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mirror of git://projects.qi-hardware.com/xburst-tools.git synced 2024-11-25 23:23:44 +02:00

Massive cleanup

This commit is contained in:
Lars-Peter Clausen 2009-12-16 15:05:31 +01:00
parent 476d9bc3c4
commit 836fade868
15 changed files with 1146 additions and 1005 deletions

View File

@ -1,4 +1,4 @@
AM_CFLAGS = -pedantic -Wall -W -O1 -g3 -std=gnu99 -lusb -lconfuse AM_CFLAGS = -pedantic -Wall -Werror -O1 -g3 -std=gnu99 -lusb -lconfuse
xburst-tools_version.h: xburst-tools_version.h:
echo -e '#ifndef XBURST_TOOLS_VERSION' \ echo -e '#ifndef XBURST_TOOLS_VERSION' \
@ -6,9 +6,12 @@ xburst-tools_version.h:
'\n#endif' > xburst-tools_version.h '\n#endif' > xburst-tools_version.h
BUILT_SOURCES = xburst-tools_version.h BUILT_SOURCES = xburst-tools_version.h
bin_PROGRAMS = usbboot bin_PROGRAMS = usbboot usbboot_server
usbboot_SOURCES = cmd.c command_line.c ingenic_cfg.c \ usbboot_SOURCES = cmd.c command_line.c ingenic_cfg.c \
ingenic_usb.c main.c ingenic_usb.c main.c nand.c mem.c
usbboot_server_SOURCES = cmd.c ingenic_cfg.c \
ingenic_usb.c server.c nand.c mem.c
prefix = /usr prefix = /usr
datadir = /usr/share/xburst-tools datadir = /usr/share/xburst-tools

