/* * Copyright (c) 2013-2014 Wind River Systems, Inc. * * SPDX-License-Identifier: Apache-2.0 */ /** * @file * @brief Thread context switching for ARM Cortex-M * * This module implements the routines necessary for thread context switching * on ARM Cortex-M CPUs. */ #include #include #include #include _ASM_FILE_PROLOGUE GTEXT(__swap) GTEXT(__svc) GTEXT(__pendsv) GTEXT(_do_kernel_oops) GDATA(_k_neg_eagain) GDATA(_kernel) /** * * @brief PendSV exception handler, handling context switches * * The PendSV exception is the only execution context in the system that can * perform context switching. When an execution context finds out it has to * switch contexts, it pends the PendSV exception. * * When PendSV is pended, the decision that a context switch must happen has * already been taken. In other words, when __pendsv() runs, we *know* we have * to swap *something*. */ SECTION_FUNC(TEXT, __pendsv) #ifdef CONFIG_KERNEL_EVENT_LOGGER_CONTEXT_SWITCH /* Register the context switch */ push {lr} bl _sys_k_event_logger_context_switch #if defined(CONFIG_ARMV6_M) pop {r0} mov lr, r0 #else pop {lr} #endif /* CONFIG_ARMV6_M */ #endif /* CONFIG_KERNEL_EVENT_LOGGER_CONTEXT_SWITCH */ /* load _kernel into r1 and current k_thread into r2 */ ldr r1, =_kernel ldr r2, [r1, #_kernel_offset_to_current] /* addr of callee-saved regs in thread in r0 */ ldr r0, =_thread_offset_to_callee_saved add r0, r2 /* save callee-saved + psp in thread */ mrs ip, PSP #if defined(CONFIG_ARMV6_M) /* Store current r4-r7 */ stmea r0!, {r4-r7} /* copy r8-r12 into r3-r7 */ mov r3, r8 mov r4, r9 mov r5, r10 mov r6, r11 mov r7, ip /* store r8-12 */ stmea r0!, {r3-r7} #elif defined(CONFIG_ARMV7_M) stmia r0, {v1-v8, ip} #ifdef CONFIG_FP_SHARING add r0, r2, #_thread_offset_to_preempt_float vstmia r0, {s16-s31} #endif /* CONFIG_FP_SHARING */ #else #error Unknown ARM architecture #endif /* CONFIG_ARMV6_M */ /* * Prepare to clear PendSV with interrupts unlocked, but * don't clear it yet. PendSV must not be cleared until * the new thread is context-switched in since all decisions * to pend PendSV have been taken with the current kernel * state and this is what we're handling currently. */ ldr v4, =_SCS_ICSR ldr v3, =_SCS_ICSR_UNPENDSV /* protect the kernel state while we play with the thread lists */ #if defined(CONFIG_ARMV6_M) cpsid i #elif defined(CONFIG_ARMV7_M) movs.n r0, #_EXC_IRQ_DEFAULT_PRIO msr BASEPRI, r0 #else #error Unknown ARM architecture #endif /* CONFIG_ARMV6_M */ /* _kernel is still in r1 */ /* fetch the thread to run from the ready queue cache */ ldr r2, [r1, _kernel_offset_to_ready_q_cache] str r2, [r1, #_kernel_offset_to_current] /* * Clear PendSV so that if another interrupt comes in and * decides, with the new kernel state baseed on the new thread * being context-switched in, that it needs to reschedules, it * will take, but that previously pended PendSVs do not take, * since they were based on the previous kernel state and this * has been handled. */ /* _SCS_ICSR is still in v4 and _SCS_ICSR_UNPENDSV in v3 */ str v3, [v4, #0] /* Restore previous interrupt disable state (irq_lock key) */ ldr r0, [r2, #_thread_offset_to_basepri] movs.n r3, #0 str r3, [r2, #_thread_offset_to_basepri] #if defined(CONFIG_ARMV6_M) /* BASEPRI not available, previous interrupt disable state * maps to PRIMASK. * * Only