctx); 147a4cc85c1SSubhasish Ghosh 14877c27753SZelalem Aweke /* Initialize RMM EL2 context. */ 14977c27753SZelalem Aweke rmm_el2_context_init(&ctx->cpu_ctx.el2_sysregs_ctx); 15077c27753SZelalem Aweke 15177c27753SZelalem Aweke rc = rmmd_rmm_sync_entry(ctx); 1528c980a4aSJavier Almansa Sobrino if (rc != E_RMM_BOOT_SUCCESS) { 1538c980a4aSJavier Almansa Sobrino ERROR("RMM init failed: %ld\n", rc); 1548c980a4aSJavier Almansa Sobrino /* Mark the boot as failed for all the CPUs */ 1558c980a4aSJavier Almansa Sobrino rmm_boot_failed = true; 1568c980a4aSJavier Almansa Sobrino return 0; 15777c27753SZelalem Aweke } 15877c27753SZelalem Aweke 15977c27753SZelalem Aweke INFO("RMM init end.\n"); 16077c27753SZelalem Aweke 16177c27753SZelalem Aweke return 1; 16277c27753SZelalem Aweke } 16377c27753SZelalem Aweke 16477c27753SZelalem Aweke /******************************************************************************* 16577c27753SZelalem Aweke * Load and read RMM manifest, setup RMM. 16677c27753SZelalem Aweke ******************************************************************************/ 16777c27753SZelalem Aweke int rmmd_setup(void) 16877c27753SZelalem Aweke { 169*dc65ae46SJavier Almansa Sobrino size_t shared_buf_size __unused; 170*dc65ae46SJavier Almansa Sobrino uintptr_t shared_buf_base; 17177c27753SZelalem Aweke uint32_t ep_attr; 17277c27753SZelalem Aweke unsigned int linear_id = plat_my_core_pos(); 17377c27753SZelalem Aweke rmmd_rmm_context_t *rmm_ctx = &rmm_context[linear_id]; 17477c27753SZelalem Aweke 17577c27753SZelalem Aweke /* Make sure RME is supported. */ 17677c27753SZelalem Aweke assert(get_armv9_2_feat_rme_support() != 0U); 17777c27753SZelalem Aweke 17877c27753SZelalem Aweke rmm_ep_info = bl31_plat_get_next_image_ep_info(REALM); 17977c27753SZelalem Aweke if (rmm_ep_info == NULL) { 18077c27753SZelalem Aweke WARN("No RMM image provided by BL2 boot loader, Booting " 18177c27753SZelalem Aweke "device without RMM initialization. SMCs destined for " 18277c27753SZelalem Aweke "RMM will return SMC_UNK\n"); 18377c27753SZelalem Aweke return -ENOENT; 18477c27753SZelalem Aweke } 18577c27753SZelalem Aweke 18677c27753SZelalem Aweke /* Under no circumstances will this parameter be 0 */ 18777c27753SZelalem Aweke assert(rmm_ep_info->pc == RMM_BASE); 18877c27753SZelalem Aweke 18977c27753SZelalem Aweke /* Initialise an entrypoint to set up the CPU context */ 19077c27753SZelalem Aweke ep_attr = EP_REALM; 19177c27753SZelalem Aweke if ((read_sctlr_el3() & SCTLR_EE_BIT) != 0U) { 19277c27753SZelalem Aweke ep_attr |= EP_EE_BIG; 19377c27753SZelalem Aweke } 19477c27753SZelalem Aweke 19577c27753SZelalem Aweke SET_PARAM_HEAD(rmm_ep_info, PARAM_EP, VERSION_1, ep_attr); 19677c27753SZelalem Aweke rmm_ep_info->spsr = SPSR_64(MODE_EL2, 19777c27753SZelalem Aweke MODE_SP_ELX, 19877c27753SZelalem Aweke DISABLE_ALL_EXCEPTIONS); 19977c27753SZelalem Aweke 2008c980a4aSJavier Almansa Sobrino shared_buf_size = 2018c980a4aSJavier Almansa Sobrino plat_rmmd_get_el3_rmm_shared_mem(&shared_buf_base); 2028c980a4aSJavier Almansa Sobrino 2038c980a4aSJavier Almansa Sobrino assert((shared_buf_size == SZ_4K) && 2048c980a4aSJavier Almansa Sobrino ((void *)shared_buf_base != NULL)); 2058c980a4aSJavier Almansa Sobrino 2068c980a4aSJavier Almansa Sobrino /* 2078c980a4aSJavier Almansa Sobrino * Prepare coldboot arguments for RMM: 2088c980a4aSJavier Almansa Sobrino * arg0: This CPUID (primary processor). 