arch/xtensa/core/crt1.S - third_party/github/zephyrproject-rtos/zephyr - Git at Google

 /*
  * Copyright (c) 2016 Cadence Design Systems, Inc.
  * SPDX-License-Identifier: Apache-2.0
  */

 /*
  * Control arrives here at _start from the reset vector or from crt0-app.S.
  */

 #include <xtensa/coreasm.h>

 /* Exports */
 .global _start

 /*
  * Imports
  *   __stack			from linker script (see LSP Ref Manual)
  *   _bss_table_start		from linker script (see LSP Ref Manual)
  *   _bss_table_end		from linker script (see LSP Ref Manual)
  *   z_cstart		Entry point into Zephyr C domain
  *   __stack		from linker script (see LSP Ref Manual)
  */

 .global __start
 .type	z_cstart, @function
 .type	z_mp_entry, @function


 /* Macros to abstract away ABI differences */

 #if __XTENSA_CALL0_ABI__
 # define CALL	call0
 # define CALLX	callx0
 # define ARG1	a2	/* 1st outgoing call argument */
 # define ARG2	a3	/* 2nd outgoing call argument */
 # define ARG3	a4	/* 3rd outgoing call argument */
 # define ARG4	a5	/* 4th outgoing call argument */
 # define ARG5	a6	/* 5th outgoing call argument */
 #else
 # define CALL	call4
 # define CALLX	callx4
 # define ARG1	a6	/* 1st outgoing call argument */
 # define ARG2	a7	/* 2nd outgoing call argument */
 # define ARG3	a8	/* 3rd outgoing call argument */
 # define ARG4	a9	/* 4th outgoing call argument */
 # define ARG5	a10	/* 5th outgoing call argument */
 #endif

 	.text
 	.align 4

 _start:
 	/*
 	 *  _start is typically NOT at the beginning of the text segment --
 	 *  it is always called from either the reset vector (__start) or other
 	 *  code that does equivalent initialization (such as crt0-app.S).
 	 *
 	 *  Assumptions on entry to _start:
 	 *	- low (level-one) and medium priority interrupts are disabled
 	 *	  via PS.INTLEVEL and/or INTENABLE
 	 *	- C calling context not initialized:
 	 *	  - PS not initialized
 	 *	  - SP not initialized
 	 *	- the following are initialized:
 	 *	  - LITBASE, cache attributes, WindowBase, WindowStart,
 	 *	    CPENABLE, FP's FCR and FSR, EXCSAVE[n]

 	 * Keep a0 zero.  It is used to initialize a few things.
 	 * It is also the return address, where zero indicates
 	 * that the frame used by _start is the bottommost frame.
 	 *
 	 */
 /* not needed for Xtensa TX */
 #if !XCHAL_HAVE_HALT || !XCHAL_HAVE_BOOTLOADER
 	movi	a0, 0		 /* keep this register zero. */
 #endif

 	/*
 	 * Initialize the stack pointer.
 	 * See the "ABI and Software Conventions" chapter in the
 	 * Xtensa ISA Reference manual for details.
 	 *
 	 * NOTE: Because the _start routine does not use any memory in its
 	 * stack frame, and because all of its CALL instructions use a
 	 * window size of 4, the stack frame for _start can be empty.
 	 */
 	movi	sp, __stack

 	/*
 	 *  Now that sp (a1) is set, we can set PS as per the application (user
 	 *  vector mode, disable interrupts, enable window exceptions if
 	 *  applicable).
 	 */
 #if XCHAL_HAVE_EXCEPTIONS
 # ifdef __XTENSA_CALL0_ABI__
 	/*
 	 * PS.WOE = 0
 	 * PS.UM = 1
 	 * PS.EXCM = 0
 	 * PS.INTLEVEL = XCHAL_EXCM_LEVEL
 	 */
 	movi	a3, PS_UM|PS_INTLEVEL(XCHAL_EXCM_LEVEL)
 # else
 	/*
 	 * PS.WOE = 1
 	 * PS.UM = 1
 	 * PS.EXCM = 0
 	 * PS.INTLEVEL = XCHAL_EXCM_LEVEL
 	 */
 	movi	a3, PS_UM|PS_WOE|PS_INTLEVEL(XCHAL_EXCM_LEVEL)
 # endif
 	wsr	a3, PS
 	rsync
 #endif


 	/*
 	 *  Do any initialization that affects the memory map, such as
 	 *  setting up TLB entries, that needs to be done before we can
 	 *  successfully clear BSS (e.g. if some BSS segments are in
 	 *  remapped areas).
 	 *
 	 *  NOTE:  This hook works where the reset vector does not unpack
 	 *  segments (see "ROM packing" in the LSP manual), or where
 	 *  unpacking of segments is not affected by memory remapping.
 	 *  If ROM unpacking is affected, TLB setup must be done in
 	 *  assembler from the reset vector.
 	 *
 	 *  The __memmap_init() routine can be a C function, however it
 	 *  does not have BSS initialized!  In particular, __memmap_init()
 	 *  cannot set BSS variables, i.e. uninitialized global variables
 	 *  (they'll be wiped out by the following BSS clear), nor can it
 	 *  assume they are yet initialized to zero.
 	 *
 	 *  The __memmap_init() function is optional.  It is marked as a
 	 *  weak symbol, so that it gets valued zero if not defined.
 	 */
 	.weak	__memmap_init
 	movi	a4, __memmap_init
 	beqz	a4, 1f
 	CALLX	a4
 1:

