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Diffstat (limited to 'core/arch/arm/kernel/thread.c')
-rw-r--r-- | core/arch/arm/kernel/thread.c | 1365 |
1 files changed, 1365 insertions, 0 deletions
diff --git a/core/arch/arm/kernel/thread.c b/core/arch/arm/kernel/thread.c new file mode 100644 index 0000000..c988b65 --- /dev/null +++ b/core/arch/arm/kernel/thread.c @@ -0,0 +1,1365 @@ +/* + * Copyright (c) 2016, Linaro Limited + * Copyright (c) 2014, STMicroelectronics International N.V. + * All rights reserved. + * + * Redistribution and use in source and binary forms, with or without + * modification, are permitted provided that the following conditions are met: + * + * 1. Redistributions of source code must retain the above copyright notice, + * this list of conditions and the following disclaimer. + * + * 2. Redistributions in binary form must reproduce the above copyright notice, + * this list of conditions and the following disclaimer in the documentation + * and/or other materials provided with the distribution. + * + * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" + * AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE + * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE + * ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE + * LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR + * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF + * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS + * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN + * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) + * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE + * POSSIBILITY OF SUCH DAMAGE. + */ + +#include <platform_config.h> + +#include <arm.h> +#include <assert.h> +#include <keep.h> +#include <kernel/misc.h> +#include <kernel/panic.h> +#include <kernel/spinlock.h> +#include <kernel/tee_ta_manager.h> +#include <kernel/thread_defs.h> +#include <kernel/thread.h> +#include <mm/core_memprot.h> +#include <mm/tee_mm.h> +#include <mm/tee_mmu.h> +#include <mm/tee_pager.h> +#include <optee_msg.h> +#include <sm/optee_smc.h> +#include <sm/sm.h> +#include <tee/tee_fs_rpc.h> +#include <tee/tee_cryp_utl.h> +#include <trace.h> +#include <util.h> + +#include "thread_private.h" + +#ifdef CFG_WITH_ARM_TRUSTED_FW +#define STACK_TMP_OFFS 0 +#else +#define STACK_TMP_OFFS SM_STACK_TMP_RESERVE_SIZE +#endif + + +#ifdef ARM32 +#ifdef CFG_CORE_SANITIZE_KADDRESS +#define STACK_TMP_SIZE (3072 + STACK_TMP_OFFS) +#else +#define STACK_TMP_SIZE (1024 + STACK_TMP_OFFS) +#endif +#define STACK_THREAD_SIZE 8192 + +#if TRACE_LEVEL > 0 +#ifdef CFG_CORE_SANITIZE_KADDRESS +#define STACK_ABT_SIZE 3072 +#else +#define STACK_ABT_SIZE 2048 +#endif +#else +#define STACK_ABT_SIZE 1024 +#endif + +#endif /*ARM32*/ + +#ifdef ARM64 +#define STACK_TMP_SIZE (2048 + STACK_TMP_OFFS) +#define STACK_THREAD_SIZE 8192 + +#if TRACE_LEVEL > 0 +#define STACK_ABT_SIZE 3072 +#else +#define STACK_ABT_SIZE 1024 +#endif +#endif /*ARM64*/ + +struct thread_ctx threads[CFG_NUM_THREADS]; + +static struct thread_core_local thread_core_local[CFG_TEE_CORE_NB_CORE]; + +#ifdef CFG_WITH_STACK_CANARIES +#ifdef ARM32 +#define STACK_CANARY_SIZE (4 * sizeof(uint32_t)) +#endif +#ifdef ARM64 +#define STACK_CANARY_SIZE (8 * sizeof(uint32_t)) +#endif +#define START_CANARY_VALUE 0xdededede +#define END_CANARY_VALUE 0xabababab +#define GET_START_CANARY(name, stack_num) name[stack_num][0] +#define GET_END_CANARY(name, stack_num) \ + name[stack_num][sizeof(name[stack_num]) / sizeof(uint32_t) - 1] +#else +#define STACK_CANARY_SIZE 0 +#endif + +#define DECLARE_STACK(name, num_stacks, stack_size, linkage) \ +linkage uint32_t name[num_stacks] \ + [ROUNDUP(stack_size + STACK_CANARY_SIZE, STACK_ALIGNMENT) / \ + sizeof(uint32_t)] \ + __attribute__((section(".nozi_stack"), \ + aligned(STACK_ALIGNMENT))) + +#define STACK_SIZE(stack) (sizeof(stack) - STACK_CANARY_SIZE / 2) + +#define GET_STACK(stack) \ + ((vaddr_t)(stack) + STACK_SIZE(stack)) + +DECLARE_STACK(stack_tmp, CFG_TEE_CORE_NB_CORE, STACK_TMP_SIZE, /* global */); +DECLARE_STACK(stack_abt, CFG_TEE_CORE_NB_CORE, STACK_ABT_SIZE, static); +#ifndef CFG_WITH_PAGER +DECLARE_STACK(stack_thread, CFG_NUM_THREADS, STACK_THREAD_SIZE, static); +#endif + +const uint32_t stack_tmp_stride = sizeof(stack_tmp[0]); +const uint32_t stack_tmp_offset = STACK_TMP_OFFS + STACK_CANARY_SIZE / 2; + +/* + * These stack setup info are