TQ210 —— s5pv210 start.S分析
时间:2019-07-09 11:40:01
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[导读]/*
* armboot - Startup Code for S5PC110/ARM-Cortex CPU-core
*
* Copyright (c) 2009 Samsung Elec
/*
* armboot - Startup Code for S5PC110/ARM-Cortex CPU-core
*
* Copyright (c) 2009 Samsung Electronics
*
*
* See file CREDITS for list of people who contributed to this
* project.
*
* This program is free software; you can redistribute it and/or
* modify it under the terms of the GNU General Public License as
* published by the Free Software Foundation; either version 2 of
* the License, or (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program; if not, write to the Free Software
* Foundation, Inc., 59 Temple Place, Suite 330, Boston,
* MA 02111-1307 USA
*
* Base codes by scsuh (sc.suh)
*/
/*
* mod by lhh
*
* Our U-Boot Memory Map with static mmu_table
* (offset)
* --------------------------
* | Stack (512KB) |
* --------------------------
* | Heap (1MB+envsize) |
* --------------------------
* | IRQ Stack (KB) | <------------------------ if exists
* --------------------------
* | FIQ Stack (KB) | <------------------------ if exists
* --------------------------
* | GBL (B) |
* -------------------------- 0x03exxxxx
* | BSS and Reserved |
* -------------------------- 0x03e60000
* | U-Boot (512KB) |
* -------------------------- 0x03e00000
*/
#include#include#if defined(CONFIG_ENABLE_MMU)
#include#endif
#include#ifndef CONFIG_ENABLE_MMU
#ifndef CFG_PHY_UBOOT_BASE
#define CFG_PHY_UBOOT_BASE CFG_UBOOT_BASE
#endif /* CFG_PHY_UBOOT_BASE */
#endif /* CONFIG_ENABLE_MMU */
/*
*************************************************************************
*
* Jump vector table as in table 3.1 in [1]
*
*************************************************************************
*/
#if defined(CONFIG_EVT1) && !defined(CONFIG_FUSED)
.word 0x2000
.word 0x0
.word 0x0
.word 0x0
#endif
/******************************************************************************
* .global关键字,相当于C语言extern,全局变量,外部可访问
* _start程序入口,即uboot代码的开始。_start后面“:”标号,类似C中goto后面标号
* _start的值就是代码的最起始,相对0的位置;跳转到reset这个标号执行,即复位向量
* ARM上电复位后,从0x00000000执行,跳转到reset,不会执行异常向量表这部分。
*
* 异常向量表:未定义指令异常、软中断异常、预处理指令异常、未使用、数据异常、
* 中断异常、快速中断异常;每条占一字节,地址范围为0x0000 0000~0x0000 0020
* 设置异常向量表的作用是识别bootloader。以后系统每当有异常出现,
* 则CPU会根据异常号,从内存的0x00000000处开始查表做相应的处理
*******************************************************************************/
.globl _start
_start: b reset @相对跳转,不能用绝对跳转,因为启动代码有可能还运行在IRAM(s5pv210内部的SRAM)
ldr pc, _undefined_instruction
ldr pc, _software_interrupt
ldr pc, _prefetch_abort
ldr pc, _data_abort
ldr pc, _not_used
ldr pc, _irq
ldr pc, _fiq
@ .word伪操作,为分配一段字(4字节)内存单元
@ 用C表示:pc = *(_x) = x x=异常向量
_undefined_instruction:
.word undefined_instruction
_software_interrupt:
.word software_interrupt
_prefetch_abort:
.word prefetch_abort
_data_abort:
.word data_abort
_not_used:
.word not_used
_irq:
.word irq
_fiq:
.word fiq
_pad:
@ 这填写的只是一个初始值,填充4字节
.word 0x12345678 /* now 16*4=64 */
.global _end_vect @ 异常向量结束标号
_end_vect:
@ 表示接下来的代码使用16字节对齐,不足的使用0xdeadbeef填充(坏牛肉)
@ 类似的还有一个0xbadc0de 坏代码(哈哈),十六进制没有o,是数字0
.balignl 16,0xdeadbeef
/*
*************************************************************************
*
* Startup Code (reset vector)
*
* do important init only if we don't start from memory!
