FreeRTOS/Demo/CORTEX_A53_64-bit_UltraScale_MPSoC/RTOSDemo_A53_bsp/psu_cortexa53_0/libsrc/standalone_v6_6/src/asm_vectors.S - third_party/github/FreeRTOS/FreeRTOS-Kernel - Git at Google

 /******************************************************************************
 *
 * Copyright (C) 2014 - 2018 Xilinx, Inc. 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.
 *
 * Use of the Software is limited solely to applications:
 * (a) running on a Xilinx device, or
 * (b) that interact with a Xilinx device through a bus or interconnect.
 *
 * 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
 * XILINX  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.
 *
 * Except as contained in this notice, the name of the Xilinx shall not be used
 * in advertising or otherwise to promote the sale, use or other dealings in
 * this Software without prior written authorization from Xilinx.
 *
 ******************************************************************************/
 /*****************************************************************************/
 /**
 * @file asm_vectors.s
 *
 * This file contains the initial vector table for the Cortex A53 processor
 *
 * <pre>
 * MODIFICATION HISTORY:
 *
 * Ver   Who     Date     Changes
 * ----- ------- -------- ---------------------------------------------------
 * 5.00	pkp	05/21/14 Initial version
 * 6.02  pkp	12/21/16 Added support for floating point access
 * 6.02  pkp	01/22/17 Added support for EL1 non-secure and hypervisor
 *			 baremetal guest
 * 6.4   mus     06/14/17 Fixed bug in IRQInterruptHandler code snippet,
 *                        which checks for the FPEN bit of CPACR_EL1
 * 6.6   mus     01/19/18 Added isb after writing to the cpacr_el1/cptr_el3,
 *                        to ensure enabling/disabling of floating-point unit
 *                        is completed, before any subsequent instruction.
 *
 * </pre>
 *
 * @note
 *
 * None.
 *
 ******************************************************************************/

 #include "bspconfig.h"

 .org 0
 .text

 .globl _boot
 .globl _vector_table

 .globl FIQInterrupt
 .globl IRQInterrupt
 .globl SErrorInterrupt
 .globl SynchronousInterrupt
 .globl FPUStatus

 /*
  * FPUContextSize is the size of the array where floating point registers are
  * stored when required. The default size corresponds to the case when there is no
  * nested interrupt. If there are nested interrupts in application which are using
  * floating point operation, the size of FPUContextSize need to be increased as per
  * requirement
  */

 .set FPUContextSize, 528

 .macro saveregister
 	stp	X0,X1, [sp,#-0x10]!
 	stp	X2,X3, [sp,#-0x10]!
 	stp	X4,X5, [sp,#-0x10]!
 	stp	X6,X7, [sp,#-0x10]!
 	stp	X8,X9, [sp,#-0x10]!
 	stp	X10,X11, [sp,#-0x10]!
 	stp	X12,X13, [sp,#-0x10]!
 	stp	X14,X15, [sp,#-0x10]!
 	stp	X16,X17, [sp,#-0x10]!
 	stp 	X18,X19, [sp,#-0x10]!
 	stp 	X29,X30, [sp,#-0x10]!
 .endm

 .macro restoreregister
 	ldp 	X29,X30, [sp], #0x10
 	ldp 	X18,X19, [sp], #0x10
 	ldp	X16,X17, [sp], #0x10
 	ldp	X14,X15, [sp], #0x10
 	ldp	X12,X13, [sp], #0x10
 	ldp	X10,X11, [sp], #0x10
 	ldp	X8,X9, [sp], #0x10
 	ldp	X6,X7, [sp], #0x10
 	ldp	X4,X5, [sp], #0x10
 	ldp	X2,X3, [sp], #0x10
 	ldp	X0,X1, [sp], #0x10
 .endm

 .macro savefloatregister

 /* Load the floating point context array address from FPUContextBase */
 	ldr	x1,=FPUContextBase
 	ldr	x0, [x1]

 /* Save all the floating point register to the array */
 	stp	q0,q1, [x0], #0x20
 	stp	q2,q3, [x0], #0x20
 	stp	q4,q5, [x0], #0x20
 	stp	q6,q7, [x0], #0x20
 	stp	q8,q9, [x0], #0x20
 	stp	q10,q11, [x0], #0x20
 	stp	q12,q13, [x0], #0x20
 	stp	q14,q15, [x0], #0x20
 	stp	q16,q17, [x0], #0x20
 	stp	q18,q19, [x0], #0x20
 	stp	q20,q21, [x0], #0x20
 	stp	q22,q23, [x0], #0x20
 	stp	q24,q25, [x0], #0x20
 	stp	q26,q27, [x0], #0x20
 	stp	q28,q29, [x0], #0x20
 	stp	q30,q31, [x0], #0x20
 	mrs	x2, FPCR
 	mrs	x3, FPSR
 	stp	x2, x3, [x0], #0x10