 #if !XCHAL_HAVE_BOOTLOADER	/* boot loader takes care of zeroing BSS */

 # ifdef __XTENSA_CALL0_ABI__
 	/* Clear a0 again as possible CALLX to __memmap_init changed it. */
 	movi	a0, 0
 # endif

 	/*
 	 *  Clear the BSS (uninitialized data) segments.
 	 *  This code supports multiple zeroed sections (*.bss).
 	 *
 	 *  Register allocation:
 	 *	a0 = 0
 	 *	a6 = pointer to start of table, and through table
 	 *	a7 = pointer to end of table
 	 *	a8 = start address of bytes to be zeroed
 	 *	a9 = end address of bytes to be zeroed
 	 *	a10 = length of bytes to be zeroed
 	 */
 	movi 	a6, _bss_table_start
 	movi 	a7, _bss_table_end
 	bgeu  	a6, a7, .L3zte

 .L0zte:	l32i 	a8, a6, 0	/* get start address, assumed multiple of 4 */
 	l32i 	a9, a6, 4	/* get end address, assumed multiple of 4 */
 	addi   	a6, a6, 8	/* next entry */
 	sub	a10, a9, a8	/* a10 = length, assumed a multiple of 4 */
 	bbci.l	a10, 2, .L1zte
 	s32i	a0, a8, 0	/* clear 4 bytes to make len multiple of 8 */
 	addi	a8, a8, 4
 .L1zte:	bbci.l	a10, 3, .L2zte
 	s32i	a0, a8, 0	/* clear 8 bytes to make len multiple of 16 */
 	s32i	a0, a8, 4
 	addi	a8, a8, 8
 .L2zte:	srli	a10, a10, 4	/* len is now multiple of 16, divide by 16 */
 	floopnez	a10, clearzte
 	s32i	a0, a8,	 0	/* clear 16 bytes at a time... */
 	s32i	a0, a8,	 4
 	s32i	a0, a8,	 8
 	s32i	a0, a8, 12
 	addi	a8, a8, 16
 	floopend	a10, clearzte

 	bltu  	a6, a7, .L0zte	/* loop until end of table of *.bss sections */
 .L3zte:

 #endif /* !XCHAL_HAVE_BOOTLOADER */

 	/* Enter C domain, never returns from here */
 	CALL	z_cstart

 	.size	_start, . - _start
	/*
	* Copyright (c) 2016 Cadence Design Systems, Inc.
	* SPDX-License-Identifier: Apache-2.0
	*/

	/*
	* Control arrives here at _start from the reset vector or from crt0-app.S.
	*/

	#include <xtensa/coreasm.h>

	/* Exports */
	.global _start

	/*
	* Imports
	* __stack from linker script (see LSP Ref Manual)
	* _bss_table_start from linker script (see LSP Ref Manual)
	* _bss_table_end from linker script (see LSP Ref Manual)
	* z_cstart Entry point into Zephyr C domain
	* __stack from linker script (see LSP Ref Manual)
	*/

	.global __start
	.type z_cstart, @function
	.type z_mp_entry, @function


	/* Macros to abstract away ABI differences */

	#if __XTENSA_CALL0_ABI__
	# define CALL call0
	# define CALLX callx0
	# define ARG1 a2 /* 1st outgoing call argument */
	# define ARG2 a3 /* 2nd outgoing call argument */
	# define ARG3 a4 /* 3rd outgoing call argument */
	# define ARG4 a5 /* 4th outgoing call argument */
	# define ARG5 a6 /* 5th outgoing call argument */
	#else
	# define CALL call4
	# define CALLX callx4
	# define ARG1 a6 /* 1st outgoing call argument */
	# define ARG2 a7 /* 2nd outgoing call argument */
	# define ARG3 a8 /* 3rd outgoing call argument */
	# define ARG4 a9 /* 4th outgoing call argument */
	# define ARG5 a10 /* 5th outgoing call argument */
	#endif

	.text
	.align 4

	_start:
	/*
	* _start is typically NOT at the beginning of the text segment --
	* it is always called from either the reset vector (__start) or other
	* code that does equivalent initialization (such as crt0-app.S).
	*
	* Assumptions on entry to _start:
	* - low (level-one) and medium priority interrupts are disabled
	* via PS.INTLEVEL and/or INTENABLE
	* - C calling context not initialized:
	* - PS not initialized
	* - SP not initialized
	* - the following are initialized:
	* - LITBASE, cache attributes, WindowBase, WindowStart,
	* CPENABLE, FP's FCR and FSR, EXCSAVE[n]