* setup Memory and board specific bits prior to relocation.
* relocate armboot to ram
* setup stack
*
*************************************************************************
*/
@ 代码段基地址,boardsamsungTQ210config.mk中定义,TEXT_BASE=0x23e00000
_TEXT_BASE:
.word TEXT_BASE
/*
* Below variable is very important because we use MMU in U-Boot.
* Without it, we cannot run code correctly before MMU is ON.
* by scsuh.
*/
_TEXT_PHY_BASE:
.word CFG_PHY_UBOOT_BASE
@ *(_armboot_start) = _start
.globl _armboot_start
_armboot_start:
.word _start
/*
* These are defined in the board-specific linker script.
*/
@ 栈头和栈尾定义在链接脚本里:boardsamsungTQ210u-boot.lds
.globl _bss_start
_bss_start:
.word __bss_start
.globl _bss_end
_bss_end:
.word _end
@ 中断的堆栈设置,在cpu_init中用到
#if defined(CONFIG_USE_IRQ)
/* IRQ stack memory (calculated at run-time) */
.globl IRQ_STACK_START
IRQ_STACK_START:
.word 0x0badc0de
/* IRQ stack memory (calculated at run-time) */
.globl FIQ_STACK_START
FIQ_STACK_START:
.word 0x0badc0de
#endif /* CONFIG_USE_IRQ */
/*
* the actual reset code
*/
@ ARM复位执行就是这里的程序,上面那部分异常只有在异常发生才会执行
reset:
/*
* set the cpu to SVC32 mode and IRQ & FIQ disable
*/
@;mrs r0,cpsr
@;bic r0,r0,#0x1f
@;orr r0,r0,#0xd3
@;msr cpsr,r0
@ 置cpu到svc32模式,关闭中断;msr将0xd3写到cpsr_c
31 30 29 28 --- 7 6 - 4 3 2 1 0 说明
N Z C V I F M4 M3 M2 M1 M0
0 0 0 0 0 User模式
0 0 0 0 1 FIQ模式
0 0 0 1 0 IRQ模式
0 0 0 1 1 SVC模式
1 0 0 0 0 User模式
1 0 0 0 1 FIQ模式
1 0 0 1 0 IRQ模式
1 0 0 1 1 SVC模式
1 0 1 1 1 ABT模式
1 1 0 1 1 UND模式
msr cpsr_c, #0xd3 @ I & F disable, Mode: 0x13 - SVC 1101 0011
/*
*************************************************************************
*
* CPU_init_critical registers
*
* setup important registers
* setup memory timing
*
*************************************************************************
*/
/*
* we do sys-critical inits only at reboot,
* not when booting from ram!
