UCOS_II 移植到S3C2440 ADS 1.2
2012-07-22 03:48
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三、移植文件的修改
对OS_CPU.H的修改:
/*
一、新建工程
1.新建一个ARM Executable Image
2.创建uCOS_II文件夹,创建两个子文件夹,分别为ARM、SOURCE
ARM存放和平台相关的文件("OS_CPU.H" "Os_cpu_a.s" "Os_cpu_c.c" ),这是移植需要修改的三个文件,OS_CPU.H 定义数据类型,中断模式
SOURCE下存入和平台无关的文件("ucos_ii.h" "os_cfg.h" "os_core.c" "os_flag.c" "os_mbox.c" "os_mem.c" "os_mutex.c" "os_q.c" "os_sem.c" "os_task.c" "os_time.c" "os_tmr.c" )
3.创建一个S3C2440文件夹,创建两个子文件夹,分别为INC、SRC
INC存放S3C2440相关头文件("2440addr.h" "2440lib.h" "2440slib.h" "config.h" "Def1.h" "lcd.h" "mmu.h" "Option.h" "Target.h" "Timer.h" )
SRC存放S3C2440相关源文件("Timer.c" "2440init.s" "2440lib.c" "2440slib.s" "Font_Libs.c" "iphone.c" "lcd.c" "mmu.c" "nand.c" "Target.c" )
4.创建一个app文件夹(app_cfg.h、main.c、Printf.c、Printf.h)
二、工程设置Edit->DebugRel Settings下
1.Target->Target Settings,Post-linker:ARM fromELF
2.Target->Access Paths选中Always Search User Paths(ucos_ii部分文件采用#include <>包涵,不修改这里找不到文件)
3.Language Settings下ARM Assembler、ARM C Compliler、ARM C++ Complier处理器设置成ARM920T
4.Language Settings下ARM C Compliler下Errors下去掉Implicit pointer c,ARM C Compliler下Warnings下去掉Unused declaration(-O1 -g+ -cpu ARM920T -Wx -Ec)
5.ARM Linker下,Output下RO Base设置成0x30000000,Options下Image entry point设置成0x30000000,Layout下Place at beginning of image下的Object/Symbol设置成2440init.o,Section设置成Init,Listings下选勾Image map、List file设置list.txt,勾上Sizes、Totals、Unused、Veneers
6.ARM fromELF下Output file name下填写输出的二进制
*********************************************************************************************************
* ARM
*
* Method #1: NOT IMPLEMENTED
* Disable/Enable interrupts using simple instructions. After critical section, interrupts
* will be enabled even if they were disabled before entering the critical section.
*
* Method #2: NOT IMPLEMENTED
* Disable/Enable interrupts by preserving the state of interrupts. In other words, if
* interrupts were disabled before entering the critical section, they will be disabled when
* leaving the critical section.
* NOT IMPLEMENTED
*
* Method #3: Disable/Enable interrupts by preserving the state of interrupts. Generally speaking you
* would store the state of the interrupt disable flag in the local variable 'cpu_sr' and then
* disable interrupts. 'cpu_sr' is allocated in all of uC/OS-II's functions that need to
* disable interrupts. You would restore the interrupt disable state by copying back 'cpu_sr'
* into the CPU's status register. This is the prefered method to disable interrupts.
*********************************************************************************************************
*/
#define OS_CRITICAL_METHOD 3
#if OS_CRITICAL_METHOD == 3
#define OS_ENTER_CRITICAL() (cpu_sr = OSCPUSaveSR()) /* Disable interrupts */
#define OS_EXIT_CRITICAL() (OSCPURestoreSR(cpu_sr)) /* Restore interrupts */
#endif
/*
*********************************************************************************************************
* ARM Miscellaneous
*********************************************************************************************************
*/
#define OS_STK_GROWTH 1 /* Stack grows from HIGH to LOW memory on ARM */
#define OS_TASK_SW() OSCtxSw()
/*
*********************************************************************************************************
* ARM
*
* Method #1: NOT IMPLEMENTED
* Disable/Enable interrupts using simple instructions. After critical section, interrupts
* will be enabled even if they were disabled before entering the critical section.
*
* Method #2: NOT IMPLEMENTED
* Disable/Enable interrupts by preserving the state of interrupts. In other words, if
* interrupts were disabled before entering the critical section, they will be disabled when
* leaving the critical section.
* NOT IMPLEMENTED
*
* Method #3: Disable/Enable interrupts by preserving the state of interrupts. Generally speaking you
* would store the state of the interrupt disable flag in the local variable 'cpu_sr' and then
* disable interrupts. 'cpu_sr' is allocated in all of uC/OS-II's functions that need to
* disable interrupts. You would restore the interrupt disable state by copying back 'cpu_sr'
* into the CPU's status register. This is the prefered method to disable interrupts.
*********************************************************************************************************
*/
#define OS_CRITICAL_METHOD 3
#if OS_CRITICAL_METHOD == 3
#define OS_ENTER_CRITICAL() (cpu_sr = OSCPUSaveSR()) /* Disable interrupts */
#define OS_EXIT_CRITICAL() (OSCPURestoreSR(cpu_sr)) /* Restore interrupts */
#endif
/*
*********************************************************************************************************
* ARM Miscellaneous
*********************************************************************************************************
*/
#define OS_STK_GROWTH 1 /* Stack grows from HIGH to LOW memory on ARM */
#define OS_TASK_SW() OSCtxSw()
对Os_cpu_c.c的修改:
/*
*********************************************************************************************************
* uC/OS-II
* The Real-Time Kernel
*
* (c) Copyright 1992-2003, Micrium, Inc., Weston, FL
* All Rights Reserved
*
* ARM9 Port
*
* File : OS_CPU_C.C
*********************************************************************************************************
*/
//#define OS_CPU_GLOBALS
#include "ucos_ii.h"
/*
*********************************************************************************************************
* INITIALIZE A TASK'S STACK
*
* Description: This function is called by either OSTaskCreate() or OSTaskCreateExt() to initialize the
* stack frame of the task being created. This function is highly processor specific.
*
* Arguments : task is a pointer to the task code
*
* p_arg is a pointer to a user supplied data area that will be passed to the task
* when the task first executes.
*
* ptos is a pointer to the top of stack. It is assumed that 'ptos' points to
* a 'free' entry on the task stack. If OS_STK_GROWTH is set to 1 then
* 'ptos' will contain the HIGHEST valid address of the stack. Similarly, if
* OS_STK_GROWTH is set to 0, the 'ptos' will contains the LOWEST valid address
* of the stack.
*
* opt specifies options that can be used to alter the behavior of OSTaskStkInit().
* (see uCOS_II.H for OS_TASK_OPT_???).
*
* Returns : Always returns the location of the new top-of-stack' once the processor registers have
* been placed on the stack in the proper order.
*
* Note(s) : 1) Interrupts are enabled when your task starts executing.
* 2) All tasks run in SVC mode.
*********************************************************************************************************
*/
OS_STK *OSTaskStkInit (void (*task)(void *pd), void *p_arg, OS_STK *ptos, INT16U opt)
{
OS_STK *stk;
optopt = opt; /* 'opt' is not used, prevent warning */
stk = ptos; /* Load stack pointer */
*(stk) = (OS_STK)task; /* Entry Point */
*(--stk) = (INT32U)0; /* LR */
*(--stk) = (INT32U)0; /* R12 */
*(--stk) = (INT32U)0; /* R11 */
*(--stk) = (INT32U)0; /* R10 */
*(--stk) = (INT32U)0; /* R9 */
*(--stk) = (INT32U)0; /* R8 */
*(--stk) = (INT32U)0; /* R7 */
*(--stk) = (INT32U)0; /* R6 */
*(--stk) = (INT32U)0; /* R5 */
*(--stk) = (INT32U)0; /* R4 */
*(--stk) = (INT32U)0; /* R3 */
*(--stk) = (INT32U)0; /* R2 */
*(--stk) = (INT32U)0; /* R1 */
*(--stk) = (INT32U)p_arg; /* R0 : argument */
*(--stk) = (INT32U)0x00000013L; /* CPSR (SVC mode, Enable both IRQ and FIQ interrupts) */
return (stk);
}
#if OS_CPU_HOOKS_EN
/*
*********************************************************************************************************
* OS INITIALIZATION HOOK
* (BEGINNING)
*
* Description: This function is called by OSInit() at the beginning of OSInit().
*
* Arguments : none
*
* Note(s) : 1) Interrupts should be disabled during this call.
*********************************************************************************************************
*/
#if OS_VERSION > 203
void OSInitHookBegin (void)
{
}
#endif
/*
*********************************************************************************************************
* OS INITIALIZATION HOOK
* (END)
*
* Description: This function is called by OSInit() at the end of OSInit().
*
* Arguments : none
*
* Note(s) : 1) Interrupts should be disabled during this call.
*********************************************************************************************************
*/
#if OS_VERSION > 203
void OSInitHookEnd (void)
{
}
#endif
/*
*********************************************************************************************************
* TASK CREATION HOOK
*
* Description: This function is called when a task is created.
*
* Arguments : ptcb is a pointer to the task control block of the task being created.
*
* Note(s) : 1) Interrupts are disabled during this call.
*********************************************************************************************************
*/
void OSTaskCreateHook (OS_TCB *ptcb)
{
ptcbptcb = ptcb; /* Prevent compiler warning */
}
/*
*********************************************************************************************************
* TASK DELETION HOOK
*
* Description: This function is called when a task is deleted.
*
* Arguments : ptcb is a pointer to the task control block of the task being deleted.
*
* Note(s) : 1) Interrupts are disabled during this call.
*********************************************************************************************************
*/
void OSTaskDelHook (OS_TCB *ptcb)
{
ptcbptcb = ptcb; /* Prevent compiler warning */
}
/*
*********************************************************************************************************
* TASK SWITCH HOOK
*
* Description: This function is called when a task switch is performed. This allows you to perform other
* operations during a context switch.
*
* Arguments : none
*
* Note(s) : 1) Interrupts are disabled during this call.
* 2) It is assumed that the global pointer 'OSTCBHighRdy' points to the TCB of the task that
* will be 'switched in' (i.e. the highest priority task) and, 'OSTCBCur' points to the
* task being switched out (i.e. the preempted task).
*********************************************************************************************************
*/
void OSTaskSwHook (void)
{
}
/*
*********************************************************************************************************
* STATISTIC TASK HOOK
*
* Description: This function is called every second by uC/OS-II's statistics task. This allows your
* application to add functionality to the statistics task.
*
* Arguments : none
*********************************************************************************************************
*/
void OSTaskStatHook (void)
{
}
/*
*********************************************************************************************************
* OSTCBInit() HOOK
*
* Description: This function is called by OSTCBInit() after setting up most of the TCB.
*
* Arguments : ptcb is a pointer to the TCB of the task being created.
*
* Note(s) : 1) Interrupts may or may not be ENABLED during this call.