2098c980a4aSJavier Almansa Sobrino * arg1: Version for this Boot Interface. 2108c980a4aSJavier Almansa Sobrino * arg2: PLATFORM_CORE_COUNT. 2118c980a4aSJavier Almansa Sobrino * arg3: Base address for the EL3 <-> RMM shared area. The boot 2128c980a4aSJavier Almansa Sobrino * manifest will be stored at the beginning of this area. 2138c980a4aSJavier Almansa Sobrino */ 2148c980a4aSJavier Almansa Sobrino rmm_ep_info->args.arg0 = linear_id; 2158c980a4aSJavier Almansa Sobrino rmm_ep_info->args.arg1 = RMM_EL3_INTERFACE_VERSION; 2168c980a4aSJavier Almansa Sobrino rmm_ep_info->args.arg2 = PLATFORM_CORE_COUNT; 2178c980a4aSJavier Almansa Sobrino rmm_ep_info->args.arg3 = shared_buf_base; 2188c980a4aSJavier Almansa Sobrino 21977c27753SZelalem Aweke /* Initialise RMM context with this entry point information */ 22077c27753SZelalem Aweke cm_setup_context(&rmm_ctx->cpu_ctx, rmm_ep_info); 22177c27753SZelalem Aweke 22277c27753SZelalem Aweke INFO("RMM setup done.\n"); 22377c27753SZelalem Aweke 22477c27753SZelalem Aweke /* Register init function for deferred init. */ 22577c27753SZelalem Aweke bl31_register_rmm_init(&rmm_init); 22677c27753SZelalem Aweke 22777c27753SZelalem Aweke return 0; 22877c27753SZelalem Aweke } 22977c27753SZelalem Aweke 23077c27753SZelalem Aweke /******************************************************************************* 23177c27753SZelalem Aweke * Forward SMC to the other security state 23277c27753SZelalem Aweke ******************************************************************************/ 23311578303SSoby Mathew static uint64_t rmmd_smc_forward(uint32_t src_sec_state, 23411578303SSoby Mathew uint32_t dst_sec_state, uint64_t x0, 23511578303SSoby Mathew uint64_t x1, uint64_t x2, uint64_t x3, 23611578303SSoby Mathew uint64_t x4, void *handle) 23777c27753SZelalem Aweke { 23877c27753SZelalem Aweke /* Save incoming security state */ 23977c27753SZelalem Aweke cm_el1_sysregs_context_save(src_sec_state); 24077c27753SZelalem Aweke cm_el2_sysregs_context_save(src_sec_state); 24177c27753SZelalem Aweke 24277c27753SZelalem Aweke /* Restore outgoing security state */ 24377c27753SZelalem Aweke cm_el1_sysregs_context_restore(dst_sec_state); 24477c27753SZelalem Aweke cm_el2_sysregs_context_restore(dst_sec_state); 24577c27753SZelalem Aweke cm_set_next_eret_context(dst_sec_state); 24677c27753SZelalem Aweke 24711578303SSoby Mathew /* 24811578303SSoby Mathew * As per SMCCCv1.1, we need to preserve x4 to x7 unless 24911578303SSoby Mathew * being used as return args. Hence we differentiate the 25011578303SSoby Mathew * onward and backward path. Support upto 8 args in the 25111578303SSoby Mathew * onward path and 4 args in return path. 25211578303SSoby Mathew */ 25311578303SSoby Mathew if (src_sec_state == NON_SECURE) { 25411578303SSoby Mathew SMC_RET8(cm_get_context(dst_sec_state), x0, x1, x2, x3, x4, 25577c27753SZelalem Aweke SMC_GET_GP(handle, CTX_GPREG_X5), 25677c27753SZelalem Aweke SMC_GET_GP(handle, CTX_GPREG_X6), 25777c27753SZelalem Aweke SMC_GET_GP(handle, CTX_GPREG_X7)); 25811578303SSoby Mathew } else { 25911578303SSoby Mathew