View File

@ -31,26 +31,13 @@
#include "ingenic_usb.h" #include "ingenic_usb.h"
#include "usb_boot_defines.h" #include "usb_boot_defines.h"
extern int com_argc;
extern char com_argv[MAX_ARGC][MAX_COMMAND_LENGTH];
struct ingenic_dev ingenic_dev;
struct hand hand; struct hand hand;
struct sdram_in sdram_in; struct sdram_in sdram_in;
struct nand_in nand_in;
static struct nand_out nand_out;
unsigned int total_size; unsigned int total_size;
unsigned char code_buf[4 * 512 * 1024]; static char code_buf[4 * 512 * 1024];
unsigned char check_buf[4 * 512 * 1024]; static char ret[8];
unsigned char cs[16];
unsigned char ret[8];
static const char IMAGE_TYPE[][30] = {
"with oob and ecc",
"with oob and without ecc",
"without oob",
};
static int load_file(struct ingenic_dev *ingenic_dev, const char *file_path) static int load_file(struct ingenic_dev *ingenic_dev, const char *file_path)
{ {
@ -78,7 +65,7 @@ static int load_file(struct ingenic_dev *ingenic_dev, const char *file_path)
status = read(fd, ingenic_dev->file_buff, ingenic_dev->file_len); status = read(fd, ingenic_dev->file_buff, ingenic_dev->file_len);
if (status < ingenic_dev->file_len) { if (status < (int)ingenic_dev->file_len) {
fprintf(stderr, "Error - can't read file '%s': %s\n", fprintf(stderr, "Error - can't read file '%s': %s\n",
file_path, strerror(errno)); file_path, strerror(errno));
goto close; goto close;
@ -97,22 +84,20 @@ out:
} }
/* after upload stage2. must init device */ /* after upload stage2. must init device */
void init_cfg() void init_cfg(struct ingenic_dev *dev)
{ {
if (usb_get_ingenic_cpu(&ingenic_dev) < 3) { if (usb_get_ingenic_cpu(dev) < 3) {
printf(" XBurst CPU not booted yet, boot it first!\n"); printf(" XBurst CPU not booted yet, boot it first!\n");
return; return;
} }
ingenic_dev.file_buff = &hand; if (usb_send_data_to_ingenic(dev, (char*)&hand, sizeof(hand)) != 1)
ingenic_dev.file_len = sizeof(hand);
if (usb_send_data_to_ingenic(&ingenic_dev) != 1)
goto xout; goto xout;
if (usb_ingenic_configration(&ingenic_dev, DS_hand) != 1) if (usb_ingenic_configration(dev, DS_hand) != 1)
goto xout; goto xout;
if (usb_read_data_from_ingenic(&ingenic_dev, ret, 8) != 1) if (usb_read_data_from_ingenic(dev, ret, 8) != 1)
goto xout; goto xout;
printf(" Configuring XBurst CPU succeeded.\n"); printf(" Configuring XBurst CPU succeeded.\n");
@ -121,10 +106,11 @@ xout:
printf("Configuring XBurst CPU failed.\n"); printf("Configuring XBurst CPU failed.\n");
} }
int boot(char *stage1_path, char *stage2_path){ int boot(struct ingenic_dev *dev, const char *stage1_path, const char *stage2_path)
{
int status; int status;
status = usb_get_ingenic_cpu(&ingenic_dev); status = usb_get_ingenic_cpu(dev);
switch (status) { switch (status) {
case 1: /* Jz4740v1 */ case 1: /* Jz4740v1 */
status = 0; status = 0;
@ -154,596 +140,36 @@ int boot(char *stage1_path, char *stage2_path){
/* now we upload the boot stage1 */ /* now we upload the boot stage1 */
printf(" Loading stage1 from '%s'\n", stage1_path); printf(" Loading stage1 from '%s'\n", stage1_path);
if (load_file(&ingenic_dev, stage1_path) < 1) if (load_file(dev, stage1_path) < 1)
return -1; return -1;
if (usb_ingenic_upload(&ingenic_dev, 1) < 1) if (usb_ingenic_upload(dev, 1) < 1)
return -1; return -1;
/* now we upload the boot stage2 */ /* now we upload the boot stage2 */
usleep(100); usleep(100);
printf(" Loading stage2 from '%s'\n", stage2_path); printf(" Loading stage2 from '%s'\n", stage2_path);
if (load_file(&ingenic_dev, stage2_path) < 1) if (load_file(dev, stage2_path) < 1)
return -1; return -1;
if (usb_ingenic_upload(&ingenic_dev, 2) < 1) if (usb_ingenic_upload(dev, 2) < 1)
return -1; return -1;
printf(" Booted successfully!\n"); printf(" Booted successfully!\n");
} }
usleep(100); usleep(100);
init_cfg(); init_cfg(dev);
return 1; return 1;
} }
/* nand function */
int error_check(unsigned char *org,unsigned char * obj,unsigned int size) int debug_memory(struct ingenic_dev *dev, int obj, unsigned int start, unsigned int size)
{ {
unsigned int i; char buffer[8], tmp;
printf(" Comparing %d bytes - ", size);
for (i = 0; i < size; i++) {
if (org[i] != obj[i]) {
unsigned int s = (i < 8) ? i : i - 8; // start_dump
printf("FAIL at off %d, wrote 0x%x, read 0x%x\n", i, org[i], obj[i]);
printf(" off %d write: %02x %02x %02x %02x %02x %02x %02x %02x"
" %02x %02x %02x %02x %02x %02x %02x %02x\n", s,
org[s], org[s+1], org[s+2], org[s+3], org[s+4], org[s+5], org[s+6], org[s+7],
org[s+8], org[s+9], org[s+10], org[s+11], org[s+12], org[s+13], org[s+14], org[s+15]);
printf(" off %d read: %02x %02x %02x %02x %02x %02x %02x %02x"
" %02x %02x %02x %02x %02x %02x %02x %02x\n", s,
obj[s], obj[s+1], obj[s+2], obj[s+3], obj[s+4], obj[s+5], obj[s+6], obj[s+7],
obj[s+8], obj[s+9], obj[s+10], obj[s+11], obj[s+12], obj[s+13], obj[s+14], obj[s+15]);
return 0;
}
}
printf("SUCCESS\n");
return 1;
}
int nand_markbad(struct nand_in *nand_in) (void)obj;
{
if (usb_get_ingenic_cpu(&ingenic_dev) < 3) {
printf(" Device unboot! Boot it first!\n");
return -1;
}
printf(" mark bad block : %d\n",nand_in->start);
usb_send_data_address_to_ingenic(&ingenic_dev, nand_in->start);
usb_ingenic_nand_ops(&ingenic_dev, NAND_MARK_BAD);
usb_read_data_from_ingenic(&ingenic_dev, ret, 8);
printf(" Mark bad block at %d\n",((ret[3] << 24) |
(ret[2] << 16) |
(ret[1] << 8) |
(ret[0] << 0)) / hand.nand_ppb);
return 0;
}
int nand_program_check(struct nand_in *nand_in, tmp = usb_get_ingenic_cpu(dev);
struct nand_out *nand_out,
unsigned int *start_page)
{
unsigned int i, page_num, cur_page = -1;
unsigned short temp;
printf(" Writing NAND page %d len %d...\n", nand_in->start, nand_in->length);
if (nand_in->length > (unsigned int)MAX_TRANSFER_SIZE) {
printf(" Buffer size too long!\n");
return -1;
}
#ifdef CONFIG_NAND_OUT
unsigned char status_buf[32];
nand_out->status = status_buf;
for (i = 0; i < nand_in->max_chip; i++)
(nand_out->status)[i] = 0; /* set all status to fail */
#endif
if (usb_get_ingenic_cpu(&ingenic_dev) < 3) {
printf(" Device unboot! Boot it first!\n");
return -1;
}
ingenic_dev.file_buff = nand_in->buf;
ingenic_dev.file_len = nand_in->length;
usb_send_data_to_ingenic(&ingenic_dev);
for (i = 0; i < nand_in->max_chip; i++) {
if ((nand_in->cs_map)[i]==0)
continue;
if (nand_in->option == NO_OOB) {
page_num = nand_in->length / hand.nand_ps;
if ((nand_in->length % hand.nand_ps) !=0)
page_num++;
} else {
page_num = nand_in->length /
(hand.nand_ps + hand.nand_os);
if ((nand_in->length% (hand.nand_ps + hand.nand_os)) !=0)
page_num++;
}
temp = ((nand_in->option << 12) & 0xf000) +
((i<<4) & 0xff0) + NAND_PROGRAM;
usb_send_data_address_to_ingenic(&ingenic_dev, nand_in->start);
usb_send_data_length_to_ingenic(&ingenic_dev, page_num);
usb_ingenic_nand_ops(&ingenic_dev, temp);
usb_read_data_from_ingenic(&ingenic_dev, ret, 8);
printf(" Finish! (len %d start_page %d page_num %d)\n",
nand_in->length, nand_in->start, page_num);
usb_send_data_address_to_ingenic(&ingenic_dev, nand_in->start);
/* Read back to check! */
usb_send_data_length_to_ingenic(&ingenic_dev, page_num);
switch (nand_in->option) {
case OOB_ECC:
temp = ((OOB_ECC << 12) & 0xf000) +
((i << 4) & 0xff0) + NAND_READ;
usb_ingenic_nand_ops(&ingenic_dev, temp);
printf(" Checking %d bytes...", nand_in->length);
usb_read_data_from_ingenic(&ingenic_dev, check_buf,
page_num * (hand.nand_ps + hand.nand_os));
usb_read_data_from_ingenic(&ingenic_dev, ret, 8);
break;
case OOB_NO_ECC: /* do not support data verify */
temp = ((OOB_NO_ECC << 12) & 0xf000) +
((i << 4) & 0xff0) + NAND_READ;
usb_ingenic_nand_ops(&ingenic_dev, temp);
printf(" Checking %d bytes...", nand_in->length);
usb_read_data_from_ingenic(&ingenic_dev, check_buf,
page_num * (hand.nand_ps + hand.nand_os));
usb_read_data_from_ingenic(&ingenic_dev, ret, 8);
break;
case NO_OOB:
temp = ((NO_OOB << 12) & 0xf000) +
((i << 4) & 0xff0) + NAND_READ;
usb_ingenic_nand_ops(&ingenic_dev, temp);
