__s32 NFC_GetUniqueId(NFC_CMD_LIST *idcmd ,__u8 *idbuf)
{
__u32 i;
__s32 ret;
_enter_nand_critical();
nfc_repeat_mode_enable();
ret = nfc_set_cmd_register(idcmd);
if (ret){
_exit_nand_critical();
return ret;
}
ret = _wait_cmdfifo_free();
ret |= _wait_cmd_finish();
/*get 5 bytes id value*/
for (i = 0; i < 32; i++){
*(idbuf + i) = NFC_READ_RAM_B(NFC_RAM0_BASE+i);
}
nfc_repeat_mode_disable();
_exit_nand_critical();
return ret;
}
__s32 NFC_Read_Spare_First(NFC_CMD_LIST *rcmd, void *mainbuf, void *sparebuf, __u8 dma_wait_mode,__u8 page_mode )
{
__s32 ret ;
_enter_nand_critical();
ret = _read_in_page_mode_spare_first(rcmd, mainbuf,sparebuf, dma_wait_mode);
return ret;
}
__s32 NFC_Read_Spare(NFC_CMD_LIST *rcmd, void *mainbuf, void *sparebuf, __u8 dma_wait_mode,__u8 page_mode )
{
__s32 ret ;
_enter_nand_critical();
ret = _read_in_page_mode_spare(rcmd, mainbuf,sparebuf, dma_wait_mode);
/*switch to ahb*/
NFC_WRITE_REG(NFC_REG_CTL, (NFC_READ_REG(NFC_REG_CTL)) & (~NFC_RAM_METHOD));
_exit_nand_critical();
return ret;
}
/*******************************************************************************
* NFC_CopyBackWrite
*
* Description : copyback write one page data inside flash in single plane mode or multi plane mode
* Arguments : *cwcmd -- the copyback read command sequence list head.
rb_wait_mode -- 0 = do not care rb, 1 = set rb interrupt and do not wait rb ready.
* Returns : 0 = success.
-1 = fail.
* Notes : the unit must be page.
********************************************************************************/
__s32 NFC_CopyBackWrite(NFC_CMD_LIST *cwcmd, __u8 rb_wait_mode)
{
__s32 ret;
_enter_nand_critical();
ret = nfc_set_cmd_register(cwcmd);
if (ret){
_exit_nand_critical();
return ret;
}
_wait_twb();
ret = _wait_cmdfifo_free();
ret |= _wait_cmd_finish();
_exit_nand_critical();
return ret;
}
/*******************************************************************************
* NFC_CopyBackRead
*
* Description : copyback read one page data inside flash in single plane mode or multi plane mode
* Arguments : *crcmd -- the copyback read command sequence list head.
* Returns : 0 = success.
-1 = fail.
* Notes : the unit must be page.
********************************************************************************/
__s32 NFC_CopyBackRead(NFC_CMD_LIST *crcmd)
{
__s32 ret;
_enter_nand_critical();
ret = nfc_set_cmd_register(crcmd);
if (ret){
_exit_nand_critical();
return ret;
}
ret = _wait_cmdfifo_free();
ret |= _wait_cmd_finish();
_exit_nand_critical();
return ret;
}
/*******************************************************************************
* NFC_Write
*
* Description : write one page data into flash in single plane mode.
* Arguments : *wcmd -- the write command sequence list head。
* *mainbuf -- point to data buffer address, it must be four bytes align.
* *sparebuf -- point to spare buffer address.
* dma_wait_mode -- how to deal when dma start, 0 = wait till dma finish,
1 = dma interrupt was set and now sleep till interrupt occurs.
* rb_wait_mode -- 0 = do not care rb, 1 = set rb interrupt and do not wait rb ready.
* page_mode -- 0 = common command, 1 = page command.
* Returns : 0 = success.
-1 = fail.
* Notes : the unit must be page, so if page_mode is not 1, return fail,the function exits without checking status,
if the commands do not fetch data,ecc is not neccesary.