SMC_RET4(cm_get_context(dst_sec_state), x0, x1, x2, x3); 26011578303SSoby Mathew } 26177c27753SZelalem Aweke } 26277c27753SZelalem Aweke 26377c27753SZelalem Aweke /******************************************************************************* 26477c27753SZelalem Aweke * This function handles all SMCs in the range reserved for RMI. Each call is 26577c27753SZelalem Aweke * either forwarded to the other security state or handled by the RMM dispatcher 26677c27753SZelalem Aweke ******************************************************************************/ 26777c27753SZelalem Aweke uint64_t rmmd_rmi_handler(uint32_t smc_fid, uint64_t x1, uint64_t x2, 26877c27753SZelalem Aweke uint64_t x3, uint64_t x4, void *cookie, 26977c27753SZelalem Aweke void *handle, uint64_t flags) 27077c27753SZelalem Aweke { 27177c27753SZelalem Aweke uint32_t src_sec_state; 27277c27753SZelalem Aweke 2738c980a4aSJavier Almansa Sobrino /* If RMM failed to boot, treat any RMI SMC as unknown */ 2748c980a4aSJavier Almansa Sobrino if (rmm_boot_failed) { 2758c980a4aSJavier Almansa Sobrino WARN("RMMD: Failed to boot up RMM. Ignoring RMI call\n"); 2768c980a4aSJavier Almansa Sobrino SMC_RET1(handle, SMC_UNK); 2778c980a4aSJavier Almansa Sobrino } 2788c980a4aSJavier Almansa Sobrino 27977c27753SZelalem Aweke /* Determine which security state this SMC originated from */ 28077c27753SZelalem Aweke src_sec_state = caller_sec_state(flags); 28177c27753SZelalem Aweke 28277c27753SZelalem Aweke /* RMI must not be invoked by the Secure world */ 28377c27753SZelalem Aweke if (src_sec_state == SMC_FROM_SECURE) { 284319fb084SSoby Mathew WARN("RMMD: RMI invoked by secure world.\n"); 28577c27753SZelalem Aweke SMC_RET1(handle, SMC_UNK); 28677c27753SZelalem Aweke } 28777c27753SZelalem Aweke 28877c27753SZelalem Aweke /* 28977c27753SZelalem Aweke * Forward an RMI call from the Normal world to the Realm world as it 29077c27753SZelalem Aweke * is. 29177c27753SZelalem Aweke */ 29277c27753SZelalem Aweke if (src_sec_state == SMC_FROM_NON_SECURE) { 293319fb084SSoby Mathew VERBOSE("RMMD: RMI call from non-secure world.\n"); 29411578303SSoby Mathew return rmmd_smc_forward(NON_SECURE, REALM, smc_fid, 29577c27753SZelalem Aweke x1, x2, x3, x4, handle); 29677c27753SZelalem Aweke } 29777c27753SZelalem Aweke 298319fb084SSoby Mathew if (src_sec_state != SMC_FROM_REALM) { 299319fb084SSoby Mathew SMC_RET1(handle, SMC_UNK); 300319fb084SSoby Mathew } 30177c27753SZelalem Aweke 30277c27753SZelalem Aweke switch (smc_fid) { 303319fb084SSoby Mathew case RMMD_RMI_REQ_COMPLETE: 30411578303SSoby Mathew return rmmd_smc_forward(REALM, NON_SECURE, x1, 30577c27753SZelalem Aweke x2, x3, x4, 0, handle); 30677c27753SZelalem Aweke 30777c27753SZelalem Aweke default: 308319fb084SSoby Mathew WARN("RMMD: Unsupported RMM call 0x%08x\n", smc_fid); 30977c27753SZelalem Aweke SMC_RET1(handle, SMC_UNK); 31077c27753SZelalem Aweke } 31177c27753SZelalem Aweke } 31277c27753SZelalem Aweke 31377c27753SZelalem Aweke /******************************************************************************* 31477c27753SZelalem Aweke * This cpu has been turned on. Enter RMM to initialise R-EL2. Entry into RMM 31577c27753SZelalem Aweke * is done after initialising minimal architectural state that guarantees safe 31677c27753SZelalem Aweke * execution. 