printf(" Checking %d bytes...", nand_in->length);
usb_read_data_from_ingenic(&ingenic_dev, check_buf,
page_num * hand.nand_ps);
usb_read_data_from_ingenic(&ingenic_dev, ret, 8);
break;
default:
;
}
cur_page = (ret[3] << 24) | (ret[2] << 16) | (ret[1] << 8) |
(ret[0] << 0);
#ifdef CONFIG_NAND_OUT
(nand_out->status)[i] = 1;
#endif
if (nand_in->start < 1 &&
hand.nand_ps == 4096 &&
hand.fw_args.cpu_id == 0x4740) {
printf(" no check! End at Page: %d\n", cur_page);
continue;
}
if (!nand_in->check(nand_in->buf, check_buf, nand_in->length)) {
#ifdef CONFIG_NAND_OUT
(nand_out->status)[i] = 0;
#endif
struct nand_in bad;
// tbd: doesn't the other side skip bad blocks too? Can we just deduct 1 from cur_page?
// tbd: why do we only mark a block as bad if the last page in the block was written?
bad.start = (cur_page - 1) / hand.nand_ppb;
if (cur_page % hand.nand_ppb == 0)
nand_markbad(&bad);
}
printf(" End at Page: %d\n",cur_page);
}
*start_page = cur_page;
return 0;
}
int nand_erase(struct nand_in *nand_in)
{
unsigned int start_blk, blk_num, end_block;
int i;
start_blk = nand_in->start;
blk_num = nand_in->length;
if (start_blk > (unsigned int)NAND_MAX_BLK_NUM) {
printf(" Start block number overflow!\n");
return -1;
}
if (blk_num > (unsigned int)NAND_MAX_BLK_NUM) {
printf(" Length block number overflow!\n");
return -1;
}
if (usb_get_ingenic_cpu(&ingenic_dev) < 3) {
printf(" Device unboot! Boot it first!\n");
return -1;
}
for (i = 0; i < nand_in->max_chip; i++) {
if ((nand_in->cs_map)[i]==0)
continue;
printf(" Erasing No.%d device No.%d flash (start_blk %u blk_num %u)......\n",
nand_in->dev, i, start_blk, blk_num);
usb_send_data_address_to_ingenic(&ingenic_dev, start_blk);
usb_send_data_length_to_ingenic(&ingenic_dev, blk_num);
unsigned short temp = ((i << 4) & 0xff0) + NAND_ERASE;
usb_ingenic_nand_ops(&ingenic_dev, temp);
usb_read_data_from_ingenic(&ingenic_dev, ret, 8);
printf(" Finish!");
}
end_block = ((ret[3] << 24) |
(ret[2] << 16) |
(ret[1] << 8) |
(ret[0] << 0)) / hand.nand_ppb;
printf(" Return: %02x %02x %02x %02x %02x %02x %02x %02x (position %d)\n",
ret[0], ret[1], ret[2], ret[3], ret[4], ret[5], ret[6], ret[7], end_block);
if (!hand.nand_force_erase) {
/* not force erase, show bad block infomation */
printf(" There are marked bad blocks: %d\n",
end_block - start_blk - blk_num );
} else {
/* force erase, no bad block infomation can show */
printf(" Force erase, no bad block infomation!\n" );
}
return 1;
}
int nand_program_file(struct nand_in *nand_in,
struct nand_out *nand_out,
char *fname)
{
int flen, m, j, k;
unsigned int start_page = 0, page_num, code_len, offset, transfer_size;
int fd, status;
struct stat fstat;
struct nand_in n_in;
struct nand_out n_out;
#ifdef CONFIG_NAND_OUT
unsigned char status_buf[32];
nand_out->status = status_buf;
for (i=0; i<nand_in->max_chip; i++)
(nand_out->status)[i] = 0; /* set all status to fail */
#endif
status = stat(fname, &fstat);
if (status < 0) {
fprintf(stderr, "Error - can't get file size from '%s': %s\n",
fname, strerror(errno));
return -1;
}
flen = fstat.st_size;
fd = open(fname, O_RDONLY);
if (fd < 0) {
fprintf(stderr, "Error - can't open file '%s': %s\n",
fname, strerror(errno));
return -1;
}
printf(" Programing No.%d device, flen %d, start page %d...\n",nand_in->dev, flen, nand_in->start);
n_in.start = nand_in->start / hand.nand_ppb;
if (nand_in->option == NO_OOB) {
if (flen % (hand.nand_ppb * hand.nand_ps) == 0)
n_in.length = flen / (hand.nand_ps * hand.nand_ppb);
else
n_in.length = flen / (hand.nand_ps * hand.nand_ppb) + 1;
} else {
if (flen % (hand.nand_ppb * (hand.nand_ps + hand.nand_os)) == 0)
n_in.length = flen /
((hand.nand_ps + hand.nand_os) * hand.nand_ppb);
else
n_in.length = flen /
((hand.nand_ps + hand.nand_os) * hand.nand_ppb)
+ 1;
}
/* printf(" length %d flen %d\n", n_in.length, flen); */
n_in.cs_map = nand_in->cs_map;
n_in.dev = nand_in->dev;
n_in.max_chip = nand_in->max_chip;
if (nand_erase(&n_in) != 1)
return -1;
if (nand_in->option == NO_OOB)
transfer_size = (hand.nand_ppb * hand.nand_ps);
else
transfer_size = (hand.nand_ppb * (hand.nand_ps + hand.nand_os));
m = flen / transfer_size;
j = flen % transfer_size;
printf(" Size to send %d, transfer_size %d\n", flen, transfer_size);
printf(" Image type : %s\n", IMAGE_TYPE[nand_in->option]);
printf(" It will cause %d times buffer transfer.\n", j == 0 ? m : m + 1);
#ifdef CONFIG_NAND_OUT
for (i = 0; i < nand_in->max_chip; i++)
(nand_out->status)[i] = 1; /* set all status to success! */
#endif
offset = 0;
for (k = 0; k < m; k++) {
if (nand_in->option == NO_OOB)
page_num = transfer_size / hand.nand_ps;
else
page_num = transfer_size / (hand.nand_ps + hand.nand_os);
code_len = transfer_size;
status = read(fd, code_buf, code_len);
if (status < code_len) {
fprintf(stderr, "Error - can't read file '%s': %s\n",
fname, strerror(errno));
return -1;
}
nand_in->length = code_len; /* code length,not page number! */
nand_in->buf = code_buf;
if (nand_program_check(nand_in, &n_out, &start_page) == -1)
return -1;
if (start_page - nand_in->start > hand.nand_ppb)
printf(" Skip a old bad block !\n");
nand_in->start = start_page;
#ifdef CONFIG_NAND_OUT
for (i = 0; i < nand_in->max_chip; i++) {
(nand_out->status)[i] = (nand_out->status)[i] *
(n_out.status)[i];
}
#endif
offset += code_len ;
}
if (j) {
code_len = j;
if (j % hand.nand_ps)
j += hand.nand_ps - (j % hand.nand_ps);
memset(code_buf, 0, j); /* set all to null */
status = read(fd, code_buf, code_len);
if (status < code_len) {
fprintf(stderr, "Error - can't read file '%s': %s\n",
fname, strerror(errno));
return -1;
}
nand_in->length = j;
nand_in->buf = code_buf;
if (nand_program_check(nand_in, &n_out, &start_page) == -1)
return -1;
if (start_page - nand_in->start > hand.nand_ppb)
printf(" Skip a old bad block !");
#ifdef CONFIG_NAND_OUT
for (i=0; i < nand_in->max_chip; i++) {
(nand_out->status)[i] = (nand_out->status)[i] *
(n_out.status)[i];
}
#endif
}
close(fd);
return 1;
}
int nand_program_file_planes(struct nand_in *nand_in,
struct nand_out *nand_out,
char *fname)
{
printf(" not implement yet !\n");
return -1;
}
int init_nand_in(void)
{
nand_in.buf = code_buf;
nand_in.check = error_check;
nand_in.dev = 0;
nand_in.cs_map = cs;
memset(nand_in.cs_map, 0, MAX_DEV_NUM);
nand_in.max_chip = 16;
return 0;
}
int nand_prog(void)
{
char *image_file;
char *help = " Usage: nprog (1) (2) (3) (4) (5)\n"
" (1)\tstart page number\n"
" (2)\timage file name\n"
" (3)\tdevice index number\n"
" (4)\tflash index number\n"
" (5) image type must be:\n"
" \t-n:\tno oob\n"
" \t-o:\twith oob no ecc\n"
" \t-e:\twith oob and ecc\n";
if (com_argc != 6) {
printf(" not enough argument.\n");
printf("%s", help);
return 0;
}
init_nand_in();
nand_in.start = atoi(com_argv[1]);
image_file = com_argv[2];
nand_in.dev = atoi(com_argv[3]);
(nand_in.cs_map)[atoi(com_argv[4])] = 1;
if (!strcmp(com_argv[5], "-e"))
nand_in.option = OOB_ECC;
else if (!strcmp(com_argv[5], "-o"))
nand_in.option = OOB_NO_ECC;
else if (!strcmp(com_argv[5], "-n"))
nand_in.option = NO_OOB;
else
printf("%s", help);
if (hand.nand_plane > 1)
nand_program_file_planes(&nand_in, &nand_out, image_file);
else
nand_program_file(&nand_in, &nand_out, image_file);
#ifdef CONFIG_NAND_OUT
printf(" Flash check result:\n");
int i;
for (i = 0; i < 16; i++)
printf(" %d", (nand_out.status)[i]);
#endif
return 1;
}
int nand_query(void)
{
int i;
unsigned char csn;
if (com_argc < 3) {
printf(" Usage: nquery (1) (2)\n"
" (1):device index number\n"
" (2):flash index number\n");
return -1;
}
init_nand_in();
nand_in.dev = atoi(com_argv[1]);
(nand_in.cs_map)[atoi(com_argv[2])] = 1;
for (i = 0; i < nand_in.max_chip; i++) {
if ((nand_in.cs_map)[i] != 0)
break;
}
if (i >= nand_in.max_chip)
return -1;
if (usb_get_ingenic_cpu(&ingenic_dev) < 3) {
printf(" Device unboot! Boot it first!\n");
return -1;
}
csn = i;
printf(" ID of No.%d device No.%d flash: \n", nand_in.dev, csn);
unsigned short ops = ((csn << 4) & 0xff0) + NAND_QUERY;
