portable/ThirdParty/GCC/ARC_v1/arc_support.s - third_party/github/FreeRTOS/FreeRTOS-Kernel - Git at Google

 /*
  * FreeRTOS Kernel <DEVELOPMENT BRANCH>
  * Copyright (C) 2020 Synopsys, Inc. or its affiliates.  All Rights Reserved.
  *
  * Permission is hereby granted, free of charge, to any person obtaining a copy of
  * this software and associated documentation files (the "Software"), to deal in
  * the Software without restriction, including without limitation the rights to
  * use, copy, modify, merge, publish, distribute, sublicense, and/or sell copies of
  * the Software, and to permit persons to whom the Software is furnished to do so,
  * subject to the following conditions:
  *
  * The above copyright notice and this permission notice shall be included in all
  * copies or substantial portions of the Software.
  *
  * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
  * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS
  * FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR
  * COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER
  * IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN
  * CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.
  *
  * https://www.FreeRTOS.org
  * https://github.com/FreeRTOS
  *
  * 1 tab == 4 spaces!
  */

 /**
  * \file
  * \ingroup OS_FREERTOS
  * \brief  freertos support for arc processor
  *	like task dispatcher, interrupt handler
  */
 /** @cond OS_FREERTOS_ASM_ARC_SUPPORT */

 /*
  * core-dependent part in assemble language (for arc)
  */
 #define __ASSEMBLY__
 #include "arc/arc.h"
 #include "arc/arc_asm_common.h"

 /*
  *  task dispatcher
  *
  */
 	.text
 	.align 4
 	.global dispatch
 dispatch:
 /*
  *  the pre-conditions of this routine are task context, CPU is
  *  locked, dispatch is enabled.
  */
 	SAVE_NONSCRATCH_REGS		/* save callee save registers */
 	mov	r1, dispatch_r
 	PUSH	r1			/* save return address */
 	ld	r0, [pxCurrentTCB]
 	bl	dispatcher

 /* return routine when task dispatch happened in task context */
 dispatch_r:
 	RESTORE_NONSCRATCH_REGS		/* recover registers */
 	j	[blink]

 /*
  *  start dispatch
  */
 	.global start_dispatch
 	.align 4
 start_dispatch:
 /*
  *  this routine is called in the non-task context during the startup of the kernel
  *  , and all the interrupts are locked.
  *
  *  when the dispatcher is called, the cpu is locked, no nest exception (CPU exception/interrupt).
  *  In target_initialize, all interrupt priority mask should be cleared, cpu should be
  *  locked, the interrupts outside the kernel such as fiq can be
  *  enabled.
  */
 	clri
 	mov	r0, 0
 	st	r0, [exc_nest_count]
 	b	dispatcher_0
 /*
  *  dispatcher
  */
 dispatcher:
 	ld	r1, [ulCriticalNesting]
 	PUSH	r1			/* save critical nesting */
 	st	sp, [r0]		/* save stack pointer of current task, r0->pxCurrentTCB */
 	jl	vTaskSwitchContext	/* change the value of pxCurrentTCB */
 /*
  *  before dispatcher is called, task context | cpu locked | dispatch enabled
  *  should be satisfied. In this routine, the processor will jump
  *  into the entry of next to run task
  *
  *  i.e. kernel mode, IRQ disabled, dispatch enabled
  */
 dispatcher_0:
 	ld	r1, [pxCurrentTCB]
 	ld	sp, [r1]	/* recover task stack */
 #if ARC_FEATURE_STACK_CHECK
 	lr r0, [AUX_STATUS32]
 	bclr r0, r0, AUX_STATUS_BIT_SC
 	flag r0
 	jl	vPortSetStackCheck
 	lr r0, [AUX_STATUS32]
 	bset r0, r0, AUX_STATUS_BIT_SC
 	flag r0
 #endif
 	POP	r0		/* get critical nesting */
 	st	r0, [ulCriticalNesting]
 	POP	r0		/* get return address  */
 	j	[r0]