31777c27753SZelalem Aweke ******************************************************************************/ 31877c27753SZelalem Aweke static void *rmmd_cpu_on_finish_handler(const void *arg) 31977c27753SZelalem Aweke { 3208c980a4aSJavier Almansa Sobrino long rc; 32177c27753SZelalem Aweke uint32_t linear_id = plat_my_core_pos(); 32277c27753SZelalem Aweke rmmd_rmm_context_t *ctx = &rmm_context[linear_id]; 32377c27753SZelalem Aweke 3248c980a4aSJavier Almansa Sobrino if (rmm_boot_failed) { 3258c980a4aSJavier Almansa Sobrino /* RMM Boot failed on a previous CPU. Abort. */ 3268c980a4aSJavier Almansa Sobrino ERROR("RMM Failed to initialize. Ignoring for CPU%d\n", 3278c980a4aSJavier Almansa Sobrino linear_id); 3288c980a4aSJavier Almansa Sobrino return NULL; 3298c980a4aSJavier Almansa Sobrino } 3308c980a4aSJavier Almansa Sobrino 3318c980a4aSJavier Almansa Sobrino /* 3328c980a4aSJavier Almansa Sobrino * Prepare warmboot arguments for RMM: 3338c980a4aSJavier Almansa Sobrino * arg0: This CPUID. 3348c980a4aSJavier Almansa Sobrino * arg1 to arg3: Not used. 3358c980a4aSJavier Almansa Sobrino */ 3368c980a4aSJavier Almansa Sobrino rmm_ep_info->args.arg0 = linear_id; 3378c980a4aSJavier Almansa Sobrino rmm_ep_info->args.arg1 = 0ULL; 3388c980a4aSJavier Almansa Sobrino rmm_ep_info->args.arg2 = 0ULL; 3398c980a4aSJavier Almansa Sobrino rmm_ep_info->args.arg3 = 0ULL; 34077c27753SZelalem Aweke 34177c27753SZelalem Aweke /* Initialise RMM context with this entry point information */ 34277c27753SZelalem Aweke cm_setup_context(&ctx->cpu_ctx, rmm_ep_info); 34377c27753SZelalem Aweke 344a4cc85c1SSubhasish Ghosh /* Enable architecture extensions */ 345a4cc85c1SSubhasish Ghosh manage_extensions_realm(&ctx->cpu_ctx); 346a4cc85c1SSubhasish Ghosh 34777c27753SZelalem Aweke /* Initialize RMM EL2 context. */ 34877c27753SZelalem Aweke rmm_el2_context_init(&ctx->cpu_ctx.el2_sysregs_ctx); 34977c27753SZelalem Aweke 35077c27753SZelalem Aweke rc = rmmd_rmm_sync_entry(ctx); 3518c980a4aSJavier Almansa Sobrino 3528c980a4aSJavier Almansa Sobrino if (rc != E_RMM_BOOT_SUCCESS) { 3538c980a4aSJavier Almansa Sobrino ERROR("RMM init failed on CPU%d: %ld\n", linear_id, rc); 3548c980a4aSJavier Almansa Sobrino /* Mark the boot as failed for any other booting CPU */ 3558c980a4aSJavier Almansa Sobrino rmm_boot_failed = true; 35677c27753SZelalem Aweke } 35777c27753SZelalem Aweke 35877c27753SZelalem Aweke return NULL; 35977c27753SZelalem Aweke } 36077c27753SZelalem Aweke 36177c27753SZelalem Aweke /* Subscribe to PSCI CPU on to initialize RMM on secondary */ 36277c27753SZelalem Aweke SUBSCRIBE_TO_EVENT(psci_cpu_on_finish, rmmd_cpu_on_finish_handler); 36377c27753SZelalem Aweke 364319fb084SSoby Mathew /* Convert GPT lib error to RMMD GTS error */ 365319fb084SSoby Mathew static int gpt_to_gts_error(int error, uint32_t smc_fid, uint64_t address) 366319fb084SSoby Mathew { 367319fb084SSoby Mathew int ret; 368319fb084SSoby Mathew 369319fb084SSoby Mathew if (error == 0) { 370*dc65ae46SJavier Almansa Sobrino return E_RMM_OK; 371319fb084SSoby Mathew } 372319fb084SSoby Mathew 373319fb084SSoby Mathew if (error == -EINVAL) { 374*dc65ae46SJavier Almansa Sobrino ret = E_RMM_BAD_ADDR; 375319fb084SSoby Mathew } else { 376319fb084SSoby Mathew /* This is the