1aa5da461SJens Wiklander /* 2*fd650ff6SSoby Mathew * Copyright (c) 2013-2015, ARM Limited and Contributors. All rights reserved. 3aa5da461SJens Wiklander * 4aa5da461SJens Wiklander * Redistribution and use in source and binary forms, with or without 5aa5da461SJens Wiklander * modification, are permitted provided that the following conditions are met: 6aa5da461SJens Wiklander * 7aa5da461SJens Wiklander * Redistributions of source code must retain the above copyright notice, this 8aa5da461SJens Wiklander * list of conditions and the following disclaimer. 9aa5da461SJens Wiklander * 10aa5da461SJens Wiklander * Redistributions in binary form must reproduce the above copyright notice, 11aa5da461SJens Wiklander * this list of conditions and the following disclaimer in the documentation 12aa5da461SJens Wiklander * and/or other materials provided with the distribution. 13aa5da461SJens Wiklander * 14aa5da461SJens Wiklander * Neither the name of ARM nor the names of its contributors may be used 15aa5da461SJens Wiklander * to endorse or promote products derived from this software without specific 16aa5da461SJens Wiklander * prior written permission. 17aa5da461SJens Wiklander * 18aa5da461SJens Wiklander * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" 19aa5da461SJens Wiklander * AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE 20aa5da461SJens Wiklander * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE 21aa5da461SJens Wiklander * ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE 22aa5da461SJens Wiklander * LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR 23aa5da461SJens Wiklander * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF 24aa5da461SJens Wiklander * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS 25aa5da461SJens Wiklander * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN 26aa5da461SJens Wiklander * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) 27aa5da461SJens Wiklander * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE 28aa5da461SJens Wiklander * POSSIBILITY OF SUCH DAMAGE. 29aa5da461SJens Wiklander */ 30aa5da461SJens Wiklander 31aa5da461SJens Wiklander 32aa5da461SJens Wiklander /******************************************************************************* 33aa5da461SJens Wiklander * This is the Secure Payload Dispatcher (SPD). The dispatcher is meant to be a 34aa5da461SJens Wiklander * plug-in component to the Secure Monitor, registered as a runtime service. The 35aa5da461SJens Wiklander * SPD is expected to be a functional extension of the Secure Payload (SP) that 36aa5da461SJens Wiklander * executes in Secure EL1. The Secure Monitor will delegate all SMCs targeting 37aa5da461SJens Wiklander * the Trusted OS/Applications range to the dispatcher. The SPD will either 38aa5da461SJens Wiklander * handle the request locally or delegate it to the Secure Payload. It is also 39aa5da461SJens Wiklander * responsible for initialising and maintaining communication with the SP. 40aa5da461SJens Wiklander ******************************************************************************/ 41aa5da461SJens Wiklander #include <arch_helpers.h> 42aa5da461SJens Wiklander #include <assert.h> 43aa5da461SJens Wiklander #include <bl_common.h> 44aa5da461SJens Wiklander #include <bl31.h> 45aa5da461SJens Wiklander #include <context_mgmt.h> 46aa5da461SJens Wiklander #include <debug.h> 47aa5da461SJens Wiklander #include <errno.h> 48aa5da461SJens Wiklander #include <platform.h> 49aa5da461SJens Wiklander #include <runtime_svc.h> 50aa5da461SJens