1aa5da461SJens Wiklander /* 20e8def99SRaymond Mao * Copyright (c) 2013-2023, Arm Limited and Contributors. All rights reserved. 3aa5da461SJens Wiklander * 482cb2c1aSdp-arm * SPDX-License-Identifier: BSD-3-Clause 5aa5da461SJens Wiklander */ 6aa5da461SJens Wiklander 7aa5da461SJens Wiklander 8aa5da461SJens Wiklander /******************************************************************************* 9aa5da461SJens Wiklander * This is the Secure Payload Dispatcher (SPD). The dispatcher is meant to be a 10aa5da461SJens Wiklander * plug-in component to the Secure Monitor, registered as a runtime service. The 11aa5da461SJens Wiklander * SPD is expected to be a functional extension of the Secure Payload (SP) that 12aa5da461SJens Wiklander * executes in Secure EL1. The Secure Monitor will delegate all SMCs targeting 13aa5da461SJens Wiklander * the Trusted OS/Applications range to the dispatcher. The SPD will either 14aa5da461SJens Wiklander * handle the request locally or delegate it to the Secure Payload. It is also 15aa5da461SJens Wiklander * responsible for initialising and maintaining communication with the SP. 16aa5da461SJens Wiklander ******************************************************************************/ 17aa5da461SJens Wiklander #include <assert.h> 18aa5da461SJens Wiklander #include <errno.h> 1905c69cf7SJeffrey Kardatzke #include <inttypes.h> 20aa5da461SJens Wiklander #include <stddef.h> 2109d40e0eSAntonio Nino Diaz 2209d40e0eSAntonio Nino Diaz #include <arch_helpers.h> 2309d40e0eSAntonio Nino Diaz #include <bl31/bl31.h> 2409d40e0eSAntonio Nino Diaz #include <common/bl_common.h> 2509d40e0eSAntonio Nino Diaz #include <common/debug.h> 2609d40e0eSAntonio Nino Diaz #include <common/runtime_svc.h> 27f4bbf435SJeffrey Kardatzke #include <lib/coreboot.h> 2809d40e0eSAntonio Nino Diaz #include <lib/el3_runtime/context_mgmt.h> 2905c69cf7SJeffrey Kardatzke #include <lib/optee_utils.h> 300e8def99SRaymond Mao #include <lib/transfer_list.h> 3105c69cf7SJeffrey Kardatzke #include <lib/xlat_tables/xlat_tables_v2.h> 32f4bbf435SJeffrey Kardatzke #if OPTEE_ALLOW_SMC_LOAD 33f4bbf435SJeffrey Kardatzke #include <libfdt.h> 34f4bbf435SJeffrey Kardatzke #endif /* OPTEE_ALLOW_SMC_LOAD */ 3509d40e0eSAntonio Nino Diaz #include <plat/common/platform.h> 36b22e6898SYi Chou #include <services/oem/chromeos/widevine_smc_handlers.h> 3709d40e0eSAntonio Nino Diaz #include <tools_share/uuid.h> 3809d40e0eSAntonio Nino Diaz 39aa5da461SJens Wiklander #include "opteed_private.h" 40aa5da461SJens Wiklander #include "teesmc_opteed.h" 412a4b4b71SIsla Mitchell 420e8def99SRaymond Mao #if OPTEE_ALLOW_SMC_LOAD 430e8def99SRaymond Mao static struct transfer_list_header *bl31_tl; 440e8def99SRaymond Mao #endif 450e8def99SRaymond Mao 46aa5da461SJens Wiklander /******************************************************************************* 47aa5da461SJens Wiklander * Address of the entrypoint vector table in OPTEE. It is 48aa5da461SJens Wiklander * initialised once on the primary core after a cold boot. 49aa5da461SJens Wiklander ******************************************************************************/ 506c77e749SSandrine Bailleux struct optee_vectors *optee_vector_table; 51aa5da461SJens Wiklander 52aa5da461SJens Wiklander /******************************************************************************* 53aa5da461SJens Wiklander * Array to keep track of per-cpu OPTEE state 54aa5da461SJens Wiklander ******************************************************************************/ 55aa5da461SJens Wiklander optee_context_t opteed_sp_context[OPTEED_CORE_COUNT]; 56aa5da461SJens Wiklander uint32_t opteed_rw; 57aa5da461SJens Wiklander 5805c69cf7SJeffrey Kardatzke #if OPTEE_ALLOW_SMC_LOAD 5905c69cf7SJeffrey Kardatzke static bool opteed_allow_load; 6085ab8823SJeffrey Kardatzke /* OP-TEE image loading service UUID */ 6185ab8823SJeffrey Kardatzke DEFINE_SVC_UUID2(optee_image_load_uuid, 6285ab8823SJeffrey Kardatzke 0xb1eafba3, 0x5d31, 0x4612, 0xb9, 0x06, 6385ab8823SJeffrey Kardatzke 0xc4, 0xc7, 0xa4, 0xbe, 0x3c, 0xc0); 64f4bbf435SJeffrey Kardatzke 65b22e6898SYi Chou #define OPTEED_FDT_SIZE 1024 66f4bbf435SJeffrey Kardatzke static uint8_t fdt_buf[OPTEED_FDT_SIZE] __aligned(CACHE_WRITEBACK_GRANULE); 67f4bbf435SJeffrey Kardatzke 6805c69cf7SJeffrey Kardatzke #else 69aa5da461SJens Wiklander static int32_t opteed_init(void); 7005c69cf7SJeffrey Kardatzke #endif 7105c69cf7SJeffrey Kardatzke 7205c69cf7SJeffrey Kardatzke uint64_t dual32to64(uint32_t high, uint32_t low) 7305c69cf7SJeffrey Kardatzke { 7405c69cf7SJeffrey Kardatzke return ((uint64_t)high << 32) | low; 7505c69cf7SJeffrey Kardatzke } 76aa5da461SJens Wiklander 77aa5da461SJens Wiklander /******************************************************************************* 78aa5da461SJens Wiklander * This function is the handler registered for S-EL1 interrupts by the 79aa5da461SJens Wiklander * OPTEED. It validates the interrupt and upon success arranges entry into 80aa5da461SJens Wiklander * the OPTEE at 'optee_fiq_entry()' for handling the interrupt. 