enable interrupts if value is 0, meaning interrupts * were enabled before irq_lock was called. */ cmp r0, #0 bne _thread_irq_disabled cpsie i _thread_irq_disabled: ldr r4, =_thread_offset_to_callee_saved adds r0, r2, r4 /* restore r4-r12 for new thread */ /* first restore r8-r12 located after r4-r7 (4*4bytes) */ adds r0, #16 ldmia r0!, {r3-r7} /* move to correct registers */ mov r8, r3 mov r9, r4 mov r10, r5 mov r11, r6 mov ip, r7 /* restore r4-r7, go back 9*4 bytes to the start of the stored block */ subs r0, #36 ldmia r0!, {r4-r7} #elif defined(CONFIG_ARMV7_M) /* restore BASEPRI for the incoming thread */ msr BASEPRI, r0 #ifdef CONFIG_FP_SHARING add r0, r2, #_thread_offset_to_preempt_float vldmia r0, {s16-s31} #endif #ifdef CONFIG_MPU_STACK_GUARD /* r2 contains k_thread */ add r0, r2, #0 push {r2, lr} blx configure_mpu_stack_guard pop {r2, lr} #endif /* CONFIG_MPU_STACK_GUARD */ #ifdef CONFIG_USERSPACE /* r2 contains k_thread */ add r0, r2, #0 push {r2, lr} blx configure_mpu_mem_domain pop {r2, lr} #endif /* CONFIG_USERSPACE */ /* load callee-saved + psp from thread */ add r0, r2, #_thread_offset_to_callee_saved ldmia r0, {v1-v8, ip} #else #error Unknown ARM architecture #endif /* CONFIG_ARMV6_M */ msr PSP, ip #ifdef CONFIG_EXECUTION_BENCHMARKING stm sp!,{r0-r3} /* Save regs r0 to r4 on stack */ push {lr} bl read_timer_end_of_swap #if defined(CONFIG_ARMV6_M) pop {r3} mov lr,r3 #else pop {lr} #endif /* CONFIG_ARMV6_M */ ldm sp!,{r0-r3} /* Load back regs ro to r4 */ #endif /* CONFIG_EXECUTION_BENCHMARKING */ /* exc return */ bx lr #if defined(CONFIG_ARMV6_M) SECTION_FUNC(TEXT, __svc) /* Use EXC_RETURN state to find out if stack frame is on the * MSP or PSP */ ldr r0, =0x4 mov r1, lr tst r1, r0 beq _stack_frame_msp mrs r0, PSP bne _stack_frame_endif _stack_frame_msp: mrs r0, MSP _stack_frame_endif: /* Figure out what SVC call number was invoked */ ldr r1, [r0, #24] /* grab address of PC from stack frame */ /* SVC is a two-byte instruction, point to it and read encoding */ subs r1, r1, #2 ldrb r1, [r1, #0] /* * grab service call number: * 1: irq_offload (if configured) * 2: kernel panic or oops (software generated fatal exception) * Planned implementation of system calls for memory protection will * expand this case. */ cmp r1, #2 beq _oops #if CONFIG_IRQ_OFFLOAD push {lr} blx _irq_do_offload /* call C routine which executes the offload */ pop {r3} mov lr, r3 #endif /* exception return is done in _IntExit() */ b _IntExit _oops: push {lr} blx _do_kernel_oops pop {pc} #elif defined(CONFIG_ARMV7_M) /** * * @brief Service call handler * * The service call (svc) is only used in __swap() to enter handler mode so we * can go through the PendSV exception to perform a context switch. * * @return N/A */ SECTION_FUNC(TEXT, __svc) tst lr, #0x4 /* did we come from thread mode ? */ ite eq /* if zero (equal), came from handler mode */ mrseq r0, MSP /* handler mode, stack frame is on MSP */ mrsne r0, PSP /* thread mode, stack frame is on PSP */ ldr r1, [r0, #24] /* grab address of PC from stack frame */ /* SVC is a two-byte instruction, point to it and read encoding */ ldrh r1, [r1, #-2] /* * grab service call number: * 0: context switch * 1: irq_offload (if configured) * 2: kernel panic or oops (software generated fatal exception) * Planned implementation of system calls for memory