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a5046e83c7
This is a general cleanup of things like code style issues and code structure of the STM32w port to make it more like the rest of Contiki is structured.
159 lines
7.8 KiB
Plaintext
159 lines
7.8 KiB
Plaintext
//------------------------------------------------------------------------------
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// @file hal/micro/cortexm3/context-switch.s79
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// @brief Context save/restore for deep sleep using the PendSV exception.
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//
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// This file also contains a simple halInternalIdleSleep() function that
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// executes just the WFI instruction for idle sleeping.
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//
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// When the STM32W108XX enters deep sleep, the hardware will actually remove power
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// from the Cortex-M3 core (in Deep Sleep 0, power is not removed but the core
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// is held in reset). Since this will clear the internal state of the core, it
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// must be properly restored such that execution can resume from the sleep code.
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// The simplest and most secure mechanism to do this is to perform a context save
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// and restore. Context save/restore is almost identical to a context switch
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// used in multi-threaded systems with the main difference being only one stack
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// pointer is used and the save/restore operations are disjoint.
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//
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// When an interrupt is triggered in the STM32W108XX, the core automatically saves 8
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// of the 16 CPU registers on the stack. The ISR then only needs to save the
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// other 8 registers and store the resulting stack pointer. Restoring is the
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// reverse operation where 8 registers are manually copied back with the other 8
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// being restored on the return from interrupt.
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//
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// As its last act, the deep sleep code will trigger the PendSV exception to
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// perform a context save. When the core is booted upon deep sleep exit, the
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// RESET_EVENT register informs cstartup if the chip just exited deep sleep.
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// Cstartup will then trigger halTriggerContextRestore which sets up the stack
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// pointer and trigger the PendSV exception to perform a restore. When PendSV
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// returns from interrupt context the system will be back at the same point it
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// was before deep sleep.
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//
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//
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// <!--(C) COPYRIGHT 2010 STMicroelectronics. All rights reserved. -->
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//------------------------------------------------------------------------------
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#include "compiler/asm.h"
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//------------------------------------------------------------------------------
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// boolean halPendSvSaveContext
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//
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// A simple boolean flag used to indicate if a context save or a context restore
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// should be performed. Since context switching is handled with the PendSV
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// interrupt, parameters cannot be passed into the ISR and as such this boolean
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// flag is used. If this flag is zero, PendSV should perform a context restore.
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// If this flag is non-zero, PendSV should perform a context save.
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// Note: The smallest unit of storage is a single byte.
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//
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// NOTE: This flag must be set before PendSV is triggered!
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//------------------------------------------------------------------------------
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__BSS__
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__EXPORT__ halPendSvSaveContext
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halPendSvSaveContext:
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__SPACE__ 1
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//------------------------------------------------------------------------------
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// uint32_t savedMSP
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//
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// Private storage to hold the saved stack pointer. This variable is only used
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// in this file and should not be extern'ed. In our current design we
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// do not use real context switching, but only context saving and restoring.
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// As such, we only need to keep track of the Main Stack Pointer (MSP). This
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// variable is used to hold the MSP between a save and a restore.
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//------------------------------------------------------------------------------
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__BSS__
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__EXPORT__ savedMSP
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savedMSP:
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__SPACE__ 4
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//------------------------------------------------------------------------------
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// void halPendSvIsr(void)
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//
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// This ISR is installed by cstartup in the vector table for the PendSV
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// exception. The purpose of this ISR is to either save the current context
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// and trigger sleeping through the 'WFI' instruction, or restore a
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// previous context. The variable halPendSvSaveContext is used to
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// decide if a save or a restore is performed. Since entering/exiting interrupt
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// context automatically saves/restores 8 of the 16 CPU registers on the stack
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// we need to manually save the other 8 onto the stack as well.
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//
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// When a context save is complete, the stack will have been expanded by 16
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// words with the current Stack Pointer stored in savedMSP.
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//
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// When a context restore is complete, the stack will have been shrunk by 16
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// words with the old context restored after the return instruction.
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//
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// NOTE: The IAR default handler name for PendSV, PendSV_Handler, is also
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// instantiated here so it routes to the same code as the St
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// name halPendSvIsr.
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//------------------------------------------------------------------------------
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__CODE__
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__THUMB__
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__EXPORT__ PendSV_Handler
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__EXPORT__ halPendSvIsr
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PendSV_Handler:
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halPendSvIsr:
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LDR R0, =halPendSvSaveContext //load the variable's address
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LDRB R0, [R0] //get the value in the variable
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CBZ R0, contextRestore //if variable is zero, branch to contextRestore
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contextSave:
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MRS R0, MSP //load the main stack pointer into R0
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SUB R0, R0, #0x20 //make room on the stack for 8 words (32 bytes)
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MSR MSP, R0 //load new MSP from adjusted stack pointer
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STM R0, {R4-R11} //store R4-R11 (8 words) onto the stack
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LDR R1, =savedMSP //load address of savedMSP into R1
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STR R0, [R1] //store the MSP into savedMSP
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WFI //all saved, trigger deep sleep
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// Even if we fall through the WFI instruction, we will immediately
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// execute a context restore and end up where we left off with no
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// ill effects. Normally at this point the core will either be
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// powered off or reset (depending on the deep sleep level).
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contextRestore:
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LDR R0, =savedMSP //load address of savedMSP into R0
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LDR R0, [R0] //load the MSP from savedMSP
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LDM R0, {R4-R11} //load R4-R11 (8 words) from the stack
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ADD R0, R0, #0x20 //eliminate the 8 words (32 bytes) from the stack
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MSR MSP, R0 //restore the MSP from R0
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BX LR //return to the old context
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//------------------------------------------------------------------------------
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// void halTriggerContextRestore(void)
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//
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// Cstartup is responsible for triggering a context restore based upon the
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// RESET_EVENT register. Since the stack pointer sits at the top of memory
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// after the core boots, cstartup cannot simply trigger a PendSV to restore
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// context as this will cause existing stack data to be over written. Cstartup
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// disables interrupts, pends PendSV, and then calls this function. This
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// function simply configures the Stack Pointer to be past the previous data
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// such that when interrupts are enabled and PendSV fires it wont corrupt
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// previous data.
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//------------------------------------------------------------------------------
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__CODE__
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__THUMB__
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__EXPORT__ halTriggerContextRestore
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halTriggerContextRestore:
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LDR R0, =savedMSP //load address of savedMSP into R0
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LDR R0, [R0] //load the MSP from savedMSP
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MSR MSP, R0 //restore the MSP from R0
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CPSIE i //enable interrupts and let PendSV fire
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BX LR //this return should never be triggered
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//------------------------------------------------------------------------------
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// void halInternalIdleSleep(void)
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//
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// A simple internal function call (to be called from halSleep) for executing
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// the WFI instruction and entering the simple, idle sleep state.
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//------------------------------------------------------------------------------
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__CODE__
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__THUMB__
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__EXPORT__ halInternalIdleSleep
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halInternalIdleSleep:
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WFI //trigger idle sleep
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BX LR //return
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__END__
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