*********************************************************************************************************
*/
#if OS_VERSION > 203
void OSTCBInitHook (OS_TCB *ptcb)
{
ptcbptcb = ptcb; /* Prevent Compiler warning */
}
#endif
/*
*********************************************************************************************************
* TICK HOOK
*
* Description: This function is called every tick.
*
* Arguments : none
*
* Note(s) : 1) Interrupts may or may not be ENABLED during this call.
*********************************************************************************************************
*/
void OSTimeTickHook (void)
{
}
/*
*********************************************************************************************************
* IDLE TASK HOOK
*
* Description: This function is called by the idle task. This hook has been added to allow you to do
* such things as STOP the CPU to conserve power.
*
* Arguments : none
*
* Note(s) : 1) Interrupts are enabled during this call.
*********************************************************************************************************
*/
#if OS_VERSION >= 251
void OSTaskIdleHook (void)
{
}
#endif
#endif
/*
*********************************************************************************************************
* uC/OS-II
* The Real-Time Kernel
*
* (c) Copyright 1992-2003, Micrium, Inc., Weston, FL
* All Rights Reserved
*
* ARM9 Port
*
* File : OS_CPU_C.C
*********************************************************************************************************
*/
//#define OS_CPU_GLOBALS
#include "ucos_ii.h"
/*
*********************************************************************************************************
* INITIALIZE A TASK'S STACK
*
* Description: This function is called by either OSTaskCreate() or OSTaskCreateExt() to initialize the
* stack frame of the task being created. This function is highly processor specific.
*
* Arguments : task is a pointer to the task code
*
* p_arg is a pointer to a user supplied data area that will be passed to the task
* when the task first executes.
*
* ptos is a pointer to the top of stack. It is assumed that 'ptos' points to
* a 'free' entry on the task stack. If OS_STK_GROWTH is set to 1 then
* 'ptos' will contain the HIGHEST valid address of the stack. Similarly, if
* OS_STK_GROWTH is set to 0, the 'ptos' will contains the LOWEST valid address
* of the stack.
*
* opt specifies options that can be used to alter the behavior of OSTaskStkInit().
* (see uCOS_II.H for OS_TASK_OPT_???).
*
* Returns : Always returns the location of the new top-of-stack' once the processor registers have
* been placed on the stack in the proper order.
*
* Note(s) : 1) Interrupts are enabled when your task starts executing.
* 2) All tasks run in SVC mode.
*********************************************************************************************************
*/
OS_STK *OSTaskStkInit (void (*task)(void *pd), void *p_arg, OS_STK *ptos, INT16U opt)
{
OS_STK *stk;
opt = opt; /* 'opt' is not used, prevent warning */
stk = ptos; /* Load stack pointer */
*(stk) = (OS_STK)task; /* Entry Point */
*(--stk) = (INT32U)0; /* LR */
*(--stk) = (INT32U)0; /* R12 */
*(--stk) = (INT32U)0; /* R11 */
*(--stk) = (INT32U)0; /* R10 */
*(--stk) = (INT32U)0; /* R9 */
*(--stk) = (INT32U)0; /* R8 */
*(--stk) = (INT32U)0; /* R7 */
*(--stk) = (INT32U)0; /* R6 */
*(--stk) = (INT32U)0; /* R5 */
*(--stk) = (INT32U)0; /* R4 */
*(--stk) = (INT32U)0; /* R3 */
*(--stk) = (INT32U)0; /* R2 */
*(--stk) = (INT32U)0; /* R1 */
*(--stk) = (INT32U)p_arg; /* R0 : argument */
*(--stk) = (INT32U)0x00000013L; /* CPSR (SVC mode, Enable both IRQ and FIQ interrupts) */
return (stk);
}
#if OS_CPU_HOOKS_EN
/*
*********************************************************************************************************
* OS INITIALIZATION HOOK
* (BEGINNING)
*
* Description: This function is called by OSInit() at the beginning of OSInit().
*
* Arguments : none
*
* Note(s) : 1) Interrupts should be disabled during this call.
*********************************************************************************************************
*/
#if OS_VERSION > 203
void OSInitHookBegin (void)
{
}
#endif
/*
*********************************************************************************************************
* OS INITIALIZATION HOOK
* (END)
*
* Description: This function is called by OSInit() at the end of OSInit().
*
* Arguments : none
*
* Note(s) : 1) Interrupts should be disabled during this call.
*********************************************************************************************************
*/
#if OS_VERSION > 203
void OSInitHookEnd (void)
{
}
#endif
/*
*********************************************************************************************************
* TASK CREATION HOOK
*
* Description: This function is called when a task is created.
*
* Arguments : ptcb is a pointer to the task control block of the task being created.
*
* Note(s) : 1) Interrupts are disabled during this call.
*********************************************************************************************************
*/
void OSTaskCreateHook (OS_TCB *ptcb)
{
ptcb = ptcb; /* Prevent compiler warning */
}
/*
*********************************************************************************************************
* TASK DELETION HOOK
*
* Description: This function is called when a task is deleted.
*
* Arguments : ptcb is a pointer to the task control block of the task being deleted.
*
* Note(s) : 1) Interrupts are disabled during this call.
*********************************************************************************************************
*/
void OSTaskDelHook (OS_TCB *ptcb)
{
ptcb = ptcb; /* Prevent compiler warning */
}
/*
*********************************************************************************************************
* TASK SWITCH HOOK
*
* Description: This function is called when a task switch is performed. This allows you to perform other
* operations during a context switch.
*
* Arguments : none
*
* Note(s) : 1) Interrupts are disabled during this call.
* 2) It is assumed that the global pointer 'OSTCBHighRdy' points to the TCB of the task that
* will be 'switched in' (i.e. the highest priority task) and, 'OSTCBCur' points to the
* task being switched out (i.e. the preempted task).
*********************************************************************************************************
*/
void OSTaskSwHook (void)
{
}
/*
*********************************************************************************************************
* STATISTIC TASK HOOK
*
* Description: This function is called every second by uC/OS-II's statistics task. This allows your
* application to add functionality to the statistics task.
*
* Arguments : none
*********************************************************************************************************
*/
void OSTaskStatHook (void)
{
}
/*
*********************************************************************************************************
* OSTCBInit() HOOK
*
* Description: This function is called by OSTCBInit() after setting up most of the TCB.
*
* Arguments : ptcb is a pointer to the TCB of the task being created.
*
* Note(s) : 1) Interrupts may or may not be ENABLED during this call.
*********************************************************************************************************
*/
#if OS_VERSION > 203
void OSTCBInitHook (OS_TCB *ptcb)
{
ptcb = ptcb; /* Prevent Compiler warning */
}
#endif
/*
*********************************************************************************************************
* TICK HOOK
*
* Description: This function is called every tick.
*
* Arguments : none
*
* Note(s) : 1) Interrupts may or may not be ENABLED during this call.
*********************************************************************************************************
*/
void OSTimeTickHook (void)
{
}
/*
*********************************************************************************************************
* IDLE TASK HOOK
*
* Description: This function is called by the idle task. This hook has been added to allow you to do
* such things as STOP the CPU to conserve power.
*
* Arguments : none
*
* Note(s) : 1) Interrupts are enabled during this call.
*********************************************************************************************************
*/
#if OS_VERSION >= 251
void OSTaskIdleHook (void)
{
}
#endif
#endif
对Os_cpu_a.s的修改:
;*********************************************************************************************************
; uC/OS-II
; The Real-Time Kernel
;
; (c) Copyright 1992-2003, Jean J. Labrosse, Weston, FL
; All Rights Reserved
;
; ARM920T Port
; ADS v1.2 Compiler
; Samsung S3C2440A
;
; File : os_cpu_a.s refrence to ucos application note for arm AN-1014
; Des : S3C2440 uC/OS-II Port
; by : tangxiaofeng xidian 503
; History :
; OSCtxSw(), OSIntCtxSw() OSStartHighRdy() OS_CPU_IRQ_ISR() OSTickISR()
;******************************************************************************************************** */
SRCPND EQU 0x4a000000 ; Source pending
INTPND EQU 0x4a000010 ; Interrupt request status
rEINTPEND EQU 0x560000a8
INTOFFSET EQU 0x4a000014
USERMODE EQU 0x10
FIQMODE EQU 0x11
IRQMODE EQU 0x12
SVCMODE EQU 0x13
ABORTMODE EQU 0x17
UNDEFMODE EQU 0x1b
MODEMASK EQU 0x1f
NOINT EQU 0xc0
;*********************************************************************************************************
; EXPORT and EXTERNAL REFERENCES
;*********************************************************************************************************/
IMPORT OSRunning
IMPORT OSTCBCur
IMPORT OSTCBHighRdy
IMPORT OSPrioCur
IMPORT OSPrioHighRdy
IMPORT OSIntNesting
IMPORT OSIntEnter
IMPORT OSIntExit
IMPORT OSTaskSwHook
IMPORT OSTimeTick
IMPORT HandleEINT0
EXPORT OSStartHighRdy
EXPORT OSCtxSw
EXPORT OSTickISR
EXPORT OSIntCtxSw
EXPORT OSCPUSaveSR
EXPORT OSCPURestoreSR
EXPORT OS_CPU_IRQ_ISR
AREA UCOS_ARM, CODE, READONLY
;*********************************************************************************************************
; START MULTITASKING
; void OSStartHighRdy(void)
;
; The stack frame is assumed to look as follows:
;
; Entry Point(Task Name) (High memory)
; LR(R14)
; R12
; R11
; R10
; R9
; R8
; R7
; R6
; R5
; R4
; R3
; R2
; R1
; R0 : argument
; OSTCBHighRdy->OSTCBStkPtr --> CPSR (Low memory)
;
; Note : OSStartHighRdy() MUST:
; a) Call OSTaskSwHook() then,
; b) Set OSRunning to TRUE,
; c) Switch to the highest priority task.