81aa5da461SJens Wiklander ******************************************************************************/ 82aa5da461SJens Wiklander static uint64_t opteed_sel1_interrupt_handler(uint32_t id, 83aa5da461SJens Wiklander uint32_t flags, 84aa5da461SJens Wiklander void *handle, 85aa5da461SJens Wiklander void *cookie) 86aa5da461SJens Wiklander { 87aa5da461SJens Wiklander uint32_t linear_id; 88aa5da461SJens Wiklander optee_context_t *optee_ctx; 89aa5da461SJens Wiklander 900ec69a5bSJeffrey Kardatzke #if OPTEE_ALLOW_SMC_LOAD 910ec69a5bSJeffrey Kardatzke if (optee_vector_table == NULL) { 920ec69a5bSJeffrey Kardatzke /* OPTEE is not loaded yet, ignore this interrupt */ 930ec69a5bSJeffrey Kardatzke SMC_RET0(handle); 940ec69a5bSJeffrey Kardatzke } 950ec69a5bSJeffrey Kardatzke #endif 960ec69a5bSJeffrey Kardatzke 97aa5da461SJens Wiklander /* Check the security state when the exception was generated */ 98aa5da461SJens Wiklander assert(get_interrupt_src_ss(flags) == NON_SECURE); 99aa5da461SJens Wiklander 100aa5da461SJens Wiklander /* Sanity check the pointer to this cpu's context */ 101aa5da461SJens Wiklander assert(handle == cm_get_context(NON_SECURE)); 102aa5da461SJens Wiklander 103aa5da461SJens Wiklander /* Save the non-secure context before entering the OPTEE */ 104aa5da461SJens Wiklander cm_el1_sysregs_context_save(NON_SECURE); 105aa5da461SJens Wiklander 106aa5da461SJens Wiklander /* Get a reference to this cpu's OPTEE context */ 107fd650ff6SSoby Mathew linear_id = plat_my_core_pos(); 108aa5da461SJens Wiklander optee_ctx = &opteed_sp_context[linear_id]; 109aa5da461SJens Wiklander assert(&optee_ctx->cpu_ctx == cm_get_context(SECURE)); 110aa5da461SJens Wiklander 111776ff52aSDaniel Boulby cm_set_elr_el3(SECURE, (uint64_t)&optee_vector_table->fiq_entry); 112aa5da461SJens Wiklander cm_el1_sysregs_context_restore(SECURE); 113aa5da461SJens Wiklander cm_set_next_eret_context(SECURE); 114aa5da461SJens Wiklander 115aa5da461SJens Wiklander /* 116aa5da461SJens Wiklander * Tell the OPTEE that it has to handle an FIQ (synchronously). 117aa5da461SJens Wiklander * Also the instruction in normal world where the interrupt was 118aa5da461SJens Wiklander * generated is passed for debugging purposes. It is safe to 119aa5da461SJens Wiklander * retrieve this address from ELR_EL3 as the secure context will 120aa5da461SJens Wiklander * not take effect until el3_exit(). 121aa5da461SJens Wiklander */ 122aa5da461SJens Wiklander SMC_RET1(&optee_ctx->cpu_ctx, read_elr_el3()); 123aa5da461SJens Wiklander } 124aa5da461SJens Wiklander 1250ec69a5bSJeffrey Kardatzke /* 1260ec69a5bSJeffrey Kardatzke * Registers an interrupt handler for S-EL1 interrupts when generated during 1270ec69a5bSJeffrey Kardatzke * code executing in the non-secure state. Panics if it fails to do so. 1280ec69a5bSJeffrey Kardatzke */ 1290ec69a5bSJeffrey Kardatzke static void register_opteed_interrupt_handler(void) 1300ec69a5bSJeffrey Kardatzke { 1310ec69a5bSJeffrey Kardatzke u_register_t flags; 1320ec69a5bSJeffrey Kardatzke uint64_t rc; 1330ec69a5bSJeffrey Kardatzke 1340ec69a5bSJeffrey Kardatzke flags = 0; 1350ec69a5bSJeffrey Kardatzke set_interrupt_rm_flag(flags, NON_SECURE); 1360ec69a5bSJeffrey Kardatzke rc = register_interrupt_type_handler(INTR_TYPE_S_EL1, 1370ec69a5bSJeffrey Kardatzke opteed_sel1_interrupt_handler, 1380ec69a5bSJeffrey Kardatzke flags); 1390ec69a5bSJeffrey Kardatzke if (rc) 1400ec69a5bSJeffrey Kardatzke panic(); 1410ec69a5bSJeffrey Kardatzke } 1420ec69a5bSJeffrey Kardatzke 143aa5da461SJens Wiklander /******************************************************************************* 144aa5da461SJens Wiklander * OPTEE Dispatcher setup. The OPTEED finds out the OPTEE entrypoint and type 145aa5da461SJens Wiklander * (aarch32/aarch64) if not already known and initialises the context for entry 146aa5da461SJens Wiklander * into OPTEE for its initialization. 147aa5da461SJens Wiklander ******************************************************************************/ 148724fd958SMasahiro Yamada static int32_t opteed_setup(void) 149aa5da461SJens Wiklander { 15005c69cf7SJeffrey Kardatzke #if OPTEE_ALLOW_SMC_LOAD 15105c69cf7SJeffrey Kardatzke opteed_allow_load = true; 15205c69cf7SJeffrey Kardatzke INFO("Delaying OP-TEE setup until we receive an SMC call to load it\n"); 1530ec69a5bSJeffrey Kardatzke /* 1540ec69a5bSJeffrey Kardatzke * We must register the interrupt handler now so that the interrupt 1550ec69a5bSJeffrey Kardatzke * priorities are not changed after starting the linux kernel. 1560ec69a5bSJeffrey Kardatzke */ 1570ec69a5bSJeffrey Kardatzke register_opteed_interrupt_handler(); 15805c69cf7SJeffrey Kardatzke return 0; 15905c69cf7SJeffrey Kardatzke #else 160aa5da461SJens Wiklander entry_point_info_t *optee_ep_info; 161aa5da461SJens Wiklander uint32_t linear_id; 1620e8def99SRaymond Mao uint64_t arg0; 1630e8def99SRaymond Mao uint64_t arg1; 1640e8def99SRaymond Mao uint64_t arg2; 1650e8def99SRaymond Mao uint64_t arg3; 1660e8def99SRaymond Mao struct transfer_list_header *tl = NULL; 1670e8def99SRaymond Mao struct transfer_list_entry *te = NULL; 1680e8def99SRaymond Mao void *dt = NULL; 169aa5da461SJens Wiklander 170fd650ff6SSoby Mathew linear_id = plat_my_core_pos(); 171aa5da461SJens Wiklander 172aa5da461SJens Wiklander /* 173aa5da461SJens Wiklander * Get information about the Secure Payload (BL32) image. Its 174aa5da461SJens Wiklander * absence is a critical failure. TODO: Add support to 175aa5da461SJens Wiklander * conditionally include the SPD service 176aa5da461SJens Wiklander */ 177aa5da461SJens Wiklander optee_ep_info = bl31_plat_get_next_image_ep_info(SECURE); 178aa5da461SJens Wiklander if (!optee_ep_info) { 179aa5da461SJens Wiklander WARN("No OPTEE provided by BL2 boot loader, Booting device" 180aa5da461SJens Wiklander " without OPTEE initialization. SMC`s destined for OPTEE" 181aa5da461SJens Wiklander " will return SMC_UNK\n"); 182aa5da461SJens Wiklander return 1; 183aa5da461SJens Wiklander } 184aa5da461SJens Wiklander 185aa5da461SJens Wiklander /* 186aa5da461SJens Wiklander * If there's no valid entry point for SP, we return a non-zero value 187aa5da461SJens Wiklander * signalling failure initializing the service. We bail out without 188aa5da461SJens Wiklander * registering any handlers 189aa5da461SJens Wiklander */ 190aa5da461SJens Wiklander if (!optee_ep_info->pc) 191aa5da461SJens Wiklander return 1; 192aa5da461SJens Wiklander 1930e8def99SRaymond Mao if (TRANSFER_LIST && 1940e8def99SRaymond Mao optee_ep_info->args.arg1 == (TRANSFER_LIST_SIGNATURE | 1950e8def99SRaymond