 /* Save current address of floating point context array to FPUContextBase */
 	str	x0, [x1]
 .endm

 .macro restorefloatregister

 /* Restore the address of floating point context array from FPUContextBase */
 	ldr	x1,=FPUContextBase
 	ldr	x0, [x1]

 /* Restore all the floating point register from the array */
 	ldp	x2, x3, [x0,#-0x10]!
 	msr	FPCR, x2
 	msr	FPSR, x3
 	ldp	q30,q31, [x0,#-0x20]!
 	ldp	q28,q29, [x0,#-0x20]!
 	ldp	q26,q27, [x0,#-0x20]!
 	ldp	q24,q25, [x0,#-0x20]!
 	ldp	q22,q23, [x0,#-0x20]!
 	ldp	q20,q21, [x0,#-0x20]!
 	ldp	q18,q19, [x0,#-0x20]!
 	ldp	q16,q17, [x0,#-0x20]!
 	ldp	q14,q15, [x0,#-0x20]!
 	ldp	q12,q13, [x0,#-0x20]!
 	ldp	q10,q11, [x0,#-0x20]!
 	ldp	q8,q9, [x0,#-0x20]!
 	ldp	q6,q7, [x0,#-0x20]!
 	ldp	q4,q5, [x0,#-0x20]!
 	ldp	q2,q3, [x0,#-0x20]!
 	ldp	q0,q1, [x0,#-0x20]!

 /* Save current address of floating point context array to FPUContextBase */
 	str	x0, [x1]
 .endm


 .org 0

 .section .vectors, "a"

 _vector_table:
 .set	VBAR, _vector_table
 .org VBAR
 /*
  * if application is built for XEN GUEST as EL1 Non-secure following image
  * header is required by XEN.
  */
 .if (HYP_GUEST == 1)

 	/* Valid Image header.  */
 	/* HW reset vector.  */
 	ldr	x16, =_boot
 	br	x16

 	/* text offset.  */
 	.dword	0
 	/* image size.  */
 	.dword	0
 	/* flags.  */
 	.dword	8
 	/* RES0  */
 	.dword	0
 	.dword	0
 	.dword	0

 	/* magic  */
 	.dword	0x644d5241
 	/* RES0  */
 	.dword	0
 	/* End of Image header.  */
 .endif

 	b	_boot
 .org (VBAR + 0x200)
 	b	SynchronousInterruptHandler

 .org (VBAR + 0x280)
 	b	IRQInterruptHandler

 .org (VBAR + 0x300)
 	b	FIQInterruptHandler

 .org (VBAR + 0x380)
 	b	SErrorInterruptHandler


 SynchronousInterruptHandler:
 	saveregister

 /* Check if the Synchronous abort is occured due to floating point access. */
 .if (EL3 == 1)
 	mrs	x0, ESR_EL3
 .else
 	mrs	x0, ESR_EL1
 .endif
 	and	x0, x0, #(0x3F << 26)
 	mov	x1, #(0x7 << 26)
 	cmp	x0, x1
 /* If exception is not due to floating point access go to synchronous handler */
 	bne	synchronoushandler

 /*
  * If excpetion occured due to floating point access, Enable the floating point
  * access i.e. do not trap floating point instruction
  */
  .if (EL3 == 1)
 	mrs	x1,CPTR_EL3
 	bic	x1, x1, #(0x1<<10)
 	msr	CPTR_EL3, x1
 .else
 	mrs	x1,CPACR_EL1
 	orr	x1, x1, #(0x1<<20)
 	msr	CPACR_EL1, x1
 .endif
 	isb

 /* If the floating point access was previously enabled, store FPU context
  * registers(storefloat).
  */
 	ldr	x0, =FPUStatus
 	ldrb	w1,[x0]
 	cbnz	w1, storefloat
 /*
  * If the floating point access was not enabled previously, save the status of
  * floating point accessibility i.e. enabled and store floating point context
  * array address(FPUContext) to FPUContextBase.
  */
 	mov	w1, #0x1
 	strb	w1, [x0]
 	ldr	x0, =FPUContext
 	ldr	x1, =FPUContextBase
 	str	x0,[x1]
 	b	restorecontext
 storefloat:
 	savefloatregister
 	b	restorecontext
 synchronoushandler:
 	bl	SynchronousInterrupt
 restorecontext:
 	restoreregister
 	eret