********************************************************************************/
__s32 NFC_Write( NFC_CMD_LIST *wcmd, void *mainbuf, void *sparebuf, __u8 dma_wait_mode, __u8 rb_wait_mode,
__u8 page_mode)
{
__s32 ret;
__s32 i;
__u32 cfg;
__u32 program_cmd,random_program_cmd;
NFC_CMD_LIST *cur_cmd,*program_addr_cmd;
if (page_mode == 0){
return -1;
}
ret = 0;
_enter_nand_critical();
/*write in page_mode*/
program_addr_cmd = wcmd;
cur_cmd = wcmd;
cur_cmd = cur_cmd->next;
random_program_cmd = cur_cmd->value;
cur_cmd = cur_cmd->next;
program_cmd = cur_cmd->value;
//access NFC internal RAM by DMA bus
NFC_WRITE_REG(NFC_REG_CTL, (NFC_READ_REG(NFC_REG_CTL)) | NFC_RAM_METHOD);
/*set dma and run*/
// if (NFC_IS_SDRAM((__u32)mainbuf))
// attr = 0x2930281;
// else
// attr = 0x2930280;
_dma_config_start(1, (__u32)mainbuf, pagesize);
/*wait cmd fifo free*/
ret = _wait_cmdfifo_free();
if (ret){
_exit_nand_critical();
return ret;
}
/*set NFC_REG_CNT*/
NFC_WRITE_REG(NFC_REG_CNT,1024);
/*set NFC_REG_RCMD_SET*/
cfg = 0;
cfg |= (program_cmd & 0xff);
cfg |= ((random_program_cmd & 0xff) << 8);
NFC_WRITE_REG(NFC_REG_WCMD_SET, cfg);
/*set NFC_REG_SECTOR_NUM*/
NFC_WRITE_REG(NFC_REG_SECTOR_NUM, pagesize/1024);
/*set user data*/
for (i = 0; i < pagesize/1024; i++){
NFC_WRITE_REG(NFC_REG_USER_DATA(i), *((__u32 *)sparebuf + i) );
}
/*set addr*/
_set_addr(program_addr_cmd->addr,program_addr_cmd->addr_cycle);
/*set NFC_REG_CMD*/
cfg = 0;
/*set sequence mode*/
//cfg |= 0x1<<25;
cfg |= program_addr_cmd->value;
cfg |= ( (program_addr_cmd->addr_cycle - 1) << 16);
//cfg |= (NFC_SEND_ADR | NFC_ACCESS_DIR | NFC_DATA_TRANS | NFC_SEND_CMD | NFC_WAIT_FLAG | NFC_DATA_SWAP_METHOD);
cfg |= (NFC_SEND_ADR | NFC_ACCESS_DIR | NFC_DATA_TRANS | NFC_SEND_CMD1 | NFC_SEND_CMD2 | NFC_DATA_SWAP_METHOD);
cfg |= ((__u32)0x2 << 30);//page command
if (pagesize/1024 == 1)
cfg |= NFC_SEQ;
/*enable ecc*/
_enable_ecc(1);
NFC_WRITE_REG(NFC_REG_CMD,cfg);
NAND_WaitDmaFinish();
_wait_twb();
_wait_cmdfifo_free();
_wait_cmd_finish();
/*start dma?*/
/*if dma mode is wait*/
if(0 == dma_wait_mode){
ret = _wait_dma_end();
}
/*disable ecc*/
_disable_ecc();
/*switch to ahb*/
NFC_WRITE_REG(NFC_REG_CTL, (NFC_READ_REG(NFC_REG_CTL)) & (~NFC_RAM_METHOD));
_exit_nand_critical();
return ret;
}
__s32 NFC_Write_Seq( NFC_CMD_LIST *wcmd, void *mainbuf, void *sparebuf, __u8 dma_wait_mode, __u8 rb_wait_mode,
__u8 page_mode)
{
__s32 ret;
__s32 i;
__u32 cfg;
__u32 page_size_temp, ecc_mode_temp,page_size_set,ecc_set;
__u32 program_cmd,random_program_cmd;
NFC_CMD_LIST *cur_cmd,*program_addr_cmd;
if (page_mode == 0){
return -1;
}
ret = 0;
_enter_nand_critical();
/*write in page_mode*/