Mao REGISTER_CONVENTION_VERSION_MASK)) { 1960e8def99SRaymond Mao tl = (void *)optee_ep_info->args.arg3; 1970e8def99SRaymond Mao if (transfer_list_check_header(tl) == TL_OPS_NON) { 1980e8def99SRaymond Mao return 1; 1990e8def99SRaymond Mao } 200d59a6accSEdison Ai 2010e8def99SRaymond Mao opteed_rw = GET_RW(optee_ep_info->spsr); 2020e8def99SRaymond Mao te = transfer_list_find(tl, TL_TAG_FDT); 2030e8def99SRaymond Mao dt = transfer_list_entry_data(te); 2040e8def99SRaymond Mao 2050e8def99SRaymond Mao if (opteed_rw == OPTEE_AARCH64) { 2060e8def99SRaymond Mao arg0 = (uint64_t)dt; 2070e8def99SRaymond Mao arg2 = 0; 2080e8def99SRaymond Mao } else { 2090e8def99SRaymond Mao arg2 = (uint64_t)dt; 2100e8def99SRaymond Mao arg0 = 0; 2110e8def99SRaymond Mao } 2120e8def99SRaymond Mao 2130e8def99SRaymond Mao arg1 = optee_ep_info->args.arg1; 2140e8def99SRaymond Mao arg3 = optee_ep_info->args.arg3; 2150e8def99SRaymond Mao } else { 2160e8def99SRaymond Mao /* Default handoff arguments */ 2170e8def99SRaymond Mao opteed_rw = optee_ep_info->args.arg0; 2180e8def99SRaymond Mao arg0 = optee_ep_info->args.arg1; /* opteed_pageable_part */ 2190e8def99SRaymond Mao arg1 = optee_ep_info->args.arg2; /* opteed_mem_limit */ 2200e8def99SRaymond Mao arg2 = optee_ep_info->args.arg3; /* dt_addr */ 2210e8def99SRaymond Mao arg3 = 0; 2220e8def99SRaymond Mao } 2230e8def99SRaymond Mao 2240e8def99SRaymond Mao opteed_init_optee_ep_state(optee_ep_info, opteed_rw, optee_ep_info->pc, 2250e8def99SRaymond Mao arg0, arg1, arg2, arg3, 226aa5da461SJens Wiklander &opteed_sp_context[linear_id]); 227aa5da461SJens Wiklander 228aa5da461SJens Wiklander /* 229aa5da461SJens Wiklander * All OPTEED initialization done. Now register our init function with 230aa5da461SJens Wiklander * BL31 for deferred invocation 231aa5da461SJens Wiklander */ 232aa5da461SJens Wiklander bl31_register_bl32_init(&opteed_init); 233aa5da461SJens Wiklander 234aa5da461SJens Wiklander return 0; 23505c69cf7SJeffrey Kardatzke #endif /* OPTEE_ALLOW_SMC_LOAD */ 236aa5da461SJens Wiklander } 237aa5da461SJens Wiklander 238aa5da461SJens Wiklander /******************************************************************************* 239aa5da461SJens Wiklander * This function passes control to the OPTEE image (BL32) for the first time 240aa5da461SJens Wiklander * on the primary cpu after a cold boot. It assumes that a valid secure 241aa5da461SJens Wiklander * context has already been created by opteed_setup() which can be directly 242aa5da461SJens Wiklander * used. It also assumes that a valid non-secure context has been 243aa5da461SJens Wiklander * initialised by PSCI so it does not need to save and restore any 244aa5da461SJens Wiklander * non-secure state. This function performs a synchronous entry into 2458d7c80faSJeffrey Kardatzke * OPTEE. OPTEE passes control back to this routine through a SMC. This returns 2468d7c80faSJeffrey Kardatzke * a non-zero value on success and zero on failure. 247aa5da461SJens Wiklander ******************************************************************************/ 24805c69cf7SJeffrey Kardatzke static int32_t 24905c69cf7SJeffrey Kardatzke opteed_init_with_entry_point(entry_point_info_t *optee_entry_point) 250aa5da461SJens Wiklander { 251fd650ff6SSoby Mathew uint32_t linear_id = plat_my_core_pos(); 252aa5da461SJens Wiklander optee_context_t *optee_ctx = &opteed_sp_context[linear_id]; 253aa5da461SJens Wiklander uint64_t rc; 254aa5da461SJens Wiklander assert(optee_entry_point); 255aa5da461SJens Wiklander 256fd650ff6SSoby Mathew cm_init_my_context(optee_entry_point); 257aa5da461SJens Wiklander 258aa5da461SJens Wiklander /* 259aa5da461SJens Wiklander * Arrange for an entry into OPTEE. It will be returned via 260aa5da461SJens Wiklander * OPTEE_ENTRY_DONE case 261aa5da461SJens Wiklander */ 262aa5da461SJens Wiklander rc = opteed_synchronous_sp_entry(optee_ctx); 263aa5da461SJens Wiklander assert(rc != 0); 264aa5da461SJens Wiklander 265aa5da461SJens Wiklander return rc; 266aa5da461SJens Wiklander } 267aa5da461SJens Wiklander 26805c69cf7SJeffrey Kardatzke #if !OPTEE_ALLOW_SMC_LOAD 26905c69cf7SJeffrey Kardatzke static int32_t opteed_init(void) 27005c69cf7SJeffrey Kardatzke { 27105c69cf7SJeffrey Kardatzke entry_point_info_t *optee_entry_point; 27205c69cf7SJeffrey Kardatzke /* 27305c69cf7SJeffrey Kardatzke * Get information about the OP-TEE (BL32) image. Its 27405c69cf7SJeffrey Kardatzke * absence is a critical failure. 27505c69cf7SJeffrey Kardatzke */ 27605c69cf7SJeffrey Kardatzke optee_entry_point = bl31_plat_get_next_image_ep_info(SECURE); 27705c69cf7SJeffrey Kardatzke return opteed_init_with_entry_point(optee_entry_point); 27805c69cf7SJeffrey Kardatzke } 27905c69cf7SJeffrey Kardatzke #endif /* !OPTEE_ALLOW_SMC_LOAD */ 28005c69cf7SJeffrey Kardatzke 28105c69cf7SJeffrey Kardatzke #if OPTEE_ALLOW_SMC_LOAD 282f4bbf435SJeffrey Kardatzke #if COREBOOT 283f4bbf435SJeffrey Kardatzke /* 284f4bbf435SJeffrey Kardatzke * Adds a firmware/coreboot node with the coreboot table information to a device 285f4bbf435SJeffrey Kardatzke * tree. Returns zero on success or if there is no coreboot table information; 286f4bbf435SJeffrey Kardatzke * failure code otherwise. 