 /*
  *  task startup routine
  *
  */
 	.text
 	.global start_r
 	.align 4
 start_r:
 	seti	/* unlock cpu */
 	mov	blink, vPortEndTask	/* set return address */
 	POP	r1			/* get task function body */
 	POP	r0			/* get task parameters */
 	j	[r1]

 /****** exceptions and interrupts handing ******/
 /****** entry for exception handling ******/
 	.global exc_entry_cpu
 	.align 4
 exc_entry_cpu:

 	EXCEPTION_PROLOGUE


 	mov	blink,	sp
 	mov	r3, sp		/* as exception handler's para(p_excinfo) */

 	ld	r1, [exc_nest_count]
 	add	r1, r1, 1
 	st	r1, [exc_nest_count]
 	brne	r1, 0, exc_handler_1
 /* change to exception stack if interrupt happened in task context */
 	mov	sp, _e_stack
 exc_handler_1:
 	PUSH	blink

 /* find the exception cause */
 #if ARC_FEATURE_CORE_700
 	lr	r0, [AUX_ECR]
 	lsr	r0, r0, 16
 	bmsk	r0, r0, 7
 #endif
 	mov	r1, exc_int_handler_table
 	ld.as	r2, [r1, r0]

 	mov	r0, r3
 	jl	[r2]		/* !!!!jump to exception handler where interrupts are not allowed! */

 /* interrupts are not allowed */
 ret_exc:
 	POP	sp
 	mov	r1, exc_nest_count
 	ld	r0, [r1]
 	sub	r0, r0, 1
 	st 	r0, [r1]
 	brne	r0, 0, ret_exc_1  /* nested exception case */
 	lr	r1, [AUX_IRQ_LV12]
 	brne	r1, 0, ret_exc_1  /* nested or pending interrupt case */

 	ld	r0, [context_switch_reqflg]
 	brne	r0, 0, ret_exc_2
 ret_exc_1:	/* return from non-task context, interrupts or exceptions are nested */

 	EXCEPTION_EPILOGUE
 #if ARC_FEATURE_CORE_600
 	rtie ilink2
 #else
 	rtie
 #endif

 /* there is a dispatch request */
 ret_exc_2:
 	/* clear dispatch request */
 	mov	r0, 0
 	st	r0, [context_switch_reqflg]

 	ld	r0, [pxCurrentTCB]
 	breq	r0, 0, ret_exc_1

 	SAVE_CALLEE_REGS	/* save callee save registers */

 	lr	r0, [AUX_STATUS32]
 	bclr	r0, r0, AUX_STATUS_BIT_AE	/* clear exception bit */
 	flag	r0

 	mov	r1, ret_exc_r	/* save return address */
 	PUSH	r1

 	bl	dispatcher	/* r0->pxCurrentTCB */

 ret_exc_r:
 	/* recover exception status */
 	lr	r0, [AUX_STATUS32]
 	bset	r0, r0, AUX_STATUS_BIT_AE
 	flag	r0

 	RESTORE_CALLEE_REGS	/* recover registers */
 	EXCEPTION_EPILOGUE
 #if ARC_FEATURE_CORE_600
 	rtie ilink2
 #else
 	rtie
 #endif

 /****** entry for normal interrupt exception handling ******/
 	.global exc_entry_int	/* entry for interrupt handling */
 	.align 4
 exc_entry_int:

 	INTERRUPT_PROLOGUE

 	mov	blink, sp

 	/* disable interrupt */
 	push r0
 	lr  r0, [AUX_STATUS32]
 	push r0
     bclr r0, r0, AUX_STATUS_BIT_E1
     bclr r0, r0, AUX_STATUS_BIT_E2
     flag r0
 	ld	r3, [exc_nest_count]
 	add	r2, r3, 1
 	st	r2, [exc_nest_count]
 	/* enable interrupt */
 	pop r0
 	flag r0
 	pop r0

 	brne	r3, 0, irq_handler_1
 /* change to exception stack if interrupt happened in task context */
 	mov	sp, _e_stack
 #if ARC_FEATURE_STACK_CHECK
 	lr r0, [AUX_STATUS32]
 	bclr r0, r0, AUX_STATUS_BIT_SC
 	flag r0
 #endif
 irq_handler_1:
 	PUSH	blink