usb_ingenic_nand_ops(&ingenic_dev, ops);
usb_read_data_from_ingenic(&ingenic_dev, ret, 8);
printf(" Vendor ID :0x%x \n",(unsigned char)ret[0]);
printf(" Product ID :0x%x \n",(unsigned char)ret[1]);
printf(" Chip ID :0x%x \n",(unsigned char)ret[2]);
printf(" Page ID :0x%x \n",(unsigned char)ret[3]);
printf(" Plane ID :0x%x \n",(unsigned char)ret[4]);
usb_read_data_from_ingenic(&ingenic_dev, ret, 8);
printf(" Operation status: Success!\n");
return 1;
}
int nand_read(int mode)
{
unsigned int i,j;
unsigned int start_addr, length, page_num;
unsigned char csn;
unsigned short temp = 0;
unsigned ram_addr = 0;
if (com_argc < 5) {
printf(" Usage: nread (1) (2) (3) (4)\n"
" 1:start page number\n"
" 2:length in byte\n"
" 3:device index number\n"
" 4:flash index number\n"
" 5:start SDRAM address\n");
return -1;
}
init_nand_in();
if (atoi(com_argv[4]) >= MAX_DEV_NUM) {
printf(" Flash index number overflow!\n");
return -1;
}
(nand_in.cs_map)[atoi(com_argv[4])] = 1;
nand_in.start = atoi(com_argv[1]);
nand_in.length= atoi(com_argv[2]);
nand_in.dev = atoi(com_argv[3]);
if (com_argc = 6) {
ram_addr = strtoul(com_argv[5], NULL, 0);
printf("==%s==", com_argv[5]);
}
start_addr = nand_in.start;
length = nand_in.length;
if (start_addr > NAND_MAX_PAGE_NUM || length > NAND_MAX_PAGE_NUM ) {
printf(" Page number overflow!\n");
return -1;
}
if (usb_get_ingenic_cpu(&ingenic_dev) < 3) {
printf(" Device unboot! Boot it first!\n");
return -1;
}
for (i = 0; i < nand_in.max_chip; i++)
if ((nand_in.cs_map)[i] != 0)
break;
if (i >= nand_in.max_chip) return 1;
csn = i;
printf(" Reading from No.%d device No.%d flash....\n",nand_in.dev,csn);
page_num = length / hand.nand_ps +1;
switch(mode) {
case NAND_READ:
temp = ((NO_OOB<<12) & 0xf000) + ((csn<<4) & 0xff0) + NAND_READ;
break;
case NAND_READ_OOB:
temp = ((csn<<4) & 0xff0) + NAND_READ_OOB;
break;
case NAND_READ_RAW:
temp = ((NO_OOB<<12) & 0xf000) + ((csn<<4) & 0xff0) +
NAND_READ_RAW;
break;
case NAND_READ_TO_RAM:
temp = ((NO_OOB<<12) & 0xf000) + ((csn<<4) & 0xff0) +
NAND_READ_TO_RAM;
printf(" Reading nand to RAM: 0x%x\n", ram_addr);
usb_ingenic_start(&ingenic_dev, VR_PROGRAM_START1, ram_addr);
break;
default:
printf(" unknow mode!\n");
return -1;
}
usb_send_data_address_to_ingenic(&ingenic_dev, start_addr);
usb_send_data_length_to_ingenic(&ingenic_dev, page_num);
usb_ingenic_nand_ops(&ingenic_dev, temp);
usb_read_data_from_ingenic(&ingenic_dev, nand_in.buf, page_num * hand.nand_ps);
for (j = 0; j < length; j++) {
if (j % 16 == 0)
printf("\n 0x%08x : ",j);
printf("%02x ",(nand_in.buf)[j]);
}
printf("\n");
usb_read_data_from_ingenic(&ingenic_dev, ret, 8);
printf(" Operation end position : %d \n",
(ret[3]<<24)|(ret[2]<<16)|(ret[1]<<8)|(ret[0]<<0));
return 1;
}
int debug_memory(int obj, unsigned int start, unsigned int size)
{
unsigned int buffer[8],tmp;
tmp = usb_get_ingenic_cpu(&ingenic_dev);
if (tmp > 2) { if (tmp > 2) {
printf(" This command only run under UNBOOT state!\n"); printf(" This command only run under UNBOOT state!\n");
return -1; return -1;
@ -771,13 +197,13 @@ int debug_memory(int obj, unsigned int start, unsigned int size)
printf(" Now test memory from 0x%x to 0x%x: \n", printf(" Now test memory from 0x%x to 0x%x: \n",
start, start + hand.fw_args.size); start, start + hand.fw_args.size);
if (load_file(&ingenic_dev, STAGE1_FILE_PATH) < 1) if (load_file(dev, STAGE1_FILE_PATH) < 1)
return -1; return -1;
if (usb_ingenic_upload(&ingenic_dev, 1) < 1) if (usb_ingenic_upload(dev, 1) < 1)
return -1; return -1;
usleep(100); usleep(100);
usb_read_data_from_ingenic(&ingenic_dev, buffer, 8); usb_read_data_from_ingenic(dev, buffer, 8);
if (buffer[0] != 0) if (buffer[0] != 0)
printf(" Test memory fail! Last error address is 0x%x !\n", printf(" Test memory fail! Last error address is 0x%x !\n",
buffer[0]); buffer[0]);
@ -787,75 +213,30 @@ int debug_memory(int obj, unsigned int start, unsigned int size)
return 1; return 1;
} }
int debug_gpio(int obj, unsigned char ops, unsigned char pin) int debug_go(struct ingenic_dev *dev, size_t argc, char *argv[])
{
unsigned int tmp;
tmp = usb_get_ingenic_cpu(&ingenic_dev);
if (tmp > 2) {
printf(" This command only run under UNBOOT state!\n");
return -1;
}
switch (tmp) {
case 1:
tmp = 0;
hand.fw_args.cpu_id = 0x4740;
if (pin > 124) {
printf(" Jz4740 has 124 GPIO pin in all!\n");
return -1;
}
break;
case 2:
tmp = 0;
hand.fw_args.cpu_id = 0x4750;
if (pin > 178) {
printf(" Jz4750 has 178 GPIO pin in all!\n");
return -1;
}
break;
}
hand.fw_args.debug_ops = ops;/* tell device it's memory debug */
hand.fw_args.pin_num = pin;
if (ops == 2)
printf(" GPIO %d set!\n",pin);
else
printf(" GPIO %d clear!\n",pin);
if (load_file(&ingenic_dev, STAGE1_FILE_PATH) < 1)
return -1;
if (usb_ingenic_upload(&ingenic_dev, 1) < 1)
return -1;
return 0;
}
int debug_go(void)
{ {
unsigned int addr,obj; unsigned int addr,obj;
if (com_argc<3) { if (argc < 3) {
printf(" Usage: go (1) (2) \n" printf(" Usage: go (1) (2) \n"
" 1:start SDRAM address\n" " 1:start SDRAM address\n"
" 2:device index number\n"); " 2:device index number\n");
return 0; return 0;
} }
addr = strtoul(com_argv[1], NULL, 0); addr = strtoul(argv[1], NULL, 0);
obj = atoi(com_argv[2]); obj = atoi(argv[2]);
printf(" Executing No.%d device at address 0x%x\n", obj, addr); printf(" Executing No.%d device at address 0x%x\n", obj, addr);
if (usb_ingenic_start(&ingenic_dev, VR_PROGRAM_START2, addr) < 1) if (usb_ingenic_start(dev, VR_PROGRAM_START2, addr) < 1)
return -1; return -1;
return 1; return 1;
} }
int sdram_load(struct sdram_in *sdram_in) int sdram_load(struct ingenic_dev *dev, struct sdram_in *sdram_in)
{ {
if (usb_get_ingenic_cpu(&ingenic_dev) < 3) { if (usb_get_ingenic_cpu(dev) < 3) {
printf(" Device unboot! Boot it first!\n"); printf(" Device unboot! Boot it first!\n");
return -1; return -1;
} }
@ -865,21 +246,19 @@ int sdram_load(struct sdram_in *sdram_in)
return -1; return -1;
} }
ingenic_dev.file_buff = sdram_in->buf; usb_send_data_to_ingenic(dev, sdram_in->buf, sdram_in->length);
ingenic_dev.file_len = sdram_in->length; usb_send_data_address_to_ingenic(dev, sdram_in->start);
usb_send_data_to_ingenic(&ingenic_dev); usb_send_data_length_to_ingenic(dev, sdram_in->length);
usb_send_data_address_to_ingenic(&ingenic_dev, sdram_in->start); /* usb_ingenic_sdram_ops(dev, sdram_in);*/
usb_send_data_length_to_ingenic(&ingenic_dev, sdram_in->length);
usb_ingenic_sdram_ops(&ingenic_dev, sdram_in);
usb_read_data_from_ingenic(&ingenic_dev, ret, 8); usb_read_data_from_ingenic(dev, ret, 8);
printf(" Load last address at 0x%x\n", printf(" Load last address at 0x%x\n",
((ret[3]<<24)|(ret[2]<<16)|(ret[1]<<8)|(ret[0]<<0))); ((ret[3]<<24)|(ret[2]<<16)|(ret[1]<<8)|(ret[0]<<0)));
return 1; return 1;
} }
int sdram_load_file(struct sdram_in *sdram_in, char *file_path) int sdram_load_file(struct ingenic_dev *dev, struct sdram_in *sdram_in, char *file_path)
{ {
struct stat fstat; struct stat fstat;
unsigned int flen,m,j,offset,k; unsigned int flen,m,j,offset,k;
@ -916,7 +295,7 @@ int sdram_load_file(struct sdram_in *sdram_in, char *file_path)
} }
sdram_in->length = MAX_LOAD_SIZE; sdram_in->length = MAX_LOAD_SIZE;
if (sdram_load(sdram_in) < 1) if (sdram_load(dev, sdram_in) < 1)
goto close; goto close;
sdram_in->start += MAX_LOAD_SIZE; sdram_in->start += MAX_LOAD_SIZE;
@ -928,14 +307,14 @@ int sdram_load_file(struct sdram_in *sdram_in, char *file_path)
if (j % 4 !=0) if (j % 4 !=0)
j += 4 - (j % 4); j += 4 - (j % 4);
status = read(fd, sdram_in->buf, j); status = read(fd, sdram_in->buf, j);
if (status < j) { if (status < (int)j) {
fprintf(stderr, "Error - can't read file '%s': %s\n", fprintf(stderr, "Error - can't read file '%s': %s\n",
file_path, strerror(errno)); file_path, strerror(errno));
goto close; goto close;
} }
sdram_in->length = j; sdram_in->length = j;
if (sdram_load(sdram_in) < 1) if (sdram_load(dev, sdram_in) < 1)
goto close; goto close;
} }