287f4bbf435SJeffrey Kardatzke */ 288f4bbf435SJeffrey Kardatzke static int add_coreboot_node(void *fdt) 289f4bbf435SJeffrey Kardatzke { 290f4bbf435SJeffrey Kardatzke int ret; 291f4bbf435SJeffrey Kardatzke uint64_t coreboot_table_addr; 292f4bbf435SJeffrey Kardatzke uint32_t coreboot_table_size; 293f4bbf435SJeffrey Kardatzke struct { 294f4bbf435SJeffrey Kardatzke uint64_t addr; 295f4bbf435SJeffrey Kardatzke uint32_t size; 296f4bbf435SJeffrey Kardatzke } reg_node; 297f4bbf435SJeffrey Kardatzke coreboot_get_table_location(&coreboot_table_addr, &coreboot_table_size); 298f4bbf435SJeffrey Kardatzke if (!coreboot_table_addr || !coreboot_table_size) { 299f4bbf435SJeffrey Kardatzke WARN("Unable to get coreboot table location for device tree"); 300f4bbf435SJeffrey Kardatzke return 0; 301f4bbf435SJeffrey Kardatzke } 302f4bbf435SJeffrey Kardatzke ret = fdt_begin_node(fdt, "firmware"); 303f4bbf435SJeffrey Kardatzke if (ret) 304f4bbf435SJeffrey Kardatzke return ret; 305f4bbf435SJeffrey Kardatzke 306f4bbf435SJeffrey Kardatzke ret = fdt_property(fdt, "ranges", NULL, 0); 307f4bbf435SJeffrey Kardatzke if (ret) 308f4bbf435SJeffrey Kardatzke return ret; 309f4bbf435SJeffrey Kardatzke 310f4bbf435SJeffrey Kardatzke ret = fdt_begin_node(fdt, "coreboot"); 311f4bbf435SJeffrey Kardatzke if (ret) 312f4bbf435SJeffrey Kardatzke return ret; 313f4bbf435SJeffrey Kardatzke 314f4bbf435SJeffrey Kardatzke ret = fdt_property_string(fdt, "compatible", "coreboot"); 315f4bbf435SJeffrey Kardatzke if (ret) 316f4bbf435SJeffrey Kardatzke return ret; 317f4bbf435SJeffrey Kardatzke 318f4bbf435SJeffrey Kardatzke reg_node.addr = cpu_to_fdt64(coreboot_table_addr); 319f4bbf435SJeffrey Kardatzke reg_node.size = cpu_to_fdt32(coreboot_table_size); 320f4bbf435SJeffrey Kardatzke ret = fdt_property(fdt, "reg", ®_node, 321f4bbf435SJeffrey Kardatzke sizeof(uint64_t) + sizeof(uint32_t)); 322f4bbf435SJeffrey Kardatzke if (ret) 323f4bbf435SJeffrey Kardatzke return ret; 324f4bbf435SJeffrey Kardatzke 325f4bbf435SJeffrey Kardatzke ret = fdt_end_node(fdt); 326f4bbf435SJeffrey Kardatzke if (ret) 327f4bbf435SJeffrey Kardatzke return ret; 328f4bbf435SJeffrey Kardatzke 329f4bbf435SJeffrey Kardatzke return fdt_end_node(fdt); 330f4bbf435SJeffrey Kardatzke } 331f4bbf435SJeffrey Kardatzke #endif /* COREBOOT */ 332f4bbf435SJeffrey Kardatzke 333b22e6898SYi Chou #if CROS_WIDEVINE_SMC 334b22e6898SYi Chou /* 335b22e6898SYi Chou * Adds a options/widevine node with the widevine table information to a device 336b22e6898SYi Chou * tree. Returns zero on success or if there is no widevine table information; 337b22e6898SYi Chou * failure code otherwise. 338b22e6898SYi Chou */ 339b22e6898SYi Chou static int add_options_widevine_node(void *fdt) 340b22e6898SYi Chou { 341b22e6898SYi Chou int ret; 342b22e6898SYi Chou 343b22e6898SYi Chou ret = fdt_begin_node(fdt, "options"); 344b22e6898SYi Chou if (ret) 345b22e6898SYi Chou return ret; 346b22e6898SYi Chou 347b22e6898SYi Chou ret = fdt_begin_node(fdt, "op-tee"); 348b22e6898SYi Chou if (ret) 349b22e6898SYi Chou return ret; 350b22e6898SYi Chou 351b22e6898SYi Chou ret = fdt_begin_node(fdt, "widevine"); 352b22e6898SYi Chou if (ret) 353b22e6898SYi Chou return ret; 354b22e6898SYi Chou 355b22e6898SYi Chou if (cros_oem_tpm_auth_pk.length) { 356b22e6898SYi Chou ret = fdt_property(fdt, "tcg,tpm-auth-public-key", 357b22e6898SYi Chou cros_oem_tpm_auth_pk.buffer, 358b22e6898SYi Chou cros_oem_tpm_auth_pk.length); 359b22e6898SYi Chou if (ret) 360b22e6898SYi Chou return ret; 361b22e6898SYi Chou } 362b22e6898SYi Chou 363b22e6898SYi Chou if (cros_oem_huk.length) { 364b22e6898SYi Chou ret = fdt_property(fdt, "op-tee,hardware-unique-key", 365b22e6898SYi Chou cros_oem_huk.buffer, cros_oem_huk.length); 366b22e6898SYi Chou if (ret) 367b22e6898SYi Chou return ret; 368b22e6898SYi Chou } 369b22e6898SYi Chou 370b22e6898SYi Chou if (cros_oem_rot.length) { 371b22e6898SYi Chou ret = fdt_property(fdt, "google,widevine-root-of-trust-ecc-p256", 372b22e6898SYi Chou cros_oem_rot.buffer, cros_oem_rot.length); 373b22e6898SYi Chou if (ret) 374b22e6898SYi Chou return ret; 375b22e6898SYi Chou } 376b22e6898SYi Chou 377b22e6898SYi Chou ret = fdt_end_node(fdt); 378b22e6898SYi Chou if (ret) 379b22e6898SYi Chou return ret; 380b22e6898SYi Chou 381b22e6898SYi Chou ret = fdt_end_node(fdt); 382b22e6898SYi Chou if (ret) 383b22e6898SYi Chou return ret; 384b22e6898SYi Chou 385b22e6898SYi Chou return fdt_end_node(fdt); 386b22e6898SYi Chou } 387b22e6898SYi Chou #endif /* CROS_WIDEVINE_SMC */ 388b22e6898SYi Chou 389f4bbf435SJeffrey Kardatzke /* 390f4bbf435SJeffrey Kardatzke * Creates a device tree for passing into OP-TEE. Currently is populated with 391f4bbf435SJeffrey Kardatzke * the coreboot table address. 392f4bbf435SJeffrey Kardatzke * Returns 0 on success, error code otherwise. 393f4bbf435SJeffrey Kardatzke */ 394f4bbf435SJeffrey Kardatzke static int create_opteed_dt(void) 395f4bbf435SJeffrey Kardatzke { 396f4bbf435SJeffrey Kardatzke int ret; 397f4bbf435SJeffrey Kardatzke 398f4bbf435SJeffrey Kardatzke ret = fdt_create(fdt_buf, OPTEED_FDT_SIZE); 399f4bbf435SJeffrey Kardatzke if (ret) 400f4bbf435SJeffrey Kardatzke return ret; 401f4bbf435SJeffrey Kardatzke 402f4bbf435SJeffrey Kardatzke ret = fdt_finish_reservemap(fdt_buf); 403f4bbf435SJeffrey Kardatzke if (ret) 404f4bbf435SJeffrey Kardatzke return ret; 405f4bbf435SJeffrey Kardatzke 406f4bbf435SJeffrey Kardatzke ret = fdt_begin_node(fdt_buf, ""); 407f4bbf435SJeffrey Kardatzke if (ret) 408f4bbf435SJeffrey Kardatzke return ret; 409f4bbf435SJeffrey Kardatzke 410f4bbf435SJeffrey Kardatzke #if COREBOOT 411f4bbf435SJeffrey Kardatzke ret = add_coreboot_node(fdt_buf); 412f4bbf435SJeffrey Kardatzke if (ret) 413f4bbf435SJeffrey Kardatzke return ret; 414f4bbf435SJeffrey Kardatzke #endif /* COREBOOT */ 415f4bbf435SJeffrey Kardatzke 416b22e6898SYi Chou #if CROS_WIDEVINE_SMC 417b22e6898SYi Chou ret = add_options_widevine_node(fdt_buf); 418b22e6898SYi Chou if (ret) 419b22e6898SYi Chou return ret; 420b22e6898SYi Chou #endif /* CROS_WIDEVINE_SMC */ 421b22e6898SYi Chou 422f4bbf435SJeffrey Kardatzke ret = fdt_end_node(fdt_buf); 423f4bbf435SJeffrey Kardatzke if (ret) 424f4bbf435SJeffrey Kardatzke return ret; 425f4bbf435SJeffrey Kardatzke 426f4bbf435SJeffrey Kardatzke return fdt_finish(fdt_buf); 427f4bbf435SJeffrey Kardatzke } 428f4bbf435SJeffrey Kardatzke 4290e8def99SRaymond Mao static int32_t create_smc_tl(const void *fdt, uint32_t