protection will * expand this case. */ ands r1, #0xff beq _context_switch cmp r1, #2 beq _oops #if CONFIG_IRQ_OFFLOAD push {lr} blx _irq_do_offload /* call C routine which executes the offload */ pop {lr} /* exception return is done in _IntExit() */ b _IntExit #endif _context_switch: /* * Unlock interrupts: * - in a SVC call, so protected against context switches * - allow PendSV, since it's running at prio 0xff */ eors.n r0, r0 msr BASEPRI, r0 /* set PENDSV bit, pending the PendSV exception */ ldr r1, =_SCS_ICSR ldr r2, =_SCS_ICSR_PENDSV str r2, [r1, #0] /* handler mode exit, to PendSV */ bx lr _oops: push {lr} blx _do_kernel_oops pop {pc} #else #error Unknown ARM architecture #endif /* CONFIG_ARMV6_M */ /** * * @brief Initiate a cooperative context switch * * The __swap() routine is invoked by various kernel services to effect * a cooperative context context switch. Prior to invoking __swap(), the caller * disables interrupts via irq_lock() and the return 'key' is passed as a * parameter to __swap(). The 'key' actually represents the BASEPRI register * prior to disabling interrupts via the BASEPRI mechanism. * * __swap() itself does not do much. * * It simply stores the intlock key (the BASEPRI value) parameter into * current->basepri, and then triggers a service call exception (svc) to setup * the PendSV exception, which does the heavy lifting of context switching. * This is the only place we have to save BASEPRI since the other paths to * __pendsv all come from handling an interrupt, which means we know the * interrupts were not locked: in that case the BASEPRI value is 0. * * Given that __swap() is called to effect a cooperative context switch, * only the caller-saved integer registers need to be saved in the thread of the * outgoing thread. This is all performed by the hardware, which stores it in * its exception stack frame, created when handling the svc exception. * * On Cortex-M0/M0+ the intlock key is represented by the PRIMASK register, * as BASEPRI is not available. * * @return may contain a return value setup by a call to * _set_thread_return_value() * * C function prototype: * * unsigned int __swap (unsigned int basepri); * */ SECTION_FUNC(TEXT, __swap) #ifdef CONFIG_EXECUTION_BENCHMARKING push {lr} bl read_timer_start_of_swap #if defined(CONFIG_ARMV6_M) pop {r3} mov lr,r3 #else pop {lr} #endif /* CONFIG_ARMV6_M */ #endif /* CONFIG_EXECUTION_BENCHMARKING */ ldr r1, =_kernel ldr r2, [r1, #_kernel_offset_to_current] str r0, [r2, #_thread_offset_to_basepri] /* * Set __swap()'s default return code to -EAGAIN. This eliminates the need * for the timeout code to set it itself. */ ldr r1, =_k_neg_eagain ldr r1, [r1] str r1, [r2, #_thread_offset_to_swap_return_value] #if defined(CONFIG_ARMV6_M) /* No priority-based interrupt masking on M0/M0+, * pending PendSV is used instead of svc */ ldr r1, =_SCS_ICSR ldr r3, =_SCS_ICSR_PENDSV str r3, [r1, #0] /* Unlock interrupts to allow PendSV, since it's running at prio 0xff * * PendSV handler will be called if there are no other interrupts * of a higher priority pending. */ cpsie i #elif defined(CONFIG_ARMV7_M) svc #0 #else #error Unknown ARM architecture #endif /* CONFIG_ARMV6_M */ /* coming back from exception, r2 still holds the pointer to _current */ ldr r0, [r2, #_thread_offset_to_swap_return_value] bx lr