only other error code we expect */ 377319fb084SSoby Mathew assert(error == -EPERM); 378*dc65ae46SJavier Almansa Sobrino ret = E_RMM_BAD_PAS; 379319fb084SSoby Mathew } 380319fb084SSoby Mathew 381319fb084SSoby Mathew ERROR("RMMD: PAS Transition failed. GPT ret = %d, PA: 0x%"PRIx64 ", FID = 0x%x\n", 382319fb084SSoby Mathew error, address, smc_fid); 383319fb084SSoby Mathew return ret; 384319fb084SSoby Mathew } 385319fb084SSoby Mathew 38677c27753SZelalem Aweke /******************************************************************************* 387319fb084SSoby Mathew * This function handles RMM-EL3 interface SMCs 38877c27753SZelalem Aweke ******************************************************************************/ 389319fb084SSoby Mathew uint64_t rmmd_rmm_el3_handler(uint32_t smc_fid, uint64_t x1, uint64_t x2, 39077c27753SZelalem Aweke uint64_t x3, uint64_t x4, void *cookie, 39177c27753SZelalem Aweke void *handle, uint64_t flags) 39277c27753SZelalem Aweke { 39377c27753SZelalem Aweke uint32_t src_sec_state; 3946a00e9b0SRobert Wakim int ret; 39577c27753SZelalem Aweke 3968c980a4aSJavier Almansa Sobrino /* If RMM failed to boot, treat any RMM-EL3 interface SMC as unknown */ 3978c980a4aSJavier Almansa Sobrino if (rmm_boot_failed) { 3988c980a4aSJavier Almansa Sobrino WARN("RMMD: Failed to boot up RMM. Ignoring RMM-EL3 call\n"); 3998c980a4aSJavier Almansa Sobrino SMC_RET1(handle, SMC_UNK); 4008c980a4aSJavier Almansa Sobrino } 4018c980a4aSJavier Almansa Sobrino 40277c27753SZelalem Aweke /* Determine which security state this SMC originated from */ 40377c27753SZelalem Aweke src_sec_state = caller_sec_state(flags); 40477c27753SZelalem Aweke 40577c27753SZelalem Aweke if (src_sec_state != SMC_FROM_REALM) { 406319fb084SSoby Mathew WARN("RMMD: RMM-EL3 call originated from secure or normal world\n"); 40777c27753SZelalem Aweke SMC_RET1(handle, SMC_UNK); 40877c27753SZelalem Aweke } 40977c27753SZelalem Aweke 41077c27753SZelalem Aweke switch (smc_fid) { 411319fb084SSoby Mathew case RMMD_GTSI_DELEGATE: 4126a00e9b0SRobert Wakim ret = gpt_delegate_pas(x1, PAGE_SIZE_4KB, SMC_FROM_REALM); 413319fb084SSoby Mathew SMC_RET1(handle, gpt_to_gts_error(ret, smc_fid, x1)); 414319fb084SSoby Mathew case RMMD_GTSI_UNDELEGATE: 4156a00e9b0SRobert Wakim ret = gpt_undelegate_pas(x1, PAGE_SIZE_4KB, SMC_FROM_REALM); 416319fb084SSoby Mathew SMC_RET1(handle, gpt_to_gts_error(ret, smc_fid, x1)); 4170f9159b7SSoby Mathew case RMMD_ATTEST_GET_PLAT_TOKEN: 4180f9159b7SSoby Mathew ret = rmmd_attest_get_platform_token(x1, &x2, x3); 4190f9159b7SSoby Mathew SMC_RET2(handle, ret, x2); 420a0435105SSoby Mathew case RMMD_ATTEST_GET_REALM_KEY: 421a0435105SSoby Mathew ret = rmmd_attest_get_signing_key(x1, &x2, x3); 422a0435105SSoby Mathew SMC_RET2(handle, ret, x2); 4238c980a4aSJavier Almansa Sobrino 4248c980a4aSJavier Almansa Sobrino case RMM_BOOT_COMPLETE: 4258c980a4aSJavier Almansa Sobrino VERBOSE("RMMD: running rmmd_rmm_sync_exit\n"); 4268c980a4aSJavier Almansa Sobrino rmmd_rmm_sync_exit(x1); 4278c980a4aSJavier Almansa Sobrino 42877c27753SZelalem Aweke default: 429319fb084SSoby Mathew WARN("RMMD: Unsupported RMM-EL3 call 0x%08x\n", smc_fid); 43077c27753SZelalem Aweke SMC_RET1(handle, SMC_UNK); 43177c27753SZelalem Aweke } 43277c27753SZelalem Aweke } 433