Uboot對(duì)非Linux kernel的引導(dǎo)

時(shí)間：2014-06-10 19:10:02

關(guān)鍵字： Linux KERNEL UBOOT ADDRESS

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[導(dǎo)讀]實(shí)現(xiàn)了uboot對(duì)非linux kernel的引導(dǎo)。雖然有一個(gè)IH_TYPE_STANDALONE，但是沒(méi)有實(shí)現(xiàn)。nnd。只能自己想辦法。實(shí)現(xiàn)詳細(xì)見(jiàn)下面。1、兩個(gè)命令set bootcmd tftp 84000000 uImage

實(shí)現(xiàn)了uboot對(duì)非linux kernel的引導(dǎo)。雖然有一個(gè)IH_TYPE_STANDALONE，但是沒(méi)有實(shí)現(xiàn)。nnd。只能自己想辦法。實(shí)現(xiàn)詳細(xì)見(jiàn)下面。

1、兩個(gè)命令

set bootcmd tftp 84000000 uImage\;bootm 84000000

set bootdelay 1

2、非linux kernel的引導(dǎo)實(shí)現(xiàn)方法：

一共三個(gè)函數(shù)： jump，selectboot 和 system_boot

把jump放在需要跳轉(zhuǎn)的地方，參數(shù)就是要跳轉(zhuǎn)的地址。然后返回，重啟系統(tǒng)。select放在main的開(kāi)頭。通過(guò)判斷ram的特定地址的特定信息實(shí)現(xiàn)跳轉(zhuǎn)。

system_boot實(shí)現(xiàn)系統(tǒng)的重新啟動(dòng)

#define FDMA_SRAM_TOP_ADDRESS 0xB9229800

#define MAGIC_NUM 0x71097100

#define DEAD_PATTERN 0xBAD0BADF

#define ST40_CPG_REGS_BASE 0xFFC00000#define

ST40_CPG_WTCNT (ST40_CPG_REGS_BASE + 0x08)

#define ST40_CPG_WTCSR (ST40_CPG_REGS_BASE + 0x0C)

#define ST40_CPG_WTCSR2 (ST40_CPG_REGS_BASE + 0x1C)

void Jump(unsigned int address)

{

STSYS_WriteRegDev32LE(FDMA_SRAM_TOP_ADDRESS - 4*1, MAGIC_NUM);

STSYS_WriteRegDev32LE(FDMA_SRAM_TOP_ADDRESS - 4*2, address);

STSYS_WriteRegDev32LE(FDMA_SRAM_TOP_ADDRESS - 4*3, ~address);

STSYS_WriteRegDev32LE(FDMA_SRAM_TOP_ADDRESS - 4*4, ~MAGIC_NUM);

STSYS_WriteRegDev16LE(ST40_CPG_WTCNT, 0x5AF0); /*Watchdog counter*/

STSYS_WriteRegDev16LE(ST40_CPG_WTCSR, 0xA547); /*Watchdog control*/

STSYS_WriteRegDev16LE(ST40_CPG_WTCSR2, 0xAA00); /*Watchdog control2*/

STSYS_WriteRegDev16LE(ST40_CPG_WTCSR, 0xA5C7); /*Start watchdog counter*/ for(;;);

}

void SelectBoot(void)

{

unsigned int MagicNum = 0;

unsigned int NotMagicNum = 0;

unsigned int JumpAddress = 0;

unsigned int NotJumpAddress = 0; void (*entry)(void);

/* entry=0xa0100000;

entry();*/ //if((STSYS_ReadRegDev16LE(ST40_CPG_WTCSR2) & 0xFF) != 0x0)

{

MagicNum = STSYS_ReadRegDev32LE(FDMA_SRAM_TOP_ADDRESS - 4*1);

JumpAddress = STSYS_ReadRegDev32LE(FDMA_SRAM_TOP_ADDRESS - 4*2);

NotJumpAddress = STSYS_ReadRegDev32LE(FDMA_SRAM_TOP_ADDRESS - 4*3);

NotMagicNum = STSYS_ReadRegDev32LE(FDMA_SRAM_TOP_ADDRESS - 4*4);

if((MagicNum == MAGIC_NUM)

&& (MagicNum == (~NotMagicNum))

&& (JumpAddress == (~NotJumpAddress)))

{

entry = (void (*)(void))JumpAddress;

STSYS_WriteRegDev32LE(FDMA_SRAM_TOP_ADDRESS - 4*1, DEAD_PATTERN);

STSYS_WriteRegDev32LE(FDMA_SRAM_TOP_ADDRESS - 4*2, DEAD_PATTERN);

STSYS_WriteRegDev32LE(FDMA_SRAM_TOP_ADDRESS - 4*3, DEAD_PATTERN);

STSYS_WriteRegDev32LE(FDMA_SRAM_TOP_ADDRESS - 4*4, DEAD_PATTERN);

#if 0/*Setup For watchdog in case jump failed.*/

STSYS_WriteRegDev16LE(ST40_CPG_WTCNT, 0x5AF0);

STSYS_WriteRegDev16LE(ST40_CPG_WTCSR, 0xA543);

STSYS_WriteRegDev16LE(ST40_CPG_WTCSR2, 0xAA01);

STSYS_WriteRegDev16LE(ST40_CPG_WTCSR, 0xA5C7);

#endif entry(); while(1);

}

}void system_reboot(void)

{

ulong sr;

asm ("stc sr, %0":"=r" (sr));

sr 　= (1 << 28); /* set block bit */

asm ("ldc %0, sr": :"r" (sr));

asm volatile ("trapa #0");

}