fdt_sz) 4300e8def99SRaymond Mao { 4310e8def99SRaymond Mao #if TRANSFER_LIST 4320e8def99SRaymond Mao bl31_tl = transfer_list_init((void *)(uintptr_t)FW_HANDOFF_BASE, 4330e8def99SRaymond Mao FW_HANDOFF_SIZE); 4340e8def99SRaymond Mao if (!bl31_tl) { 4350e8def99SRaymond Mao ERROR("Failed to initialize Transfer List at 0x%lx\n", 4360e8def99SRaymond Mao (unsigned long)FW_HANDOFF_BASE); 4370e8def99SRaymond Mao return -1; 4380e8def99SRaymond Mao } 4390e8def99SRaymond Mao 4400e8def99SRaymond Mao if (!transfer_list_add(bl31_tl, TL_TAG_FDT, fdt_sz, fdt)) { 4410e8def99SRaymond Mao return -1; 4420e8def99SRaymond Mao } 4430e8def99SRaymond Mao return 0; 4440e8def99SRaymond Mao #else 4450e8def99SRaymond Mao return -1; 4460e8def99SRaymond Mao #endif 4470e8def99SRaymond Mao } 4480e8def99SRaymond Mao 44905c69cf7SJeffrey Kardatzke /******************************************************************************* 45005c69cf7SJeffrey Kardatzke * This function is responsible for handling the SMC that loads the OP-TEE 45105c69cf7SJeffrey Kardatzke * binary image via a non-secure SMC call. It takes the size and physical 45205c69cf7SJeffrey Kardatzke * address of the payload as parameters. 45305c69cf7SJeffrey Kardatzke ******************************************************************************/ 45405c69cf7SJeffrey Kardatzke static int32_t opteed_handle_smc_load(uint64_t data_size, uint32_t data_pa) 45505c69cf7SJeffrey Kardatzke { 45605c69cf7SJeffrey Kardatzke uintptr_t data_va = data_pa; 45705c69cf7SJeffrey Kardatzke uint64_t mapped_data_pa; 45805c69cf7SJeffrey Kardatzke uintptr_t mapped_data_va; 45905c69cf7SJeffrey Kardatzke uint64_t data_map_size; 46005c69cf7SJeffrey Kardatzke int32_t rc; 46105c69cf7SJeffrey Kardatzke optee_header_t *image_header; 46205c69cf7SJeffrey Kardatzke uint8_t *image_ptr; 46305c69cf7SJeffrey Kardatzke uint64_t target_pa; 46405c69cf7SJeffrey Kardatzke uint64_t target_end_pa; 46505c69cf7SJeffrey Kardatzke uint64_t image_pa; 46605c69cf7SJeffrey Kardatzke uintptr_t image_va; 46705c69cf7SJeffrey Kardatzke optee_image_t *curr_image; 46805c69cf7SJeffrey Kardatzke uintptr_t target_va; 46905c69cf7SJeffrey Kardatzke uint64_t target_size; 47005c69cf7SJeffrey Kardatzke entry_point_info_t optee_ep_info; 47105c69cf7SJeffrey Kardatzke uint32_t linear_id = plat_my_core_pos(); 472f4bbf435SJeffrey Kardatzke uint64_t dt_addr = 0; 4730e8def99SRaymond Mao uint64_t arg0 = 0; 4740e8def99SRaymond Mao uint64_t arg1 = 0; 4750e8def99SRaymond Mao uint64_t arg2 = 0; 4760e8def99SRaymond Mao uint64_t arg3 = 0; 47705c69cf7SJeffrey Kardatzke 47805c69cf7SJeffrey Kardatzke mapped_data_pa = page_align(data_pa, DOWN); 47905c69cf7SJeffrey Kardatzke mapped_data_va = mapped_data_pa; 48005c69cf7SJeffrey Kardatzke data_map_size = page_align(data_size + (mapped_data_pa - data_pa), UP); 48105c69cf7SJeffrey Kardatzke 4828d7c80faSJeffrey Kardatzke /* 4838d7c80faSJeffrey Kardatzke * We do not validate the passed in address because we are trusting the 4848d7c80faSJeffrey Kardatzke * non-secure world at this point still. 4858d7c80faSJeffrey Kardatzke */ 48605c69cf7SJeffrey Kardatzke rc = mmap_add_dynamic_region(mapped_data_pa, mapped_data_va, 48705c69cf7SJeffrey Kardatzke data_map_size, MT_MEMORY | MT_RO | MT_NS); 48805c69cf7SJeffrey Kardatzke if (rc != 0) { 48905c69cf7SJeffrey Kardatzke return rc; 49005c69cf7SJeffrey Kardatzke } 49105c69cf7SJeffrey Kardatzke 49205c69cf7SJeffrey Kardatzke image_header = (optee_header_t *)data_va; 49305c69cf7SJeffrey Kardatzke if (image_header->magic != TEE_MAGIC_NUM_OPTEE || 49405c69cf7SJeffrey Kardatzke image_header->version != 2 || image_header->nb_images != 1) { 49505c69cf7SJeffrey Kardatzke mmap_remove_dynamic_region(mapped_data_va, data_map_size); 49605c69cf7SJeffrey Kardatzke return -EINVAL; 49705c69cf7SJeffrey Kardatzke } 49805c69cf7SJeffrey Kardatzke 49905c69cf7SJeffrey Kardatzke image_ptr = (uint8_t *)data_va + sizeof(optee_header_t) + 50005c69cf7SJeffrey Kardatzke sizeof(optee_image_t); 50105c69cf7SJeffrey Kardatzke if (image_header->arch == 1) { 50205c69cf7SJeffrey Kardatzke opteed_rw = OPTEE_AARCH64; 50305c69cf7SJeffrey Kardatzke } else { 50405c69cf7SJeffrey Kardatzke opteed_rw = OPTEE_AARCH32; 50505c69cf7SJeffrey Kardatzke } 50605c69cf7SJeffrey Kardatzke 50705c69cf7SJeffrey Kardatzke curr_image = &image_header->optee_image_list[0]; 50805c69cf7SJeffrey Kardatzke image_pa = dual32to64(curr_image->load_addr_hi, 50905c69cf7SJeffrey Kardatzke curr_image->load_addr_lo); 51005c69cf7SJeffrey Kardatzke image_va = image_pa; 51105c69cf7SJeffrey Kardatzke target_end_pa = image_pa + curr_image->size; 51205c69cf7SJeffrey Kardatzke 51305c69cf7SJeffrey Kardatzke /* Now also map the memory we want to copy it to. */ 51405c69cf7SJeffrey Kardatzke target_pa = page_align(image_pa, DOWN); 51505c69cf7SJeffrey Kardatzke target_va = target_pa; 51605c69cf7SJeffrey Kardatzke target_size = page_align(target_end_pa, UP) - target_pa; 51705c69cf7SJeffrey Kardatzke 51805c69cf7SJeffrey Kardatzke rc = mmap_add_dynamic_region(target_pa, target_va, target_size, 51905c69cf7SJeffrey Kardatzke MT_MEMORY | MT_RW | MT_SECURE); 52005c69cf7SJeffrey Kardatzke if (rc != 0) { 52105c69cf7SJeffrey Kardatzke mmap_remove_dynamic_region(mapped_data_va, data_map_size); 52205c69cf7SJeffrey Kardatzke return rc; 52305c69cf7SJeffrey Kardatzke } 52405c69cf7SJeffrey Kardatzke 52505c69cf7SJeffrey Kardatzke INFO("Loaded OP-TEE via SMC: size %d addr 0x%" PRIx64 "\n", 52605c69cf7SJeffrey Kardatzke curr_image->size, image_va); 52705c69cf7SJeffrey Kardatzke 52805c69cf7SJeffrey Kardatzke memcpy((void *)image_va, image_ptr, curr_image->size); 52905c69cf7SJeffrey Kardatzke flush_dcache_range(target_pa, target_size); 53005c69cf7SJeffrey Kardatzke 53105c69cf7SJeffrey Kardatzke mmap_remove_dynamic_region(mapped_data_va, data_map_size); 