*/
@ cpu初始化
cpu_init_crit:
@ CONFIG_EVT1定义了,这段不执行
#ifndef CONFIG_EVT1
#if 0
bl v7_flush_dcache_all
#else
bl disable_l2cache
mov r0, #0x0 @
mov r1, #0x0 @ i
mov r3, #0x0
mov r4, #0x0
lp1:
mov r2, #0x0 @ j
lp2:
mov r3, r1, LSL #29 @ r3 = r1(i) <<29
mov r4, r2, LSL #6 @ r4 = r2(j) <<6
orr r4, r4, #0x2 @ r3 = (i<<29)|(j<<6)|(1<<1)
orr r3, r3, r4
mov r0, r3 @ r0 = r3
bl CoInvalidateDCacheIndex
add r2, #0x1 @ r2(j)++
cmp r2, #1024 @ r2 < 1024
bne lp2 @ jump to lp2
add r1, #0x1 @ r1(i)++
cmp r1, #8 @ r1(i) < 8
bne lp1 @ jump to lp1
bl set_l2cache_auxctrl
bl enable_l2cache
#endif
#endif
bl disable_l2cache @ 关闭I/D-cache
bl set_l2cache_auxctrl_cycle
bl enable_l2cache @ 使能I/D-cache
/*
* Invalidate L1 I/D
*/
@ ARM Architecture Reference Manual.pdf的745页有例子,可以搜索CP15
@ CP15 —系统控制协处理器 (the system control coprocessor)
@ 通过协处理器指令MCR和MRC提供具体的寄存器来配置和控制caches、MMU、保护系统、配置时钟模式(在bootloader时钟初始化用到)
@ Register 7 - Cache control Register 8 - TLB operations
mov r0, #0 @ set up for MCR
mcr p15, 0, r0, c8, c7, 0 @ invalidate TLBs 关闭TLB 缓冲页表(虚拟机地址转物理地址的表)的cache
mcr p15, 0, r0, c7, c5, 0 @ invalidate icache icache 缓冲指令的I-cache
/*
* disable MMU stuff and caches
*/
@ 关闭MMU和cache --- 分析cp15的寄存器1
mrc p15, 0, r0, c1, c0, 0
bic r0, r0, #0x00002000 @ clear bits 13 (--V-)
bic r0, r0, #0x00000007 @ clear bits 2:0 (-CAM)
orr r0, r0, #0x00000002 @ set bit 1 (--A-) Align
orr r0, r0, #0x00000800 @ set bit 12 (Z---) BTB
mcr p15, 0, r0, c1, c0, 0
/* Read booting information */
ldr r0, =PRO_ID_BASE
ldr r1, [r0,#OMR_OFFSET]
bic r2, r1, #0xffffffc1
/*电源管理,保持供电*/
#ifdef CONFIG_TQ210_IIC_PM_CHIP
/* PS_HOLD(GPJ2_5) set to output high */
ldr r0, =ELFIN_GPIO_BASE
ldr r1, =0x00100000
str r1, [r0, #GPJ2CON_OFFSET]
ldr r1, =0x0400
str r1, [r0, #GPJ2PUD_OFFSET]
ldr r1, =0x20
str r1, [r0, #GPJ2DAT_OFFSET]
#endif /* CONFIG_TQ210_IIC_PM_CHIP */
#ifdef CONFIG_VOGUES
/* PS_HOLD(GPH0_0) set to output high */
ldr r0, =ELFIN_GPIO_BASE
ldr r1, =0x00000001
str r1, [r0, #GPH0CON_OFFSET]
ldr r1, =0x5500
str r1, [r0, #GPH0PUD_OFFSET]
ldr r1, =0x01
str r1, [r0, #GPH0DAT_OFFSET]
#endif
@ 启动方式nand,SD,nor
/* NAND BOOT */
cmp r2, #0x0 @ 512B 4-cycle
moveq r3, #BOOT_NAND
cmp r2, #0x2 @ 2KB 5-cycle
moveq r3, #BOOT_NAND
cmp r2, #0x4 @ 4KB 5-cycle 8-bit ECC
moveq r3, #BOOT_NAND
cmp r2, #0x6 @ 4KB 5-cycle 16-bit ECC
moveq r3, #BOOT_NAND
cmp r2, #0x8 @ OneNAND Mux
moveq r3, #BOOT_ONENAND
/* SD/MMC BOOT */
cmp r2, #0xc
moveq r3, #BOOT_MMCSD
/* NOR BOOT */
cmp r2, #0x14
moveq r3, #BOOT_NOR
#if 0 /* Android C110 BSP uses OneNAND booting! */
/* For second device booting */
/* OneNAND BOOTONG failed */
cmp r2, #0x8
moveq r3, #BOOT_SEC_DEV
#endif
/* Uart BOOTONG failed */
cmp r2, #(0x1<<4)
moveq r3, #BOOT_SEC_DEV
ldr r0, =INF_REG_BASE
str r3, [r0, #INF_REG3_OFFSET]
/*
* Go setup Memory and board specific bits prior to relocation.
