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/* Copyright 2014 The Chromium OS Authors. All rights reserved.
* Use of this source code is governed by a BSD-style license that can be
* found in the LICENSE file.
*
* Context swtching
*/
#include "config.h"
#define CPU_SCB_ICSR 0xe000ed04
.text
.syntax unified
.code 16
/**
* Task context switching
*
* Change the task scheduled after returning from the exception.
*
* Save the registers of the current task below the exception context on
* its task, then restore the live registers of the next task and set the
* process stack pointer to the new stack.
*
* r0: pointer to the task to switch from
* r1: pointer to the task to switch to
*
* must be called from interrupt context
*
* the structure of the saved context on the stack is :
* r8, r9, r10, r11, r4, r5, r6, r7, r0, r1, r2, r3, r12, lr, pc, psr
* additional registers <|> exception frame
*/
.global __switchto
.thumb_func
__switchto:
mrs r2, psp @ get the task stack where the context has been saved
mov r3, sp
mov sp, r2
push {r4-r7} @ save additional r4-r7 in the task stack
mov r4, r8
mov r5, r9
mov r6, r10
mov r7, r11
push {r4-r7} @ save additional r8-r11 in the task stack
mov r2, sp @ prepare to save former task stack pointer
mov sp, r3 @ restore system stack pointer
str r2, [r0] @ save the task stack pointer in its context
ldr r2, [r1] @ get the new scheduled task stack pointer
ldmia r2!, {r4-r7} @ restore r8-r11 for the next task context
mov r8, r4
mov r9, r5
mov r10, r6
mov r11, r7
ldmia r2!, {r4-r7} @ restore r4-r7 for the next task context
msr psp, r2 @ set the process stack pointer to exception context
bx lr @ return from exception
/**
* Start the task scheduling. r0 is a pointer to task_stack_ready, which is
* set to 1 after the task stack is set up.
*/
.global __task_start
.thumb_func
__task_start:
ldr r2,=scratchpad @ area used as thread stack for the first switch
movs r3, #2 @ use : priv. mode / thread stack / no floating point
adds r2, #17*4 @ put the pointer at the top of the stack
movs r1, #0 @ __Schedule parameter : re-schedule nothing
msr psp, r2 @ setup a thread stack up to the first context switch
movs r2, #1 @ r2 = TASK_SCHEDULER_INIT
isb @ ensure the write is done
msr control, r3
movs r3, r0
movs r0, #0 @ __Schedule parameter : de-schedule nothing
isb @ ensure the write is done
str r2, [r3] @ Task scheduling is now active
bl __schedule @ execute the task with the highest priority
/* we should never return here */
movs r0, #1 @ set to EC_ERROR_UNKNOWN
bx lr
/**
* SVC exception handler
*/
.global svc_handler
.thumb_func
svc_handler:
push {r3, lr} @ save link register and keep stack aligned
bl __svc_handler @ call svc handler helper
ldr r3,=current_task @ load the current task's address
ldr r1, [r3] @ load the current task
cmp r0, r1 @ compare with previous task returned by helper
beq svc_handler_return @ return if they are the same
bl __switchto @ context switch to the next task
svc_handler_return:
pop {r3, pc} @ return from exception or return to caller
/**
* PendSVC exception handler
*/
.global pendsv_handler
.thumb_func
pendsv_handler:
push {r3, lr} @ save link register and keep stack aligned
ldr r0, =CPU_SCB_ICSR @ load CPU_SCB_ICSR's address
movs r1, #1 @ prepare left shift (1 << 27)
lsls r1, #27 @ shift the bit
str r1, [r0] @ clear pending flag
cpsid i @ ensure we have priority 0 during re-scheduling
movs r1, #0 @ desched nothing
movs r0, #0 @ resched nothing
bl svc_handler @ re-schedule the highest priority task
cpsie i @ leave priority 0
pop {r3, pc} @ return from exception
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