Wiklander #include <stddef.h> 51aa5da461SJens Wiklander #include <uuid.h> 52aa5da461SJens Wiklander #include "opteed_private.h" 53aa5da461SJens Wiklander #include "teesmc_opteed_macros.h" 54aa5da461SJens Wiklander #include "teesmc_opteed.h" 55aa5da461SJens Wiklander 56aa5da461SJens Wiklander /******************************************************************************* 57aa5da461SJens Wiklander * Address of the entrypoint vector table in OPTEE. It is 58aa5da461SJens Wiklander * initialised once on the primary core after a cold boot. 59aa5da461SJens Wiklander ******************************************************************************/ 60aa5da461SJens Wiklander optee_vectors_t *optee_vectors; 61aa5da461SJens Wiklander 62aa5da461SJens Wiklander /******************************************************************************* 63aa5da461SJens Wiklander * Array to keep track of per-cpu OPTEE state 64aa5da461SJens Wiklander ******************************************************************************/ 65aa5da461SJens Wiklander optee_context_t opteed_sp_context[OPTEED_CORE_COUNT]; 66aa5da461SJens Wiklander uint32_t opteed_rw; 67aa5da461SJens Wiklander 68aa5da461SJens Wiklander 69aa5da461SJens Wiklander 70aa5da461SJens Wiklander static int32_t opteed_init(void); 71aa5da461SJens Wiklander 72aa5da461SJens Wiklander /******************************************************************************* 73aa5da461SJens Wiklander * This function is the handler registered for S-EL1 interrupts by the 74aa5da461SJens Wiklander * OPTEED. It validates the interrupt and upon success arranges entry into 75aa5da461SJens Wiklander * the OPTEE at 'optee_fiq_entry()' for handling the interrupt. 76aa5da461SJens Wiklander ******************************************************************************/ 77aa5da461SJens Wiklander static uint64_t opteed_sel1_interrupt_handler(uint32_t id, 78aa5da461SJens Wiklander uint32_t flags, 79aa5da461SJens Wiklander void *handle, 80aa5da461SJens Wiklander void *cookie) 81aa5da461SJens Wiklander { 82aa5da461SJens Wiklander uint32_t linear_id; 83aa5da461SJens Wiklander optee_context_t *optee_ctx; 84aa5da461SJens Wiklander 85aa5da461SJens Wiklander /* Check the security state when the exception was generated */ 86aa5da461SJens Wiklander assert(get_interrupt_src_ss(flags) == NON_SECURE); 87aa5da461SJens Wiklander 88aa5da461SJens Wiklander #if IMF_READ_INTERRUPT_ID 89aa5da461SJens Wiklander /* Check the security status of the interrupt */ 90aa5da461SJens Wiklander assert(plat_ic_get_interrupt_type(id) == INTR_TYPE_S_EL1); 91aa5da461SJens Wiklander #endif 92aa5da461SJens Wiklander 93aa5da461SJens Wiklander /* Sanity check the pointer to this cpu's context */ 94aa5da461SJens Wiklander assert(handle == cm_get_context(NON_SECURE)); 95aa5da461SJens Wiklander 96aa5da461SJens Wiklander /* Save the non-secure context before entering the OPTEE */ 97aa5da461SJens Wiklander cm_el1_sysregs_context_save(NON_SECURE); 98aa5da461SJens Wiklander 99aa5da461SJens Wiklander /* Get a reference to this cpu's OPTEE context */ 100*fd650ff6SSoby Mathew linear_id = plat_my_core_pos(); 101aa5da461SJens Wiklander optee_ctx = &opteed_sp_context[linear_id]; 102aa5da461SJens Wiklander assert(&optee_ctx->cpu_ctx == cm_get_context(SECURE)); 103aa5da461SJens Wiklander 104aa5da461SJens Wiklander cm_set_elr_el3(SECURE, (uint64_t)&optee_vectors->fiq_entry); 105aa5da461SJens Wiklander cm_el1_sysregs_context_restore(SECURE); 106aa5da461SJens Wiklander cm_set_next_eret_context(SECURE); 107aa5da461SJens Wiklander 108aa5da461SJens Wiklander /* 109aa5da461SJens Wiklander * Tell the OPTEE that it has to handle an FIQ (synchronously). 