program_addr_cmd = wcmd;
cur_cmd = wcmd;
cur_cmd = cur_cmd->next;
random_program_cmd = cur_cmd->value;
cur_cmd = cur_cmd->next;
program_cmd = cur_cmd->value;
//access NFC internal RAM by DMA bus
NFC_WRITE_REG(NFC_REG_CTL, (NFC_READ_REG(NFC_REG_CTL)) | NFC_RAM_METHOD);
//set pagesize to 8K for burn boot0 lsb mode
page_size_temp = (NFC_READ_REG(NFC_REG_CTL) & 0xf00)>>8;
NFC_WRITE_REG(NFC_REG_CTL, ((NFC_READ_REG(NFC_REG_CTL)) & (~NFC_PAGE_SIZE))| (0x3<<8));
page_size_set = 8192; //fix pagesize 8k to burn boot1.bin for hynix 2x and 2y nm flash
_dma_config_start(1, (__u32)mainbuf, page_size_set);
/*wait cmd fifo free*/
ret = _wait_cmdfifo_free();
if (ret){
_exit_nand_critical();
return ret;
}
/*set NFC_REG_CNT*/
NFC_WRITE_REG(NFC_REG_CNT,1024);
/*set NFC_REG_RCMD_SET*/
cfg = 0;
cfg |= (program_cmd & 0xff);
cfg |= ((random_program_cmd & 0xff) << 8);
NFC_WRITE_REG(NFC_REG_WCMD_SET, cfg);
/*set NFC_REG_SECTOR_NUM*/
NFC_WRITE_REG(NFC_REG_SECTOR_NUM, page_size_set/1024);
/*set user data*/
for (i = 0; i < page_size_set/1024; i++){
NFC_WRITE_REG(NFC_REG_USER_DATA(i), *((__u32 *)sparebuf + i) );
}
/*set addr*/
_set_addr(program_addr_cmd->addr,program_addr_cmd->addr_cycle);
/*set NFC_REG_CMD*/
cfg = 0;
/*set sequence mode*/
cfg |= 0x1<<25;
cfg |= program_addr_cmd->value;
cfg |= ( (program_addr_cmd->addr_cycle - 1) << 16);
//cfg |= (NFC_SEND_ADR | NFC_ACCESS_DIR | NFC_DATA_TRANS | NFC_SEND_CMD | NFC_WAIT_FLAG | NFC_DATA_SWAP_METHOD);
cfg |= (NFC_SEND_ADR | NFC_ACCESS_DIR | NFC_DATA_TRANS | NFC_SEND_CMD1 | NFC_SEND_CMD2 | NFC_DATA_SWAP_METHOD);
cfg |= ((__u32)0x2 << 30);//page command
/*enable ecc*/
_enable_ecc(1);
/*set ecc to specified ecc*/
ecc_mode_temp = (NFC_READ_REG(NFC_REG_ECC_CTL) & 0xf000)>>12;
if(ecc_mode_temp>=4) //change for hynix 2y nm flash
ecc_set = 0x4;
else//change for hynix 2x nm flash
ecc_set = 0x1;
NFC_WRITE_REG(NFC_REG_ECC_CTL, ((NFC_READ_REG(NFC_REG_ECC_CTL) & (~NFC_ECC_MODE))|(ecc_set<<12) ));
NFC_WRITE_REG(NFC_REG_CMD,cfg);
NAND_WaitDmaFinish();
_wait_twb();
_wait_cmdfifo_free();
_wait_cmd_finish();
/*start dma?*/
/*if dma mode is wait*/
// if(0 == dma_wait_mode){
// ret = _wait_dma_end();
// }
/*disable ecc*/
_disable_ecc();
/*set ecc to original value*/
NFC_WRITE_REG(NFC_REG_ECC_CTL, (NFC_READ_REG(NFC_REG_ECC_CTL) & (~NFC_ECC_MODE))|(ecc_mode_temp<<12));
/*set pagesize to original value*/
NFC_WRITE_REG(NFC_REG_CTL, ((NFC_READ_REG(NFC_REG_CTL)) & (~NFC_PAGE_SIZE)) | (page_size_temp<<8));
/*switch to ahb*/
NFC_WRITE_REG(NFC_REG_CTL, (NFC_READ_REG(NFC_REG_CTL)) & (~NFC_RAM_METHOD));
_exit_nand_critical();
return ret;
}