	* Keep a0 zero. It is used to initialize a few things.
	* It is also the return address, where zero indicates
	* that the frame used by _start is the bottommost frame.
	*
	*/
	/* not needed for Xtensa TX */
	#if !XCHAL_HAVE_HALT \|\| !XCHAL_HAVE_BOOTLOADER
	movi a0, 0 /* keep this register zero. */
	#endif

	/*
	* Initialize the stack pointer.
	* See the "ABI and Software Conventions" chapter in the
	* Xtensa ISA Reference manual for details.
	*
	* NOTE: Because the _start routine does not use any memory in its
	* stack frame, and because all of its CALL instructions use a
	* window size of 4, the stack frame for _start can be empty.
	*/
	movi sp, __stack

	/*
	* Now that sp (a1) is set, we can set PS as per the application (user
	* vector mode, disable interrupts, enable window exceptions if
	* applicable).
	*/
	#if XCHAL_HAVE_EXCEPTIONS
	# ifdef __XTENSA_CALL0_ABI__
	/*
	* PS.WOE = 0
	* PS.UM = 1
	* PS.EXCM = 0
	* PS.INTLEVEL = XCHAL_EXCM_LEVEL
	*/
	movi a3, PS_UM\|PS_INTLEVEL(XCHAL_EXCM_LEVEL)
	# else
	/*
	* PS.WOE = 1
	* PS.UM = 1
	* PS.EXCM = 0
	* PS.INTLEVEL = XCHAL_EXCM_LEVEL
	*/
	movi a3, PS_UM\|PS_WOE\|PS_INTLEVEL(XCHAL_EXCM_LEVEL)
	# endif
	wsr a3, PS
	rsync
	#endif


	/*
	* Do any initialization that affects the memory map, such as
	* setting up TLB entries, that needs to be done before we can
	* successfully clear BSS (e.g. if some BSS segments are in
	* remapped areas).
	*
	* NOTE: This hook works where the reset vector does not unpack
	* segments (see "ROM packing" in the LSP manual), or where
	* unpacking of segments is not affected by memory remapping.
	* If ROM unpacking is affected, TLB setup must be done in
	* assembler from the reset vector.
	*
	* The __memmap_init() routine can be a C function, however it
	* does not have BSS initialized! In particular, __memmap_init()
	* cannot set BSS variables, i.e. uninitialized global variables
	* (they'll be wiped out by the following BSS clear), nor can it
	* assume they are yet initialized to zero.
	*
	* The __memmap_init() function is optional. It is marked as a
	* weak symbol, so that it gets valued zero if not defined.
	*/
	.weak __memmap_init
	movi a4, __memmap_init
	beqz a4, 1f
	CALLX a4
	1:

	#if !XCHAL_HAVE_BOOTLOADER /* boot loader takes care of zeroing BSS */

	# ifdef __XTENSA_CALL0_ABI__
	/* Clear a0 again as possible CALLX to __memmap_init changed it. */
	movi a0, 0
	# endif

	/*
	* Clear the BSS (uninitialized data) segments.
	* This code supports multiple zeroed sections (*.bss).
	*
	* Register allocation:
	* a0 = 0
	* a6 = pointer to start of table, and through table
	* a7 = pointer to end of table
	* a8 = start address of bytes to be zeroed
	* a9 = end address of bytes to be zeroed
	* a10 = length of bytes to be zeroed
	*/
	movi a6, _bss_table_start
	movi a7, _bss_table_end
	bgeu a6, a7, .L3zte

	.L0zte: l32i a8, a6, 0 /* get start address, assumed multiple of 4 */
	l32i a9, a6, 4 /* get end address, assumed multiple of 4 */
	addi a6, a6, 8 /* next entry */
	sub a10, a9, a8 /* a10 = length, assumed a multiple of 4 */
	bbci.l a10, 2, .L1zte
	s32i a0, a8, 0 /* clear 4 bytes to make len multiple of 8 */
	addi a8, a8, 4
	.L1zte: bbci.l a10, 3, .L2zte
	s32i a0, a8, 0 /* clear 8 bytes to make len multiple of 16 */
	s32i a0, a8, 4
	addi a8, a8, 8
	.L2zte: srli a10, a10, 4 /* len is now multiple of 16, divide by 16 */
	floopnez a10, clearzte
	s32i a0, a8, 0 /* clear 16 bytes at a time... */
	s32i a0, a8, 4
	s32i a0, a8, 8
	s32i a0, a8, 12
	addi a8, a8, 16
	floopend a10, clearzte

	bltu a6, a7, .L0zte /* loop until end of table of .bss sections /
	.L3zte:

	#endif /* !XCHAL_HAVE_BOOTLOADER */

	/* Enter C domain, never returns from here */
	CALL z_cstart

	.size _start, . - _start