*/
ldr sp, =0xd0036000 /* end of sram dedicated to u-boot */
sub sp, sp, #12 /* set stack */
mov fp, #0
@ 跳到底层硬件初始化,这部分代码在自己建立的开发板目录下的lowlevel_init.S中
@ 会返回
bl lowlevel_init /* go setup pll,mux,memory */
/* To hold max8698 output before releasing power on switch,
* set PS_HOLD signal to high
*/
ldr r0, =0xE010E81C /* PS_HOLD_CONTROL register */
ldr r1, =0x00005301 /* PS_HOLD output high */
str r1, [r0]
/* get ready to call C functions */
ldr sp, _TEXT_PHY_BASE /* setup temp stack pointer */
sub sp, sp, #12
mov fp, #0 /* no previous frame, so fp=0 */
/* when we already run in ram, we don't need to relocate U-Boot.
* and actually, memory controller must be configured before U-Boot
* is running in ram.
*/
@ 比较r1和r2,拷贝到sram
ldr r0, =0xff000fff
bic r1, pc, r0 /* r0 <- current base addr of code */
ldr r2, _TEXT_BASE /* r1 <- original base addr in ram */
bic r2, r2, r0 /* r0 boot device is nand */
beq nand_boot
cmp r1, #BOOT_ONENAND /* 0x1 => boot device is onenand */
beq onenand_boot
cmp r1, #BOOT_MMCSD
beq mmcsd_boot
cmp r1, #BOOT_NOR
beq nor_boot
cmp r1, #BOOT_SEC_DEV
beq mmcsd_boot
nand_boot:
mov r0, #0x1000
bl copy_from_nand
b after_copy
onenand_boot:
bl onenand_bl2_copy
b after_copy
mmcsd_boot:
#if DELETE
ldr sp, _TEXT_PHY_BASE
sub sp, sp, #12
mov fp, #0
#endif
bl movi_bl2_copy
b after_copy
nor_boot:
bl read_hword
b after_copy
after_copy:
#if defined(CONFIG_ENABLE_MMU)
enable_mmu:
/* enable domain access */
ldr r5, =0x0000ffff
mcr p15, 0, r5, c3, c0, 0 @load domain access register
/* Set the TTB register */
ldr r0, _mmu_table_base
ldr r1, =CFG_PHY_UBOOT_BASE
ldr r2, =0xfff00000
bic r0, r0, r2
orr r1, r0, r1
mcr p15, 0, r1, c2, c0, 0
/* Enable the MMU */
mmu_on:
mrc p15, 0, r0, c1, c0, 0
orr r0, r0, #1
mcr p15, 0, r0, c1, c0, 0
nop
nop
nop
nop
#endif
skip_hw_init:
/* Set up the stack */
@ 初始化栈,为第二阶段的C语言部分做准备
stack_setup:
#if defined(CONFIG_MEMORY_UPPER_CODE)
ldr sp, =(CFG_UBOOT_BASE + CFG_UBOOT_SIZE - 0x1000)
#else
ldr r0, _TEXT_BASE /* upper 128 KiB: relocated uboot */
sub r0, r0, #CFG_MALLOC_LEN /* malloc area */
sub r0, r0, #CFG_GBL_DATA_SIZE /* bdinfo */
#if defined(CONFIG_USE_IRQ)
sub r0, r0, #(CONFIG_STACKSIZE_IRQ+CONFIG_STACKSIZE_FIQ)
#endif
sub sp, r0, #12 /* leave 3 words for abort-stack */
#endif
@ 清楚堆栈
clear_bss:
ldr r0, _bss_start /* find start of bss segment */
ldr r1, _bss_end /* stop here */
mov r2, #0x00000000 /* clear */
@ 初始化直接使用双字,一次就是64个位
clbss_l:
str r2, [r0] /* clear loop... */
add r0, r0, #4
cmp r0, r1
ble clbss_l
ldr pc, _start_armboot @ 跳转到stage2
_start_armboot:
.word start_armboot
#if defined(CONFIG_ENABLE_MMU)
_mmu_table_base:
.word mmu_table
#endif
/*
* copy U-Boot to SDRAM and jump to ram (from NAND or OneNAND)
* r0: size to be compared
* Load 1'st 2blocks to RAM because U-boot's size is larger than 1block(128k) size
*/
.globl copy_from_nand
copy_from_nand:
push {lr} /* save return address */
mov r9, r0
mov r9, #0x100 /* Compare about 8KB */