;********************************************************************************************************** */
OSStartHighRdy
;----------------------------------------------------------------------------------
; OSRunning = TRUE;
;----------------------------------------------------------------------------------
MSR CPSR_cxsf,#SVCMODE|NOINT ;Switch to SVC mode with IRQ&FIQ disable
BL OSTaskSwHook ;Call user define Task switch hook
LDR R0, =OSRunning ; OSRunning =TRUE
MOV R1, #1
STRB R1, [R0]
;----------------------------------------------------------------------------------
; SP = OSTCBHighRdy->OSTCBStkPtr;
;----------------------------------------------------------------------------------
LDR R0, =OSTCBHighRdy
LDR R0, [R0]
LDR SP, [R0]
;----------------------------------------------------------------------------------
; Prepare to return to proper mode
;----------------------------------------------------------------------------------
LDMFD SP!, {R0}
MSR SPSR_cxsf, R0
LDMFD SP!, {R0-R12, LR, PC}^
;**********************************************************************************************************
; PERFORM A CONTEXT SWITCH (From task level)
; void OSCtxSw(void)
;
; Note(s): 1) Upon entry:
; OSTCBCur points to the OS_TCB of the task to suspend
; OSTCBHighRdy points to the OS_TCB of the task to resume
;
; 2) The stack frame of the task to suspend looks as follows:
;
; PC (High memory)
; LR(R14)
; R12
; R11
; R10
; R9
; R8
; R7
; R6
; R5
; R4
; R3
; R2
; R1
; R0
; OSTCBCur->OSTCBStkPtr ----> CPSR (Low memory)
;
;
; 3) The stack frame of the task to resume looks as follows:
;
; PC (High memory)
; LR(R14)
; R12
; R11
; R10
; R9
; R8
; R7
; R6
; R5
; R4
; R3
; R2
; R1
; R0
; OSTCBHighRdy->OSTCBStkPtr ----> CPSR (Low memory)
;*********************************************************************************************************/
OSCtxSw
STMFD SP!, {LR} ;PC
STMFD SP!, {R0-R12, LR} ;R0-R12 LR
MRS R0, CPSR ;Push CPSR
STMFD SP!, {R0}
;----------------------------------------------------------------------------------
; OSTCBCur->OSTCBStkPtr = SP
;----------------------------------------------------------------------------------
LDR R0, =OSTCBCur
LDR R0, [R0]
STR SP, [R0]
;----------------------------------------------------------------------------------
; OSTaskSwHook();
;---------------------------------------------------------------------------------
BL OSTaskSwHook
;----------------------------------------------------------------------------------
; OSTCBCur = OSTCBHighRdy;
;----------------------------------------------------------------------------------
LDR R0, =OSTCBHighRdy
LDR R1, =OSTCBCur
LDR R0, [R0]
STR R0, [R1]
;----------------------------------------------------------------------------------
; OSPrioCur = OSPrioHighRdy;
;----------------------------------------------------------------------------------
LDR R0, =OSPrioHighRdy
LDR R1, =OSPrioCur
LDRB R0, [R0]
STRB R0, [R1]
;----------------------------------------------------------------------------------
; OSTCBHighRdy->OSTCBStkPtr;
;----------------------------------------------------------------------------------
LDR R0, =OSTCBHighRdy
LDR R0, [R0]
LDR SP, [R0]
;----------------------------------------------------------------------------------
;Restore New task context
;----------------------------------------------------------------------------------
LDMFD SP!, {R0} ;POP CPSR
MSR SPSR_cxsf, R0
LDMFD SP!, {R0-R12, LR, PC}^
;*********************************************************************************************************
; TICK HANDLER
;
; Description:
; This handles all the Timer0(INT_TIMER0) interrupt which is used to generate the uC/OS-II tick.
;*********************************************************************************************************/
OSTickISR
MOV R5,LR
MOV R1, #1
MOV R1, R1, LSL #10 ; Timer0 Source Pending Reg.
LDR R0, =SRCPND
LDR R2, [R0]
ORR R1, R1,R2
STR R1, [R0]
LDR R0, =INTPND
LDR R1, [R0]
STR R1, [R0]
;----------------------------------------------------------------------------------
; OSTimeTick();
;----------------------------------------------------------------------------------
BL OSTimeTick
MOV PC, R5 ; Return
;*********************************************************************************************************
; PERFORM A CONTEXT SWITCH (From an ISR)
; void OSIntCtxSw(void)
;
; Description: 1) This code performs a context switch if a higher priority task has been made ready-to-run
; during an ISR.
;
; 2) The stack frame of the task to suspend looks as follows:
;
; PC (High memory)
; LR(R14)
; R12
; R11
; R10
; R9
; R8
; R7
; R6
; R5
; R4
; R3
; R2
; R1
; R0
;
; OSTCBCur->OSTCBStkPtr ----> CPSR (Low memory)
;
;
; 3) The stack frame of the task to resume looks as follows:
;
; PC (High memory)
; LR(R14)
; R12
; R11
; R10
; R9
; R8
; R7
; R6
; R5
; R4
; R3
; R2
; R1
; R0
; OSTCBHighRdy->OSTCBStkPtr ----> CPSR (Low memory)
;*********************************************************************************************************/
OSIntCtxSw
;----------------------------------------------------------------------------------
; Call OSTaskSwHook();
;----------------------------------------------------------------------------------
BL OSTaskSwHook
;----------------------------------------------------------------------------------
; OSTCBCur = OSTCBHighRdy;
;----------------------------------------------------------------------------------
LDR R0, =OSTCBHighRdy
LDR R1, =OSTCBCur
LDR R0, [R0]
STR R0, [R1]
;----------------------------------------------------------------------------------
; OSPrioCur = OSPrioHighRdy;
;----------------------------------------------------------------------------------
LDR R0, =OSPrioHighRdy
LDR R1, =OSPrioCur
LDRB R0, [R0]
STRB R0, [R1]
;----------------------------------------------------------------------------------
; SP = OSTCBHighRdy->OSTCBStkPtr;
;----------------------------------------------------------------------------------
LDR R0, =OSTCBHighRdy
LDR R0, [R0]
LDR SP, [R0]
;----------------------------------------------------------------------------------
; Restore New Task context
;----------------------------------------------------------------------------------
LDMFD SP!, {R0} ;POP CPSR
MSR SPSR_cxsf, R0
LDMFD SP!, {R0-R12, LR, PC}^
OS_CPU_IRQ_ISR
STMFD SP!, {R1-R3} ; We will use R1-R3 as temporary registers
;----------------------------------------------------------------------------
; R1--SP
; R2--PC
; R3--SPSR
;------------------------------------------------------------------------
MOV R1, SP
ADD SP, SP, #12 ;Adjust IRQ stack pointer
SUB R2, LR, #4 ;Adjust PC for return address to task
MRS R3, SPSR ; Copy SPSR (Task CPSR)
MSR CPSR_cxsf, #SVCMODE|NOINT ;Change to SVC mode
; SAVE TASK''S CONTEXT ONTO OLD TASK''S STACK
STMFD SP!, {R2} ; Push task''s PC
STMFD SP!, {R4-R12, LR} ; Push task''s LR,R12-R4
LDMFD R1!, {R4-R6} ; Load Task''s R1-R3 from IRQ stack
STMFD SP!, {R4-R6} ; Push Task''s R1-R3 to SVC stack
STMFD SP!, {R0} ; Push Task''s R0 to SVC stack
STMFD SP!, {R3} ; Push task''s CPSR
LDR R0,=OSIntNesting ;OSIntNesting++
LDRB R1,[R0]
ADD R1,R1,#1
STRB R1,[R0]
CMP R1,#1 ;if(OSIntNesting==1){
BNE %F1
LDR R4,=OSTCBCur ;OSTCBHighRdy->OSTCBStkPtr=SP;
LDR R5,[R4]
STR SP,[R5] ;}
1
MSR CPSR_c,#IRQMODE|NOINT ;Change to IRQ mode to use IRQ stack to handle interrupt
LDR R0, =INTOFFSET
LDR R0, [R0]
LDR R1, IRQIsrVect
MOV LR, PC ; Save LR befor jump to the C function we need return back
LDR PC, [R1, R0, LSL #2] ; Call OS_CPU_IRQ_ISR_handler();
MSR CPSR_c,#SVCMODE|NOINT ;Change to SVC mode
BL OSIntExit ;Call OSIntExit
LDMFD SP!,{R4} ;POP the task''s CPSR
MSR SPSR_cxsf,R4
LDMFD SP!,{R0-R12,LR,PC}^ ;POP new Task''s context
IRQIsrVect DCD HandleEINT0
;*********************************************************************************************************
; CRITICAL SECTION METHOD 3 FUNCTIONS
;
; Description: Disable/Enable interrupts by preserving the state of interrupts. Generally speaking you
; would store the state of the interrupt disable flag in the local variable 'cpu_sr' and then
; disable interrupts. 'cpu_sr' is allocated in all of uC/OS-II''s functions that need to
; disable interrupts. You would restore the interrupt disable state by copying back 'cpu_sr'
; into the CPU''s status register.
;
; Prototypes : OS_CPU_SR OSCPUSaveSR(void);
; void OSCPURestoreSR(OS_CPU_SR cpu_sr);
;
;
; Note(s) : 1) These functions are used in general like this:
;
; void Task (void *p_arg)
; {
; #if OS_CRITICAL_METHOD == 3 /* Allocate storage for CPU status register */
; OS_CPU_SR cpu_sr;
; #endif
;
; :
; :
; OS_ENTER_CRITICAL(); /* cpu_sr = OSCPUSaveSR(); */
; :
; :
; OS_EXIT_CRITICAL(); /* OSCPURestoreSR(cpu_sr); */
; :
; :
; }
;
; 2) OSCPUSaveSR() is implemented as recommended by Atmel''s application note:
;
; "Disabling Interrupts at Processor Level"
;*********************************************************************************************************
OSCPUSaveSR
MRS R0, CPSR ; Set IRQ and FIQ bits in CPSR to disable all interrupts
ORR R1, R0, #0xC0
MSR CPSR_c, R1
MRS R1, CPSR ; Confirm that CPSR contains the proper interrupt disable flags
AND R1, R1, #0xC0
CMP R1, #0xC0
BNE OSCPUSaveSR ; Not properly disabled (try again)
MOV PC, LR ; Disabled, return the original CPSR contents in R0
OSCPURestoreSR
MSR CPSR_c, R0
MOV PC, LR
END
;*********************************************************************************************************
; uC/OS-II
; The Real-Time Kernel
;
; (c) Copyright 1992-2003, Jean J. Labrosse, Weston, FL
; All Rights Reserved
;
; ARM920T Port
; ADS v1.2 Compiler
; Samsung S3C2440A
;
; File : os_cpu_a.s refrence to ucos application note for arm AN-1014
; Des : S3C2440 uC/OS-II Port
; by : tangxiaofeng xidian 503
; History :
; OSCtxSw(), OSIntCtxSw() OSStartHighRdy() OS_CPU_IRQ_ISR() OSTickISR()
;******************************************************************************************************** */
SRCPND EQU 0x4a000000 ; Source pending
INTPND EQU 0x4a000010 ; Interrupt request status
rEINTPEND EQU 0x560000a8
INTOFFSET EQU 0x4a000014
USERMODE EQU 0x10
FIQMODE EQU 0x11
IRQMODE EQU 0x12
SVCMODE EQU 0x13
ABORTMODE EQU 0x17
UNDEFMODE EQU 0x1b
MODEMASK EQU 0x1f
NOINT EQU 0xc0
;*********************************************************************************************************
; EXPORT and EXTERNAL REFERENCES
;*********************************************************************************************************/
IMPORT OSRunning
IMPORT OSTCBCur
IMPORT OSTCBHighRdy
IMPORT OSPrioCur
IMPORT OSPrioHighRdy
IMPORT OSIntNesting
IMPORT OSIntEnter
IMPORT OSIntExit
IMPORT OSTaskSwHook
IMPORT OSTimeTick
IMPORT HandleEINT0
EXPORT OSStartHighRdy
EXPORT OSCtxSw
EXPORT OSTickISR
EXPORT OSIntCtxSw
EXPORT OSCPUSaveSR
EXPORT OSCPURestoreSR
EXPORT OS_CPU_IRQ_ISR
AREA UCOS_ARM, CODE, READONLY
;*********************************************************************************************************
; START MULTITASKING
; void OSStartHighRdy(void)
;
; The stack frame is assumed to look as follows:
;
; Entry Point(Task Name) (High memory)
; LR(R14)
; R12
; R11
; R10
; R9
; R8
; R7
; R6
; R5
; R4
; R3
; R2
; R1
; R0 : argument
; OSTCBHighRdy->OSTCBStkPtr --> CPSR (Low memory)
;
; Note : OSStartHighRdy() MUST:
; a) Call OSTaskSwHook() then,
; b) Set OSRunning to TRUE,
; c) Switch to the highest priority task.