 IRQInterruptHandler:

 	saveregister
 /* Save the status of SPSR, ELR and CPTR to stack */
  .if (EL3 == 1)
 	mrs 	x0, CPTR_EL3
 	mrs 	x1, ELR_EL3
 	mrs	x2, SPSR_EL3
 .else
 	mrs 	x0, CPACR_EL1
 	mrs 	x1, ELR_EL1
 	mrs	x2, SPSR_EL1
 .endif
 	stp	x0, x1, [sp,#-0x10]!
 	str	x2, [sp,#-0x10]!

 /* Trap floating point access */
  .if (EL3 == 1)
 	mrs	x1,CPTR_EL3
 	orr	x1, x1, #(0x1<<10)
 	msr	CPTR_EL3, x1
 .else
 	mrs	x1,CPACR_EL1
 	bic	x1, x1, #(0x1<<20)
 	msr	CPACR_EL1, x1
 .endif
 	isb

 	bl	IRQInterrupt
 /*
  * If floating point access is enabled during interrupt handling,
  * restore floating point registers.
  */

  .if (EL3 == 1)
 	mrs	x0, CPTR_EL3
 	ands	x0, x0, #(0x1<<10)
 	bne	RestorePrevState
 .else
 	mrs	x0,CPACR_EL1
 	ands	x0, x0, #(0x1<<20)
 	beq	RestorePrevState
 .endif

 	restorefloatregister

 /* Restore the status of SPSR, ELR and CPTR from stack */
 RestorePrevState:
 	ldr	x2,[sp],0x10
 	ldp	x0, x1, [sp],0x10
  .if (EL3 == 1)
 	msr	CPTR_EL3, x0
 	msr	ELR_EL3, x1
 	msr	SPSR_EL3, x2
 .else
 	msr	CPACR_EL1, x0
 	msr	ELR_EL1, x1
 	msr	SPSR_EL1, x2
 .endif
 	restoreregister
 	eret

 FIQInterruptHandler:

 	saveregister

 	bl	FIQInterrupt

 	restoreregister

 	eret

 SErrorInterruptHandler:

 	saveregister

 	bl      SErrorInterrupt

 	restoreregister

 	eret


 .align 8
 /* Array to store floating point registers */
 FPUContext: .skip FPUContextSize

 /* Stores address for floating point context array */
 FPUContextBase: .skip 8

 FPUStatus: .skip 1

 .end
	/******************************************************************************
	*
	* Copyright (C) 2014 - 2018 Xilinx, Inc. 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.
	*
	* Use of the Software is limited solely to applications:
	* (a) running on a Xilinx device, or
	* (b) that interact with a Xilinx device through a bus or interconnect.
	*
	* 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
	* XILINX 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.
	*
	* Except as contained in this notice, the name of the Xilinx shall not be used
	* in advertising or otherwise to promote the sale, use or other dealings in
	* this Software without prior written authorization from Xilinx.
	*
	******************************************************************************/
	/*****************************************************************************/
	/**
	* @file asm_vectors.s
	*
	* This file contains the initial vector table for the Cortex A53 processor
	*
	* <pre>
	* MODIFICATION HISTORY:
	*
	* Ver Who Date Changes
	* ----- ------- -------- ---------------------------------------------------
	* 5.00 pkp 05/21/14 Initial version
	* 6.02 pkp 12/21/16 Added support for floating point access
	* 6.02 pkp 01/22/17 Added support for EL1 non-secure and hypervisor
	* baremetal guest
	* 6.4 mus 06/14/17 Fixed bug in IRQInterruptHandler code snippet,
	* which checks for the FPEN bit of CPACR_EL1
	* 6.6 mus 01/19/18 Added isb after writing to the cpacr_el1/cptr_el3,
	* to ensure enabling/disabling of floating-point unit
	* is completed, before any subsequent instruction.
	*
	* </pre>
	*
	* @note
	*
	* None.
	*
	******************************************************************************/

	#include "bspconfig.h"

