arch/microblaze/cpu/start.S - github/trini/u-boot - Gitiles

 /*
  * (C) Copyright 2007 Michal Simek
  * (C) Copyright 2004 Atmark Techno, Inc.
  *
  * Michal  SIMEK <monstr@monstr.eu>
  * Yasushi SHOJI <yashi@atmark-techno.com>
  *
  * SPDX-License-Identifier:	GPL-2.0+
  */

 #include <asm-offsets.h>
 #include <config.h>

 	.text
 	.global _start
 _start:
 	/*
 	 * reserve registers:
 	 * r10: Stores little/big endian offset for vectors
 	 * r2: Stores imm opcode
 	 * r3: Stores brai opcode
 	 */

 	mts	rmsr, r0	/* disable cache */
 	addi	r1, r0, CONFIG_SYS_INIT_SP_OFFSET
 	addi	r1, r1, -4	/* Decrement SP to top of memory */

 	/* Find-out if u-boot is running on BIG/LITTLE endian platform
 	 * There are some steps which is necessary to keep in mind:
 	 * 1. Setup offset value to r6
 	 * 2. Store word offset value to address 0x0
 	 * 3. Load just byte from address 0x0
 	 * 4a) LITTLE endian - r10 contains 0x2 because it is the smallest
 	 *     value that's why is on address 0x0
 	 * 4b) BIG endian - r10 contains 0x0 because 0x2 offset is on addr 0x3
 	 */
 	addik	r6, r0, 0x2 /* BIG/LITTLE endian offset */
 	lwi	r7, r0, 0x28
 	swi	r6, r0, 0x28 /* used first unused MB vector */
 	lbui	r10, r0, 0x28 /* used first unused MB vector */
 	swi	r7, r0, 0x28

 	/* add opcode instruction for 32bit jump - 2 instruction imm & brai */
 	addi	r2, r0, 0xb0000000	/* hex b000 opcode imm */
 	addi	r3, r0, 0xb8080000	/* hew b808 opcode brai */

 #ifdef CONFIG_SYS_RESET_ADDRESS
 	/* reset address */
 	swi	r2, r0, 0x0	/* reset address - imm opcode */
 	swi	r3, r0, 0x4	/* reset address - brai opcode */

 	addik	r6, r0, CONFIG_SYS_RESET_ADDRESS
 	sw	r6, r1, r0
 	lhu	r7, r1, r10
 	rsubi	r8, r10, 0x2
 	sh	r7, r0, r8
 	rsubi	r8, r10, 0x6
 	sh	r6, r0, r8
 #endif

 #ifdef CONFIG_SYS_USR_EXCEP
 	/* user_vector_exception */
 	swi	r2, r0, 0x8	/* user vector exception - imm opcode */
 	swi	r3, r0, 0xC	/* user vector exception - brai opcode */

 	addik	r6, r0, _exception_handler
 	sw	r6, r1, r0
 	/*
 	 * BIG ENDIAN memory map for user exception
 	 * 0x8: 0xB000XXXX
 	 * 0xC: 0xB808XXXX
 	 *
 	 * then it is necessary to count address for storing the most significant
 	 * 16bits from _exception_handler address and copy it to
 	 * 0xa address. Big endian use offset in r10=0 that's why is it just
 	 * 0xa address. The same is done for the least significant 16 bits
 	 * for 0xe address.
 	 *
 	 * LITTLE ENDIAN memory map for user exception
 	 * 0x8: 0xXXXX00B0
 	 * 0xC: 0xXXXX08B8
 	 *
 	 * Offset is for little endian setup to 0x2. rsubi instruction decrease
 	 * address value to ensure that points to proper place which is
 	 * 0x8 for the most significant 16 bits and
 	 * 0xC for the least significant 16 bits
 	 */
 	lhu	r7, r1, r10
 	rsubi	r8, r10, 0xa
 	sh	r7, r0, r8
 	rsubi	r8, r10, 0xe
 	sh	r6, r0, r8
 #endif

 	/* interrupt_handler */
 	swi	r2, r0, 0x10	/* interrupt - imm opcode */
 	swi	r3, r0, 0x14	/* interrupt - brai opcode */

 	addik	r6, r0, _interrupt_handler
 	sw	r6, r1, r0
 	lhu	r7, r1, r10
 	rsubi	r8, r10, 0x12
 	sh	r7, r0, r8
 	rsubi	r8, r10, 0x16
 	sh	r6, r0, r8