53205c69cf7SJeffrey Kardatzke mmap_remove_dynamic_region(target_va, target_size); 53305c69cf7SJeffrey Kardatzke 53405c69cf7SJeffrey Kardatzke /* Save the non-secure state */ 53505c69cf7SJeffrey Kardatzke cm_el1_sysregs_context_save(NON_SECURE); 53605c69cf7SJeffrey Kardatzke 537f4bbf435SJeffrey Kardatzke rc = create_opteed_dt(); 538f4bbf435SJeffrey Kardatzke if (rc) { 539f4bbf435SJeffrey Kardatzke ERROR("Failed device tree creation %d\n", rc); 540f4bbf435SJeffrey Kardatzke return rc; 541f4bbf435SJeffrey Kardatzke } 542f4bbf435SJeffrey Kardatzke dt_addr = (uint64_t)fdt_buf; 543f4bbf435SJeffrey Kardatzke flush_dcache_range(dt_addr, OPTEED_FDT_SIZE); 544f4bbf435SJeffrey Kardatzke 5450e8def99SRaymond Mao if (TRANSFER_LIST && 5460e8def99SRaymond Mao !create_smc_tl((void *)dt_addr, OPTEED_FDT_SIZE)) { 5470e8def99SRaymond Mao struct transfer_list_entry *te = NULL; 5480e8def99SRaymond Mao void *dt = NULL; 5490e8def99SRaymond Mao 5500e8def99SRaymond Mao te = transfer_list_find(bl31_tl, TL_TAG_FDT); 5510e8def99SRaymond Mao dt = transfer_list_entry_data(te); 5520e8def99SRaymond Mao 5530e8def99SRaymond Mao if (opteed_rw == OPTEE_AARCH64) { 5540e8def99SRaymond Mao arg0 = (uint64_t)dt; 555*7475815fSlevi.yun arg1 = TRANSFER_LIST_HANDOFF_X1_VALUE(REGISTER_CONVENTION_VERSION); 5560e8def99SRaymond Mao arg2 = 0; 5570e8def99SRaymond Mao } else { 5580e8def99SRaymond Mao arg0 = 0; 559*7475815fSlevi.yun arg1 = TRANSFER_LIST_HANDOFF_R1_VALUE(REGISTER_CONVENTION_VERSION); 560*7475815fSlevi.yun arg2 = (uint64_t)dt; 5610e8def99SRaymond Mao } 562*7475815fSlevi.yun 5630e8def99SRaymond Mao arg3 = (uint64_t)bl31_tl; 5640e8def99SRaymond Mao } else { 5650e8def99SRaymond Mao /* Default handoff arguments */ 5660e8def99SRaymond Mao arg2 = dt_addr; 5670e8def99SRaymond Mao } 5680e8def99SRaymond Mao 56905c69cf7SJeffrey Kardatzke opteed_init_optee_ep_state(&optee_ep_info, 57005c69cf7SJeffrey Kardatzke opteed_rw, 57105c69cf7SJeffrey Kardatzke image_pa, 5720e8def99SRaymond Mao arg0, 5730e8def99SRaymond Mao arg1, 5740e8def99SRaymond Mao arg2, 5750e8def99SRaymond Mao arg3, 57605c69cf7SJeffrey Kardatzke &opteed_sp_context[linear_id]); 5778d7c80faSJeffrey Kardatzke if (opteed_init_with_entry_point(&optee_ep_info) == 0) { 5788d7c80faSJeffrey Kardatzke rc = -EFAULT; 5798d7c80faSJeffrey Kardatzke } 58005c69cf7SJeffrey Kardatzke 58105c69cf7SJeffrey Kardatzke /* Restore non-secure state */ 58205c69cf7SJeffrey Kardatzke cm_el1_sysregs_context_restore(NON_SECURE); 58305c69cf7SJeffrey Kardatzke cm_set_next_eret_context(NON_SECURE); 58405c69cf7SJeffrey Kardatzke 58505c69cf7SJeffrey Kardatzke return rc; 58605c69cf7SJeffrey Kardatzke } 58705c69cf7SJeffrey Kardatzke #endif /* OPTEE_ALLOW_SMC_LOAD */ 588aa5da461SJens Wiklander 589aa5da461SJens Wiklander /******************************************************************************* 590aa5da461SJens Wiklander * This function is responsible for handling all SMCs in the Trusted OS/App 591aa5da461SJens Wiklander * range from the non-secure state as defined in the SMC Calling Convention 592aa5da461SJens Wiklander * Document. It is also responsible for communicating with the Secure 593aa5da461SJens Wiklander * payload to delegate work and return results back to the non-secure 594aa5da461SJens Wiklander * state. Lastly it will also return any information that OPTEE needs to do 595aa5da461SJens Wiklander * the work assigned to it. 596aa5da461SJens Wiklander ******************************************************************************/ 59757d1e5faSMasahiro Yamada static uintptr_t opteed_smc_handler(uint32_t smc_fid, 59857d1e5faSMasahiro Yamada u_register_t x1, 59957d1e5faSMasahiro Yamada u_register_t x2, 60057d1e5faSMasahiro Yamada u_register_t x3, 60157d1e5faSMasahiro Yamada u_register_t x4, 602aa5da461SJens Wiklander void *cookie, 603aa5da461SJens Wiklander void *handle, 60457d1e5faSMasahiro Yamada u_register_t flags) 605aa5da461SJens Wiklander { 606aa5da461SJens Wiklander cpu_context_t *ns_cpu_context; 607fd650ff6SSoby Mathew uint32_t linear_id = plat_my_core_pos(); 608aa5da461SJens Wiklander optee_context_t *optee_ctx = &opteed_sp_context[linear_id]; 609aa5da461SJens Wiklander 610aa5da461SJens Wiklander /* 611aa5da461SJens Wiklander * Determine which security state this SMC originated from 612aa5da461SJens Wiklander */ 613aa5da461SJens Wiklander 614aa5da461SJens Wiklander if (is_caller_non_secure(flags)) { 61505c69cf7SJeffrey Kardatzke #if OPTEE_ALLOW_SMC_LOAD 61685ab8823SJeffrey Kardatzke if (opteed_allow_load && smc_fid == NSSMC_OPTEED_CALL_UID) { 61785ab8823SJeffrey Kardatzke /* Provide the UUID of the image loading service. */ 61885ab8823SJeffrey Kardatzke SMC_UUID_RET(handle, optee_image_load_uuid); 61985ab8823SJeffrey Kardatzke } 62005c69cf7SJeffrey Kardatzke if (smc_fid == NSSMC_OPTEED_CALL_LOAD_IMAGE) { 62105c69cf7SJeffrey Kardatzke /* 62205c69cf7SJeffrey Kardatzke * TODO: Consider wiping the code for SMC loading from 62305c69cf7SJeffrey Kardatzke * memory after it has been invoked similar to what is 62405c69cf7SJeffrey Kardatzke * done under RECLAIM_INIT, but extended to happen 62505c69cf7SJeffrey Kardatzke * later. 62605c69cf7SJeffrey Kardatzke */ 62705c69cf7SJeffrey Kardatzke if (!opteed_allow_load) { 62805c69cf7SJeffrey Kardatzke SMC_RET1(handle, -EPERM); 62905c69cf7SJeffrey Kardatzke } 63005c69cf7SJeffrey Kardatzke 63105c69cf7SJeffrey Kardatzke opteed_allow_load = false; 63205c69cf7SJeffrey Kardatzke uint64_t data_size = dual32to64(x1, x2); 63305c69cf7SJeffrey Kardatzke uint64_t data_pa = dual32to64(x3, x4); 63405c69cf7SJeffrey Kardatzke if (!data_size || !data_pa) { 63505c69cf7SJeffrey Kardatzke /* 63605c69cf7SJeffrey Kardatzke * This is invoked when the OP-TEE image didn't 63705c69cf7SJeffrey Kardatzke * load correctly in the kernel but we want to 63805c69cf7SJeffrey Kardatzke * block off loading of it later for security 63905c69cf7SJeffrey Kardatzke * reasons. 