110aa5da461SJens Wiklander * Also the instruction in normal world where the interrupt was 111aa5da461SJens Wiklander * generated is passed for debugging purposes. It is safe to 112aa5da461SJens Wiklander * retrieve this address from ELR_EL3 as the secure context will 113aa5da461SJens Wiklander * not take effect until el3_exit(). 114aa5da461SJens Wiklander */ 115aa5da461SJens Wiklander SMC_RET1(&optee_ctx->cpu_ctx, read_elr_el3()); 116aa5da461SJens Wiklander } 117aa5da461SJens Wiklander 118aa5da461SJens Wiklander /******************************************************************************* 119aa5da461SJens Wiklander * OPTEE Dispatcher setup. The OPTEED finds out the OPTEE entrypoint and type 120aa5da461SJens Wiklander * (aarch32/aarch64) if not already known and initialises the context for entry 121aa5da461SJens Wiklander * into OPTEE for its initialization. 122aa5da461SJens Wiklander ******************************************************************************/ 123aa5da461SJens Wiklander int32_t opteed_setup(void) 124aa5da461SJens Wiklander { 125aa5da461SJens Wiklander entry_point_info_t *optee_ep_info; 126aa5da461SJens Wiklander uint32_t linear_id; 127aa5da461SJens Wiklander 128*fd650ff6SSoby Mathew linear_id = plat_my_core_pos(); 129aa5da461SJens Wiklander 130aa5da461SJens Wiklander /* 131aa5da461SJens Wiklander * Get information about the Secure Payload (BL32) image. Its 132aa5da461SJens Wiklander * absence is a critical failure. TODO: Add support to 133aa5da461SJens Wiklander * conditionally include the SPD service 134aa5da461SJens Wiklander */ 135aa5da461SJens Wiklander optee_ep_info = bl31_plat_get_next_image_ep_info(SECURE); 136aa5da461SJens Wiklander if (!optee_ep_info) { 137aa5da461SJens Wiklander WARN("No OPTEE provided by BL2 boot loader, Booting device" 138aa5da461SJens Wiklander " without OPTEE initialization. SMC`s destined for OPTEE" 139aa5da461SJens Wiklander " will return SMC_UNK\n"); 140aa5da461SJens Wiklander return 1; 141aa5da461SJens Wiklander } 142aa5da461SJens Wiklander 143aa5da461SJens Wiklander /* 144aa5da461SJens Wiklander * If there's no valid entry point for SP, we return a non-zero value 145aa5da461SJens Wiklander * signalling failure initializing the service. We bail out without 146aa5da461SJens Wiklander * registering any handlers 147aa5da461SJens Wiklander */ 148aa5da461SJens Wiklander if (!optee_ep_info->pc) 149aa5da461SJens Wiklander return 1; 150aa5da461SJens Wiklander 151aa5da461SJens Wiklander /* 152aa5da461SJens Wiklander * We could inspect the SP image and determine it's execution 153aa5da461SJens Wiklander * state i.e whether AArch32 or AArch64. Assuming it's AArch32 154aa5da461SJens Wiklander * for the time being. 155aa5da461SJens Wiklander */ 156aa5da461SJens Wiklander opteed_rw = OPTEE_AARCH32; 157aa5da461SJens Wiklander opteed_init_optee_ep_state(optee_ep_info, 158aa5da461SJens Wiklander opteed_rw, 159aa5da461SJens Wiklander optee_ep_info->pc, 160aa5da461SJens Wiklander &opteed_sp_context[linear_id]); 161aa5da461SJens Wiklander 162aa5da461SJens Wiklander /* 163aa5da461SJens Wiklander * All OPTEED initialization done. Now register our init function with 164aa5da461SJens Wiklander * BL31 for deferred invocation 165aa5da461SJens Wiklander */ 166aa5da461SJens Wiklander bl31_register_bl32_init(&opteed_init); 167aa5da461SJens Wiklander 168aa5da461SJens Wiklander return 0; 169aa5da461SJens