 	/* hardware exception */
 	swi	r2, r0, 0x20	/* hardware exception - imm opcode */
 	swi	r3, r0, 0x24	/* hardware exception - brai opcode */

 	addik	r6, r0, _hw_exception_handler
 	sw	r6, r1, r0
 	lhu	r7, r1, r10
 	rsubi	r8, r10, 0x22
 	sh	r7, r0, r8
 	rsubi	r8, r10, 0x26
 	sh	r6, r0, r8

 	/* Flush cache before enable cache */
 	addik	r5, r0, 0
 	addik	r6, r0, XILINX_DCACHE_BYTE_SIZE
 flush:	bralid r15, flush_cache
 	nop

 	/* enable instruction and data cache */
 	mfs	r12, rmsr
 	ori	r12, r12, 0xa0
 	mts	rmsr, r12

 clear_bss:
 	/* clear BSS segments */
 	addi	r5, r0, __bss_start
 	addi	r4, r0, __bss_end
 	cmp	r6, r5, r4
 	beqi	r6, 3f
 2:
 	swi     r0, r5, 0 /* write zero to loc */
 	addi    r5, r5, 4 /* increment to next loc */
 	cmp     r6, r5, r4 /* check if we have reach the end */
 	bnei    r6, 2b
 3:	/* jumping to board_init */
 	brai	board_init_f
 1:	bri	1b

 /*
  * Read 16bit little endian
  */
 	.text
 	.global	in16
 	.ent	in16
 	.align	2
 in16:	lhu	r3, r0, r5
 	bslli	r4, r3, 8
 	bsrli	r3, r3, 8
 	andi	r4, r4, 0xffff
 	or	r3, r3, r4
 	rtsd	r15, 8
 	sext16	r3, r3
 	.end	in16

 /*
  * Write 16bit little endian
  * first parameter(r5) - address, second(r6) - short value
  */
 	.text
 	.global	out16
 	.ent	out16
 	.align	2
 out16:	bslli	r3, r6, 8
 	bsrli	r6, r6, 8
 	andi	r3, r3, 0xffff
 	or	r3, r3, r6
 	sh	r3, r0, r5
 	rtsd	r15, 8
 	or	r0, r0, r0
 	.end	out16
	/*
	* (C) Copyright 2007 Michal Simek
	* (C) Copyright 2004 Atmark Techno, Inc.
	*
	* Michal SIMEK <monstr@monstr.eu>
	* Yasushi SHOJI <yashi@atmark-techno.com>
	*
	* SPDX-License-Identifier: GPL-2.0+
	*/

	#include <asm-offsets.h>
	#include <config.h>

	.text
	.global _start
	_start:
	/*
	* reserve registers:
	* r10: Stores little/big endian offset for vectors
	* r2: Stores imm opcode
	* r3: Stores brai opcode
	*/

	mts rmsr, r0 /* disable cache */
	addi r1, r0, CONFIG_SYS_INIT_SP_OFFSET
	addi r1, r1, -4 /* Decrement SP to top of memory */

	/* Find-out if u-boot is running on BIG/LITTLE endian platform
	* There are some steps which is necessary to keep in mind:
	* 1. Setup offset value to r6
	* 2. Store word offset value to address 0x0
	* 3. Load just byte from address 0x0
	* 4a) LITTLE endian - r10 contains 0x2 because it is the smallest
	* value that's why is on address 0x0
	* 4b) BIG endian - r10 contains 0x0 because 0x2 offset is on addr 0x3
	*/
	addik r6, r0, 0x2 /* BIG/LITTLE endian offset */
	lwi r7, r0, 0x28
	swi r6, r0, 0x28 /* used first unused MB vector */
	lbui r10, r0, 0x28 /* used first unused MB vector */
	swi r7, r0, 0x28

	/* add opcode instruction for 32bit jump - 2 instruction imm & brai */
	addi r2, r0, 0xb0000000 /* hex b000 opcode imm */
	addi r3, r0, 0xb8080000 /* hew b808 opcode brai */