64005c69cf7SJeffrey Kardatzke */ 64105c69cf7SJeffrey Kardatzke SMC_RET1(handle, -EINVAL); 64205c69cf7SJeffrey Kardatzke } 64305c69cf7SJeffrey Kardatzke SMC_RET1(handle, opteed_handle_smc_load( 64405c69cf7SJeffrey Kardatzke data_size, data_pa)); 64505c69cf7SJeffrey Kardatzke } 64605c69cf7SJeffrey Kardatzke #endif /* OPTEE_ALLOW_SMC_LOAD */ 647aa5da461SJens Wiklander /* 648aa5da461SJens Wiklander * This is a fresh request from the non-secure client. 649aa5da461SJens Wiklander * The parameters are in x1 and x2. Figure out which 650aa5da461SJens Wiklander * registers need to be preserved, save the non-secure 651aa5da461SJens Wiklander * state and send the request to the secure payload. 652aa5da461SJens Wiklander */ 653aa5da461SJens Wiklander assert(handle == cm_get_context(NON_SECURE)); 654aa5da461SJens Wiklander 655aa5da461SJens Wiklander cm_el1_sysregs_context_save(NON_SECURE); 656aa5da461SJens Wiklander 657aa5da461SJens Wiklander /* 658aa5da461SJens Wiklander * We are done stashing the non-secure context. Ask the 65905c69cf7SJeffrey Kardatzke * OP-TEE to do the work now. If we are loading vi an SMC, 66005c69cf7SJeffrey Kardatzke * then we also need to init this CPU context if not done 66105c69cf7SJeffrey Kardatzke * already. 662aa5da461SJens Wiklander */ 66305c69cf7SJeffrey Kardatzke if (optee_vector_table == NULL) { 66405c69cf7SJeffrey Kardatzke SMC_RET1(handle, -EINVAL); 66505c69cf7SJeffrey Kardatzke } 66605c69cf7SJeffrey Kardatzke 66705c69cf7SJeffrey Kardatzke if (get_optee_pstate(optee_ctx->state) == 66805c69cf7SJeffrey Kardatzke OPTEE_PSTATE_UNKNOWN) { 66905c69cf7SJeffrey Kardatzke opteed_cpu_on_finish_handler(0); 67005c69cf7SJeffrey Kardatzke } 671aa5da461SJens Wiklander 672aa5da461SJens Wiklander /* 673aa5da461SJens Wiklander * Verify if there is a valid context to use, copy the 674aa5da461SJens Wiklander * operation type and parameters to the secure context 675aa5da461SJens Wiklander * and jump to the fast smc entry point in the secure 676aa5da461SJens Wiklander * payload. Entry into S-EL1 will take place upon exit 677aa5da461SJens Wiklander * from this function. 678aa5da461SJens Wiklander */ 679aa5da461SJens Wiklander assert(&optee_ctx->cpu_ctx == cm_get_context(SECURE)); 680aa5da461SJens Wiklander 681aa5da461SJens Wiklander /* Set appropriate entry for SMC. 682aa5da461SJens Wiklander * We expect OPTEE to manage the PSTATE.I and PSTATE.F 683aa5da461SJens Wiklander * flags as appropriate. 684aa5da461SJens Wiklander */ 685aa5da461SJens Wiklander if (GET_SMC_TYPE(smc_fid) == SMC_TYPE_FAST) { 686aa5da461SJens Wiklander cm_set_elr_el3(SECURE, (uint64_t) 687776ff52aSDaniel Boulby &optee_vector_table->fast_smc_entry); 688aa5da461SJens Wiklander } else { 689aa5da461SJens Wiklander cm_set_elr_el3(SECURE, (uint64_t) 690776ff52aSDaniel Boulby &optee_vector_table->yield_smc_entry); 691aa5da461SJens Wiklander } 692aa5da461SJens Wiklander 693aa5da461SJens Wiklander cm_el1_sysregs_context_restore(SECURE); 694aa5da461SJens Wiklander cm_set_next_eret_context(SECURE); 695aa5da461SJens Wiklander 69656a6412dSAshutosh Singh write_ctx_reg(get_gpregs_ctx(&optee_ctx->cpu_ctx), 69756a6412dSAshutosh Singh CTX_GPREG_X4, 69856a6412dSAshutosh Singh read_ctx_reg(get_gpregs_ctx(handle), 69956a6412dSAshutosh Singh CTX_GPREG_X4)); 70056a6412dSAshutosh Singh write_ctx_reg(get_gpregs_ctx(&optee_ctx->cpu_ctx), 70156a6412dSAshutosh Singh CTX_GPREG_X5, 70256a6412dSAshutosh Singh read_ctx_reg(get_gpregs_ctx(handle), 70356a6412dSAshutosh Singh CTX_GPREG_X5)); 70456a6412dSAshutosh Singh write_ctx_reg(get_gpregs_ctx(&optee_ctx->cpu_ctx), 70556a6412dSAshutosh Singh CTX_GPREG_X6, 70656a6412dSAshutosh Singh read_ctx_reg(get_gpregs_ctx(handle), 70756a6412dSAshutosh Singh CTX_GPREG_X6)); 708aa5da461SJens Wiklander /* Propagate hypervisor client ID */ 709aa5da461SJens Wiklander write_ctx_reg(get_gpregs_ctx(&optee_ctx->cpu_ctx), 710aa5da461SJens Wiklander CTX_GPREG_X7, 711aa5da461SJens Wiklander read_ctx_reg(get_gpregs_ctx(handle), 712aa5da461SJens Wiklander CTX_GPREG_X7)); 713aa5da461SJens Wiklander 714aa5da461SJens Wiklander SMC_RET4(&optee_ctx->cpu_ctx, smc_fid, x1, x2, x3); 715aa5da461SJens Wiklander } 716aa5da461SJens Wiklander 717aa5da461SJens Wiklander /* 718aa5da461SJens Wiklander * Returning from OPTEE 719aa5da461SJens Wiklander */ 720aa5da461SJens Wiklander 721aa5da461SJens Wiklander switch (smc_fid) { 722aa5da461SJens Wiklander /* 723aa5da461SJens Wiklander * OPTEE has finished initialising itself after a cold boot 724aa5da461SJens Wiklander */ 725aa5da461SJens Wiklander case TEESMC_OPTEED_RETURN_ENTRY_DONE: 726aa5da461SJens Wiklander /* 727aa5da461SJens Wiklander * Stash the OPTEE entry points information. This is done 728aa5da461SJens Wiklander * only once on the primary cpu 729aa5da461SJens Wiklander */ 730776ff52aSDaniel Boulby assert(optee_vector_table == NULL); 731776ff52aSDaniel Boulby optee_vector_table = (optee_vectors_t *) x1; 732aa5da461SJens Wiklander 733776ff52aSDaniel Boulby if (optee_vector_table) { 734aa5da461SJens Wiklander set_optee_pstate(optee_ctx->state, OPTEE_PSTATE_ON); 735aa5da461SJens Wiklander 736aa5da461SJens Wiklander /* 737aa5da461SJens Wiklander * OPTEE has been successfully initialized. 738aa5da461SJens Wiklander * Register power management hooks with PSCI 739aa5da461SJens Wiklander */ 740aa5da461SJens Wiklander psci_register_spd_pm_hook(&opteed_pm); 741aa5da461SJens Wiklander 7420ec69a5bSJeffrey Kardatzke #if !OPTEE_ALLOW_SMC_LOAD 7430ec69a5bSJeffrey Kardatzke register_opteed_interrupt_handler(); 7440ec69a5bSJeffrey Kardatzke #endif 745aa5da461SJens Wiklander } 746aa5da461SJens Wiklander 747aa5da461SJens Wiklander /* 748aa5da461SJens Wiklander * OPTEE reports completion. The OPTEED must have initiated 749aa5da461SJens Wiklander * the original request through a synchronous entry into 750aa5da461SJens Wiklander * OPTEE. Jump back to the original C runtime context. 