 /* critical area */
 #if ARC_FEATURE_CORE_700
 	lr	r0, [AUX_IRQ_CAUSE1]
 #endif
 	mov	r1, exc_int_handler_table
 	ld.as	r2, [r1, r0]	/* r2 = exc_int_handler_table + irqno *4 */
 /* handle software triggered interrupt */
 	lr	r3, [AUX_IRQ_HINT]
 	cmp	r3, r0
 	bne.d irq_hint_handled
 	xor	r3, r3, r3
 	sr	r3, [AUX_IRQ_HINT]
 irq_hint_handled:

 	jl	[r2]		/* jump to interrupt handler */
 /* no interrupts are allowed from here */
 ret_int:
 	clri	/* disable interrupt */

 	POP	sp
 	mov	r1, exc_nest_count
 	ld	r0, [r1]
 	sub	r0, r0, 1
 	st	r0, [r1]
 /* if there are multi-bits set in IRQ_LV12, it's still in nest interrupt */
 	lr	r1, [AUX_IRQ_LV12]

 	ld	r0, [context_switch_reqflg]
 	brne	r0, 0, ret_int_2
 ret_int_1:	/* return from non-task context */
 	INTERRUPT_EPILOGUE
 #if ARC_FEATURE_CORE_600
 /* TODO: series 600 IRQ6 and IRQ7 uses ilink2 */
 	rtie ilink1
 #else
 	rtie
 #endif
 /* there is a dispatch request */
 ret_int_2:
 	/* clear dispatch request */
 	mov	r0, 0
 	st	r0, [context_switch_reqflg]

 	ld	r0, [pxCurrentTCB]
 	breq 	r0, 0, ret_int_1

 /* r1 has old AUX_IRQ_LV12 */
 	PUSH	r1
 /* clear related bits in IRQ_ACT manually to simulate a irq return  */

 	SAVE_CALLEE_REGS	/* save callee save registers */
 	mov	r1, ret_int_r	/* save return address */
 	PUSH	r1

 	bl	dispatcher	/* r0->pxCurrentTCB */

 ret_int_r:
 	RESTORE_CALLEE_REGS	/* recover registers */
 	POPAX	AUX_IRQ_LV12
 	INTERRUPT_EPILOGUE
 #if ARC_FEATURE_CORE_600
 	rtie ilink1
 #else
 	rtie
 #endif

 /** @endcond */
	/*
	* FreeRTOS Kernel <DEVELOPMENT BRANCH>
	* Copyright (C) 2020 Synopsys, Inc. or its affiliates. All Rights Reserved.
	*
	* Permission is hereby granted, free of charge, to any person obtaining a copy of
	* this software and associated documentation files (the "Software"), to deal in
	* the Software without restriction, including without limitation the rights to
	* use, copy, modify, merge, publish, distribute, sublicense, and/or sell copies of
	* the Software, and to permit persons to whom the Software is furnished to do so,
	* subject to the following conditions:
	*
	* The above copyright notice and this permission notice shall be included in all
	* copies or substantial portions of the Software.
	*
	* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
	* IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS
	* FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR
	* COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER
	* IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN
	* CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.
	*
	* https://www.FreeRTOS.org
	* https://github.com/FreeRTOS
	*
	* 1 tab == 4 spaces!
	*/

	/**
	* \file
	* \ingroup OS_FREERTOS
	* \brief freertos support for arc processor
	* like task dispatcher, interrupt handler
	*/
	/** @cond OS_FREERTOS_ASM_ARC_SUPPORT */

	/*
	* core-dependent part in assemble language (for arc)
	*/
	#define __ASSEMBLY__
	#include "arc/arc.h"
	#include "arc/arc_asm_common.h"

	/*
	* task dispatcher
	*
	*/
	.text
	.align 4
	.global dispatch
	dispatch:
	/*
	* the pre-conditions of this routine are task context, CPU is
	* locked, dispatch is enabled.
	*/
	SAVE_NONSCRATCH_REGS /* save callee save registers */
	mov r1, dispatch_r
	PUSH r1 /* save return address */
	ld r0, [pxCurrentTCB]
	bl dispatcher