bl copy_uboot_to_ram
tst r0, #0x0
bne copy_failed
#if defined(CONFIG_EVT1)
ldr r0, =0xd0020000
#else
ldr r0, =0xd0030000
#endif
ldr r1, _TEXT_PHY_BASE /* 0x23e00000 */
#if !defined(CONFIG_SECURE_BOOT)
1: ldr r3, [r0], #4
ldr r4, [r1], #4
teq r3, r4
bne compare_failed /* not matched */
subs r9, r9, #4
bne 1b
#endif
pop {pc} /* all is OK */
copy_failed:
/**************lhh add start******************/
ldr r0,= 0xE0200080
ldr r1, =(0x11<<12)
str r1, [r0, #0]
ldr r1, =(0x2<<3)
str r1, [r0, #4]
/**************lhh add end *******************/
nop /* copy from nand failed */
b copy_failed
compare_failed:
nop /* compare failed */
b compare_failed
/*
* we assume that cache operation is done before. (eg. cleanup_before_linux())
* actually, we don't need to do anything about cache if not use d-cache in U-Boot
* So, in this function we clean only MMU. by scsuh
*
* void theLastJump(void *kernel, int arch_num, uint boot_params);
*/
#if defined(CONFIG_ENABLE_MMU)
.globl theLastJump
theLastJump:
mov r9, r0
ldr r3, =0xfff00000
ldr r4, _TEXT_PHY_BASE
adr r5, phy_last_jump
bic r5, r5, r3
orr r5, r5, r4
mov pc, r5
phy_last_jump:
/*
* disable MMU stuff
*/
mrc p15, 0, r0, c1, c0, 0
bic r0, r0, #0x00002300 /* clear bits 13, 9:8 (--V- --RS) */
bic r0, r0, #0x00000087 /* clear bits 7, 2:0 (B--- -CAM) */
orr r0, r0, #0x00000002 /* set bit 2 (A) Align */
orr r0, r0, #0x00001000 /* set bit 12 (I) I-Cache */
mcr p15, 0, r0, c1, c0, 0
mcr p15, 0, r0, c8, c7, 0 /* flush v4 TLB */
mov r0, #0
mov pc, r9
#endif
/*
*************************************************************************
*
* Interrupt handling
*
*************************************************************************
*/
@
@ IRQ stack frame.
@
#define S_FRAME_SIZE 72
#define S_OLD_R0 68
#define S_PSR 64
#define S_PC 60
#define S_LR 56
#define S_SP 52
#define S_IP 48
#define S_FP 44
#define S_R10 40
#define S_R9 36
#define S_R8 32
#define S_R7 28
#define S_R6 24
#define S_R5 20
#define S_R4 16
#define S_R3 12
#define S_R2 8
#define S_R1 4
#define S_R0 0
#define MODE_SVC 0x13
#define I_BIT 0x80
/*
* use bad_save_user_regs for abort/prefetch/undef/swi ...
* use irq_save_user_regs / irq_restore_user_regs for IRQ/FIQ handling
*/
.macro bad_save_user_regs
sub sp, sp, #S_FRAME_SIZE @ carve out a frame on current user stack
stmia sp, {r0 - r12} @ Save user registers (now in svc mode) r0-r12
ldr r2, _armboot_start
sub r2, r2, #(CFG_MALLOC_LEN)
sub r2, r2, #(CFG_GBL_DATA_SIZE+8) @ set base 2 words into abort stack
ldmia r2, {r2 - r3} @ get values for "aborted" pc and cpsr (into parm regs)
add r0, sp, #S_FRAME_SIZE @ grab pointer to old stack
add r5, sp, #S_SP
mov r1, lr
stmia r5, {r0 - r3} @ save sp_SVC, lr_SVC, pc, cpsr
mov r0, sp @ save current stack into r0 (param register)
.endm
.macro irq_save_user_regs
sub sp, sp, #S_FRAME_SIZE
stmia sp, {r0 - r12} @ Calling r0-r12
add r8, sp, #S_PC @ !!!! R8 NEEDS to be saved !!!! a reserved stack spot would be good.