;********************************************************************************************************** */
OSStartHighRdy
;----------------------------------------------------------------------------------
; OSRunning = TRUE;
;----------------------------------------------------------------------------------
MSR CPSR_cxsf,#SVCMODE|NOINT ;Switch to SVC mode with IRQ&FIQ disable
BL OSTaskSwHook ;Call user define Task switch hook
LDR R0, =OSRunning ; OSRunning =TRUE
MOV R1, #1
STRB R1, [R0]
;----------------------------------------------------------------------------------
; SP = OSTCBHighRdy->OSTCBStkPtr;
;----------------------------------------------------------------------------------
LDR R0, =OSTCBHighRdy
LDR R0, [R0]
LDR SP, [R0]
;----------------------------------------------------------------------------------
; Prepare to return to proper mode
;----------------------------------------------------------------------------------
LDMFD SP!, {R0}
MSR SPSR_cxsf, R0
LDMFD SP!, {R0-R12, LR, PC}^
;**********************************************************************************************************
; PERFORM A CONTEXT SWITCH (From task level)
; void OSCtxSw(void)
;
; Note(s): 1) Upon entry:
; OSTCBCur points to the OS_TCB of the task to suspend
; OSTCBHighRdy points to the OS_TCB of the task to resume
;
; 2) The stack frame of the task to suspend looks as follows:
;
; PC (High memory)
; LR(R14)
; R12
; R11
; R10
; R9
; R8
; R7
; R6
; R5
; R4
; R3
; R2
; R1
; R0
; OSTCBCur->OSTCBStkPtr ----> CPSR (Low memory)
;
;
; 3) The stack frame of the task to resume looks as follows:
;
; PC (High memory)
; LR(R14)
; R12
; R11
; R10
; R9
; R8
; R7
; R6
; R5
; R4
; R3
; R2
; R1
; R0
; OSTCBHighRdy->OSTCBStkPtr ----> CPSR (Low memory)
;*********************************************************************************************************/
OSCtxSw
STMFD SP!, {LR} ;PC
STMFD SP!, {R0-R12, LR} ;R0-R12 LR
MRS R0, CPSR ;Push CPSR
STMFD SP!, {R0}
;----------------------------------------------------------------------------------
; OSTCBCur->OSTCBStkPtr = SP
;----------------------------------------------------------------------------------
LDR R0, =OSTCBCur
LDR R0, [R0]
STR SP, [R0]
;----------------------------------------------------------------------------------
; OSTaskSwHook();
;---------------------------------------------------------------------------------
BL OSTaskSwHook
;----------------------------------------------------------------------------------
; OSTCBCur = OSTCBHighRdy;
;----------------------------------------------------------------------------------
LDR R0, =OSTCBHighRdy
LDR R1, =OSTCBCur
LDR R0, [R0]
STR R0, [R1]
;----------------------------------------------------------------------------------
; OSPrioCur = OSPrioHighRdy;
;----------------------------------------------------------------------------------
LDR R0, =OSPrioHighRdy
LDR R1, =OSPrioCur
LDRB R0, [R0]
STRB R0, [R1]
;----------------------------------------------------------------------------------
; OSTCBHighRdy->OSTCBStkPtr;
;----------------------------------------------------------------------------------
LDR R0, =OSTCBHighRdy
LDR R0, [R0]
LDR SP, [R0]
;----------------------------------------------------------------------------------
;Restore New task context
;----------------------------------------------------------------------------------
LDMFD SP!, {R0} ;POP CPSR
MSR SPSR_cxsf, R0
LDMFD SP!, {R0-R12, LR, PC}^
;*********************************************************************************************************
; TICK HANDLER
;
; Description:
; This handles all the Timer0(INT_TIMER0) interrupt which is used to generate the uC/OS-II tick.
;*********************************************************************************************************/
OSTickISR
MOV R5,LR
MOV R1, #1
MOV R1, R1, LSL #10 ; Timer0 Source Pending Reg.
LDR R0, =SRCPND
LDR R2, [R0]
ORR R1, R1,R2
STR R1, [R0]
LDR R0, =INTPND
LDR R1, [R0]
STR R1, [R0]
;----------------------------------------------------------------------------------
; OSTimeTick();
;----------------------------------------------------------------------------------
BL OSTimeTick
MOV PC, R5 ; Return
;*********************************************************************************************************
; PERFORM A CONTEXT SWITCH (From an ISR)
; void OSIntCtxSw(void)
;
; Description: 1) This code performs a context switch if a higher priority task has been made ready-to-run
; during an ISR.
;
; 2) The stack frame of the task to suspend looks as follows:
;
; PC (High memory)
; LR(R14)
; R12
; R11
; R10
; R9
; R8
; R7
; R6
; R5
; R4
; R3
; R2
; R1
; R0
;
; OSTCBCur->OSTCBStkPtr ----> CPSR (Low memory)
;
;
; 3) The stack frame of the task to resume looks as follows:
;
; PC (High memory)
; LR(R14)
; R12
; R11
; R10
; R9
; R8
; R7
; R6
; R5
; R4
; R3
; R2
; R1
; R0
; OSTCBHighRdy->OSTCBStkPtr ----> CPSR (Low memory)
;*********************************************************************************************************/
OSIntCtxSw
;----------------------------------------------------------------------------------
; Call OSTaskSwHook();
;----------------------------------------------------------------------------------
BL OSTaskSwHook
;----------------------------------------------------------------------------------
; OSTCBCur = OSTCBHighRdy;
;----------------------------------------------------------------------------------
LDR R0, =OSTCBHighRdy
LDR R1, =OSTCBCur
LDR R0, [R0]
STR R0, [R1]
;----------------------------------------------------------------------------------
; OSPrioCur = OSPrioHighRdy;
;----------------------------------------------------------------------------------
LDR R0, =OSPrioHighRdy
LDR R1, =OSPrioCur
LDRB R0, [R0]
STRB R0, [R1]
;----------------------------------------------------------------------------------
; SP = OSTCBHighRdy->OSTCBStkPtr;
;----------------------------------------------------------------------------------
LDR R0, =OSTCBHighRdy
LDR R0, [R0]
LDR SP, [R0]
;----------------------------------------------------------------------------------
; Restore New Task context
;----------------------------------------------------------------------------------
LDMFD SP!, {R0} ;POP CPSR
MSR SPSR_cxsf, R0
LDMFD SP!, {R0-R12, LR, PC}^
OS_CPU_IRQ_ISR
STMFD SP!, {R1-R3} ; We will use R1-R3 as temporary registers
;----------------------------------------------------------------------------
; R1--SP
; R2--PC
; R3--SPSR
;------------------------------------------------------------------------
MOV R1, SP
ADD SP, SP, #12 ;Adjust IRQ stack pointer
SUB R2, LR, #4 ;Adjust PC for return address to task
MRS R3, SPSR ; Copy SPSR (Task CPSR)
MSR CPSR_cxsf, #SVCMODE|NOINT ;Change to SVC mode
; SAVE TASK''S CONTEXT ONTO OLD TASK''S STACK
STMFD SP!, {R2} ; Push task''s PC
STMFD SP!, {R4-R12, LR} ; Push task''s LR,R12-R4
LDMFD R1!, {R4-R6} ; Load Task''s R1-R3 from IRQ stack
STMFD SP!, {R4-R6} ; Push Task''s R1-R3 to SVC stack
STMFD SP!, {R0} ; Push Task''s R0 to SVC stack
STMFD SP!, {R3} ; Push task''s CPSR
LDR R0,=OSIntNesting ;OSIntNesting++
LDRB R1,[R0]
ADD R1,R1,#1
STRB R1,[R0]
CMP R1,#1 ;if(OSIntNesting==1){
BNE %F1
LDR R4,=OSTCBCur ;OSTCBHighRdy->OSTCBStkPtr=SP;
LDR R5,[R4]
STR SP,[R5] ;}
1
MSR CPSR_c,#IRQMODE|NOINT ;Change to IRQ mode to use IRQ stack to handle interrupt
LDR R0, =INTOFFSET
LDR R0, [R0]
LDR R1, IRQIsrVect
MOV LR, PC ; Save LR befor jump to the C function we need return back
LDR PC, [R1, R0, LSL #2] ; Call OS_CPU_IRQ_ISR_handler();
MSR CPSR_c,#SVCMODE|NOINT ;Change to SVC mode
BL OSIntExit ;Call OSIntExit
LDMFD SP!,{R4} ;POP the task''s CPSR
MSR SPSR_cxsf,R4
LDMFD SP!,{R0-R12,LR,PC}^ ;POP new Task''s context
IRQIsrVect DCD HandleEINT0
;*********************************************************************************************************
; CRITICAL SECTION METHOD 3 FUNCTIONS
;
; Description: Disable/Enable interrupts by preserving the state of interrupts. Generally speaking you
; would store the state of the interrupt disable flag in the local variable 'cpu_sr' and then
; disable interrupts. 'cpu_sr' is allocated in all of uC/OS-II''s functions that need to
; disable interrupts. You would restore the interrupt disable state by copying back 'cpu_sr'
; into the CPU''s status register.