required by secondary boot cores before they + * each locally enable the pager (the mmu). Hence kept in pager sections. + */ +KEEP_PAGER(stack_tmp); +KEEP_PAGER(stack_tmp_stride); +KEEP_PAGER(stack_tmp_offset); + +thread_smc_handler_t thread_std_smc_handler_ptr; +static thread_smc_handler_t thread_fast_smc_handler_ptr; +thread_fiq_handler_t thread_fiq_handler_ptr; +thread_pm_handler_t thread_cpu_on_handler_ptr; +thread_pm_handler_t thread_cpu_off_handler_ptr; +thread_pm_handler_t thread_cpu_suspend_handler_ptr; +thread_pm_handler_t thread_cpu_resume_handler_ptr; +thread_pm_handler_t thread_system_off_handler_ptr; +thread_pm_handler_t thread_system_reset_handler_ptr; + + +static unsigned int thread_global_lock = SPINLOCK_UNLOCK; +static bool thread_prealloc_rpc_cache; + +static void init_canaries(void) +{ +#ifdef CFG_WITH_STACK_CANARIES + size_t n; +#define INIT_CANARY(name) \ + for (n = 0; n < ARRAY_SIZE(name); n++) { \ + uint32_t *start_canary = &GET_START_CANARY(name, n); \ + uint32_t *end_canary = &GET_END_CANARY(name, n); \ + \ + *start_canary = START_CANARY_VALUE; \ + *end_canary = END_CANARY_VALUE; \ + DMSG("#Stack canaries for %s[%zu] with top at %p\n", \ + #name, n, (void *)(end_canary - 1)); \ + DMSG("watch *%p\n", (void *)end_canary); \ + } + + INIT_CANARY(stack_tmp); + INIT_CANARY(stack_abt); +#ifndef CFG_WITH_PAGER + INIT_CANARY(stack_thread); +#endif +#endif/*CFG_WITH_STACK_CANARIES*/ +} + +#define CANARY_DIED(stack, loc, n) \ + do { \ + EMSG_RAW("Dead canary at %s of '%s[%zu]'", #loc, #stack, n); \ + panic(); \ + } while (0) + +void thread_check_canaries(void) +{ +#ifdef CFG_WITH_STACK_CANARIES + size_t n; + + for (n = 0; n < ARRAY_SIZE(stack_tmp); n++) { + if (GET_START_CANARY(stack_tmp, n) != START_CANARY_VALUE) + CANARY_DIED(stack_tmp, start, n); + if (GET_END_CANARY(stack_tmp, n) != END_CANARY_VALUE) + CANARY_DIED(stack_tmp, end, n); + } + + for (n = 0; n < ARRAY_SIZE(stack_abt); n++) { + if (GET_START_CANARY(stack_abt, n) != START_CANARY_VALUE) + CANARY_DIED(stack_abt, start, n); + if (GET_END_CANARY(stack_abt, n) != END_CANARY_VALUE) + CANARY_DIED(stack_abt, end, n); + + } +#ifndef CFG_WITH_PAGER + for (n = 0; n < ARRAY_SIZE(stack_thread); n++) { + if (GET_START_CANARY(stack_thread, n) != START_CANARY_VALUE) + CANARY_DIED(stack_thread, start, n); + if (GET_END_CANARY(stack_thread, n) != END_CANARY_VALUE) + CANARY_DIED(stack_thread, end, n); + } +#endif +#endif/*CFG_WITH_STACK_CANARIES*/ +} + +static void lock_global(void) +{ + cpu_spin_lock(&thread_global_lock); +} + +static void unlock_global(void) +{ + cpu_spin_unlock(&thread_global_lock); +} + +#ifdef ARM32 +uint32_t thread_get_exceptions(void) +{ + uint32_t cpsr = read_cpsr(); + + return (cpsr >> CPSR_F_SHIFT) & THREAD_EXCP_ALL; +} + +void thread_set_exceptions(uint32_t exceptions) +{ + uint32_t cpsr = read_cpsr(); + + /* IRQ must not be unmasked while holding a spinlock */ + if (!(exceptions & THREAD_EXCP_IRQ)) + assert_have_no_spinlock(); + + cpsr &= ~(THREAD_EXCP_ALL << CPSR_F_SHIFT); + cpsr |= ((exceptions & THREAD_EXCP_ALL) << CPSR_F_SHIFT); + write_cpsr(cpsr); +} +#endif /*ARM32*/ + +#ifdef ARM64 +uint32_t thread_get_exceptions(void) +{ + uint32_t daif = read_daif(); + + return (daif >> DAIF_F_SHIFT) & THREAD_EXCP_ALL; +} + +void thread_set_exceptions(uint32_t exceptions) +{ + uint32_t daif = read_daif(); + + /* IRQ must not be unmasked while holding a spinlock */ + if (!(exceptions & THREAD_EXCP_IRQ)) + assert_have_no_spinlock(); + + daif &= ~(THREAD_EXCP_ALL << DAIF_F_SHIFT); + daif |= ((exceptions & THREAD_EXCP_ALL) << DAIF_F_SHIFT); + write_daif(daif); +} +#endif /*ARM64*/ + +uint32_t thread_mask_exceptions(uint32_t exceptions) +{ + uint32_t state = thread_get_exceptions(); + + thread_set_exceptions(state | (exceptions & THREAD_EXCP_ALL)); + return state; +} + +void thread_unmask_exceptions(uint32_t state) +{ + thread_set_exceptions(state & THREAD_EXCP_ALL); +} + + +struct thread_core_local *thread_get_core_local(void) +{ + uint32_t cpu_id = get_core_pos(); + + /* + * IRQs must be disabled before playing with core_local since + * we otherwise may be rescheduled to a different core in the + * middle of this function. + */ + assert(thread_get_exceptions() & THREAD_EXCP_IRQ); + + assert(cpu_id < CFG_TEE_CORE_NB_CORE); + return &thread_core_local[cpu_id]; +} + +static void thread_lazy_save_ns_vfp(void) +{ +#ifdef CFG_WITH_VFP + struct