Wiklander } 170aa5da461SJens Wiklander 171aa5da461SJens Wiklander /******************************************************************************* 172aa5da461SJens Wiklander * This function passes control to the OPTEE image (BL32) for the first time 173aa5da461SJens Wiklander * on the primary cpu after a cold boot. It assumes that a valid secure 174aa5da461SJens Wiklander * context has already been created by opteed_setup() which can be directly 175aa5da461SJens Wiklander * used. It also assumes that a valid non-secure context has been 176aa5da461SJens Wiklander * initialised by PSCI so it does not need to save and restore any 177aa5da461SJens Wiklander * non-secure state. This function performs a synchronous entry into 178aa5da461SJens Wiklander * OPTEE. OPTEE passes control back to this routine through a SMC. 179aa5da461SJens Wiklander ******************************************************************************/ 180aa5da461SJens Wiklander static int32_t opteed_init(void) 181aa5da461SJens Wiklander { 182*fd650ff6SSoby Mathew uint32_t linear_id = plat_my_core_pos(); 183aa5da461SJens Wiklander optee_context_t *optee_ctx = &opteed_sp_context[linear_id]; 184aa5da461SJens Wiklander entry_point_info_t *optee_entry_point; 185aa5da461SJens Wiklander uint64_t rc; 186aa5da461SJens Wiklander 187aa5da461SJens Wiklander /* 188aa5da461SJens Wiklander * Get information about the OPTEE (BL32) image. Its 189aa5da461SJens Wiklander * absence is a critical failure. 190aa5da461SJens Wiklander */ 191aa5da461SJens Wiklander optee_entry_point = bl31_plat_get_next_image_ep_info(SECURE); 192aa5da461SJens Wiklander assert(optee_entry_point); 193aa5da461SJens Wiklander 194*fd650ff6SSoby Mathew cm_init_my_context(optee_entry_point); 195aa5da461SJens Wiklander 196aa5da461SJens Wiklander /* 197aa5da461SJens Wiklander * Arrange for an entry into OPTEE. It will be returned via 198aa5da461SJens Wiklander * OPTEE_ENTRY_DONE case 199aa5da461SJens Wiklander */ 200aa5da461SJens Wiklander rc = opteed_synchronous_sp_entry(optee_ctx); 201aa5da461SJens Wiklander assert(rc != 0); 202aa5da461SJens Wiklander 203aa5da461SJens Wiklander return rc; 204aa5da461SJens Wiklander } 205aa5da461SJens Wiklander 206aa5da461SJens Wiklander 207aa5da461SJens Wiklander /******************************************************************************* 208aa5da461SJens Wiklander * This function is responsible for handling all SMCs in the Trusted OS/App 209aa5da461SJens Wiklander * range from the non-secure state as defined in the SMC Calling Convention 210aa5da461SJens Wiklander * Document. It is also responsible for communicating with the Secure 211aa5da461SJens Wiklander * payload to delegate work and return results back to the non-secure 212aa5da461SJens Wiklander * state. Lastly it will also return any information that OPTEE needs to do 213aa5da461SJens Wiklander * the work assigned to it. 214aa5da461SJens Wiklander ******************************************************************************/ 215aa5da461SJens Wiklander uint64_t opteed_smc_handler(uint32_t smc_fid, 216aa5da461SJens Wiklander uint64_t x1, 217aa5da461SJens Wiklander uint64_t x2, 218aa5da461SJens Wiklander uint64_t x3, 219aa5da461SJens Wiklander uint64_t x4, 220aa5da461SJens Wiklander void *cookie, 221aa5da461SJens Wiklander void *handle, 222aa5da461SJens Wiklander uint64_t flags) 223aa5da461SJens Wiklander { 224aa5da461SJens Wiklander cpu_context_t *ns_cpu_context; 225*fd650ff6SSoby Mathew uint32_t linear_id = plat_my_core_pos(); 226aa5da461SJens Wiklander optee_context_t *optee_ctx = &opteed_sp_context[linear_id]; 227aa5da461SJens Wiklander uint64_t rc; 228aa5da461SJens Wiklander 229aa5da461SJens Wiklander /* 230aa5da461SJens Wiklander * Determine which security state this SMC originated from 231aa5da461SJens Wiklander */ 232aa5da461SJens Wiklander 233aa5da461SJens Wiklander if (is_caller_non_secure(flags)) { 234aa5da461SJens Wiklander /* 235aa5da461SJens Wiklander * This is a fresh request from the non-secure client. 