	.org 0
	.text

	.globl _boot
	.globl _vector_table

	.globl FIQInterrupt
	.globl IRQInterrupt
	.globl SErrorInterrupt
	.globl SynchronousInterrupt
	.globl FPUStatus

	/*
	* FPUContextSize is the size of the array where floating point registers are
	* stored when required. The default size corresponds to the case when there is no
	* nested interrupt. If there are nested interrupts in application which are using
	* floating point operation, the size of FPUContextSize need to be increased as per
	* requirement
	*/

	.set FPUContextSize, 528

	.macro saveregister
	stp X0,X1, [sp,#-0x10]!
	stp X2,X3, [sp,#-0x10]!
	stp X4,X5, [sp,#-0x10]!
	stp X6,X7, [sp,#-0x10]!
	stp X8,X9, [sp,#-0x10]!
	stp X10,X11, [sp,#-0x10]!
	stp X12,X13, [sp,#-0x10]!
	stp X14,X15, [sp,#-0x10]!
	stp X16,X17, [sp,#-0x10]!
	stp X18,X19, [sp,#-0x10]!
	stp X29,X30, [sp,#-0x10]!
	.endm

	.macro restoreregister
	ldp X29,X30, [sp], #0x10
	ldp X18,X19, [sp], #0x10
	ldp X16,X17, [sp], #0x10
	ldp X14,X15, [sp], #0x10
	ldp X12,X13, [sp], #0x10
	ldp X10,X11, [sp], #0x10
	ldp X8,X9, [sp], #0x10
	ldp X6,X7, [sp], #0x10
	ldp X4,X5, [sp], #0x10
	ldp X2,X3, [sp], #0x10
	ldp X0,X1, [sp], #0x10
	.endm

	.macro savefloatregister

	/* Load the floating point context array address from FPUContextBase */
	ldr x1,=FPUContextBase
	ldr x0, [x1]

	/* Save all the floating point register to the array */
	stp q0,q1, [x0], #0x20
	stp q2,q3, [x0], #0x20
	stp q4,q5, [x0], #0x20
	stp q6,q7, [x0], #0x20
	stp q8,q9, [x0], #0x20
	stp q10,q11, [x0], #0x20
	stp q12,q13, [x0], #0x20
	stp q14,q15, [x0], #0x20
	stp q16,q17, [x0], #0x20
	stp q18,q19, [x0], #0x20
	stp q20,q21, [x0], #0x20
	stp q22,q23, [x0], #0x20
	stp q24,q25, [x0], #0x20
	stp q26,q27, [x0], #0x20
	stp q28,q29, [x0], #0x20
	stp q30,q31, [x0], #0x20
	mrs x2, FPCR
	mrs x3, FPSR
	stp x2, x3, [x0], #0x10

	/* Save current address of floating point context array to FPUContextBase */
	str x0, [x1]
	.endm

	.macro restorefloatregister

	/* Restore the address of floating point context array from FPUContextBase */
	ldr x1,=FPUContextBase
	ldr x0, [x1]

	/* Restore all the floating point register from the array */
	ldp x2, x3, [x0,#-0x10]!
	msr FPCR, x2
	msr FPSR, x3
	ldp q30,q31, [x0,#-0x20]!
	ldp q28,q29, [x0,#-0x20]!
	ldp q26,q27, [x0,#-0x20]!
	ldp q24,q25, [x0,#-0x20]!
	ldp q22,q23, [x0,#-0x20]!
	ldp q20,q21, [x0,#-0x20]!
	ldp q18,q19, [x0,#-0x20]!
	ldp q16,q17, [x0,#-0x20]!
	ldp q14,q15, [x0,#-0x20]!
	ldp q12,q13, [x0,#-0x20]!
	ldp q10,q11, [x0,#-0x20]!
	ldp q8,q9, [x0,#-0x20]!
	ldp q6,q7, [x0,#-0x20]!
	ldp q4,q5, [x0,#-0x20]!
	ldp q2,q3, [x0,#-0x20]!
	ldp q0,q1, [x0,#-0x20]!