thread_ctx *thr = threads + thread_get_id(); + + thr->vfp_state.ns_saved = false; +#if defined(ARM64) && defined(CFG_WITH_ARM_TRUSTED_FW) + /* + * ARM TF saves and restores CPACR_EL1, so we must assume NS world + * uses VFP and always preserve the register file when secure world + * is about to use it + */ + thr->vfp_state.ns.force_save = true; +#endif + vfp_lazy_save_state_init(&thr->vfp_state.ns); +#endif /*CFG_WITH_VFP*/ +} + +static void thread_lazy_restore_ns_vfp(void) +{ +#ifdef CFG_WITH_VFP + struct thread_ctx *thr = threads + thread_get_id(); + struct thread_user_vfp_state *tuv = thr->vfp_state.uvfp; + + assert(!thr->vfp_state.sec_lazy_saved && !thr->vfp_state.sec_saved); + + if (tuv && tuv->lazy_saved && !tuv->saved) { + vfp_lazy_save_state_final(&tuv->vfp); + tuv->saved = true; + } + + vfp_lazy_restore_state(&thr->vfp_state.ns, thr->vfp_state.ns_saved); + thr->vfp_state.ns_saved = false; +#endif /*CFG_WITH_VFP*/ +} + +#ifdef ARM32 +static void init_regs(struct thread_ctx *thread, + struct thread_smc_args *args) +{ + thread->regs.pc = (uint32_t)thread_std_smc_entry; + + /* + * Stdcalls starts in SVC mode with masked IRQ, masked Asynchronous + * abort and unmasked FIQ. + */ + thread->regs.cpsr = read_cpsr() & ARM32_CPSR_E; + thread->regs.cpsr |= CPSR_MODE_SVC | CPSR_I | CPSR_A; + /* Enable thumb mode if it's a thumb instruction */ + if (thread->regs.pc & 1) + thread->regs.cpsr |= CPSR_T; + /* Reinitialize stack pointer */ + thread->regs.svc_sp = thread->stack_va_end; + + /* + * Copy arguments into context. This will make the + * arguments appear in r0-r7 when thread is started. + */ + thread->regs.r0 = args->a0; + thread->regs.r1 = args->a1; + thread->regs.r2 = args->a2; + thread->regs.r3 = args->a3; + thread->regs.r4 = args->a4; + thread->regs.r5 = args->a5; + thread->regs.r6 = args->a6; + thread->regs.r7 = args->a7; +} +#endif /*ARM32*/ + +#ifdef ARM64 +static void init_regs(struct thread_ctx *thread, + struct thread_smc_args *args) +{ + thread->regs.pc = (uint64_t)thread_std_smc_entry; + + /* + * Stdcalls starts in SVC mode with masked IRQ, masked Asynchronous + * abort and unmasked FIQ. + */ + thread->regs.cpsr = SPSR_64(SPSR_64_MODE_EL1, SPSR_64_MODE_SP_EL0, + DAIFBIT_IRQ | DAIFBIT_ABT); + /* Reinitialize stack pointer */ + thread->regs.sp = thread->stack_va_end; + + /* + * Copy arguments into context. This will make the + * arguments appear in x0-x7 when thread is started. + */ + thread->regs.x[0] = args->a0; + thread->regs.x[1] = args->a1; + thread->regs.x[2] = args->a2; + thread->regs.x[3] = args->a3; + thread->regs.x[4] = args->a4; + thread->regs.x[5] = args->a5; + thread->regs.x[6] = args->a6; + thread->regs.x[7] = args->a7; + + /* Set up frame pointer as per the Aarch64 AAPCS */ + thread->regs.x[29] = 0; +} +#endif /*ARM64*/ + +void thread_init_boot_thread(void) +{ + struct thread_core_local *l = thread_get_core_local(); + size_t n; + + for (n = 0; n < CFG_NUM_THREADS; n++) { + TAILQ_INIT(&threads[n].mutexes); + TAILQ_INIT(&threads[n].tsd.sess_stack); +#ifdef CFG_SMALL_PAGE_USER_TA + SLIST_INIT(&threads[n].tsd.pgt_cache); +#endif + } + + for (n = 0; n < CFG_TEE_CORE_NB_CORE; n++) + thread_core_local[n].curr_thread = -1; + + l->curr_thread = 0; + threads[0].state = THREAD_STATE_ACTIVE; +} + +void thread_clr_boot_thread(void) +{ + struct thread_core_local *l = thread_get_core_local(); + + assert(l->curr_thread >= 0 && l->curr_thread < CFG_NUM_THREADS); + assert(threads[l->curr_thread].state == THREAD_STATE_ACTIVE); + assert(TAILQ_EMPTY(&threads[l->curr_thread].mutexes)); + threads[l->curr_thread].state = THREAD_STATE_FREE; + l->curr_thread = -1; +} + +static void thread_alloc_and_run(struct thread_smc_args *args) +{ + size_t n; + struct thread_core_local *l = thread_get_core_local(); + bool found_thread = false; + + assert(l->curr_thread == -1); + + lock_global(); + + for (n = 0; n < CFG_NUM_THREADS; n++) { + if (threads[n].state == THREAD_STATE_FREE) { + threads[n].state = THREAD_STATE_ACTIVE; + found_thread = true; + break; + } + } + + unlock_global(); + + if (!found_thread) { + args->a0 = OPTEE_SMC_RETURN_ETHREAD_LIMIT; + return; + } + + l->curr_thread = n; + + threads[n].flags = 0; + init_regs(threads + n, args); + + /* Save Hypervisor Client ID */ + threads[n].hyp_clnt_id = args->a7; + + thread_lazy_save_ns_vfp(); + thread_resume(&threads[n].regs); +} + +#ifdef ARM32 +static void