236aa5da461SJens Wiklander * The parameters are in x1 and x2. Figure out which 237aa5da461SJens Wiklander * registers need to be preserved, save the non-secure 238aa5da461SJens Wiklander * state and send the request to the secure payload. 239aa5da461SJens Wiklander */ 240aa5da461SJens Wiklander assert(handle == cm_get_context(NON_SECURE)); 241aa5da461SJens Wiklander 242aa5da461SJens Wiklander cm_el1_sysregs_context_save(NON_SECURE); 243aa5da461SJens Wiklander 244aa5da461SJens Wiklander /* 245aa5da461SJens Wiklander * We are done stashing the non-secure context. Ask the 246aa5da461SJens Wiklander * OPTEE to do the work now. 247aa5da461SJens Wiklander */ 248aa5da461SJens Wiklander 249aa5da461SJens Wiklander /* 250aa5da461SJens Wiklander * Verify if there is a valid context to use, copy the 251aa5da461SJens Wiklander * operation type and parameters to the secure context 252aa5da461SJens Wiklander * and jump to the fast smc entry point in the secure 253aa5da461SJens Wiklander * payload. Entry into S-EL1 will take place upon exit 254aa5da461SJens Wiklander * from this function. 255aa5da461SJens Wiklander */ 256aa5da461SJens Wiklander assert(&optee_ctx->cpu_ctx == cm_get_context(SECURE)); 257aa5da461SJens Wiklander 258aa5da461SJens Wiklander /* Set appropriate entry for SMC. 259aa5da461SJens Wiklander * We expect OPTEE to manage the PSTATE.I and PSTATE.F 260aa5da461SJens Wiklander * flags as appropriate. 261aa5da461SJens Wiklander */ 262aa5da461SJens Wiklander if (GET_SMC_TYPE(smc_fid) == SMC_TYPE_FAST) { 263aa5da461SJens Wiklander cm_set_elr_el3(SECURE, (uint64_t) 264aa5da461SJens Wiklander &optee_vectors->fast_smc_entry); 265aa5da461SJens Wiklander } else { 266aa5da461SJens Wiklander cm_set_elr_el3(SECURE, (uint64_t) 267aa5da461SJens Wiklander &optee_vectors->std_smc_entry); 268aa5da461SJens Wiklander } 269aa5da461SJens Wiklander 270aa5da461SJens Wiklander cm_el1_sysregs_context_restore(SECURE); 271aa5da461SJens Wiklander cm_set_next_eret_context(SECURE); 272aa5da461SJens Wiklander 273aa5da461SJens Wiklander /* Propagate hypervisor client ID */ 274aa5da461SJens Wiklander write_ctx_reg(get_gpregs_ctx(&optee_ctx->cpu_ctx), 275aa5da461SJens Wiklander CTX_GPREG_X7, 276aa5da461SJens Wiklander read_ctx_reg(get_gpregs_ctx(handle), 277aa5da461SJens Wiklander CTX_GPREG_X7)); 278aa5da461SJens Wiklander 279aa5da461SJens Wiklander SMC_RET4(&optee_ctx->cpu_ctx, smc_fid, x1, x2, x3); 280aa5da461SJens Wiklander } 281aa5da461SJens Wiklander 282aa5da461SJens Wiklander /* 283aa5da461SJens Wiklander * Returning from OPTEE 284aa5da461SJens Wiklander */ 285aa5da461SJens Wiklander 286aa5da461SJens Wiklander switch (smc_fid) { 287aa5da461SJens Wiklander /* 288aa5da461SJens Wiklander * OPTEE has finished initialising itself after a cold boot 289aa5da461SJens Wiklander */ 290aa5da461SJens Wiklander case TEESMC_OPTEED_RETURN_ENTRY_DONE: 291aa5da461SJens Wiklander /* 292aa5da461SJens Wiklander * Stash the OPTEE entry points information. This is done 293aa5da461SJens Wiklander * only once on the primary cpu 294aa5da461SJens Wiklander */ 295aa5da461SJens Wiklander assert(optee_vectors == NULL); 296aa5da461SJens Wiklander optee_vectors = (optee_vectors_t *) x1; 297aa5da461SJens Wiklander 298aa5da461SJens Wiklander if (optee_vectors) { 299aa5da461SJens Wiklander set_optee_pstate(optee_ctx->state, OPTEE_PSTATE_ON); 300aa5da461SJens Wiklander 301aa5da461SJens Wiklander /* 302aa5da461SJens Wiklander * OPTEE has been successfully initialized. 