stmdb r8, {sp, lr}^ @ Calling SP, LR
str lr, [r8, #0] @ Save calling PC
mrs r6, spsr
str r6, [r8, #4] @ Save CPSR
str r0, [r8, #8] @ Save OLD_R0
mov r0, sp
.endm
.macro irq_restore_user_regs
ldmia sp, {r0 - lr}^ @ Calling r0 - lr
mov r0, r0
ldr lr, [sp, #S_PC] @ Get PC
add sp, sp, #S_FRAME_SIZE
subs pc, lr, #4 @ return & move spsr_svc into cpsr
.endm
.macro get_bad_stack
ldr r13, _armboot_start @ setup our mode stack (enter in banked mode)
sub r13, r13, #(CFG_MALLOC_LEN) @ move past malloc pool
sub r13, r13, #(CFG_GBL_DATA_SIZE+8) @ move to reserved a couple spots for abort stack
str lr, [r13] @ save caller lr in position 0 of saved stack
mrs lr, spsr @ get the spsr
str lr, [r13, #4] @ save spsr in position 1 of saved stack
mov r13, #MODE_SVC @ prepare SVC-Mode
@ msr spsr_c, r13
msr spsr, r13 @ switch modes, make sure moves will execute
mov lr, pc @ capture return pc
movs pc, lr @ jump to next instruction & switch modes.
.endm
.macro get_bad_stack_swi
sub r13, r13, #4 @ space on current stack for scratch reg.
str r0, [r13] @ save R0's value.
ldr r0, _armboot_start @ get data regions start
sub r0, r0, #(CFG_MALLOC_LEN) @ move past malloc pool
sub r0, r0, #(CFG_GBL_DATA_SIZE+8) @ move past gbl and a couple spots for abort stack
str lr, [r0] @ save caller lr in position 0 of saved stack
mrs r0, spsr @ get the spsr
str lr, [r0, #4] @ save spsr in position 1 of saved stack
ldr r0, [r13] @ restore r0
add r13, r13, #4 @ pop stack entry
.endm
.macro get_irq_stack @ setup IRQ stack
ldr sp, IRQ_STACK_START
.endm
.macro get_fiq_stack @ setup FIQ stack
ldr sp, FIQ_STACK_START
.endm
/*
* exception handlers
*/
.align 5 @32字节对齐
undefined_instruction:
get_bad_stack @宏,保存现场栈
bad_save_user_regs @宏,保存现场
bl do_undefined_instruction @宏,答应现场
.align 5
software_interrupt:
get_bad_stack_swi
bad_save_user_regs
bl do_software_interrupt
.align 5
prefetch_abort:
get_bad_stack
bad_save_user_regs
bl do_prefetch_abort
.align 5
data_abort:
get_bad_stack
bad_save_user_regs
bl do_data_abort
.align 5
not_used:
get_bad_stack
bad_save_user_regs
bl do_not_used
#if defined(CONFIG_USE_IRQ)
.align 5
irq:
get_irq_stack
irq_save_user_regs
bl do_irq
irq_restore_user_regs
.align 5
fiq:
get_fiq_stack
/* someone ought to write a more effiction fiq_save_user_regs */
irq_save_user_regs
bl do_fiq
irq_restore_user_regs
#else
.align 5
irq:
get_bad_stack
bad_save_user_regs
bl do_irq
.align 5
fiq:
get_bad_stack
bad_save_user_regs
bl do_fiq
#endif
.align 5
.global arm_cache_flush
arm_cache_flush:
mcr p15, 0, r1, c7, c5, 0 @ invalidate I cache
mov pc, lr @ back to caller
/*
* v7_flush_dcache_all()
*
* Flush the whole D-cache.