751aa5da461SJens Wiklander */ 752aa5da461SJens Wiklander opteed_synchronous_sp_exit(optee_ctx, x1); 753185a23ffSJonathan Wright break; 754aa5da461SJens Wiklander 755aa5da461SJens Wiklander 756aa5da461SJens Wiklander /* 757aa5da461SJens Wiklander * These function IDs is used only by OP-TEE to indicate it has 758aa5da461SJens Wiklander * finished: 759aa5da461SJens Wiklander * 1. turning itself on in response to an earlier psci 760aa5da461SJens Wiklander * cpu_on request 761aa5da461SJens Wiklander * 2. resuming itself after an earlier psci cpu_suspend 762aa5da461SJens Wiklander * request. 763aa5da461SJens Wiklander */ 764aa5da461SJens Wiklander case TEESMC_OPTEED_RETURN_ON_DONE: 765aa5da461SJens Wiklander case TEESMC_OPTEED_RETURN_RESUME_DONE: 766aa5da461SJens Wiklander 767aa5da461SJens Wiklander 768aa5da461SJens Wiklander /* 769aa5da461SJens Wiklander * These function IDs is used only by the SP to indicate it has 770aa5da461SJens Wiklander * finished: 771aa5da461SJens Wiklander * 1. suspending itself after an earlier psci cpu_suspend 772aa5da461SJens Wiklander * request. 773aa5da461SJens Wiklander * 2. turning itself off in response to an earlier psci 774aa5da461SJens Wiklander * cpu_off request. 775aa5da461SJens Wiklander */ 776aa5da461SJens Wiklander case TEESMC_OPTEED_RETURN_OFF_DONE: 777aa5da461SJens Wiklander case TEESMC_OPTEED_RETURN_SUSPEND_DONE: 778aa5da461SJens Wiklander case TEESMC_OPTEED_RETURN_SYSTEM_OFF_DONE: 779aa5da461SJens Wiklander case TEESMC_OPTEED_RETURN_SYSTEM_RESET_DONE: 780aa5da461SJens Wiklander 781aa5da461SJens Wiklander /* 782aa5da461SJens Wiklander * OPTEE reports completion. The OPTEED must have initiated the 783aa5da461SJens Wiklander * original request through a synchronous entry into OPTEE. 784aa5da461SJens Wiklander * Jump back to the original C runtime context, and pass x1 as 785aa5da461SJens Wiklander * return value to the caller 786aa5da461SJens Wiklander */ 787aa5da461SJens Wiklander opteed_synchronous_sp_exit(optee_ctx, x1); 788185a23ffSJonathan Wright break; 789aa5da461SJens Wiklander 790aa5da461SJens Wiklander /* 791aa5da461SJens Wiklander * OPTEE is returning from a call or being preempted from a call, in 792aa5da461SJens Wiklander * either case execution should resume in the normal world. 793aa5da461SJens Wiklander */ 794aa5da461SJens Wiklander case TEESMC_OPTEED_RETURN_CALL_DONE: 795aa5da461SJens Wiklander /* 796aa5da461SJens Wiklander * This is the result from the secure client of an 797aa5da461SJens Wiklander * earlier request. The results are in x0-x3. Copy it 798aa5da461SJens Wiklander * into the non-secure context, save the secure state 799aa5da461SJens Wiklander * and return to the non-secure state. 800aa5da461SJens Wiklander */ 801aa5da461SJens Wiklander assert(handle == cm_get_context(SECURE)); 802aa5da461SJens Wiklander cm_el1_sysregs_context_save(SECURE); 803aa5da461SJens Wiklander 804aa5da461SJens Wiklander /* Get a reference to the non-secure context */ 805aa5da461SJens Wiklander ns_cpu_context = cm_get_context(NON_SECURE); 806aa5da461SJens Wiklander assert(ns_cpu_context); 807aa5da461SJens Wiklander 808aa5da461SJens Wiklander /* Restore non-secure state */ 809aa5da461SJens Wiklander cm_el1_sysregs_context_restore(NON_SECURE); 810aa5da461SJens Wiklander cm_set_next_eret_context(NON_SECURE); 811aa5da461SJens Wiklander 812aa5da461SJens Wiklander SMC_RET4(ns_cpu_context, x1, x2, x3, x4); 813aa5da461SJens Wiklander 814aa5da461SJens Wiklander /* 815aa5da461SJens Wiklander * OPTEE has finished handling a S-EL1 FIQ interrupt. Execution 816aa5da461SJens Wiklander * should resume in the normal world. 817aa5da461SJens Wiklander */ 818aa5da461SJens Wiklander case TEESMC_OPTEED_RETURN_FIQ_DONE: 819aa5da461SJens Wiklander /* Get a reference to the non-secure context */ 820aa5da461SJens Wiklander ns_cpu_context = cm_get_context(NON_SECURE); 821aa5da461SJens Wiklander assert(ns_cpu_context); 822aa5da461SJens Wiklander 823aa5da461SJens Wiklander /* 824aa5da461SJens Wiklander * Restore non-secure state. There is no need to save the 825aa5da461SJens Wiklander * secure system register context since OPTEE was supposed 826aa5da461SJens Wiklander * to preserve it during S-EL1 interrupt handling. 827aa5da461SJens Wiklander */ 828aa5da461SJens Wiklander cm_el1_sysregs_context_restore(NON_SECURE); 829aa5da461SJens Wiklander cm_set_next_eret_context(NON_SECURE); 830aa5da461SJens Wiklander 831aa5da461SJens Wiklander SMC_RET0((uint64_t) ns_cpu_context); 832aa5da461SJens Wiklander 833aa5da461SJens Wiklander default: 834aa5da461SJens Wiklander panic(); 835aa5da461SJens Wiklander } 836aa5da461SJens Wiklander } 837aa5da461SJens Wiklander 838aa5da461SJens Wiklander /* Define an OPTEED runtime service descriptor for fast SMC calls */ 839aa5da461SJens Wiklander DECLARE_RT_SVC( 840aa5da461SJens Wiklander opteed_fast, 841aa5da461SJens Wiklander 842aa5da461SJens Wiklander OEN_TOS_START, 843aa5da461SJens Wiklander OEN_TOS_END, 844aa5da461SJens Wiklander SMC_TYPE_FAST, 845aa5da461SJens Wiklander opteed_setup, 846aa5da461SJens Wiklander opteed_smc_handler 847aa5da461SJens Wiklander ); 848aa5da461SJens Wiklander 849bbbbcdaeSDavid Cunado /* Define an OPTEED runtime service descriptor for yielding SMC calls */ 850aa5da461SJens Wiklander DECLARE_RT_SVC( 851aa5da461SJens Wiklander opteed_std, 852aa5da461SJens Wiklander 853aa5da461SJens Wiklander OEN_TOS_START, 854aa5da461SJens Wiklander OEN_TOS_END, 855bbbbcdaeSDavid Cunado SMC_TYPE_YIELD, 856aa5da461SJens Wiklander NULL, 857aa5da461SJens Wiklander opteed_smc_handler 858aa5da461SJens Wiklander ); 859