	#ifdef CONFIG_SYS_RESET_ADDRESS
	/* reset address */
	swi r2, r0, 0x0 /* reset address - imm opcode */
	swi r3, r0, 0x4 /* reset address - brai opcode */

	addik r6, r0, CONFIG_SYS_RESET_ADDRESS
	sw r6, r1, r0
	lhu r7, r1, r10
	rsubi r8, r10, 0x2
	sh r7, r0, r8
	rsubi r8, r10, 0x6
	sh r6, r0, r8
	#endif

	#ifdef CONFIG_SYS_USR_EXCEP
	/* user_vector_exception */
	swi r2, r0, 0x8 /* user vector exception - imm opcode */
	swi r3, r0, 0xC /* user vector exception - brai opcode */

	addik r6, r0, _exception_handler
	sw r6, r1, r0
	/*
	* BIG ENDIAN memory map for user exception
	* 0x8: 0xB000XXXX
	* 0xC: 0xB808XXXX
	*
	* then it is necessary to count address for storing the most significant
	* 16bits from _exception_handler address and copy it to
	* 0xa address. Big endian use offset in r10=0 that's why is it just
	* 0xa address. The same is done for the least significant 16 bits
	* for 0xe address.
	*
	* LITTLE ENDIAN memory map for user exception
	* 0x8: 0xXXXX00B0
	* 0xC: 0xXXXX08B8
	*
	* Offset is for little endian setup to 0x2. rsubi instruction decrease
	* address value to ensure that points to proper place which is
	* 0x8 for the most significant 16 bits and
	* 0xC for the least significant 16 bits
	*/
	lhu r7, r1, r10
	rsubi r8, r10, 0xa
	sh r7, r0, r8
	rsubi r8, r10, 0xe
	sh r6, r0, r8
	#endif

	/* interrupt_handler */
	swi r2, r0, 0x10 /* interrupt - imm opcode */
	swi r3, r0, 0x14 /* interrupt - brai opcode */

	addik r6, r0, _interrupt_handler
	sw r6, r1, r0
	lhu r7, r1, r10
	rsubi r8, r10, 0x12
	sh r7, r0, r8
	rsubi r8, r10, 0x16
	sh r6, r0, r8

	/* hardware exception */
	swi r2, r0, 0x20 /* hardware exception - imm opcode */
	swi r3, r0, 0x24 /* hardware exception - brai opcode */

	addik r6, r0, _hw_exception_handler
	sw r6, r1, r0
	lhu r7, r1, r10
	rsubi r8, r10, 0x22
	sh r7, r0, r8
	rsubi r8, r10, 0x26
	sh r6, r0, r8

	/* Flush cache before enable cache */
	addik r5, r0, 0
	addik r6, r0, XILINX_DCACHE_BYTE_SIZE
	flush: bralid r15, flush_cache
	nop

	/* enable instruction and data cache */
	mfs r12, rmsr
	ori r12, r12, 0xa0
	mts rmsr, r12

	clear_bss:
	/* clear BSS segments */
	addi r5, r0, __bss_start
	addi r4, r0, __bss_end
	cmp r6, r5, r4
	beqi r6, 3f
	2:
	swi r0, r5, 0 /* write zero to loc */
	addi r5, r5, 4 /* increment to next loc */
	cmp r6, r5, r4 /* check if we have reach the end */
	bnei r6, 2b
	3: /* jumping to board_init */
	brai board_init_f
	1: bri 1b

	/*
	* Read 16bit little endian
	*/
	.text
	.global in16
	.ent in16
	.align 2
	in16: lhu r3, r0, r5
	bslli r4, r3, 8
	bsrli r3, r3, 8
	andi r4, r4, 0xffff
	or r3, r3, r4
	rtsd r15, 8
	sext16 r3, r3
	.end in16

	/*
	* Write 16bit little endian
	* first parameter(r5) - address, second(r6) - short value
	*/
	.text
	.global out16
	.ent out16
	.align 2
	out16: bslli r3, r6, 8
	bsrli r6, r6, 8
	andi r3, r3, 0xffff
	or r3, r3, r6
	sh r3, r0, r5
	rtsd r15, 8
	or r0, r0, r0
	.end out16