copy_a0_to_a5(struct thread_ctx_regs *regs, + struct thread_smc_args *args) +{ + /* + * Update returned values from RPC, values will appear in + * r0-r3 when thread is resumed. + */ + regs->r0 = args->a0; + regs->r1 = args->a1; + regs->r2 = args->a2; + regs->r3 = args->a3; + regs->r4 = args->a4; + regs->r5 = args->a5; +} +#endif /*ARM32*/ + +#ifdef ARM64 +static void copy_a0_to_a5(struct thread_ctx_regs *regs, + struct thread_smc_args *args) +{ + /* + * Update returned values from RPC, values will appear in + * x0-x3 when thread is resumed. + */ + regs->x[0] = args->a0; + regs->x[1] = args->a1; + regs->x[2] = args->a2; + regs->x[3] = args->a3; + regs->x[4] = args->a4; + regs->x[5] = args->a5; +} +#endif /*ARM64*/ + +#ifdef ARM32 +static bool is_from_user(uint32_t cpsr) +{ + return (cpsr & ARM32_CPSR_MODE_MASK) == ARM32_CPSR_MODE_USR; +} +#endif + +#ifdef ARM64 +static bool is_from_user(uint32_t cpsr) +{ + if (cpsr & (SPSR_MODE_RW_32 << SPSR_MODE_RW_SHIFT)) + return true; + if (((cpsr >> SPSR_64_MODE_EL_SHIFT) & SPSR_64_MODE_EL_MASK) == + SPSR_64_MODE_EL0) + return true; + return false; +} +#endif + +static bool is_user_mode(struct thread_ctx_regs *regs) +{ + return is_from_user((uint32_t)regs->cpsr); +} + +static void thread_resume_from_rpc(struct thread_smc_args *args) +{ + size_t n = args->a3; /* thread id */ + struct thread_core_local *l = thread_get_core_local(); + uint32_t rv = 0; + + assert(l->curr_thread == -1); + + lock_global(); + + if (n < CFG_NUM_THREADS && + threads[n].state == THREAD_STATE_SUSPENDED && + args->a7 == threads[n].hyp_clnt_id) + threads[n].state = THREAD_STATE_ACTIVE; + else + rv = OPTEE_SMC_RETURN_ERESUME; + + unlock_global(); + + if (rv) { + args->a0 = rv; + return; + } + + l->curr_thread = n; + + if (is_user_mode(&threads[n].regs)) + tee_ta_update_session_utime_resume(); + + if (threads[n].have_user_map) + core_mmu_set_user_map(&threads[n].user_map); + + /* + * Return from RPC to request service of an IRQ must not + * get parameters from non-secure world. + */ + if (threads[n].flags & THREAD_FLAGS_COPY_ARGS_ON_RETURN) { + copy_a0_to_a5(&threads[n].regs, args); + threads[n].flags &= ~THREAD_FLAGS_COPY_ARGS_ON_RETURN; + } + + thread_lazy_save_ns_vfp(); + thread_resume(&threads[n].regs); +} + +void thread_handle_fast_smc(struct thread_smc_args *args) +{ + thread_check_canaries(); + thread_fast_smc_handler_ptr(args); + /* Fast handlers must not unmask any exceptions */ + assert(thread_get_exceptions() == THREAD_EXCP_ALL); +} + +void thread_handle_std_smc(struct thread_smc_args *args) +{ + thread_check_canaries(); + + if (args->a0 == OPTEE_SMC_CALL_RETURN_FROM_RPC) + thread_resume_from_rpc(args); + else + thread_alloc_and_run(args); +} + +/* Helper routine for the assembly function thread_std_smc_entry() */ +void __thread_std_smc_entry(struct thread_smc_args *args) +{ + struct thread_ctx *thr = threads + thread_get_id(); + + if (!thr->rpc_arg) { + paddr_t parg; + uint64_t carg; + void *arg; + + thread_rpc_alloc_arg( + OPTEE_MSG_GET_ARG_SIZE(THREAD_RPC_MAX_NUM_PARAMS), + &parg, &carg); + if (!parg || !ALIGNMENT_IS_OK(parg, struct optee_msg_arg) || + !(arg = phys_to_virt(parg, MEM_AREA_NSEC_SHM))) { + thread_rpc_free_arg(carg); + args->a0 = OPTEE_SMC_RETURN_ENOMEM; + return; + } + + thr->rpc_arg = arg; + thr->rpc_carg = carg; + } + + thread_std_smc_handler_ptr(args); + + tee_fs_rpc_cache_clear(&thr->tsd); + if (!thread_prealloc_rpc_cache) { + thread_rpc_free_arg(thr->rpc_carg); + thr->rpc_carg = 0; + thr->rpc_arg = 0; + } +} + +void *thread_get_tmp_sp(void) +{ + struct thread_core_local *l = thread_get_core_local(); + + return (void *)l->tmp_stack_va_end; +} + +#ifdef ARM64 +vaddr_t thread_get_saved_thread_sp(void) +{ + struct thread_core_local *l = thread_get_core_local(); + int ct = l->curr_thread; + + assert(ct != -1); + return threads[ct].kern_sp; +} +#endif /*ARM64*/ + +bool thread_addr_is_in_stack(vaddr_t va) +{ + struct thread_ctx *thr; + int ct = thread_get_id_may_fail(); + + if (ct == -1) + return false; + + thr = threads + ct; + return va < thr->stack_va_end && + va >= (thr->stack_va_end - STACK_THREAD_SIZE); +} + +void thread_state_free(void) +{ + struct thread_core_local *l = thread_get_core_local(); + int ct = l->curr_thread; + + assert(ct != -1); + assert(TAILQ_EMPTY(&threads[ct].mutexes)); + + thread_lazy_restore_ns_vfp(); + tee_pager_release_phys( + (void *)(threads[ct].stack_va_end - STACK_THREAD_SIZE), + STACK_THREAD_SIZE); + + lock_global(); + + assert(threads[ct].state == THREAD_STATE_ACTIVE); + threads[ct].state = THREAD_STATE_FREE; + threads[ct].flags = 0; + l->curr_thread = -1; + + unlock_global(); +} + +#ifdef CFG_WITH_PAGER +static void release_unused_kernel_stack(struct thread_ctx *thr) +{ + vaddr_t sp = thr->regs.svc_sp; + vaddr_t base = thr->stack_va_end - STACK_THREAD_SIZE; + size_t len = sp - base; + + tee_pager_release_phys((void *)base, len); +} +#else +static void release_unused_kernel_stack(struct thread_ctx *thr __unused) +{ +} +#endif + +int thread_state_suspend(uint32_t flags, uint32_t cpsr, vaddr_t pc) +{ + struct thread_core_local *l = thread_get_core_local(); + int ct = l->curr_thread; + + assert(ct != -1); + + thread_check_canaries(); + + release_unused_kernel_stack(threads + ct); + + if (is_from_user(cpsr)) { + thread_user_save_vfp(); + tee_ta_update_session_utime_suspend(); + tee_ta_gprof_sample_pc(pc); + } + thread_lazy_restore_ns_vfp(); + + lock_global(); + + assert(threads[ct].state == THREAD_STATE_ACTIVE); + threads[ct].flags |= flags; + threads[ct].regs.cpsr = cpsr; + threads[ct].regs.pc = pc; + threads[ct].state = THREAD_STATE_SUSPENDED; + + threads[ct].have_user_map = core_mmu_user_mapping_is_active(); + if (threads[ct].have_user_map) { + core_mmu_get_user_map(&threads[ct].user_map); + core_mmu_set_user_map(NULL); + } + + l->curr_thread = -1; + + unlock_global(); + + return ct; +} + +#ifdef ARM32 +static void set_tmp_stack(struct thread_core_local *l, vaddr_t sp) +{ + l->tmp_stack_va_end = sp; + thread_set_irq_sp(sp); + thread_set_fiq_sp(sp); +} + +static void set_abt_stack(struct thread_core_local *l __unused, vaddr_t sp) +{ + thread_set_abt_sp(sp); +} +#endif /*ARM32*/ + +#ifdef ARM64 +static void set_tmp_stack(struct thread_core_local *l, vaddr_t sp) +{ + /* + * We're already using the tmp stack when this function is called + * so there's no need to assign it to any stack pointer. However, + * we'll need to restore it at different times so store it here. + */ + l->tmp_stack_va_end = sp; +} + +static void set_abt_stack(struct thread_core_local *l, vaddr_t sp) +{ + l->abt_stack_va_end = sp; +} +#endif /*ARM64*/ + +bool thread_init_stack(uint32_t thread_id, vaddr_t sp) +{ + if (thread_id >= CFG_NUM_THREADS) + return false; + threads[thread_id].stack_va_end = sp; + return true; +} + +int thread_get_id_may_fail(void) +{ + /* thread_get_core_local() requires IRQs to be disabled */ + uint32_t exceptions = thread_mask_exceptions(THREAD_EXCP_IRQ); + struct thread_core_local *l = thread_get_core_local(); + int ct = l->curr_thread; + + thread_unmask_exceptions(exceptions); + return ct; +} + +int thread_get_id(void) +{ + int ct = thread_get_id_may_fail(); + + assert(ct >= 0 && ct < CFG_NUM_THREADS); + return ct; +} + +static void init_handlers(const struct thread_handlers *handlers) +{ + thread_std_smc_handler_ptr = handlers->std_smc; + thread_fast_smc_handler_ptr = handlers->fast_smc; + thread_fiq_handler_ptr = handlers->fiq; + thread_cpu_on_handler_ptr = handlers->cpu_on; + thread_cpu_off_handler_ptr = handlers->cpu_off; + thread_cpu_suspend_handler_ptr = handlers->cpu_suspend; + thread_cpu_resume_handler_ptr = handlers->cpu_resume; + thread_system_off_handler_ptr = handlers->system_off; + thread_system_reset_handler_ptr = handlers->system_reset; +} + +#ifdef CFG_WITH_PAGER +static void init_thread_stacks(void) +{ + size_t n; + + /* + * Allocate virtual memory for thread stacks. + */ + for (n = 0; n < CFG_NUM_THREADS; n++) { + tee_mm_entry_t *mm; + vaddr_t sp; + + /* Find vmem for thread stack and its protection gap */ + mm = tee_mm_alloc(&tee_mm_vcore, + SMALL_PAGE_SIZE + STACK_THREAD_SIZE); + assert(mm); + + /* Claim eventual physical page */ + tee_pager_add_pages(tee_mm_get_smem(mm), tee_mm_get_size(mm), + true); + + /* Add the area to the pager */ + tee_pager_add_core_area(tee_mm_get_smem(mm) + SMALL_PAGE_SIZE, + tee_mm_get_bytes(mm) - SMALL_PAGE_SIZE, + TEE_MATTR_PRW | TEE_MATTR_LOCKED, + NULL, NULL); + + /* init effective stack */ + sp = tee_mm_get_smem(mm) + tee_mm_get_bytes(mm); + if (!thread_init_stack(n, sp)) + panic("init stack failed"); + } +} +#else +static void init_thread_stacks(void) +{ + size_t n; + + /* Assign the thread stacks */ + for (n = 0; n < CFG_NUM_THREADS; n++) { + if (!thread_init_stack(n, GET_STACK(stack_thread[n]))) + panic("thread_init_stack