View File

@ -1,7 +1,7 @@
/* /*
* Copyright(C) 2009 Qi Hardware Inc., * Copyright(C) 2009 Qi Hardware Inc.,
* Authors: Xiangfu Liu <xiangfu@qi-hardware.com> * Authors: Xiangfu Liu <xiangfu@qi-hardware.com>
*
* This program is free software: you can redistribute it and/or modify * 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 * it under the terms of the GNU General Public License as published by
* the Free Software Foundation, either version 3 of the License, or * the Free Software Foundation, either version 3 of the License, or
@ -20,18 +20,17 @@
#define __CMD_H__ #define __CMD_H__
#include "usb_boot_defines.h" #include "usb_boot_defines.h"
#include <stdint.h>
#define COMMAND_NUM 31 #define COMMAND_NUM 31
#define MAX_ARGC 10 #define MAX_ARGC 10
#define MAX_COMMAND_LENGTH 100 #define MAX_COMMAND_LENGTH 100
int boot(char *stage1_path, char *stage2_path); struct ingenic_dev;
int init_nand_in();
int nand_prog(void); int boot(struct ingenic_dev *dev, const char *stage1_path, const char *stage2_path);
int nand_query(void); int debug_memory(struct ingenic_dev *dev, int obj, unsigned int start, unsigned int size);
int nand_erase(struct nand_in *nand_in); int debug_go(struct ingenic_dev *dev, size_t argc, char *argv[]);
int debug_memory(int obj, unsigned int start, unsigned int size); int sdram_load_file(struct ingenic_dev *dev, struct sdram_in *sdram_in, char *file_path);
int debug_gpio(int obj, unsigned char ops, unsigned char pin);
int debug_go(void);
#endif /* __CMD_H__ */ #endif /* __CMD_H__ */