*
* Corrupted registers: r0-r5, r7, r9-r11
*
* - mm - mm_struct describing address space
*/
.align 5
.global v7_flush_dcache_all
v7_flush_dcache_all:
ldr r0, =0xffffffff
mrc p15, 1, r0, c0, c0, 1 @ Read CLIDR
ands r3, r0, #0x7000000
mov r3, r3, LSR #23 @ Cache level value (naturally aligned)
beq Finished
mov r10, #0
Loop1:
add r2, r10, r10, LSR #1 @ Work out 3xcachelevel
mov r1, r0, LSR r2 @ bottom 3 bits are the Ctype for this level
and r1, r1, #7 @ get those 3 bits alone
cmp r1, #2
blt Skip @ no cache or only instruction cache at this level
mcr p15, 2, r10, c0, c0, 0 @ write the Cache Size selection register
mov r1, #0
mcr p15, 0, r1, c7, c5, 4 @ PrefetchFlush to sync the change to the CacheSizeID reg
mrc p15, 1, r1, c0, c0, 0 @ reads current Cache Size ID register
and r2, r1, #0x7 @ extract the line length field
add r2, r2, #4 @ add 4 for the line length offset (log2 16 bytes)
ldr r4, =0x3FF
ands r4, r4, r1, LSR #3 @ R4 is the max number on the way size (right aligned)
clz r5, r4 @ R5 is the bit position of the way size increment
ldr r7, =0x00007FFF
ands r7, r7, r1, LSR #13 @ R7 is the max number of the index size (right aligned)
Loop2:
mov r9, r4 @ R9 working copy of the max way size (right aligned)
Loop3:
orr r11, r10, r9, LSL r5 @ factor in the way number and cache number into R11
orr r11, r11, r7, LSL r2 @ factor in the index number
mcr p15, 0, r11, c7, c6, 2 @ invalidate by set/way
subs r9, r9, #1 @ decrement the way number
bge Loop3
subs r7, r7, #1 @ decrement the index
bge Loop2
Skip:
add r10, r10, #2 @ increment the cache number
cmp r3, r10
bgt Loop1
Finished:
mov pc, lr
.align 5
.global disable_l2cache
disable_l2cache:
mrc p15, 0, r0, c1, c0, 1
bic r0, r0, #(1<<1)
mcr p15, 0, r0, c1, c0, 1
mov pc, lr
.align 5
.global enable_l2cache
enable_l2cache:
mrc p15, 0, r0, c1, c0, 1
orr r0, r0, #(1<<1)
mcr p15, 0, r0, c1, c0, 1
mov pc, lr
.align 5
.global set_l2cache_auxctrl
set_l2cache_auxctrl:
mov r0, #0x0
mcr p15, 1, r0, c9, c0, 2
mov pc, lr
.align 5
.global set_l2cache_auxctrl_cycle
set_l2cache_auxctrl_cycle:
mrc p15, 1, r0, c9, c0, 2
bic r0, r0, #(0x1<<29)
bic r0, r0, #(0x1<<21)
bic r0, r0, #(0x7<<6)
bic r0, r0, #(0x7<<0)
mcr p15, 1, r0, c9, c0, 2
mov pc,lr
.align 5
CoInvalidateDCacheIndex:
;/* r0 = index */
mcr p15, 0, r0, c7, c6, 2
mov pc,lr
#if defined(CONFIG_INTEGRATOR) && defined(CONFIG_ARCH_CINTEGRATOR)
/* Use the IntegratorCP function from board/integratorcp/platform.S */
#elif defined(CONFIG_S5PC11X)
/* For future usage of S3C64XX*/
#else
.align 5
.globl reset_cpu
reset_cpu:
ldr r1, rstctl /* get addr for global reset reg */
mov r3, #0x2 /* full reset pll+mpu */
str r3, [r1] /* force reset */
mov r0, r0
_loop_forever:
b _loop_forever
rstctl:
.word PM_RSTCTRL_WKUP
#endif
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