/* * Copyright (c) 2014 Wind River Systems, Inc. * * SPDX-License-Identifier: Apache-2.0 */ /** * @file * @brief New thread creation for ARCv2 * * Core thread related primitives for the ARCv2 processor architecture. */ #include #include #include #include #ifdef CONFIG_USERSPACE #include #endif /* initial stack frame */ struct init_stack_frame { uintptr_t pc; #ifdef CONFIG_ARC_HAS_SECURE uint32_t sec_stat; #endif uintptr_t status32; uintptr_t r3; uintptr_t r2; uintptr_t r1; uintptr_t r0; }; #ifdef CONFIG_USERSPACE struct user_init_stack_frame { struct init_stack_frame iframe; uint32_t user_sp; }; static bool is_user(struct k_thread *thread) { return (thread->base.user_options & K_USER) != 0; } #endif /* Set all stack-related architecture variables for the provided thread */ static void setup_stack_vars(struct k_thread *thread) { #ifdef CONFIG_USERSPACE if (is_user(thread)) { #ifdef CONFIG_GEN_PRIV_STACKS thread->arch.priv_stack_start = (uint32_t)z_priv_stack_find(thread->stack_obj); #else thread->arch.priv_stack_start = (uint32_t)(thread->stack_obj); #endif /* CONFIG_GEN_PRIV_STACKS */ thread->arch.priv_stack_start += Z_ARC_STACK_GUARD_SIZE; } else { thread->arch.priv_stack_start = 0; } #endif /* CONFIG_USERSPACE */ #ifdef CONFIG_ARC_STACK_CHECKING #ifdef CONFIG_USERSPACE if (is_user(thread)) { thread->arch.k_stack_top = thread->arch.priv_stack_start; thread->arch.k_stack_base = (thread->arch.priv_stack_start + CONFIG_PRIVILEGED_STACK_SIZE); thread->arch.u_stack_top = thread->stack_info.start; thread->arch.u_stack_base = (thread->stack_info.start + thread->stack_info.size); } else #endif /* CONFIG_USERSPACE */ { thread->arch.k_stack_top = (uint32_t)thread->stack_info.start; thread->arch.k_stack_base = (uint32_t)(thread->stack_info.start + thread->stack_info.size); #ifdef CONFIG_USERSPACE thread->arch.u_stack_top = 0; thread->arch.u_stack_base = 0; #endif /* CONFIG_USERSPACE */ } #endif /* CONFIG_ARC_STACK_CHECKING */ } /* Get the initial stack frame pointer from the thread's stack buffer. */ static struct init_stack_frame *get_iframe(struct k_thread *thread, char *stack_ptr) { #ifdef CONFIG_USERSPACE if (is_user(thread)) { /* Initial stack frame for a user thread is slightly larger; * we land in z_user_thread_entry_wrapper on the privilege * stack, and pop off an additional value for the user * stack pointer. */ struct user_init_stack_frame *uframe; uframe = Z_STACK_PTR_TO_FRAME(struct user_init_stack_frame, thread->arch.priv_stack_start + CONFIG_PRIVILEGED_STACK_SIZE); uframe->user_sp = (uint32_t)stack_ptr; return &uframe->iframe; } #endif return Z_STACK_PTR_TO_FRAME(struct init_stack_frame, stack_ptr); } /* * Pre-populate values in the registers inside _callee_saved_stack struct * so these registers have pre-defined values when new thread begins * execution. For example, setting up the thread pointer for thread local * storage here so the thread starts with thread pointer already set up. */ static inline void arch_setup_callee_saved_regs(struct k_thread *thread, uintptr_t stack_ptr) { _callee_saved_stack_t *regs = UINT_TO_POINTER(stack_ptr); ARG_UNUSED(regs); #ifdef CONFIG_THREAD_LOCAL_STORAGE #ifdef CONFIG_ISA_ARCV2 /* R26 is used for thread pointer for ARCv2 */ regs->r26 = thread->tls; #else /* R30 is used for thread pointer for ARCv3 */ regs->r30 = thread->tls; #endif /* CONFIG_ISA_ARCV2 */ #endif } /* * The initial context is a basic stack frame that contains arguments for * z_thread_entry() return address, that points at z_thread_entry() * and status register. */ void arch_new_thread(struct k_thread *thread, k_thread_stack_t *stack, char *stack_ptr, k_thread_entry_t entry, void *p1, void *p2, void *p3) { struct init_stack_frame *iframe; setup_stack_vars(thread); /* Set up initial stack frame */ iframe = get_iframe(thread, stack_ptr); #ifdef CONFIG_USERSPACE /* enable US bit, US is read as zero in user mode. This will allow user * mode sleep instructions, and it enables a form of denial-of-service * attack by putting the processor in sleep mode, but since interrupt * level/mask can't be set from user space that's not worse than * executing a loop without yielding. */ iframe->status32 = _ARC_V2_STATUS32_US | _ARC_V2_STATUS32_DZ; if (is_user(thread)) { iframe->pc = (uint32_t)z_user_thread_entry_wrapper; } else { iframe->pc = (uint32_t)z_thread_entry_wrapper; } #else iframe->status32 = _ARC_V2_STATUS32_DZ; iframe->pc = ((uintptr_t)z_thread_entry_wrapper); #endif /* CONFIG_USERSPACE */ #ifdef CONFIG_ARC_SECURE_FIRMWARE iframe->sec_stat = z_arc_v2_aux_reg_read(_ARC_V2_SEC_STAT); #endif iframe->r0 = (uintptr_t)entry; iframe->r1 = (uintptr_t)p1; iframe->r2 = (uintptr_t)p2; iframe->r3 = (uintptr_t)p3; #ifdef CONFIG_ARC_STACK_CHECKING #ifdef CONFIG_ARC_SECURE_FIRMWARE iframe->sec_stat |= _ARC_V2_SEC_STAT_SSC; #else iframe->status32 |= _ARC_V2_STATUS32_SC; #endif /* CONFIG_ARC_SECURE_FIRMWARE */ #endif /* CONFIG_ARC_STACK_CHECKING */ #ifdef CONFIG_ARC_USE_UNALIGNED_MEM_ACCESS iframe->status32 |= _ARC_V2_STATUS32_AD; #endif /* Set required thread members */ thread->switch_handle = thread; thread->arch.relinquish_cause = _CAUSE_COOP; thread->callee_saved.sp = (uintptr_t)iframe - ___callee_saved_stack_t_SIZEOF; arch_setup_callee_saved_regs(thread, thread->callee_saved.sp); /* initial values in all other regs/k_thread entries are irrelevant */ } void *z_arch_get_next_switch_handle(struct k_thread **old_thread) { *old_thread = _current; return z_get_next_switch_handle(*old_thread); } #ifdef CONFIG_USERSPACE FUNC_NORETURN void arch_user_mode_enter(k_thread_entry_t user_entry, void *p1, void *p2, void *p3) { setup_stack_vars(_current); /* possible optimizaiton: no need to load mem domain anymore */ /* need to lock cpu here ? */ configure_mpu_thread(_current); z_arc_userspace_enter(user_entry, p1, p2, p3, (uint32_t)_current->stack_info.start, (_current->stack_info.size - _current->stack_info.delta), _current); CODE_UNREACHABLE; } #endif #if defined(CONFIG_FPU) && defined(CONFIG_FPU_SHARING) int arch_float_disable(struct k_thread *thread) { unsigned int key; /* Ensure a preemptive context switch does not occur */ key = irq_lock(); /* Disable all floating point capabilities for the thread */ thread->base.user_options &= ~K_FP_REGS; irq_unlock(key); return 0; } int arch_float_enable(struct k_thread *thread, unsigned int options) { unsigned int key; /* Ensure a preemptive context switch does not occur */ key = irq_lock(); /* Enable all floating point capabilities for the thread */ thread->base.user_options |= K_FP_REGS; irq_unlock(key); return 0; } #endif /* CONFIG_FPU && CONFIG_FPU_SHARING */