View File

@ -19,40 +19,34 @@
#include <stdio.h> #include <stdio.h>
#include <stdlib.h> #include <stdlib.h>
#include <string.h> #include <string.h>
#include <ctype.h>
#include "usb_boot_defines.h" #include "usb_boot_defines.h"
#include "ingenic_usb.h" #include "ingenic_usb.h"
#include "cmd.h" #include "cmd.h"
#include "xburst-tools_version.h" #include "xburst-tools_version.h"
#include "nand.h"
#include "mem.h"
extern struct nand_in nand_in; extern struct nand_in nand_in;
extern struct sdram_in sdram_in; extern struct sdram_in sdram_in;
extern unsigned char code_buf[4 * 512 * 1024]; static char code_buf[4 * 512 * 1024];
extern struct ingenic_dev ingenic_dev;
typedef int (*command_callback_t)(size_t argc, char *argv[]);
int com_argc; struct command {
char com_argv[MAX_ARGC][MAX_COMMAND_LENGTH]; const char *name;
command_callback_t callback;
};
static const char COMMAND[][COMMAND_NUM]= #define COMMAND(_name, _callback) {\
.name = _name, \
.callback = (command_callback_t)_callback, \
}
static const char COMMANDS[][COMMAND_NUM]=
{ {
"",
"query",
"querya",
"erase",
"read",
"prog",
"nquery",
"nerase",
"nread",
"nreadraw",
"nreadoob", /* index 10 */
"nprog",
"help",
"version",
"go", "go",
"fconfig", "fconfig",
"exit",
"readnand",
"gpios",
"gpioc",
"boot", /* index 20 */ "boot", /* index 20 */
"list", "list",
"select", "select",
@ -63,10 +57,69 @@ static const char COMMAND[][COMMAND_NUM]=
"nmake", "nmake",
"load", "load",
"memtest", "memtest",
"run" "run",
}; };
static int handle_help(void) static unsigned long parse_number(const char *s, int *err)
{
unsigned long val = 0;
unsigned int base = 10;
char *endptr;
if (s == 0 || *s == 0) {
if (err)
*err = 1;
return 0;
}
if (*s == '0') {
++s;
if (*s == 'x') {
base = 16;
++s;
} else if (*s != 0) {
base = 8;
}
} else if (*s == 'b') {
++s;
base = 2;
}
val = strtoul(s, &endptr, base);
if (*endptr) {
if (err)
*err = 1;
return 0;
}
if (err)
*err = 0;
return val;
}
static unsigned long parse_number_print_error(const char *s, int *err)
{
unsigned long value;
int err2 = 0;
value = parse_number(s, &err2);
if (err2) {
fprintf(stderr, "Error: %s is not a number\n", s);
if (err)
++err;
}
return value;
}
static int handle_exit()
{
exit(0);
return 0;
}
static int handle_help()
{ {
printf(" command support in current version:\n" printf(" command support in current version:\n"
/* " query" */ /* " query" */
@ -80,14 +133,13 @@ static int handle_help(void)
" nreadraw read NAND flash data without checking bad block and ECC\n" " nreadraw read NAND flash data without checking bad block and ECC\n"
" nreadoo read NAND flash oob without checking bad block and ECC\n" /* index 10 */ " nreadoo read NAND flash oob without checking bad block and ECC\n" /* index 10 */
" nprog program NAND flash with data and ECC\n" " nprog program NAND flash with data and ECC\n"
" ndump dump NAND flash data to file\n"
" help print this help\n" " help print this help\n"
" version show current USB Boot software version\n" " version show current USB Boot software version\n"
" go execute program in SDRAM\n" " go execute program in SDRAM\n"
" fconfig set USB Boot config file(not implement)\n" " fconfig set USB Boot config file(not implement)\n"
" exit quit from telnet session\n" " exit quit from current session\n"
" readnand read data from nand flash and store to SDRAM\n" " readnand read data from nand flash and store to SDRAM\n"
" gpios set one GPIO to high level\n"
" gpioc set one GPIO to low level\n"
" boot boot device and make it in stage2\n" /* index 20 */ " boot boot device and make it in stage2\n" /* index 20 */
" list show current device number can connect(not implement)\n" " list show current device number can connect(not implement)\n"
/* " select" */ /* " select" */
@ -101,19 +153,32 @@ static int handle_help(void)
" run run command script in file(implement by -c args)\n" " run run command script in file(implement by -c args)\n"
" sdprog program SD card(not implement)\n" " sdprog program SD card(not implement)\n"
" sdread read data from SD card(not implement)\n"); " sdread read data from SD card(not implement)\n");
return 1;
return 0;
} }
static int handle_version(void) static int handle_version()
{ {
printf("USB Boot Software current version: %s\n", XBURST_TOOLS_VERSION); printf("USB Boot Software current version: %s\n", XBURST_TOOLS_VERSION);
return 1;
return 0;
} }
/* need transfer two para :blk_num ,start_blk */ static int handle_boot()
int handle_nerase(void)
{ {
if (com_argc < 5) { boot(&ingenic_dev, STAGE1_FILE_PATH, STAGE2_FILE_PATH);
return 0;
}
static int handle_nand_erase(size_t argc, char *argv[])
{
uint32_t start_block, num_blocks;
unsigned int device_idx;
uint8_t nand_idx;
int err;
if (argc < 5) {
printf(" Usage: nerase (1) (2) (3) (4)\n" printf(" Usage: nerase (1) (2) (3) (4)\n"
" 1:start block number\n" " 1:start block number\n"
" 2:block length\n" " 2:block length\n"
@ -122,51 +187,62 @@ int handle_nerase(void)
return -1; return -1;
} }
init_nand_in(); start_block = parse_number_print_error(argv[1], &err);
num_blocks = parse_number_print_error(argv[2], &err);
device_idx = parse_number_print_error(argv[3], &err);
nand_idx = parse_number_print_error(argv[4], &err);
if (err)
return err;
nand_in.start = atoi(com_argv[1]); if (nand_idx >= MAX_DEV_NUM) {
nand_in.length = atoi(com_argv[2]);
nand_in.dev = atoi(com_argv[3]);
if (atoi(com_argv[4]) >= MAX_DEV_NUM) {
printf(" Flash index number overflow!\n"); printf(" Flash index number overflow!\n");
return -1; return -1;
} }
(nand_in.cs_map)[atoi(com_argv[4])] = 1;
if (nand_erase(&nand_in) < 1) if (nand_erase(&ingenic_dev, nand_idx, start_block, num_blocks))
return -1; return -1;
return 1; return 0;
} }
int handle_nmark(void) static int handle_nand_mark(size_t argc, char *argv[])
{ {
if (com_argc < 4) { uint32_t block;
unsigned int device_idx;
uint8_t nand_idx;
int err = 0;
if (argc < 4) {
printf("Usage: nerase (1) (2) (3)\n" printf("Usage: nerase (1) (2) (3)\n"
"1: bad block number\n" "1: bad block number\n"
"2: device index number\n" "2: device index number\n"
"3: flash chip index number\n"); "3: flash chip index number\n");
return -1; return -1;
} }
init_nand_in();
nand_in.start = atoi(com_argv[1]); block = parse_number_print_error(argv[1], &err);
nand_in.dev = atoi(com_argv[2]); device_idx = parse_number_print_error(argv[2], &err);
nand_idx = parse_number_print_error(argv[3], &err);
if (err)
return err;
if (atoi(com_argv[3])>=MAX_DEV_NUM) { if (nand_idx >= MAX_DEV_NUM) {
printf("Flash index number overflow!\n"); printf("Flash index number overflow!\n");
return -1; return -1;
} }
(nand_in.cs_map)[atoi(com_argv[3])] = 1;
nand_markbad(&nand_in); nand_markbad(&ingenic_dev, nand_idx, block);
return 1;
return 0;
} }
int handle_memtest(void) static int handle_memtest(size_t argc, char *argv[])
{ {
unsigned int device_idx;
unsigned int start, size; unsigned int start, size;
if (com_argc != 2 && com_argc != 4) int err = 0;
if (argc != 2 && argc != 4)
{ {
printf(" Usage: memtest (1) [2] [3]\n" printf(" Usage: memtest (1) [2] [3]\n"
" 1: device index number\n" " 1: device index number\n"
@ -175,34 +251,24 @@ int handle_memtest(void)
return -1; return -1;
} }
if (com_argc == 4) { if (argc == 4) {
start = strtoul(com_argv[2], NULL, 0); start = parse_number_print_error(argv[2], &err);
size = strtoul(com_argv[3], NULL, 0); size = parse_number_print_error(argv[3], &err);
} else { } else {
start = 0; start = 0;
size = 0; size = 0;
} }
debug_memory(atoi(com_argv[1]), start, size); device_idx = parse_number_print_error(argv[1], &err);
return 1; if (err)
return err;
debug_memory(&ingenic_dev, device_idx, start, size);
return 0;
} }
int handle_gpio(int mode) static int handle_load(size_t argc, char *argv[])
{ {
if (com_argc < 3) { if (argc != 4) {
printf(" Usage:"
" gpios (1) (2)\n"
" 1:GPIO pin number\n"
" 2:device index number\n");
return -1;
}
debug_gpio(atoi(com_argv[2]), mode, atoi(com_argv[1]));
return 1;
}
int handle_load(void)
{
if (com_argc<4) {
printf(" Usage:" printf(" Usage:"
" load (1) (2) (3) \n" " load (1) (2) (3) \n"
" 1:SDRAM start address\n" " 1:SDRAM start address\n"
@ -212,115 +278,285 @@ int handle_load(void)
return -1; return -1;
} }
sdram_in.start=strtoul(com_argv[1], NULL, 0); sdram_in.start=strtoul(argv[1], NULL, 0);
printf(" start:::::: 0x%x\n", sdram_in.start); printf(" start:::::: 0x%x\n", sdram_in.start);
sdram_in.dev = atoi(com_argv[3]); sdram_in.dev = atoi(argv[3]);
sdram_in.buf = code_buf; sdram_in.buf = code_buf;
sdram_load_file(&sdram_in, com_argv[2]); sdram_load_file(&ingenic_dev, &sdram_in, argv[2]);
return 1; return 0;
} }
int command_interpret(char * com_buf) static size_t command_parse(char *cmd, char *argv[])
{ {
char *buf = com_buf; size_t argc = 0;
int k, L, i = 0, j = 0;
L = (int)strlen(buf); if (cmd == 0 || *cmd == 0)
buf[L]=' ';
if (buf[0] == '\n')
return 0; return 0;
for (k = 0; k <= L; k++) {
if (*buf == ' ' || *buf == '\n') { while (isspace(*cmd)) {
while ( *(++buf) == ' ' ); ++cmd;
com_argv[i][j] = '\0'; }
i++;
if (i > MAX_ARGC) argv[0] = cmd;
return COMMAND_NUM + 1; argc = 1;
j = 0;
continue; while (*cmd) {
if (isspace(*cmd)) {
*cmd = 0;
do {
++cmd;
} while (isspace(*cmd));
if (*cmd == 0 || argc >= MAX_ARGC)
break;
argv[argc] = cmd;
++argc;
}
++cmd;
}
return argc;
}
static int handle_nand_read(size_t argc, char *argv[])
{
int mode;
uint32_t start_page, num_pages;
unsigned int device_idx;
uint8_t nand_idx;
int err = 0;
if (argc != 5) {
printf("Usage: %s <start page> <length> <device index> "
"<nand chip index>\n", argv[0]);
return -1;
}
if (strcmp(argv[0], "nread") == 0) {
mode = NAND_READ;
} else if (strcmp(argv[0], "nreadraw") == 0) {
mode = NAND_READ_RAW;
} else if (strcmp(argv[0], "nreadoob") == 0) {
mode = NAND_READ_OOB;
} else { } else {
com_argv[i][j] = *buf; return -1;
j++;
if (j > MAX_COMMAND_LENGTH)
return COMMAND_NUM + 1;
}
buf++;
} }
com_argc = i; start_page = parse_number_print_error(argv[1], &err);
num_pages = parse_number_print_error(argv[2], &err);
device_idx = parse_number_print_error(argv[3], &err);
nand_idx = parse_number_print_error(argv[4], &err);
if (err)
return err;
for (i = 1; i <= COMMAND_NUM; i++) return nand_read(&ingenic_dev, nand_idx, mode, start_page, num_pages, 0);
if (!strcmp(COMMAND[i], com_argv[0]))
return i;
return COMMAND_NUM + 1;
} }
static int handle_nand_dump(size_t argc, char *argv[])
{
int mode;
uint32_t start_page, num_pages;
unsigned int device_idx;
uint8_t nand_idx;
int err = 0;
if (argc != 5) {
printf("Usage: %s <start page> <length> <filename> <mode>\n", argv[0]);
return -1;
}
if (strcmp(argv[5], "-n") == 0) {
mode = NAND_READ;
} else if (strcmp(argv[5], "-e") == 0) {
mode = NAND_READ_RAW;
} else if (strcmp(argv[5], "-o") == 0) {
mode = NAND_READ_OOB;
} else {
return -1;
}
start_page = parse_number_print_error(argv[1], &err);
num_pages = parse_number_print_error(argv[2], &err);
device_idx = parse_number_print_error(argv[3], &err);
nand_idx = parse_number_print_error(argv[4], &err);
if (err)
return err;
return nand_read(&ingenic_dev, nand_idx, mode, start_page, num_pages, 0);
}
static int handle_nand_query(size_t argc, char *argv[])
{
unsigned int device_idx;
uint8_t nand_idx;
int err = 0;
if (argc != 3) {
printf("Usage: %s <device index> <nand chip index>\n", argv[0]);
return -1;
}
device_idx = parse_number_print_error(argv[1], &err);
nand_idx = parse_number_print_error(argv[2], &err);
if (err)
return err;
return nand_query(&ingenic_dev, nand_idx);
}
static int handle_nand_prog(size_t argc, char *argv[])
{
uint32_t start_page;
unsigned int device_idx;
uint8_t nand_idx, mode = -1;
int err = 0;
if (argc != 5) {
printf("Usage: %s <start page> <filename> <device index> <nand chip index> <mode>\n", argv[0]);
return -1;
}
start_page = parse_number_print_error(argv[1], &err);
device_idx = parse_number_print_error(argv[3], &err);
nand_idx = parse_number_print_error(argv[4], &err);
if (argv[5][0] == '-') {
switch (argv[5][1]) {
case 'e':
mode = NO_OOB;
break;
case 'o':
mode = OOB_NO_ECC;
break;
case 'r':
mode = OOB_ECC;
break;
default:
break;
}
}
if (mode == -1) {
printf("%s: Invalid mode '%s'\n", argv[0], argv[5]);
err = -1;
}
if (err)
return err;
nand_prog(&ingenic_dev, nand_idx, start_page, argv[2], mode);
return 0;
}
static int handle_mem_read(size_t argc, char *argv[])
{
uint32_t addr;
uint32_t val;
int err = 0;
if (argc != 2)
printf("Usage: %s <addr>\n", argv[0]);
addr = parse_number_print_error(argv[1], &err);
if (err)
return err;
switch (argv[0][7]) {
case '8':
val = mem_read8(&ingenic_dev, addr);
break;
case '1':
val = mem_read16(&ingenic_dev, addr);
break;
default:
val = mem_read32(&ingenic_dev, addr);
break;
}
printf("0x%x = 0x%x\n", addr, val);
return 0;
}
static int handle_mem_write(size_t argc, char *argv[])
{
uint32_t addr;
uint32_t val;
int err = 0;
if (argc != 3)
printf("Usage: %s <addr> <value>\n", argv[0]);
addr = parse_number_print_error(argv[1], &err);
val = parse_number_print_error(argv[2], &err);
if (err)
return err;
switch (argv[0][8]) {
case '8':
mem_write8(&ingenic_dev, addr, val);
break;
case '1':
mem_write16(&ingenic_dev, addr, val);
break;
default:
mem_write32(&ingenic_dev, addr, val);
break;
}
printf("0x%x = 0x%x\n", addr, val);
return 0;
}
static const struct command commands[] = {
COMMAND("version", handle_version),
COMMAND("help", handle_help),
COMMAND("nquery", handle_nand_query),
COMMAND("nerase", handle_nand_erase),
COMMAND("nread", handle_nand_read),
COMMAND("nreadraw", handle_nand_read),
COMMAND("nreadoo", handle_nand_read),
COMMAND("nprog", handle_nand_prog),
COMMAND("nwrite", handle_nand_prog),
COMMAND("nmark", handle_nand_mark),
COMMAND("ndump", handle_nand_dump),
COMMAND("exit", handle_exit),
COMMAND("boot", handle_boot),
COMMAND("memread", handle_mem_read),
COMMAND("memwrite", handle_mem_write),
COMMAND("memread16", handle_mem_read),
COMMAND("memwrite16", handle_mem_write),
COMMAND("memread8", handle_mem_read),
COMMAND("memwrite8", handle_mem_write),
COMMAND("memtest", handle_memtest),
COMMAND("load", handle_load),
};
int command_handle(char *buf) int command_handle(char *buf)
{ {
int cmd = command_interpret(buf); /* get the command index */ size_t argc;
char *argv[MAX_ARGC];
size_t i;
switch (cmd) { argc = command_parse(buf, argv);
case 0:
break; if (argc == 0)
case 6: return 0;
nand_query();
break; for (i = 0; i < ARRAY_SIZE(commands); ++i) {
case 7: if (strcmp(commands[i].name, argv[0]) == 0)
handle_nerase(); return commands[i].callback(argc, argv);
break;
case 8: /* nread */
nand_read(NAND_READ);
break;
case 9: /* nreadraw */
nand_read(NAND_READ_RAW);
break;
case 10: /* nreadoob */
nand_read(NAND_READ_OOB);
break;
case 11:
nand_prog();
break;
case 12:
handle_help();
break;
case 13:
handle_version();
break;
case 14:
debug_go();
break;
case 16: /* exit */
printf(" exiting usbboot software\n");
return -1; /* return -1 to break the main.c while
* then run usb_ingenic_cleanup*/
/*case 17:
nand_read(NAND_READ_TO_RAM); */
break;
case 18:
handle_gpio(2);
break;
case 19:
handle_gpio(3);
break;
case 20:
boot(STAGE1_FILE_PATH, STAGE2_FILE_PATH);
break;
case 26:
handle_nmark();
break;
case 28:
handle_load();
break;
case 29:
handle_memtest();
break;
default:
printf(" command not support or input error!\n");
break;
} }
return 1; printf("Unknow command \"%s\"\n", argv[0]);
return -1;
} }