	/* Save current address of floating point context array to FPUContextBase */
	str x0, [x1]
	.endm


	.org 0

	.section .vectors, "a"

	_vector_table:
	.set VBAR, _vector_table
	.org VBAR
	/*
	* if application is built for XEN GUEST as EL1 Non-secure following image
	* header is required by XEN.
	*/
	.if (HYP_GUEST == 1)

	/* Valid Image header. */
	/* HW reset vector. */
	ldr x16, =_boot
	br x16

	/* text offset. */
	.dword 0
	/* image size. */
	.dword 0
	/* flags. */
	.dword 8
	/* RES0 */
	.dword 0
	.dword 0
	.dword 0

	/* magic */
	.dword 0x644d5241
	/* RES0 */
	.dword 0
	/* End of Image header. */
	.endif

	b _boot
	.org (VBAR + 0x200)
	b SynchronousInterruptHandler

	.org (VBAR + 0x280)
	b IRQInterruptHandler

	.org (VBAR + 0x300)
	b FIQInterruptHandler

	.org (VBAR + 0x380)
	b SErrorInterruptHandler


	SynchronousInterruptHandler:
	saveregister

	/* Check if the Synchronous abort is occured due to floating point access. */
	.if (EL3 == 1)
	mrs x0, ESR_EL3
	.else
	mrs x0, ESR_EL1
	.endif
	and x0, x0, #(0x3F << 26)
	mov x1, #(0x7 << 26)
	cmp x0, x1
	/* If exception is not due to floating point access go to synchronous handler */
	bne synchronoushandler

	/*
	* If excpetion occured due to floating point access, Enable the floating point
	* access i.e. do not trap floating point instruction
	*/
	.if (EL3 == 1)
	mrs x1,CPTR_EL3
	bic x1, x1, #(0x1<<10)
	msr CPTR_EL3, x1
	.else
	mrs x1,CPACR_EL1
	orr x1, x1, #(0x1<<20)
	msr CPACR_EL1, x1
	.endif
	isb

	/* If the floating point access was previously enabled, store FPU context
	* registers(storefloat).
	*/
	ldr x0, =FPUStatus
	ldrb w1,[x0]
	cbnz w1, storefloat
	/*
	* If the floating point access was not enabled previously, save the status of
	* floating point accessibility i.e. enabled and store floating point context
	* array address(FPUContext) to FPUContextBase.
	*/
	mov w1, #0x1
	strb w1, [x0]
	ldr x0, =FPUContext
	ldr x1, =FPUContextBase
	str x0,[x1]
	b restorecontext
	storefloat:
	savefloatregister
	b restorecontext
	synchronoushandler:
	bl SynchronousInterrupt
	restorecontext:
	restoreregister
	eret

	IRQInterruptHandler:

	saveregister
	/* Save the status of SPSR, ELR and CPTR to stack */
	.if (EL3 == 1)
	mrs x0, CPTR_EL3
	mrs x1, ELR_EL3
	mrs x2, SPSR_EL3
	.else
	mrs x0, CPACR_EL1
	mrs x1, ELR_EL1
	mrs x2, SPSR_EL1
	.endif
	stp x0, x1, [sp,#-0x10]!
	str x2, [sp,#-0x10]!

	/* Trap floating point access */
	.if (EL3 == 1)
	mrs x1,CPTR_EL3
	orr x1, x1, #(0x1<<10)
	msr CPTR_EL3, x1
	.else
	mrs x1,CPACR_EL1
	bic x1, x1, #(0x1<<20)
	msr CPACR_EL1, x1
	.endif
	isb

	bl IRQInterrupt
	/*
	* If floating point access is enabled during interrupt handling,
	* restore floating point registers.
	*/

	.if (EL3 == 1)
	mrs x0, CPTR_EL3
	ands x0, x0, #(0x1<<10)
	bne RestorePrevState
	.else
	mrs x0,CPACR_EL1
	ands x0, x0, #(0x1<<20)
	beq RestorePrevState
	.endif

	restorefloatregister

	/* Restore the status of SPSR, ELR and CPTR from stack */
	RestorePrevState:
	ldr x2,[sp],0x10
	ldp x0, x1, [sp],0x10
	.if (EL3 == 1)
	msr CPTR_EL3, x0
	msr ELR_EL3, x1
	msr SPSR_EL3, x2
	.else
	msr CPACR_EL1, x0
	msr ELR_EL1, x1
	msr SPSR_EL1, x2
	.endif
	restoreregister
	eret

	FIQInterruptHandler:

	saveregister

	bl FIQInterrupt

	restoreregister

	eret

	SErrorInterruptHandler:

	saveregister

	bl SErrorInterrupt

	restoreregister

	eret


	.align 8
	/* Array to store floating point registers */
	FPUContext: .skip FPUContextSize

	/* Stores address for floating point context array */
	FPUContextBase: .skip 8

	FPUStatus: .skip 1

	.end