303aa5da461SJens Wiklander * Register power management hooks with PSCI 304aa5da461SJens Wiklander */ 305aa5da461SJens Wiklander psci_register_spd_pm_hook(&opteed_pm); 306aa5da461SJens Wiklander 307aa5da461SJens Wiklander /* 308aa5da461SJens Wiklander * Register an interrupt handler for S-EL1 interrupts 309aa5da461SJens Wiklander * when generated during code executing in the 310aa5da461SJens Wiklander * non-secure state. 311aa5da461SJens Wiklander */ 312aa5da461SJens Wiklander flags = 0; 313aa5da461SJens Wiklander set_interrupt_rm_flag(flags, NON_SECURE); 314aa5da461SJens Wiklander rc = register_interrupt_type_handler(INTR_TYPE_S_EL1, 315aa5da461SJens Wiklander opteed_sel1_interrupt_handler, 316aa5da461SJens Wiklander flags); 317aa5da461SJens Wiklander if (rc) 318aa5da461SJens Wiklander panic(); 319aa5da461SJens Wiklander } 320aa5da461SJens Wiklander 321aa5da461SJens Wiklander /* 322aa5da461SJens Wiklander * OPTEE reports completion. The OPTEED must have initiated 323aa5da461SJens Wiklander * the original request through a synchronous entry into 324aa5da461SJens Wiklander * OPTEE. Jump back to the original C runtime context. 325aa5da461SJens Wiklander */ 326aa5da461SJens Wiklander opteed_synchronous_sp_exit(optee_ctx, x1); 327aa5da461SJens Wiklander 328aa5da461SJens Wiklander 329aa5da461SJens Wiklander /* 330aa5da461SJens Wiklander * These function IDs is used only by OP-TEE to indicate it has 331aa5da461SJens Wiklander * finished: 332aa5da461SJens Wiklander * 1. turning itself on in response to an earlier psci 333aa5da461SJens Wiklander * cpu_on request 334aa5da461SJens Wiklander * 2. resuming itself after an earlier psci cpu_suspend 335aa5da461SJens Wiklander * request. 336aa5da461SJens Wiklander */ 337aa5da461SJens Wiklander case TEESMC_OPTEED_RETURN_ON_DONE: 338aa5da461SJens Wiklander case TEESMC_OPTEED_RETURN_RESUME_DONE: 339aa5da461SJens Wiklander 340aa5da461SJens Wiklander 341aa5da461SJens Wiklander /* 342aa5da461SJens Wiklander * These function IDs is used only by the SP to indicate it has 343aa5da461SJens Wiklander * finished: 344aa5da461SJens Wiklander * 1. suspending itself after an earlier psci cpu_suspend 345aa5da461SJens Wiklander * request. 346aa5da461SJens Wiklander * 2. turning itself off in response to an earlier psci 347aa5da461SJens Wiklander * cpu_off request. 348aa5da461SJens Wiklander */ 349aa5da461SJens Wiklander case TEESMC_OPTEED_RETURN_OFF_DONE: 350aa5da461SJens Wiklander case TEESMC_OPTEED_RETURN_SUSPEND_DONE: 351aa5da461SJens Wiklander case TEESMC_OPTEED_RETURN_SYSTEM_OFF_DONE: 352aa5da461SJens Wiklander case TEESMC_OPTEED_RETURN_SYSTEM_RESET_DONE: 353aa5da461SJens Wiklander 354aa5da461SJens Wiklander /* 355aa5da461SJens Wiklander * OPTEE reports completion. The OPTEED must have initiated the 356aa5da461SJens Wiklander * original request through a synchronous entry into OPTEE. 357aa5da461SJens Wiklander * Jump back to the original C runtime context, and pass x1 as 358aa5da461SJens Wiklander * return value to the caller 359aa5da461SJens Wiklander */ 360aa5da461SJens Wiklander opteed_synchronous_sp_exit(optee_ctx, x1); 361aa5da461SJens Wiklander 362aa5da461SJens Wiklander /* 363aa5da461SJens Wiklander * OPTEE is returning from a call or being preempted from a call, in 364aa5da461SJens Wiklander * either case execution should resume in the normal world. 