View File

@ -143,18 +143,20 @@ int check_dump_cfg(struct hand *hand)
int parse_configure(struct hand *hand, char * file_path) int parse_configure(struct hand *hand, char * file_path)
{ {
int cpu_speed;
if (access(file_path, F_OK)) { if (access(file_path, F_OK)) {
fprintf(stderr, "Error - can't read configure file %s.\n", fprintf(stderr, "Error - can't read configure file %s.\n",
file_path); file_path);
return -1; return -1;
} }
hand_init_def(hand); hand_init_def(hand);
cfg_opt_t opts[] = { cfg_opt_t opts[] = {
CFG_INT("BOUDRATE", 57600, CFGF_NONE), CFG_INT("BOUDRATE", 57600, CFGF_NONE),
CFG_SIMPLE_INT("EXTCLK", &hand->fw_args.ext_clk), CFG_SIMPLE_INT("EXTCLK", &hand->fw_args.ext_clk),
CFG_SIMPLE_INT("CPUSPEED", &hand->fw_args.cpu_speed), CFG_SIMPLE_INT("CPUSPEED", &cpu_speed),
CFG_SIMPLE_INT("PHMDIV", &hand->fw_args.phm_div), CFG_SIMPLE_INT("PHMDIV", &hand->fw_args.phm_div),
CFG_SIMPLE_INT("USEUART", &hand->fw_args.use_uart), CFG_SIMPLE_INT("USEUART", &hand->fw_args.use_uart),
@ -201,7 +203,7 @@ int parse_configure(struct hand *hand, char * file_path)
else else
hand->fw_args.bus_width = 1; hand->fw_args.bus_width = 1;
hand->fw_args.bank_num = hand->fw_args.bank_num / 4; hand->fw_args.bank_num = hand->fw_args.bank_num / 4;
hand->fw_args.cpu_speed = hand->fw_args.cpu_speed / hand->fw_args.ext_clk; hand->fw_args.cpu_speed = cpu_speed / hand->fw_args.ext_clk;
total_size = (unsigned int) total_size = (unsigned int)
(2 << (hand->fw_args.row_addr + hand->fw_args.col_addr - 1)) * 2 (2 << (hand->fw_args.row_addr + hand->fw_args.col_addr - 1)) * 2