__s32 NFC_Write_1K( NFC_CMD_LIST *wcmd, void *mainbuf, void *sparebuf, __u8 dma_wait_mode, __u8 rb_wait_mode,
__u8 page_mode)
{
__s32 ret;
__s32 i;
__u32 cfg;
__u32 page_size_temp, ecc_mode_temp;
__u32 program_cmd,random_program_cmd;
NFC_CMD_LIST *cur_cmd,*program_addr_cmd;
if (page_mode == 0){
return -1;
}
ret = 0;
_enter_nand_critical();
/*write in page_mode*/
program_addr_cmd = wcmd;
cur_cmd = wcmd;
cur_cmd = cur_cmd->next;
random_program_cmd = cur_cmd->value;
cur_cmd = cur_cmd->next;
program_cmd = cur_cmd->value;
//access NFC internal RAM by DMA bus
NFC_WRITE_REG(NFC_REG_CTL, (NFC_READ_REG(NFC_REG_CTL)) | NFC_RAM_METHOD);
//set pagesize to 1K
page_size_temp = (NFC_READ_REG(NFC_REG_CTL) & 0xf00)>>8;
NFC_WRITE_REG(NFC_REG_CTL, ((NFC_READ_REG(NFC_REG_CTL)) & (~NFC_PAGE_SIZE))| (0x0<<8));
_dma_config_start(1, (__u32)mainbuf, 1024);
/*wait cmd fifo free*/
ret = _wait_cmdfifo_free();
if (ret){
_exit_nand_critical();
return ret;
}
/*set NFC_REG_CNT*/
NFC_WRITE_REG(NFC_REG_CNT,1024);
/*set NFC_REG_RCMD_SET*/
cfg = 0;
cfg |= (program_cmd & 0xff);
cfg |= ((random_program_cmd & 0xff) << 8);
NFC_WRITE_REG(NFC_REG_WCMD_SET, cfg);
/*set NFC_REG_SECTOR_NUM*/
NFC_WRITE_REG(NFC_REG_SECTOR_NUM, 1024/1024);
/*set user data*/
for (i = 0; i < 1024/1024; i++){
NFC_WRITE_REG(NFC_REG_USER_DATA(i), *((__u32 *)sparebuf + i) );
}
/*set addr*/
_set_addr(program_addr_cmd->addr,program_addr_cmd->addr_cycle);
/*set NFC_REG_CMD*/
cfg = 0;
/*set sequence mode*/
cfg |= 0x1<<25;
cfg |= program_addr_cmd->value;
cfg |= ( (program_addr_cmd->addr_cycle - 1) << 16);
//cfg |= (NFC_SEND_ADR | NFC_ACCESS_DIR | NFC_DATA_TRANS | NFC_SEND_CMD | NFC_WAIT_FLAG | NFC_DATA_SWAP_METHOD);
cfg |= (NFC_SEND_ADR | NFC_ACCESS_DIR | NFC_DATA_TRANS | NFC_SEND_CMD1 | NFC_SEND_CMD2 | NFC_DATA_SWAP_METHOD);
cfg |= ((__u32)0x2 << 30);//page command
if (pagesize/1024 == 1)
cfg |= NFC_SEQ;
/*enable ecc*/
_enable_ecc(1);
/*set ecc to 64-bit ecc*/
ecc_mode_temp = (NFC_READ_REG(NFC_REG_ECC_CTL) & 0xf000)>>12;
NFC_WRITE_REG(NFC_REG_ECC_CTL, ((NFC_READ_REG(NFC_REG_ECC_CTL) & (~NFC_ECC_MODE))|(0x8<<12) ));
NFC_WRITE_REG(NFC_REG_CMD,cfg);
NAND_WaitDmaFinish();
ret = _wait_dma_end(1, (__u32)mainbuf, 1024);
if (ret)
return ret;
_wait_twb();
_wait_cmdfifo_free();
_wait_cmd_finish();
/*disable ecc*/
_disable_ecc();
/*set ecc to original value*/
NFC_WRITE_REG(NFC_REG_ECC_CTL, (NFC_READ_REG(NFC_REG_ECC_CTL) & (~NFC_ECC_MODE))|(ecc_mode_temp<<12));
/*set pagesize to original value*/
NFC_WRITE_REG(NFC_REG_CTL, ((NFC_READ_REG(NFC_REG_CTL)) & (~NFC_PAGE_SIZE)) | (page_size_temp<<8));
/*switch to ahb*/
NFC_WRITE_REG(NFC_REG_CTL, (NFC_READ_REG(NFC_REG_CTL)) & (~NFC_RAM_METHOD));
_exit_nand_critical();
return ret;
}