;
; Prototypes : OS_CPU_SR OSCPUSaveSR(void);
; void OSCPURestoreSR(OS_CPU_SR cpu_sr);
;
;
; Note(s) : 1) These functions are used in general like this:
;
; void Task (void *p_arg)
; {
; #if OS_CRITICAL_METHOD == 3 /* Allocate storage for CPU status register */
; OS_CPU_SR cpu_sr;
; #endif
;
; :
; :
; OS_ENTER_CRITICAL(); /* cpu_sr = OSCPUSaveSR(); */
; :
; :
; OS_EXIT_CRITICAL(); /* OSCPURestoreSR(cpu_sr); */
; :
; :
; }
;
; 2) OSCPUSaveSR() is implemented as recommended by Atmel''s application note:
;
; "Disabling Interrupts at Processor Level"
;*********************************************************************************************************
OSCPUSaveSR
MRS R0, CPSR ; Set IRQ and FIQ bits in CPSR to disable all interrupts
ORR R1, R0, #0xC0
MSR CPSR_c, R1
MRS R1, CPSR ; Confirm that CPSR contains the proper interrupt disable flags
AND R1, R1, #0xC0
CMP R1, #0xC0
BNE OSCPUSaveSR ; Not properly disabled (try again)
MOV PC, LR ; Disabled, return the original CPSR contents in R0
OSCPURestoreSR
MSR CPSR_c, R0
MOV PC, LR
END
对OS_CPU.H的修改:
/*
一、新建工程
1.新建一个ARM Executable Image
2.创建uCOS_II文件夹,创建两个子文件夹,分别为ARM、SOURCE
ARM存放和平台相关的文件("OS_CPU.H" "Os_cpu_a.s" "Os_cpu_c.c" ),这是移植需要修改的三个文件,OS_CPU.H 定义数据类型,中断模式
SOURCE下存入和平台无关的文件("ucos_ii.h" "os_cfg.h" "os_core.c" "os_flag.c" "os_mbox.c" "os_mem.c" "os_mutex.c" "os_q.c" "os_sem.c" "os_task.c" "os_time.c" "os_tmr.c" )
3.创建一个S3C2440文件夹,创建两个子文件夹,分别为INC、SRC
INC存放S3C2440相关头文件("2440addr.h" "2440lib.h" "2440slib.h" "config.h" "Def1.h" "lcd.h" "mmu.h" "Option.h" "Target.h" "Timer.h" )
SRC存放S3C2440相关源文件("Timer.c" "2440init.s" "2440lib.c" "2440slib.s" "Font_Libs.c" "iphone.c" "lcd.c" "mmu.c" "nand.c" "Target.c" )
4.创建一个app文件夹(app_cfg.h、main.c、Printf.c、Printf.h)
二、工程设置Edit->DebugRel Settings下
1.Target->Target Settings,Post-linker:ARM fromELF
2.Target->Access Paths选中Always Search User Paths(ucos_ii部分文件采用#include <>包涵,不修改这里找不到文件)
3.Language Settings下ARM Assembler、ARM C Compliler、ARM C++ Complier处理器设置成ARM920T
4.Language Settings下ARM C Compliler下Errors下去掉Implicit pointer c,ARM C Compliler下Warnings下去掉Unused declaration(-O1 -g+ -cpu ARM920T -Wx -Ec)
5.ARM Linker下,Output下RO Base设置成0x30000000,Options下Image entry point设置成0x30000000,Layout下Place at beginning of image下的Object/Symbol设置成2440init.o,Section设置成Init,Listings下选勾Image map、List file设置list.txt,勾上Sizes、Totals、Unused、Veneers
6.ARM fromELF下Output file name下填写输出的二进制
*********************************************************************************************************
* ARM
*
* Method #1: NOT IMPLEMENTED
* Disable/Enable interrupts using simple instructions. After critical section, interrupts
* will be enabled even if they were disabled before entering the critical section.
*
* Method #2: NOT IMPLEMENTED
* Disable/Enable interrupts by preserving the state of interrupts. In other words, if
* interrupts were disabled before entering the critical section, they will be disabled when
* leaving the critical section.
* NOT IMPLEMENTED
*
* Method #3: Disable/Enable interrupts by preserving the state of interrupts. Generally speaking you
* would store the state of the interrupt disable flag in the local variable 'cpu_sr' and then
* disable interrupts. 'cpu_sr' is allocated in all of uC/OS-II's functions that need to
* disable interrupts. You would restore the interrupt disable state by copying back 'cpu_sr'
* into the CPU's status register. This is the prefered method to disable interrupts.
*********************************************************************************************************
*/
#define OS_CRITICAL_METHOD 3
#if OS_CRITICAL_METHOD == 3
#define OS_ENTER_CRITICAL() (cpu_sr = OSCPUSaveSR()) /* Disable interrupts */
#define OS_EXIT_CRITICAL() (OSCPURestoreSR(cpu_sr)) /* Restore interrupts */
#endif
/*
*********************************************************************************************************
* ARM Miscellaneous
*********************************************************************************************************
*/
#define OS_STK_GROWTH 1 /* Stack grows from HIGH to LOW memory on ARM */
#define OS_TASK_SW() OSCtxSw()
/*
*********************************************************************************************************
* ARM
*
* Method #1: NOT IMPLEMENTED
* Disable/Enable interrupts using simple instructions. After critical section, interrupts
* will be enabled even if they were disabled before entering the critical section.
*
* Method #2: NOT IMPLEMENTED
* Disable/Enable interrupts by preserving the state of interrupts. In other words, if
* interrupts were disabled before entering the critical section, they will be disabled when
* leaving the critical section.
* NOT IMPLEMENTED
*
* Method #3: Disable/Enable interrupts by preserving the state of interrupts. Generally speaking you
* would store the state of the interrupt disable flag in the local variable 'cpu_sr' and then
* disable interrupts. 'cpu_sr' is allocated in all of uC/OS-II's functions that need to
* disable interrupts. You would restore the interrupt disable state by copying back 'cpu_sr'
* into the CPU's status register. This is the prefered method to disable interrupts.
*********************************************************************************************************
*/
#define OS_CRITICAL_METHOD 3
#if OS_CRITICAL_METHOD == 3
#define OS_ENTER_CRITICAL() (cpu_sr = OSCPUSaveSR()) /* Disable interrupts */
#define OS_EXIT_CRITICAL() (OSCPURestoreSR(cpu_sr)) /* Restore interrupts */
#endif
/*
*********************************************************************************************************
* ARM Miscellaneous
*********************************************************************************************************
*/
#define OS_STK_GROWTH 1 /* Stack grows from HIGH to LOW memory on ARM */
#define OS_TASK_SW() OSCtxSw()
对Os_cpu_c.c的修改:
/*
*********************************************************************************************************
* uC/OS-II
* The Real-Time Kernel
*
* (c) Copyright 1992-2003, Micrium, Inc., Weston, FL
* All Rights Reserved
*
* ARM9 Port
*
* File : OS_CPU_C.C
*********************************************************************************************************
*/
//#define OS_CPU_GLOBALS
#include "ucos_ii.h"
/*
*********************************************************************************************************
* INITIALIZE A TASK'S STACK
*
* Description: This function is called by either OSTaskCreate() or OSTaskCreateExt() to initialize the
* stack frame of the task being created. This function is highly processor specific.
*
* Arguments : task is a pointer to the task code
*
* p_arg is a pointer to a user supplied data area that will be passed to the task
* when the task first executes.
*
* ptos is a pointer to the top of stack. It is assumed that 'ptos' points to
* a 'free' entry on the task stack. If OS_STK_GROWTH is set to 1 then
* 'ptos' will contain the HIGHEST valid address of the stack. Similarly, if
* OS_STK_GROWTH is set to 0, the 'ptos' will contains the LOWEST valid address
* of the stack.
*
* opt specifies options that can be used to alter the behavior of OSTaskStkInit().
* (see uCOS_II.H for OS_TASK_OPT_???).
*
* Returns : Always returns the location of the new top-of-stack' once the processor registers have
* been placed on the stack in the proper order.
*
* Note(s) : 1) Interrupts are enabled when your task starts executing.
* 2) All tasks run in SVC mode.
*********************************************************************************************************
*/
OS_STK *OSTaskStkInit (void (*task)(void *pd), void *p_arg, OS_STK *ptos, INT16U opt)
{
OS_STK *stk;
optopt = opt; /* 'opt' is not used, prevent warning */
stk = ptos; /* Load stack pointer */
*(stk) = (OS_STK)task; /* Entry Point */
*(--stk) = (INT32U)0; /* LR */
*(--stk) = (INT32U)0; /* R12 */
*(--stk) = (INT32U)0; /* R11 */
*(--stk) = (INT32U)0; /* R10 */
*(--stk) = (INT32U)0; /* R9 */
*(--stk) = (INT32U)0; /* R8 */
*(--stk) = (INT32U)0; /* R7 */
*(--stk) = (INT32U)0; /* R6 */
*(--stk) = (INT32U)0; /* R5 */
*(--stk) = (INT32U)0; /* R4 */
*(--stk) = (INT32U)0; /* R3 */
*(--stk) = (INT32U)0; /* R2 */
*(--stk) = (INT32U)0; /* R1 */
*(--stk) = (INT32U)p_arg; /* R0 : argument */
*(--stk) = (INT32U)0x00000013L; /* CPSR (SVC mode, Enable both IRQ and FIQ interrupts) */
return (stk);
}
#if OS_CPU_HOOKS_EN
/*
*********************************************************************************************************
* OS INITIALIZATION HOOK
* (BEGINNING)
*
* Description: This function is called by OSInit() at the beginning of OSInit().
*
* Arguments : none
*
* Note(s) : 1) Interrupts should be disabled during this call.
*********************************************************************************************************
*/
#if OS_VERSION > 203
void OSInitHookBegin (void)
{
}
#endif
/*
*********************************************************************************************************
* OS INITIALIZATION HOOK
* (END)
*
* Description: This function is called by OSInit() at the end of OSInit().
*
* Arguments : none
*
* Note(s) : 1) Interrupts should be disabled during this call.
*********************************************************************************************************
*/
#if OS_VERSION > 203
void OSInitHookEnd (void)
{
}
#endif
/*
*********************************************************************************************************
* TASK CREATION HOOK
*
* Description: This function is called when a task is created.
*
* Arguments : ptcb is a pointer to the task control block of the task being created.
*
* Note(s) : 1) Interrupts are disabled during this call.
*********************************************************************************************************
*/
void OSTaskCreateHook (OS_TCB *ptcb)
{
ptcbptcb = ptcb; /* Prevent compiler warning */
}
/*
*********************************************************************************************************
* TASK DELETION HOOK
*
* Description: This function is called when a task is deleted.
*
* Arguments : ptcb is a pointer to the task control block of the task being deleted.
*
* Note(s) : 1) Interrupts are disabled during this call.
*********************************************************************************************************
*/
void OSTaskDelHook (OS_TCB *ptcb)
{
ptcbptcb = ptcb; /* Prevent compiler warning */
}
/*
*********************************************************************************************************
* TASK SWITCH HOOK
*
* Description: This function is called when a task switch is performed. This allows you to perform other
* operations during a context switch.
*
* Arguments : none
*
* Note(s) : 1) Interrupts are disabled during this call.
* 2) It is assumed that the global pointer 'OSTCBHighRdy' points to the TCB of the task that
* will be 'switched in' (i.e. the highest priority task) and, 'OSTCBCur' points to the
* task being switched out (i.e. the preempted task).
*********************************************************************************************************
*/
void OSTaskSwHook (void)
{
}
/*
*********************************************************************************************************
* STATISTIC TASK HOOK
*
* Description: This function is called every second by uC/OS-II's statistics task. This allows your
* application to add functionality to the statistics task.
*
* Arguments : none
*********************************************************************************************************
*/
void OSTaskStatHook (void)
{
}
/*
*********************************************************************************************************
* OSTCBInit() HOOK
*
* Description: This function is called by OSTCBInit() after setting up most of the TCB.
*
* Arguments : ptcb is a pointer to the TCB of the task being created.
*
* Note(s) : 1) Interrupts may or may not be ENABLED during this call.
*********************************************************************************************************
*/
#if OS_VERSION > 203
void OSTCBInitHook (OS_TCB *ptcb)
{
ptcbptcb = ptcb; /* Prevent Compiler warning */
}
#endif
/*
*********************************************************************************************************
* TICK HOOK
*
* Description: This function is called every tick.