365aa5da461SJens Wiklander */ 366aa5da461SJens Wiklander case TEESMC_OPTEED_RETURN_CALL_DONE: 367aa5da461SJens Wiklander /* 368aa5da461SJens Wiklander * This is the result from the secure client of an 369aa5da461SJens Wiklander * earlier request. The results are in x0-x3. Copy it 370aa5da461SJens Wiklander * into the non-secure context, save the secure state 371aa5da461SJens Wiklander * and return to the non-secure state. 372aa5da461SJens Wiklander */ 373aa5da461SJens Wiklander assert(handle == cm_get_context(SECURE)); 374aa5da461SJens Wiklander cm_el1_sysregs_context_save(SECURE); 375aa5da461SJens Wiklander 376aa5da461SJens Wiklander /* Get a reference to the non-secure context */ 377aa5da461SJens Wiklander ns_cpu_context = cm_get_context(NON_SECURE); 378aa5da461SJens Wiklander assert(ns_cpu_context); 379aa5da461SJens Wiklander 380aa5da461SJens Wiklander /* Restore non-secure state */ 381aa5da461SJens Wiklander cm_el1_sysregs_context_restore(NON_SECURE); 382aa5da461SJens Wiklander cm_set_next_eret_context(NON_SECURE); 383aa5da461SJens Wiklander 384aa5da461SJens Wiklander SMC_RET4(ns_cpu_context, x1, x2, x3, x4); 385aa5da461SJens Wiklander 386aa5da461SJens Wiklander /* 387aa5da461SJens Wiklander * OPTEE has finished handling a S-EL1 FIQ interrupt. Execution 388aa5da461SJens Wiklander * should resume in the normal world. 389aa5da461SJens Wiklander */ 390aa5da461SJens Wiklander case TEESMC_OPTEED_RETURN_FIQ_DONE: 391aa5da461SJens Wiklander /* Get a reference to the non-secure context */ 392aa5da461SJens Wiklander ns_cpu_context = cm_get_context(NON_SECURE); 393aa5da461SJens Wiklander assert(ns_cpu_context); 394aa5da461SJens Wiklander 395aa5da461SJens Wiklander /* 396aa5da461SJens Wiklander * Restore non-secure state. There is no need to save the 397aa5da461SJens Wiklander * secure system register context since OPTEE was supposed 398aa5da461SJens Wiklander * to preserve it during S-EL1 interrupt handling. 399aa5da461SJens Wiklander */ 400aa5da461SJens Wiklander cm_el1_sysregs_context_restore(NON_SECURE); 401aa5da461SJens Wiklander cm_set_next_eret_context(NON_SECURE); 402aa5da461SJens Wiklander 403aa5da461SJens Wiklander SMC_RET0((uint64_t) ns_cpu_context); 404aa5da461SJens Wiklander 405aa5da461SJens Wiklander default: 406aa5da461SJens Wiklander panic(); 407aa5da461SJens Wiklander } 408aa5da461SJens Wiklander } 409aa5da461SJens Wiklander 410aa5da461SJens Wiklander /* Define an OPTEED runtime service descriptor for fast SMC calls */ 411aa5da461SJens Wiklander DECLARE_RT_SVC( 412aa5da461SJens Wiklander opteed_fast, 413aa5da461SJens Wiklander 414aa5da461SJens Wiklander OEN_TOS_START, 415aa5da461SJens Wiklander OEN_TOS_END, 416aa5da461SJens Wiklander SMC_TYPE_FAST, 417aa5da461SJens Wiklander opteed_setup, 418aa5da461SJens Wiklander opteed_smc_handler 419aa5da461SJens Wiklander ); 420aa5da461SJens Wiklander 421aa5da461SJens Wiklander /* Define an OPTEED runtime service descriptor for standard SMC calls */ 422aa5da461SJens Wiklander DECLARE_RT_SVC( 423aa5da461SJens Wiklander opteed_std, 424aa5da461SJens Wiklander 425aa5da461SJens Wiklander OEN_TOS_START, 426aa5da461SJens Wiklander OEN_TOS_END, 427aa5da461SJens Wiklander SMC_TYPE_STD, 428aa5da461SJens Wiklander NULL, 429aa5da461SJens Wiklander opteed_smc_handler 430aa5da461SJens Wiklander ); 431