	/* return routine when task dispatch happened in task context */
	dispatch_r:
	RESTORE_NONSCRATCH_REGS /* recover registers */
	j [blink]

	/*
	* start dispatch
	*/
	.global start_dispatch
	.align 4
	start_dispatch:
	/*
	* this routine is called in the non-task context during the startup of the kernel
	* , and all the interrupts are locked.
	*
	* when the dispatcher is called, the cpu is locked, no nest exception (CPU exception/interrupt).
	* In target_initialize, all interrupt priority mask should be cleared, cpu should be
	* locked, the interrupts outside the kernel such as fiq can be
	* enabled.
	*/
	clri
	mov r0, 0
	st r0, [exc_nest_count]
	b dispatcher_0
	/*
	* dispatcher
	*/
	dispatcher:
	ld r1, [ulCriticalNesting]
	PUSH r1 /* save critical nesting */
	st sp, [r0] /* save stack pointer of current task, r0->pxCurrentTCB */
	jl vTaskSwitchContext /* change the value of pxCurrentTCB */
	/*
	* before dispatcher is called, task context \| cpu locked \| dispatch enabled
	* should be satisfied. In this routine, the processor will jump
	* into the entry of next to run task
	*
	* i.e. kernel mode, IRQ disabled, dispatch enabled
	*/
	dispatcher_0:
	ld r1, [pxCurrentTCB]
	ld sp, [r1] /* recover task stack */
	#if ARC_FEATURE_STACK_CHECK
	lr r0, [AUX_STATUS32]
	bclr r0, r0, AUX_STATUS_BIT_SC
	flag r0
	jl vPortSetStackCheck
	lr r0, [AUX_STATUS32]
	bset r0, r0, AUX_STATUS_BIT_SC
	flag r0
	#endif
	POP r0 /* get critical nesting */
	st r0, [ulCriticalNesting]
	POP r0 /* get return address */
	j [r0]

	/*
	* task startup routine
	*
	*/
	.text
	.global start_r
	.align 4
	start_r:
	seti /* unlock cpu */
	mov blink, vPortEndTask /* set return address */
	POP r1 /* get task function body */
	POP r0 /* get task parameters */
	j [r1]

	/**** exceptions and interrupts handing ****/
	/**** entry for exception handling ****/
	.global exc_entry_cpu
	.align 4
	exc_entry_cpu:

	EXCEPTION_PROLOGUE


	mov blink, sp
	mov r3, sp /* as exception handler's para(p_excinfo) */

	ld r1, [exc_nest_count]
	add r1, r1, 1
	st r1, [exc_nest_count]
	brne r1, 0, exc_handler_1
	/* change to exception stack if interrupt happened in task context */
	mov sp, _e_stack
	exc_handler_1:
	PUSH blink

	/* find the exception cause */
	#if ARC_FEATURE_CORE_700
	lr r0, [AUX_ECR]
	lsr r0, r0, 16
	bmsk r0, r0, 7
	#endif
	mov r1, exc_int_handler_table
	ld.as r2, [r1, r0]

	mov r0, r3
	jl [r2] /* !!!!jump to exception handler where interrupts are not allowed! */

	/* interrupts are not allowed */
	ret_exc:
	POP sp
	mov r1, exc_nest_count
	ld r0, [r1]
	sub r0, r0, 1
	st r0, [r1]
	brne r0, 0, ret_exc_1 /* nested exception case */
	lr r1, [AUX_IRQ_LV12]
	brne r1, 0, ret_exc_1 /* nested or pending interrupt case */

	ld r0, [context_switch_reqflg]
	brne r0, 0, ret_exc_2
	ret_exc_1: /* return from non-task context, interrupts or exceptions are nested */