*
* Arguments : none
*
* Note(s) : 1) Interrupts may or may not be ENABLED during this call.
*********************************************************************************************************
*/
void OSTimeTickHook (void)
{
}
/*
*********************************************************************************************************
* IDLE TASK HOOK
*
* Description: This function is called by the idle task. This hook has been added to allow you to do
* such things as STOP the CPU to conserve power.
*
* Arguments : none
*
* Note(s) : 1) Interrupts are enabled during this call.
*********************************************************************************************************
*/
#if OS_VERSION >= 251
void OSTaskIdleHook (void)
{
}
#endif
#endif
/*
*********************************************************************************************************
* uC/OS-II
* The Real-Time Kernel
*
* (c) Copyright 1992-2003, Micrium, Inc., Weston, FL
* All Rights Reserved
*
* ARM9 Port
*
* File : OS_CPU_C.C
*********************************************************************************************************
*/
//#define OS_CPU_GLOBALS
#include "ucos_ii.h"
/*
*********************************************************************************************************
* INITIALIZE A TASK'S STACK
*
* Description: This function is called by either OSTaskCreate() or OSTaskCreateExt() to initialize the
* stack frame of the task being created. This function is highly processor specific.
*
* Arguments : task is a pointer to the task code
*
* p_arg is a pointer to a user supplied data area that will be passed to the task
* when the task first executes.
*
* ptos is a pointer to the top of stack. It is assumed that 'ptos' points to
* a 'free' entry on the task stack. If OS_STK_GROWTH is set to 1 then
* 'ptos' will contain the HIGHEST valid address of the stack. Similarly, if
* OS_STK_GROWTH is set to 0, the 'ptos' will contains the LOWEST valid address
* of the stack.
*
* opt specifies options that can be used to alter the behavior of OSTaskStkInit().
* (see uCOS_II.H for OS_TASK_OPT_???).
*
* Returns : Always returns the location of the new top-of-stack' once the processor registers have
* been placed on the stack in the proper order.
*
* Note(s) : 1) Interrupts are enabled when your task starts executing.
* 2) All tasks run in SVC mode.
*********************************************************************************************************
*/
OS_STK *OSTaskStkInit (void (*task)(void *pd), void *p_arg, OS_STK *ptos, INT16U opt)
{
OS_STK *stk;
opt = opt; /* 'opt' is not used, prevent warning */
stk = ptos; /* Load stack pointer */
*(stk) = (OS_STK)task; /* Entry Point */
*(--stk) = (INT32U)0; /* LR */
*(--stk) = (INT32U)0; /* R12 */
*(--stk) = (INT32U)0; /* R11 */
*(--stk) = (INT32U)0; /* R10 */
*(--stk) = (INT32U)0; /* R9 */
*(--stk) = (INT32U)0; /* R8 */
*(--stk) = (INT32U)0; /* R7 */
*(--stk) = (INT32U)0; /* R6 */
*(--stk) = (INT32U)0; /* R5 */
*(--stk) = (INT32U)0; /* R4 */
*(--stk) = (INT32U)0; /* R3 */
*(--stk) = (INT32U)0; /* R2 */
*(--stk) = (INT32U)0; /* R1 */
*(--stk) = (INT32U)p_arg; /* R0 : argument */
*(--stk) = (INT32U)0x00000013L; /* CPSR (SVC mode, Enable both IRQ and FIQ interrupts) */
return (stk);
}
#if OS_CPU_HOOKS_EN
/*
*********************************************************************************************************
* OS INITIALIZATION HOOK
* (BEGINNING)
*
* Description: This function is called by OSInit() at the beginning of OSInit().
*
* Arguments : none
*
* Note(s) : 1) Interrupts should be disabled during this call.
*********************************************************************************************************
*/
#if OS_VERSION > 203
void OSInitHookBegin (void)
{
}
#endif
/*
*********************************************************************************************************
* OS INITIALIZATION HOOK
* (END)
*
* Description: This function is called by OSInit() at the end of OSInit().
*
* Arguments : none
*
* Note(s) : 1) Interrupts should be disabled during this call.
*********************************************************************************************************
*/
#if OS_VERSION > 203
void OSInitHookEnd (void)
{
}
#endif
/*
*********************************************************************************************************
* TASK CREATION HOOK
*
* Description: This function is called when a task is created.
*
* Arguments : ptcb is a pointer to the task control block of the task being created.
*
* Note(s) : 1) Interrupts are disabled during this call.
*********************************************************************************************************
*/
void OSTaskCreateHook (OS_TCB *ptcb)
{
ptcb = ptcb; /* Prevent compiler warning */
}
/*
*********************************************************************************************************
* TASK DELETION HOOK
*
* Description: This function is called when a task is deleted.
*
* Arguments : ptcb is a pointer to the task control block of the task being deleted.
*
* Note(s) : 1) Interrupts are disabled during this call.
*********************************************************************************************************
*/
void OSTaskDelHook (OS_TCB *ptcb)
{
ptcb = ptcb; /* Prevent compiler warning */
}
/*
*********************************************************************************************************
* TASK SWITCH HOOK
*
* Description: This function is called when a task switch is performed. This allows you to perform other
* operations during a context switch.
*
* Arguments : none
*
* Note(s) : 1) Interrupts are disabled during this call.
* 2) It is assumed that the global pointer 'OSTCBHighRdy' points to the TCB of the task that
* will be 'switched in' (i.e. the highest priority task) and, 'OSTCBCur' points to the
* task being switched out (i.e. the preempted task).
*********************************************************************************************************
*/
void OSTaskSwHook (void)
{
}
/*
*********************************************************************************************************
* STATISTIC TASK HOOK
*
* Description: This function is called every second by uC/OS-II's statistics task. This allows your
* application to add functionality to the statistics task.
*
* Arguments : none
*********************************************************************************************************
*/
void OSTaskStatHook (void)
{
}
/*
*********************************************************************************************************
* OSTCBInit() HOOK
*
* Description: This function is called by OSTCBInit() after setting up most of the TCB.
*
* Arguments : ptcb is a pointer to the TCB of the task being created.
*
* Note(s) : 1) Interrupts may or may not be ENABLED during this call.
*********************************************************************************************************
*/
#if OS_VERSION > 203
void OSTCBInitHook (OS_TCB *ptcb)
{
ptcb = ptcb; /* Prevent Compiler warning */
}
#endif
/*
*********************************************************************************************************
* TICK HOOK
*
* Description: This function is called every tick.
*
* Arguments : none
*
* Note(s) : 1) Interrupts may or may not be ENABLED during this call.
*********************************************************************************************************
*/
void OSTimeTickHook (void)
{
}
/*
*********************************************************************************************************
* IDLE TASK HOOK
*
* Description: This function is called by the idle task. This hook has been added to allow you to do
* such things as STOP the CPU to conserve power.
*
* Arguments : none
*
* Note(s) : 1) Interrupts are enabled during this call.
*********************************************************************************************************
*/
#if OS_VERSION >= 251
void OSTaskIdleHook (void)
{
}
#endif
#endif
对Os_cpu_a.s的修改:
;*********************************************************************************************************
; uC/OS-II
; The Real-Time Kernel
;
; (c) Copyright 1992-2003, Jean J. Labrosse, Weston, FL
; All Rights Reserved
;
; ARM920T Port
; ADS v1.2 Compiler
; Samsung S3C2440A
;
; File : os_cpu_a.s refrence to ucos application note for arm AN-1014
; Des : S3C2440 uC/OS-II Port
; by : tangxiaofeng xidian 503
; History :
; OSCtxSw(), OSIntCtxSw() OSStartHighRdy() OS_CPU_IRQ_ISR() OSTickISR()
;******************************************************************************************************** */
SRCPND EQU 0x4a000000 ; Source pending
INTPND EQU 0x4a000010 ; Interrupt request status
rEINTPEND EQU 0x560000a8
INTOFFSET EQU 0x4a000014
USERMODE EQU 0x10
FIQMODE EQU 0x11
IRQMODE EQU 0x12
SVCMODE EQU 0x13
ABORTMODE EQU 0x17
UNDEFMODE EQU 0x1b
MODEMASK EQU 0x1f
NOINT EQU 0xc0
;*********************************************************************************************************
; EXPORT and EXTERNAL REFERENCES
;*********************************************************************************************************/
IMPORT OSRunning
IMPORT OSTCBCur
IMPORT OSTCBHighRdy
IMPORT OSPrioCur
IMPORT OSPrioHighRdy
IMPORT OSIntNesting
IMPORT OSIntEnter
IMPORT OSIntExit
IMPORT OSTaskSwHook
IMPORT OSTimeTick
IMPORT HandleEINT0
EXPORT OSStartHighRdy
EXPORT OSCtxSw
EXPORT OSTickISR
EXPORT OSIntCtxSw
EXPORT OSCPUSaveSR
EXPORT OSCPURestoreSR
EXPORT OS_CPU_IRQ_ISR
AREA UCOS_ARM, CODE, READONLY
;*********************************************************************************************************
; START MULTITASKING
; void OSStartHighRdy(void)
;
; The stack frame is assumed to look as follows:
;
; Entry Point(Task Name) (High memory)
; LR(R14)
; R12
; R11
; R10
; R9
; R8
; R7
; R6
; R5
; R4
; R3
; R2
; R1
; R0 : argument
; OSTCBHighRdy->OSTCBStkPtr --> CPSR (Low memory)
;
; Note : OSStartHighRdy() MUST:
; a) Call OSTaskSwHook() then,
; b) Set OSRunning to TRUE,
; c) Switch to the highest priority task.