failed"); + } +} +#endif /*CFG_WITH_PAGER*/ + +void thread_init_primary(const struct thread_handlers *handlers) +{ + init_handlers(handlers); + + /* Initialize canaries around the stacks */ + init_canaries(); + + init_thread_stacks(); + pgt_init(); +} + +static void init_sec_mon(size_t pos __maybe_unused) +{ +#if !defined(CFG_WITH_ARM_TRUSTED_FW) + /* Initialize secure monitor */ + sm_init(GET_STACK(stack_tmp[pos])); +#endif +} + +void thread_init_per_cpu(void) +{ + size_t pos = get_core_pos(); + struct thread_core_local *l = thread_get_core_local(); + + init_sec_mon(pos); + + set_tmp_stack(l, GET_STACK(stack_tmp[pos]) - STACK_TMP_OFFS); + set_abt_stack(l, GET_STACK(stack_abt[pos])); + + thread_init_vbar(); +} + +struct thread_specific_data *thread_get_tsd(void) +{ + return &threads[thread_get_id()].tsd; +} + +struct thread_ctx_regs *thread_get_ctx_regs(void) +{ + struct thread_core_local *l = thread_get_core_local(); + + assert(l->curr_thread != -1); + return &threads[l->curr_thread].regs; +} + +void thread_set_irq(bool enable) +{ + /* thread_get_core_local() requires IRQs to be disabled */ + uint32_t exceptions = thread_mask_exceptions(THREAD_EXCP_IRQ); + struct thread_core_local *l; + + l = thread_get_core_local(); + + assert(l->curr_thread != -1); + + if (enable) { + threads[l->curr_thread].flags |= THREAD_FLAGS_IRQ_ENABLE; + thread_set_exceptions(exceptions & ~THREAD_EXCP_IRQ); + } else { + /* + * No need to disable IRQ here since it's already disabled + * above. + */ + threads[l->curr_thread].flags &= ~THREAD_FLAGS_IRQ_ENABLE; + } +} + +void thread_restore_irq(void) +{ + /* thread_get_core_local() requires IRQs to be disabled */ + uint32_t exceptions = thread_mask_exceptions(THREAD_EXCP_IRQ); + struct thread_core_local *l; + + l = thread_get_core_local(); + + assert(l->curr_thread != -1); + + if (threads[l->curr_thread].flags & THREAD_FLAGS_IRQ_ENABLE) + thread_set_exceptions(exceptions & ~THREAD_EXCP_IRQ); +} + +#ifdef CFG_WITH_VFP +uint32_t thread_kernel_enable_vfp(void) +{ + uint32_t exceptions = thread_mask_exceptions(THREAD_EXCP_IRQ); + struct thread_ctx *thr = threads + thread_get_id(); + struct thread_user_vfp_state *tuv = thr->vfp_state.uvfp; + + assert(!vfp_is_enabled()); + + if (!thr->vfp_state.ns_saved) { + vfp_lazy_save_state_final(&thr->vfp_state.ns); + thr->vfp_state.ns_saved = true; + } else if (thr->vfp_state.sec_lazy_saved && + !thr->vfp_state.sec_saved) { + /* + * This happens when we're handling an abort while the + * thread was using the VFP state. + */ + vfp_lazy_save_state_final(&thr->vfp_state.sec); + thr->vfp_state.sec_saved = true; + } else if (tuv && tuv->lazy_saved && !tuv->saved) { + /* + * This can happen either during syscall or abort + * processing (while processing a syscall). + */ + vfp_lazy_save_state_final(&tuv->vfp); + tuv->saved = true; + } + + vfp_enable(); + return exceptions; +} + +void thread_kernel_disable_vfp(uint32_t state) +{ + uint32_t exceptions; + + assert(vfp_is_enabled()); + + vfp_disable(); + exceptions = thread_get_exceptions(); + assert(exceptions & THREAD_EXCP_IRQ); + exceptions &= ~THREAD_EXCP_IRQ; + exceptions |= state & THREAD_EXCP_IRQ; + thread_set_exceptions(exceptions); +} + +void thread_kernel_save_vfp(void) +{ + struct thread_ctx *thr = threads + thread_get_id(); + + assert(thread_get_exceptions() & THREAD_EXCP_IRQ); + if (vfp_is_enabled()) { + vfp_lazy_save_state_init(&thr->vfp_state.sec); + thr->vfp_state.sec_lazy_saved = true; + } +} + +void thread_kernel_restore_vfp(void) +{ + struct thread_ctx *thr = threads + thread_get_id(); + + assert(thread_get_exceptions() & THREAD_EXCP_IRQ); + assert(!vfp_is_enabled()); + if (thr->vfp_state.sec_lazy_saved) { + vfp_lazy_restore_state(&thr->vfp_state.sec, + thr->vfp_state.sec_saved); + thr->vfp_state.sec_saved = false; + thr->vfp_state.sec_lazy_saved = false; + } +} + +void thread_user_enable_vfp(struct thread_user_vfp_state *uvfp) +{ + struct thread_ctx *thr = threads + thread_get_id(); + struct thread_user_vfp_state *tuv = thr->vfp_state.uvfp; + + assert(thread_get_exceptions() & THREAD_EXCP_IRQ); + assert(!vfp_is_enabled()); + + if (!thr->vfp_state.ns_saved) { + vfp_lazy_save_state_final(&thr->vfp_state.ns); + thr->vfp_state.ns_saved = true; + } else if (tuv && uvfp != tuv) { + if (tuv->lazy_saved && !tuv->saved) { + vfp_lazy_save_state_final(&tuv->vfp); + tuv->saved = true; + } + } + + if (uvfp->lazy_saved) + vfp_lazy_restore_state(&uvfp->vfp, uvfp->saved); + uvfp->lazy_saved = false; + uvfp->saved = false; + + thr->vfp_state.uvfp = uvfp; + vfp_enable(); +} + +void thread_user_save_vfp(void) +{ + struct thread_ctx *thr = threads + thread_get_id(); + struct thread_user_vfp_state *tuv = thr->vfp_state.uvfp; + + assert(thread_get_exceptions() & THREAD_EXCP_IRQ); + if (!vfp_is_enabled()) + return; + + assert(tuv && !tuv->lazy_saved && !tuv->saved); + vfp_lazy_save_state_init(&tuv->vfp); + tuv->lazy_saved = true; +} + +void thread_user_clear_vfp(struct thread_user_vfp_state *uvfp) +{ + struct thread_ctx *thr = threads + thread_get_id(); + + if (uvfp == thr->vfp_state.uvfp) + thr->vfp_state.uvfp = NULL; + uvfp->lazy_saved = false; + uvfp->saved = false; +} +#endif /*CFG_WITH_VFP*/ + +#ifdef ARM32 +static bool get_spsr(bool is_32bit, unsigned long entry_func, uint32_t *spsr) +{ + uint32_t s; + + if (!is_32bit) + return false; + + s = read_spsr(); + s &= ~(CPSR_MODE_MASK | CPSR_T | CPSR_IT_MASK1 | CPSR_IT_MASK2); + s |= CPSR_MODE_USR; + if (entry_func & 1) + s |= CPSR_T; + *spsr = s; + return true; +} +#endif + +#ifdef ARM64 +static bool get_spsr(bool is_32bit, unsigned long entry_func, uint32_t *spsr) +{ + uint32_t s; + + if (is_32bit) { + s = read_daif() & (SPSR_32_AIF_MASK << SPSR_32_AIF_SHIFT); + s |= SPSR_MODE_RW_32 << SPSR_MODE_RW_SHIFT; + s |= (entry_func & SPSR_32_T_MASK) << SPSR_32_T_SHIFT; + } else { + s = read_daif() & (SPSR_64_DAIF_MASK << SPSR_64_DAIF_SHIFT); + } + + *spsr = s; + return true; +} +#endif + +uint32_t thread_enter_user_mode(unsigned long a0, unsigned long a1, + unsigned long a2, unsigned long a3, unsigned long user_sp, + unsigned long entry_func, bool is_32bit, + uint32_t *exit_status0, uint32_t *exit_status1) +{ + uint32_t spsr; + + tee_ta_update_session_utime_resume(); + + if (!get_spsr(is_32bit, entry_func, &spsr)) { + *exit_status0 = 1; /* panic */ + *exit_status1 = 0xbadbadba; + return 0; + } + return __thread_enter_user_mode(a0, a1, a2, a3, user_sp, entry_func, + spsr, exit_status0, exit_status1); +} + +void thread_add_mutex(struct mutex *m) +{ + struct thread_core_local *l = thread_get_core_local(); + int ct = l->curr_thread; + + assert(ct != -1 && threads[ct].state == THREAD_STATE_ACTIVE); + assert(m->owner_id == -1); + m->owner_id = ct; + TAILQ_INSERT_TAIL(&threads[ct].mutexes, m, link); +} + +void thread_rem_mutex(struct mutex *m) +{ + struct thread_core_local *l = thread_get_core_local(); + int ct = l->curr_thread; + + assert(ct != -1 && threads[ct].state == THREAD_STATE_ACTIVE); + assert(m->owner_id == ct); + m->owner_id = -1; + TAILQ_REMOVE(&threads[ct].mutexes, m, link); +} + +bool thread_disable_prealloc_rpc_cache(uint64_t *cookie) +{ + bool rv; + size_t n; + uint32_t exceptions = thread_mask_exceptions(THREAD_EXCP_IRQ); + + lock_global(); + + for (n = 0; n < CFG_NUM_THREADS; n++) { + if (threads[n].state != THREAD_STATE_FREE) { + rv = false; + goto out; + } + } + + rv = true; + for (n = 0; n < CFG_NUM_THREADS; n++) { + if (threads[n].rpc_arg) { + *cookie = threads[n].rpc_carg; + threads[n].rpc_carg = 0; + threads[n].rpc_arg = NULL; + goto out; + } + } + + *cookie = 0; + thread_prealloc_rpc_cache = false; +out: + unlock_global(); + thread_unmask_exceptions(exceptions); + return rv; +} + +bool thread_enable_prealloc_rpc_cache(void) +{ + bool rv; + size_t n; + uint32_t exceptions = thread_mask_exceptions(THREAD_EXCP_IRQ); + + lock_global(); + + for (n = 0; n < CFG_NUM_THREADS; n++) { + if (threads[n].state != THREAD_STATE_FREE) { + rv = false; + goto out; + } + } + + rv = true; + thread_prealloc_rpc_cache = true; +out: + unlock_global(); + thread_unmask_exceptions(exceptions); + return rv; +} + +static uint32_t rpc_cmd_nolock(uint32_t cmd, size_t num_params, + struct optee_msg_param *params) +{ + uint32_t rpc_args[THREAD_RPC_NUM_ARGS] = { OPTEE_SMC_RETURN_RPC_CMD }; + struct thread_ctx *thr = threads + thread_get_id(); + struct optee_msg_arg *arg = thr->rpc_arg; + uint64_t carg = thr->rpc_carg; + const size_t params_size = sizeof(struct optee_msg_param) * num_params; + size_t n; + + assert(arg && carg && num_params <= THREAD_RPC_MAX_NUM_PARAMS); + + plat_prng_add_jitter_entropy(); + + memset(arg, 0, OPTEE_MSG_GET_ARG_SIZE(THREAD_RPC_MAX_NUM_PARAMS)); + arg->cmd = cmd; + arg->ret = TEE_ERROR_GENERIC; /* in case value isn't updated */ + arg->num_params = num_params; + memcpy(OPTEE_MSG_GET_PARAMS(arg), params, params_size); + + reg_pair_from_64(carg, rpc_args + 1, rpc_args + 2); + thread_rpc(rpc_args); + for (n = 0; n < num_params; n++) { + switch (params[n].attr & OPTEE_MSG_ATTR_TYPE_MASK) { + case OPTEE_MSG_ATTR_TYPE_VALUE_OUTPUT: + case OPTEE_MSG_ATTR_TYPE_VALUE_INOUT: + case OPTEE_MSG_ATTR_TYPE_RMEM_OUTPUT: + case OPTEE_MSG_ATTR_TYPE_RMEM_INOUT: + case OPTEE_MSG_ATTR_TYPE_TMEM_OUTPUT: + case OPTEE_MSG_ATTR_TYPE_TMEM_INOUT: + memcpy(params + n, OPTEE_MSG_GET_PARAMS(arg) + n, + sizeof(struct optee_msg_param)); + break; + default: + break; + } + } + return arg->ret; +} + +uint32_t thread_rpc_cmd(uint32_t cmd, size_t num_params, + struct optee_msg_param *params) +{ + uint32_t ret; + + ret = rpc_cmd_nolock(cmd, num_params, params); + + return ret; +} + +static bool check_alloced_shm(paddr_t pa, size_t len, size_t align) +{ + if (pa & (align - 1)) + return false; + return core_pbuf_is(CORE_MEM_NSEC_SHM, pa, len); +} + +void thread_rpc_free_arg(uint64_t cookie) +{ + if (cookie) { + uint32_t rpc_args[THREAD_RPC_NUM_ARGS] = { + OPTEE_SMC_RETURN_RPC_FREE + }; + + reg_pair_from_64(cookie, rpc_args + 1, rpc_args + 2); + thread_rpc(rpc_args); + } +} + +void thread_rpc_alloc_arg(size_t size, paddr_t *arg, uint64_t *cookie) +{ + paddr_t pa; + uint64_t co; + uint32_t rpc_args[THREAD_RPC_NUM_ARGS] = { + OPTEE_SMC_RETURN_RPC_ALLOC, size + }; + + thread_rpc(rpc_args); + + pa = reg_pair_to_64(rpc_args[1], rpc_args[2]); + co = reg_pair_to_64(rpc_args[4], rpc_args[5]); + if (!check_alloced_shm(pa, size, sizeof(uint64_t))) { + thread_rpc_free_arg(co); + pa = 0; + co = 0; + } + + *arg = pa; + *cookie = co; +} + +/** + * Free physical memory previously allocated with thread_rpc_alloc() + * + * @cookie: cookie received when allocating the buffer + * @bt: must be the same as supplied when allocating + */ +static void thread_rpc_free(unsigned int bt, uint64_t cookie) +{ + uint32_t rpc_args[THREAD_RPC_NUM_ARGS] = { OPTEE_SMC_RETURN_RPC_CMD }; + struct thread_ctx *thr = threads + thread_get_id(); + struct optee_msg_arg *arg = thr->rpc_arg; + uint64_t carg = thr->rpc_carg; + struct optee_msg_param *params = OPTEE_MSG_GET_PARAMS(arg); + + memset(arg, 0, OPTEE_MSG_GET_ARG_SIZE(1)); + arg->cmd = OPTEE_MSG_RPC_CMD_SHM_FREE; + arg->ret = TEE_ERROR_GENERIC; /* in case value isn't updated */ + arg->num_params = 1; + + params[0].attr = OPTEE_MSG_ATTR_TYPE_VALUE_INPUT; + params[0].u.value.a = bt; + params[0].u.value.b = cookie; + params[0].u.value.c = 0; + + reg_pair_from_64(carg, rpc_args + 1, rpc_args + 2); + thread_rpc(rpc_args); +} + +/** + * Allocates shared memory buffer via RPC + * + * @size: size in bytes of shared memory buffer + * @align: required alignment of buffer + * @bt: buffer type OPTEE_MSG_RPC_SHM_TYPE_* + * @payload: returned physical pointer to buffer, 0 if allocation + * failed. + * @cookie: returned cookie used when freeing the buffer + */ +static void thread_rpc_alloc(size_t size, size_t align, unsigned int bt, + paddr_t *payload, uint64_t *cookie) +{ + uint32_t rpc_args[THREAD_RPC_NUM_ARGS] = { OPTEE_SMC_RETURN_RPC_CMD }; + struct thread_ctx *thr = threads + thread_get_id(); + struct optee_msg_arg *arg = thr->rpc_arg; + uint64_t carg = thr->rpc_carg; + struct optee_msg_param *params = OPTEE_MSG_GET_PARAMS(arg); + + memset(arg, 0, OPTEE_MSG_GET_ARG_SIZE(1)); + arg->cmd = OPTEE_MSG_RPC_CMD_SHM_ALLOC; + arg->ret = TEE_ERROR_GENERIC; /* in case value isn't updated */ + arg->num_params = 1; + + params[0].attr = OPTEE_MSG_ATTR_TYPE_VALUE_INPUT; + params[0].u.value.a = bt; + params[0].u.value.b = size; + params[0].u.value.c = align; + + reg_pair_from_64(carg, rpc_args + 1, rpc_args + 2); + thread_rpc(rpc_args); + if (arg->ret != TEE_SUCCESS) + goto fail; + + if (arg->num_params != 1) + goto fail; + + if (params[0].attr != OPTEE_MSG_ATTR_TYPE_TMEM_OUTPUT) + goto fail; + + if (!check_alloced_shm(params[0].u.tmem.buf_ptr, size, align)) { + thread_rpc_free(bt, params[0].u.tmem.shm_ref); + goto fail; + } + + *payload = params[0].u.tmem.buf_ptr; + *cookie = params[0].u.tmem.shm_ref; + return; +fail: + *payload = 0; + *cookie = 0; +} + +void thread_rpc_alloc_payload(size_t size, paddr_t *payload, uint64_t *cookie) +{ + thread_rpc_alloc(size, 8, OPTEE_MSG_RPC_SHM_TYPE_APPL, payload, cookie); +} + +void thread_rpc_free_payload(uint64_t cookie) +{ + thread_rpc_free(OPTEE_MSG_RPC_SHM_TYPE_APPL, cookie); +} |