	EXCEPTION_EPILOGUE
	#if ARC_FEATURE_CORE_600
	rtie ilink2
	#else
	rtie
	#endif

	/* there is a dispatch request */
	ret_exc_2:
	/* clear dispatch request */
	mov r0, 0
	st r0, [context_switch_reqflg]

	ld r0, [pxCurrentTCB]
	breq r0, 0, ret_exc_1

	SAVE_CALLEE_REGS /* save callee save registers */

	lr r0, [AUX_STATUS32]
	bclr r0, r0, AUX_STATUS_BIT_AE /* clear exception bit */
	flag r0

	mov r1, ret_exc_r /* save return address */
	PUSH r1

	bl dispatcher /* r0->pxCurrentTCB */

	ret_exc_r:
	/* recover exception status */
	lr r0, [AUX_STATUS32]
	bset r0, r0, AUX_STATUS_BIT_AE
	flag r0

	RESTORE_CALLEE_REGS /* recover registers */
	EXCEPTION_EPILOGUE
	#if ARC_FEATURE_CORE_600
	rtie ilink2
	#else
	rtie
	#endif

	/**** entry for normal interrupt exception handling ****/
	.global exc_entry_int /* entry for interrupt handling */
	.align 4
	exc_entry_int:

	INTERRUPT_PROLOGUE

	mov blink, sp

	/* disable interrupt */
	push r0
	lr r0, [AUX_STATUS32]
	push r0
	bclr r0, r0, AUX_STATUS_BIT_E1
	bclr r0, r0, AUX_STATUS_BIT_E2
	flag r0
	ld r3, [exc_nest_count]
	add r2, r3, 1
	st r2, [exc_nest_count]
	/* enable interrupt */
	pop r0
	flag r0
	pop r0

	brne r3, 0, irq_handler_1
	/* change to exception stack if interrupt happened in task context */
	mov sp, _e_stack
	#if ARC_FEATURE_STACK_CHECK
	lr r0, [AUX_STATUS32]
	bclr r0, r0, AUX_STATUS_BIT_SC
	flag r0
	#endif
	irq_handler_1:
	PUSH blink

	/* critical area */
	#if ARC_FEATURE_CORE_700
	lr r0, [AUX_IRQ_CAUSE1]
	#endif
	mov r1, exc_int_handler_table
	ld.as r2, [r1, r0] /* r2 = exc_int_handler_table + irqno 4 /
	/* handle software triggered interrupt */
	lr r3, [AUX_IRQ_HINT]
	cmp r3, r0
	bne.d irq_hint_handled
	xor r3, r3, r3
	sr r3, [AUX_IRQ_HINT]
	irq_hint_handled:

	jl [r2] /* jump to interrupt handler */
	/* no interrupts are allowed from here */
	ret_int:
	clri /* disable interrupt */

	POP sp
	mov r1, exc_nest_count
	ld r0, [r1]
	sub r0, r0, 1
	st r0, [r1]
	/* if there are multi-bits set in IRQ_LV12, it's still in nest interrupt */
	lr r1, [AUX_IRQ_LV12]

	ld r0, [context_switch_reqflg]
	brne r0, 0, ret_int_2
	ret_int_1: /* return from non-task context */
	INTERRUPT_EPILOGUE
	#if ARC_FEATURE_CORE_600
	/* TODO: series 600 IRQ6 and IRQ7 uses ilink2 */
	rtie ilink1
	#else
	rtie
	#endif
	/* there is a dispatch request */
	ret_int_2:
	/* clear dispatch request */
	mov r0, 0
	st r0, [context_switch_reqflg]

	ld r0, [pxCurrentTCB]
	breq r0, 0, ret_int_1

	/* r1 has old AUX_IRQ_LV12 */
	PUSH r1
	/* clear related bits in IRQ_ACT manually to simulate a irq return */

	SAVE_CALLEE_REGS /* save callee save registers */
	mov r1, ret_int_r /* save return address */
	PUSH r1

	bl dispatcher /* r0->pxCurrentTCB */

	ret_int_r:
	RESTORE_CALLEE_REGS /* recover registers */
	POPAX AUX_IRQ_LV12
	INTERRUPT_EPILOGUE
	#if ARC_FEATURE_CORE_600
	rtie ilink1
	#else
	rtie
	#endif

	/** @endcond */