;********************************************************************************************************** */
OSStartHighRdy
;----------------------------------------------------------------------------------
; OSRunning = TRUE;
;----------------------------------------------------------------------------------
MSR CPSR_cxsf,#SVCMODE|NOINT ;Switch to SVC mode with IRQ&FIQ disable
BL OSTaskSwHook ;Call user define Task switch hook
LDR R0, =OSRunning ; OSRunning =TRUE
MOV R1, #1
STRB R1, [R0]
;----------------------------------------------------------------------------------
; SP = OSTCBHighRdy->OSTCBStkPtr;
;----------------------------------------------------------------------------------
LDR R0, =OSTCBHighRdy
LDR R0, [R0]
LDR SP, [R0]
;----------------------------------------------------------------------------------
; Prepare to return to proper mode
;----------------------------------------------------------------------------------
LDMFD SP!, {R0}
MSR SPSR_cxsf, R0
LDMFD SP!, {R0-R12, LR, PC}^
;**********************************************************************************************************
; PERFORM A CONTEXT SWITCH (From task level)
; void OSCtxSw(void)
;
; Note(s): 1) Upon entry:
; OSTCBCur points to the OS_TCB of the task to suspend
; OSTCBHighRdy points to the OS_TCB of the task to resume
;
; 2) The stack frame of the task to suspend looks as follows:
;
; PC (High memory)
; LR(R14)
; R12
; R11
; R10
; R9
; R8
; R7
; R6
; R5
; R4
; R3
; R2
; R1
; R0
; OSTCBCur->OSTCBStkPtr ----> CPSR (Low memory)
;
;
; 3) The stack frame of the task to resume looks as follows:
;
; PC (High memory)
; LR(R14)
; R12
; R11
; R10
; R9
; R8
; R7
; R6
; R5
; R4
; R3
; R2
; R1
; R0
; OSTCBHighRdy->OSTCBStkPtr ----> CPSR (Low memory)
;*********************************************************************************************************/
OSCtxSw
STMFD SP!, {LR} ;PC
STMFD SP!, {R0-R12, LR} ;R0-R12 LR
MRS R0, CPSR ;Push CPSR
STMFD SP!, {R0}
;----------------------------------------------------------------------------------
; OSTCBCur->OSTCBStkPtr = SP
;----------------------------------------------------------------------------------
LDR R0, =OSTCBCur
LDR R0, [R0]
STR SP, [R0]
;----------------------------------------------------------------------------------
; OSTaskSwHook();
;---------------------------------------------------------------------------------
BL OSTaskSwHook
;----------------------------------------------------------------------------------
; OSTCBCur = OSTCBHighRdy;
;----------------------------------------------------------------------------------
LDR R0, =OSTCBHighRdy
LDR R1, =OSTCBCur
LDR R0, [R0]
STR R0, [R1]
;----------------------------------------------------------------------------------
; OSPrioCur = OSPrioHighRdy;
;----------------------------------------------------------------------------------
LDR R0, =OSPrioHighRdy
LDR R1, =OSPrioCur
LDRB R0, [R0]
STRB R0, [R1]
;----------------------------------------------------------------------------------
; OSTCBHighRdy->OSTCBStkPtr;
;----------------------------------------------------------------------------------
LDR R0, =OSTCBHighRdy
LDR R0, [R0]
LDR SP, [R0]
;----------------------------------------------------------------------------------
;Restore New task context
;----------------------------------------------------------------------------------
LDMFD SP!, {R0} ;POP CPSR
MSR SPSR_cxsf, R0
LDMFD SP!, {R0-R12, LR, PC}^
;*********************************************************************************************************
; TICK HANDLER
;
; Description:
; This handles all the Timer0(INT_TIMER0) interrupt which is used to generate the uC/OS-II tick.
;*********************************************************************************************************/
OSTickISR
MOV R5,LR
MOV R1, #1
MOV R1, R1, LSL #10 ; Timer0 Source Pending Reg.
LDR R0, =SRCPND
LDR R2, [R0]
ORR R1, R1,R2
STR R1, [R0]
LDR R0, =INTPND
LDR R1, [R0]
STR R1, [R0]
;----------------------------------------------------------------------------------
; OSTimeTick();
;----------------------------------------------------------------------------------
BL OSTimeTick
MOV PC, R5 ; Return
;*********************************************************************************************************
; PERFORM A CONTEXT SWITCH (From an ISR)
; void OSIntCtxSw(void)
;
; Description: 1) This code performs a context switch if a higher priority task has been made ready-to-run
; during an ISR.
;
; 2) The stack frame of the task to suspend looks as follows:
;
; PC (High memory)
; LR(R14)
; R12
; R11
; R10
; R9
; R8
; R7
; R6
; R5
; R4
; R3
; R2
; R1
; R0
;
; OSTCBCur->OSTCBStkPtr ----> CPSR (Low memory)
;
;
; 3) The stack frame of the task to resume looks as follows:
;
; PC (High memory)
; LR(R14)
; R12
; R11
; R10
; R9
; R8
; R7
; R6
; R5
; R4
; R3
; R2
; R1
; R0
; OSTCBHighRdy->OSTCBStkPtr ----> CPSR (Low memory)
;*********************************************************************************************************/
OSIntCtxSw
;----------------------------------------------------------------------------------
; Call OSTaskSwHook();
;----------------------------------------------------------------------------------
BL OSTaskSwHook
;----------------------------------------------------------------------------------
; OSTCBCur = OSTCBHighRdy;
;----------------------------------------------------------------------------------
LDR R0, =OSTCBHighRdy
LDR R1, =OSTCBCur
LDR R0, [R0]
STR R0, [R1]
;----------------------------------------------------------------------------------
; OSPrioCur = OSPrioHighRdy;
;----------------------------------------------------------------------------------
LDR R0, =OSPrioHighRdy
LDR R1, =OSPrioCur
LDRB R0, [R0]
STRB R0, [R1]
;----------------------------------------------------------------------------------
; SP = OSTCBHighRdy->OSTCBStkPtr;
;----------------------------------------------------------------------------------
LDR R0, =OSTCBHighRdy
LDR R0, [R0]
LDR SP, [R0]
;----------------------------------------------------------------------------------
; Restore New Task context
;----------------------------------------------------------------------------------
LDMFD SP!, {R0} ;POP CPSR
MSR SPSR_cxsf, R0
LDMFD SP!, {R0-R12, LR, PC}^
OS_CPU_IRQ_ISR
STMFD SP!, {R1-R3} ; We will use R1-R3 as temporary registers
;----------------------------------------------------------------------------
; R1--SP
; R2--PC
; R3--SPSR
;------------------------------------------------------------------------
MOV R1, SP
ADD SP, SP, #12 ;Adjust IRQ stack pointer
SUB R2, LR, #4 ;Adjust PC for return address to task
MRS R3, SPSR ; Copy SPSR (Task CPSR)
MSR CPSR_cxsf, #SVCMODE|NOINT ;Change to SVC mode
; SAVE TASK''S CONTEXT ONTO OLD TASK''S STACK
STMFD SP!, {R2} ; Push task''s PC
STMFD SP!, {R4-R12, LR} ; Push task''s LR,R12-R4
LDMFD R1!, {R4-R6} ; Load Task''s R1-R3 from IRQ stack
STMFD SP!, {R4-R6} ; Push Task''s R1-R3 to SVC stack
STMFD SP!, {R0} ; Push Task''s R0 to SVC stack
STMFD SP!, {R3} ; Push task''s CPSR
LDR R0,=OSIntNesting ;OSIntNesting++
LDRB R1,[R0]
ADD R1,R1,#1
STRB R1,[R0]
CMP R1,#1 ;if(OSIntNesting==1){
BNE %F1
LDR R4,=OSTCBCur ;OSTCBHighRdy->OSTCBStkPtr=SP;
LDR R5,[R4]
STR SP,[R5] ;}
1
MSR CPSR_c,#IRQMODE|NOINT ;Change to IRQ mode to use IRQ stack to handle interrupt
LDR R0, =INTOFFSET
LDR R0, [R0]
LDR R1, IRQIsrVect
MOV LR, PC ; Save LR befor jump to the C function we need return back
LDR PC, [R1, R0, LSL #2] ; Call OS_CPU_IRQ_ISR_handler();
MSR CPSR_c,#SVCMODE|NOINT ;Change to SVC mode
BL OSIntExit ;Call OSIntExit
LDMFD SP!,{R4} ;POP the task''s CPSR
MSR SPSR_cxsf,R4
LDMFD SP!,{R0-R12,LR,PC}^ ;POP new Task''s context
IRQIsrVect DCD HandleEINT0
;*********************************************************************************************************
; CRITICAL SECTION METHOD 3 FUNCTIONS
;
; Description: Disable/Enable interrupts by preserving the state of interrupts. Generally speaking you
; would store the state of the interrupt disable flag in the local variable 'cpu_sr' and then
; disable interrupts. 'cpu_sr' is allocated in all of uC/OS-II''s functions that need to
; disable interrupts. You would restore the interrupt disable state by copying back 'cpu_sr'
; into the CPU''s status register.
;
; Prototypes : OS_CPU_SR OSCPUSaveSR(void);
; void OSCPURestoreSR(OS_CPU_SR cpu_sr);
;
;
; Note(s) : 1) These functions are used in general like this:
;
; void Task (void *p_arg)
; {
; #if OS_CRITICAL_METHOD == 3 /* Allocate storage for CPU status register */
; OS_CPU_SR cpu_sr;
; #endif
;
; :
; :
; OS_ENTER_CRITICAL(); /* cpu_sr = OSCPUSaveSR(); */
; :
; :
; OS_EXIT_CRITICAL(); /* OSCPURestoreSR(cpu_sr); */
; :
; :
; }
;
; 2) OSCPUSaveSR() is implemented as recommended by Atmel''s application note:
;
; "Disabling Interrupts at Processor Level"
;*********************************************************************************************************
OSCPUSaveSR
MRS R0, CPSR ; Set IRQ and FIQ bits in CPSR to disable all interrupts
ORR R1, R0, #0xC0
MSR CPSR_c, R1
MRS R1, CPSR ; Confirm that CPSR contains the proper interrupt disable flags
AND R1, R1, #0xC0
CMP R1, #0xC0
BNE OSCPUSaveSR ; Not properly disabled (try again)
MOV PC, LR ; Disabled, return the original CPSR contents in R0
OSCPURestoreSR
MSR CPSR_c, R0
MOV PC, LR
END
;*********************************************************************************************************
; uC/OS-II
; The Real-Time Kernel
;
; (c) Copyright 1992-2003, Jean J. Labrosse, Weston, FL
; All Rights Reserved
;
; ARM920T Port
; ADS v1.2 Compiler
; Samsung S3C2440A
;
; File : os_cpu_a.s refrence to ucos application note for arm AN-1014
; Des : S3C2440 uC/OS-II Port
; by : tangxiaofeng xidian 503
; History :
; OSCtxSw(), OSIntCtxSw() OSStartHighRdy() OS_CPU_IRQ_ISR() OSTickISR()
;******************************************************************************************************** */
SRCPND EQU 0x4a000000 ; Source pending
INTPND EQU 0x4a000010 ; Interrupt request status
rEINTPEND EQU 0x560000a8
INTOFFSET EQU 0x4a000014
USERMODE EQU 0x10
FIQMODE EQU 0x11
IRQMODE EQU 0x12
SVCMODE EQU 0x13
ABORTMODE EQU 0x17
UNDEFMODE EQU 0x1b
MODEMASK EQU 0x1f
NOINT EQU 0xc0
;*********************************************************************************************************
; EXPORT and EXTERNAL REFERENCES
;*********************************************************************************************************/
IMPORT OSRunning
IMPORT OSTCBCur
IMPORT OSTCBHighRdy
IMPORT OSPrioCur
IMPORT OSPrioHighRdy
IMPORT OSIntNesting
IMPORT OSIntEnter
IMPORT OSIntExit
IMPORT OSTaskSwHook
IMPORT OSTimeTick
IMPORT HandleEINT0
EXPORT OSStartHighRdy
EXPORT OSCtxSw
EXPORT OSTickISR
EXPORT OSIntCtxSw
EXPORT OSCPUSaveSR
EXPORT OSCPURestoreSR
EXPORT OS_CPU_IRQ_ISR
AREA UCOS_ARM, CODE, READONLY
;*********************************************************************************************************
; START MULTITASKING
; void OSStartHighRdy(void)
;
; The stack frame is assumed to look as follows:
;
; Entry Point(Task Name) (High memory)
; LR(R14)
; R12
; R11
; R10
; R9
; R8
; R7
; R6
; R5
; R4
; R3
; R2
; R1
; R0 : argument
; OSTCBHighRdy->OSTCBStkPtr --> CPSR (Low memory)
;
; Note : OSStartHighRdy() MUST:
; a) Call OSTaskSwHook() then,
; b) Set OSRunning to TRUE,
; c) Switch to the highest priority task.
;********************************************************************************************************** */
OSStartHighRdy
;----------------------------------------------------------------------------------
; OSRunning = TRUE;
;----------------------------------------------------------------------------------
MSR CPSR_cxsf,#SVCMODE|NOINT ;Switch to SVC mode with IRQ&FIQ disable
BL OSTaskSwHook ;Call user define Task switch hook
LDR R0, =OSRunning ; OSRunning =TRUE
MOV R1, #1
STRB R1, [R0]
;----------------------------------------------------------------------------------
; SP = OSTCBHighRdy->OSTCBStkPtr;
;----------------------------------------------------------------------------------
LDR R0, =OSTCBHighRdy
LDR R0, [R0]
LDR SP, [R0]
;----------------------------------------------------------------------------------
; Prepare to return to proper mode
;----------------------------------------------------------------------------------
LDMFD SP!, {R0}
MSR SPSR_cxsf, R0
LDMFD SP!, {R0-R12, LR, PC}^
;**********************************************************************************************************
; PERFORM A CONTEXT SWITCH (From task level)
; void OSCtxSw(void)
;
; Note(s): 1) Upon entry:
; OSTCBCur points to the OS_TCB of the task to suspend
; OSTCBHighRdy points to the OS_TCB of the task to resume
;
; 2) The stack frame of the task to suspend looks as follows:
;
; PC (High memory)
; LR(R14)
; R12
; R11
; R10
; R9
; R8
; R7
; R6
; R5
; R4
; R3
; R2
; R1
; R0
; OSTCBCur->OSTCBStkPtr ----> CPSR (Low memory)
;
;
; 3) The stack frame of the task to resume looks as follows:
;
; PC (High memory)
; LR(R14)
; R12
; R11
; R10
; R9
; R8
; R7
; R6
; R5
; R4
; R3
; R2
; R1
; R0
; OSTCBHighRdy->OSTCBStkPtr ----> CPSR (Low memory)
;*********************************************************************************************************/
OSCtxSw
STMFD SP!, {LR} ;PC
STMFD SP!, {R0-R12, LR} ;R0-R12 LR
MRS R0, CPSR ;Push CPSR
STMFD SP!, {R0}
;----------------------------------------------------------------------------------
; OSTCBCur->OSTCBStkPtr = SP
;----------------------------------------------------------------------------------
LDR R0, =OSTCBCur
LDR R0, [R0]
STR SP, [R0]
;----------------------------------------------------------------------------------
; OSTaskSwHook();
;---------------------------------------------------------------------------------
BL OSTaskSwHook
;----------------------------------------------------------------------------------
; OSTCBCur = OSTCBHighRdy;
;----------------------------------------------------------------------------------
LDR R0, =OSTCBHighRdy
LDR R1, =OSTCBCur
LDR R0, [R0]
STR R0, [R1]
;----------------------------------------------------------------------------------
; OSPrioCur = OSPrioHighRdy;
;----------------------------------------------------------------------------------
LDR R0, =OSPrioHighRdy
LDR R1, =OSPrioCur
LDRB R0, [R0]
STRB R0, [R1]
;----------------------------------------------------------------------------------
; OSTCBHighRdy->OSTCBStkPtr;
;----------------------------------------------------------------------------------
LDR R0, =OSTCBHighRdy
LDR R0, [R0]
LDR SP, [R0]
;----------------------------------------------------------------------------------
;Restore New task context
;----------------------------------------------------------------------------------
LDMFD SP!, {R0} ;POP CPSR
MSR SPSR_cxsf, R0
LDMFD SP!, {R0-R12, LR, PC}^
;*********************************************************************************************************
; TICK HANDLER
;
; Description:
; This handles all the Timer0(INT_TIMER0) interrupt which is used to generate the uC/OS-II tick.
;*********************************************************************************************************/
OSTickISR
MOV R5,LR
MOV R1, #1
MOV R1, R1, LSL #10 ; Timer0 Source Pending Reg.
LDR R0, =SRCPND
LDR R2, [R0]
ORR R1, R1,R2
STR R1, [R0]
LDR R0, =INTPND
LDR R1, [R0]
STR R1, [R0]
;----------------------------------------------------------------------------------
; OSTimeTick();
;----------------------------------------------------------------------------------
BL OSTimeTick
MOV PC, R5 ; Return
;*********************************************************************************************************
; PERFORM A CONTEXT SWITCH (From an ISR)
; void OSIntCtxSw(void)
;
; Description: 1) This code performs a context switch if a higher priority task has been made ready-to-run
; during an ISR.
;
; 2) The stack frame of the task to suspend looks as follows:
;
; PC (High memory)
; LR(R14)
; R12
; R11
; R10
; R9
; R8
; R7
; R6
; R5
; R4
; R3
; R2
; R1
; R0
;
; OSTCBCur->OSTCBStkPtr ----> CPSR (Low memory)
;
;
; 3) The stack frame of the task to resume looks as follows:
;
; PC (High memory)
; LR(R14)
; R12
; R11
; R10
; R9
; R8
; R7
; R6
; R5
; R4
; R3
; R2
; R1
; R0
; OSTCBHighRdy->OSTCBStkPtr ----> CPSR (Low memory)
;*********************************************************************************************************/
OSIntCtxSw
;----------------------------------------------------------------------------------
; Call OSTaskSwHook();
;----------------------------------------------------------------------------------
BL OSTaskSwHook
;----------------------------------------------------------------------------------
; OSTCBCur = OSTCBHighRdy;
;----------------------------------------------------------------------------------
LDR R0, =OSTCBHighRdy
LDR R1, =OSTCBCur
LDR R0, [R0]
STR R0, [R1]
;----------------------------------------------------------------------------------
; OSPrioCur = OSPrioHighRdy;
;----------------------------------------------------------------------------------
LDR R0, =OSPrioHighRdy
LDR R1, =OSPrioCur
LDRB R0, [R0]
STRB R0, [R1]
;----------------------------------------------------------------------------------
; SP = OSTCBHighRdy->OSTCBStkPtr;
;----------------------------------------------------------------------------------
LDR R0, =OSTCBHighRdy
LDR R0, [R0]
LDR SP, [R0]
;----------------------------------------------------------------------------------
; Restore New Task context
;----------------------------------------------------------------------------------
LDMFD SP!, {R0} ;POP CPSR
MSR SPSR_cxsf, R0
LDMFD SP!, {R0-R12, LR, PC}^
OS_CPU_IRQ_ISR
STMFD SP!, {R1-R3} ; We will use R1-R3 as temporary registers
;----------------------------------------------------------------------------
; R1--SP
; R2--PC
; R3--SPSR
;------------------------------------------------------------------------
MOV R1, SP
ADD SP, SP, #12 ;Adjust IRQ stack pointer
SUB R2, LR, #4 ;Adjust PC for return address to task
MRS R3, SPSR ; Copy SPSR (Task CPSR)
MSR CPSR_cxsf, #SVCMODE|NOINT ;Change to SVC mode
; SAVE TASK''S CONTEXT ONTO OLD TASK''S STACK
STMFD SP!, {R2} ; Push task''s PC
STMFD SP!, {R4-R12, LR} ; Push task''s LR,R12-R4
LDMFD R1!, {R4-R6} ; Load Task''s R1-R3 from IRQ stack
STMFD SP!, {R4-R6} ; Push Task''s R1-R3 to SVC stack
STMFD SP!, {R0} ; Push Task''s R0 to SVC stack
STMFD SP!, {R3} ; Push task''s CPSR
LDR R0,=OSIntNesting ;OSIntNesting++
LDRB R1,[R0]
ADD R1,R1,#1
STRB R1,[R0]
CMP R1,#1 ;if(OSIntNesting==1){
BNE %F1
LDR R4,=OSTCBCur ;OSTCBHighRdy->OSTCBStkPtr=SP;
LDR R5,[R4]
STR SP,[R5] ;}
1
MSR CPSR_c,#IRQMODE|NOINT ;Change to IRQ mode to use IRQ stack to handle interrupt
LDR R0, =INTOFFSET
LDR R0, [R0]
LDR R1, IRQIsrVect
MOV LR, PC ; Save LR befor jump to the C function we need return back
LDR PC, [R1, R0, LSL #2] ; Call OS_CPU_IRQ_ISR_handler();
MSR CPSR_c,#SVCMODE|NOINT ;Change to SVC mode
BL OSIntExit ;Call OSIntExit
LDMFD SP!,{R4} ;POP the task''s CPSR
MSR SPSR_cxsf,R4
LDMFD SP!,{R0-R12,LR,PC}^ ;POP new Task''s context
IRQIsrVect DCD HandleEINT0
;*********************************************************************************************************
; CRITICAL SECTION METHOD 3 FUNCTIONS
;
; Description: Disable/Enable interrupts by preserving the state of interrupts. Generally speaking you
; would store the state of the interrupt disable flag in the local variable 'cpu_sr' and then
; disable interrupts. 'cpu_sr' is allocated in all of uC/OS-II''s functions that need to
; disable interrupts. You would restore the interrupt disable state by copying back 'cpu_sr'
; into the CPU''s status register.
;
; Prototypes : OS_CPU_SR OSCPUSaveSR(void);
; void OSCPURestoreSR(OS_CPU_SR cpu_sr);
;
;
; Note(s) : 1) These functions are used in general like this:
;
; void Task (void *p_arg)
; {
; #if OS_CRITICAL_METHOD == 3 /* Allocate storage for CPU status register */
; OS_CPU_SR cpu_sr;
; #endif
;
; :
; :
; OS_ENTER_CRITICAL(); /* cpu_sr = OSCPUSaveSR(); */
; :
; :
; OS_EXIT_CRITICAL(); /* OSCPURestoreSR(cpu_sr); */
; :
; :
; }
;
; 2) OSCPUSaveSR() is implemented as recommended by Atmel''s application note:
;
; "Disabling Interrupts at Processor Level"
;*********************************************************************************************************
OSCPUSaveSR
MRS R0, CPSR ; Set IRQ and FIQ bits in CPSR to disable all interrupts
ORR R1, R0, #0xC0
MSR CPSR_c, R1
MRS R1, CPSR ; Confirm that CPSR contains the proper interrupt disable flags
AND R1, R1, #0xC0
CMP R1, #0xC0
BNE OSCPUSaveSR ; Not properly disabled (try again)
MOV PC, LR ; Disabled, return the original CPSR contents in R0
OSCPURestoreSR
MSR CPSR_c, R0
MOV PC, LR
END
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