View File

@ -41,6 +41,7 @@ static int get_ingenic_device(struct ingenic_dev *ingenic_dev)
(usb_dev->descriptor.idProduct == PRODUCT_ID)) { (usb_dev->descriptor.idProduct == PRODUCT_ID)) {
ingenic_dev->usb_dev = usb_dev; ingenic_dev->usb_dev = usb_dev;
count++; count++;
break;
} }
} }
@ -195,9 +196,10 @@ int usb_ingenic_flush_cache(struct ingenic_dev *ingenic_dev)
return 1; return 1;
} }
int usb_send_data_length_to_ingenic(struct ingenic_dev *ingenic_dev, int len) int usb_send_data_length_to_ingenic(struct ingenic_dev *ingenic_dev, unsigned int len)
{ {
int status; int status;
/* tell the device the length of the file to be uploaded */ /* tell the device the length of the file to be uploaded */
status = usb_control_msg(ingenic_dev->usb_handle, status = usb_control_msg(ingenic_dev->usb_handle,
/* bmRequestType */ USB_ENDPOINT_OUT | USB_TYPE_VENDOR | USB_RECIP_DEVICE, /* bmRequestType */ USB_ENDPOINT_OUT | USB_TYPE_VENDOR | USB_RECIP_DEVICE,
@ -217,16 +219,15 @@ int usb_send_data_length_to_ingenic(struct ingenic_dev *ingenic_dev, int len)
return 1; return 1;
} }
int usb_send_data_address_to_ingenic(struct ingenic_dev *ingenic_dev, int usb_send_data_address_to_ingenic(struct ingenic_dev *ingenic_dev, uint32_t addr)
unsigned int stage_addr)
{ {
int status; int status;
/* tell the device the RAM address to store the file */ /* tell the device the RAM address to store the file */
status = usb_control_msg(ingenic_dev->usb_handle, status = usb_control_msg(ingenic_dev->usb_handle,
/* bmRequestType */ USB_ENDPOINT_OUT | USB_TYPE_VENDOR | USB_RECIP_DEVICE, /* bmRequestType */ USB_ENDPOINT_OUT | USB_TYPE_VENDOR | USB_RECIP_DEVICE,
/* bRequest */ VR_SET_DATA_ADDRESS, /* bRequest */ VR_SET_DATA_ADDRESS,
/* wValue */ STAGE_ADDR_MSB(stage_addr), /* wValue */ STAGE_ADDR_MSB(addr),
/* wIndex */ STAGE_ADDR_LSB(stage_addr), /* wIndex */ STAGE_ADDR_LSB(addr),
/* Data */ 0, /* Data */ 0,
/* wLength */ 0, /* wLength */ 0,
USB_TIMEOUT); USB_TIMEOUT);
@ -240,15 +241,16 @@ int usb_send_data_address_to_ingenic(struct ingenic_dev *ingenic_dev,
return 1; return 1;
} }
int usb_send_data_to_ingenic(struct ingenic_dev *ingenic_dev) int usb_send_data_to_ingenic(struct ingenic_dev *ingenic_dev, const char *data,
int size)
{ {
int status; int status;
status = usb_bulk_write(ingenic_dev->usb_handle, status = usb_bulk_write(ingenic_dev->usb_handle,
/* endpoint */ INGENIC_OUT_ENDPOINT, /* endpoint */ INGENIC_OUT_ENDPOINT,
/* bulk data */ ingenic_dev->file_buff, /* bulk data */ data,
/* bulk data length */ ingenic_dev->file_len, /* bulk data length */ size,
USB_TIMEOUT); USB_TIMEOUT);
if (status < ingenic_dev->file_len) { if (status < size) {
fprintf(stderr, "Error - " fprintf(stderr, "Error - "
"can't send bulk data to Ingenic CPU: %i\n", status); "can't send bulk data to Ingenic CPU: %i\n", status);
return -1; return -1;
@ -258,15 +260,15 @@ int usb_send_data_to_ingenic(struct ingenic_dev *ingenic_dev)
} }
int usb_read_data_from_ingenic(struct ingenic_dev *ingenic_dev, int usb_read_data_from_ingenic(struct ingenic_dev *ingenic_dev,
unsigned char *buff, unsigned int len) char *data, int size)
{ {
int status; int status;
status = usb_bulk_read(ingenic_dev->usb_handle, status = usb_bulk_read(ingenic_dev->usb_handle,
/* endpoint */ INGENIC_IN_ENDPOINT, /* endpoint */ INGENIC_IN_ENDPOINT,
/* bulk data */ buff, /* bulk data */ data,
/* bulk data length */ len, /* bulk data length */ size,
USB_TIMEOUT); USB_TIMEOUT);
if (status < len) { if (status < size) {
fprintf(stderr, "Error - " fprintf(stderr, "Error - "
"can't read bulk data from Ingenic device:%i\n", status); "can't read bulk data from Ingenic device:%i\n", status);
return -1; return -1;
@ -299,8 +301,6 @@ int usb_ingenic_start(struct ingenic_dev *ingenic_dev, int rqst, int stage_addr)
int usb_ingenic_upload(struct ingenic_dev *ingenic_dev, int stage) int usb_ingenic_upload(struct ingenic_dev *ingenic_dev, int stage)
{ {
int status;
unsigned int stage2_addr; unsigned int stage2_addr;
stage2_addr = total_size + 0x80000000; stage2_addr = total_size + 0x80000000;
stage2_addr -= CODE_SIZE; stage2_addr -= CODE_SIZE;
@ -311,7 +311,8 @@ int usb_ingenic_upload(struct ingenic_dev *ingenic_dev, int stage)
usb_send_data_address_to_ingenic(ingenic_dev, stage_addr); usb_send_data_address_to_ingenic(ingenic_dev, stage_addr);
printf(" Download stage %d program and execute at 0x%08x\n", printf(" Download stage %d program and execute at 0x%08x\n",
stage, (stage_addr)); stage, (stage_addr));
usb_send_data_to_ingenic(ingenic_dev); usb_send_data_to_ingenic(ingenic_dev, ingenic_dev->file_buff,
ingenic_dev->file_len);
if (stage == 2) { if (stage == 2) {
if (usb_get_ingenic_cpu(ingenic_dev) < 1) if (usb_get_ingenic_cpu(ingenic_dev) < 1)
@ -359,6 +360,28 @@ int usb_ingenic_nand_ops(struct ingenic_dev *ingenic_dev, int ops)
return 1; return 1;
} }
int usb_ingenic_mem_ops(struct ingenic_dev *ingenic_dev, int ops)
{
int status;
status = usb_control_msg(ingenic_dev->usb_handle,
/* bmRequestType */ USB_ENDPOINT_OUT | USB_TYPE_VENDOR | USB_RECIP_DEVICE,
/* bRequest */ VR_MEM_OPS,
/* wValue */ ops & 0xffff,
/* wIndex */ 0,
/* Data */ 0,
/* wLength */ 0,
USB_TIMEOUT);
if (status != 0) {
fprintf(stderr, "Error - "
"can't set Ingenic device nand ops: %i\n", status);
return -1;
}
return 1;
}
int usb_ingenic_configration(struct ingenic_dev *ingenic_dev, int ops) int usb_ingenic_configration(struct ingenic_dev *ingenic_dev, int ops)
{ {
int status; int status;

View File

@ -35,7 +35,8 @@
#define VR_NAND_OPS 0x07 #define VR_NAND_OPS 0x07
#define VR_SDRAM_OPS 0x08 #define VR_SDRAM_OPS 0x08
#define VR_CONFIGRATION 0x09 #define VR_CONFIGRATION 0x09
#define VR_GET_NUM 0x0a #define VR_MEM_OPS 0x0a
#define VR_GET_NUM 0x0b
#define STAGE_ADDR_MSB(addr) ((addr) >> 16) #define STAGE_ADDR_MSB(addr) ((addr) >> 16)
#define STAGE_ADDR_LSB(addr) ((addr) & 0xffff) #define STAGE_ADDR_LSB(addr) ((addr) & 0xffff)
@ -57,20 +58,26 @@ struct ingenic_dev {
uint8_t interface; uint8_t interface;
char cpu_info_buff[9]; char cpu_info_buff[9];
char *file_buff; char *file_buff;
unsigned int file_len; int file_len;
}; };
int usb_ingenic_init(struct ingenic_dev *ingenic_dev); int usb_ingenic_init(struct ingenic_dev *ingenic_dev);
int usb_get_ingenic_cpu(struct ingenic_dev *ingenic_dev); int usb_get_ingenic_cpu(struct ingenic_dev *ingenic_dev);
int usb_ingenic_upload(struct ingenic_dev *ingenic_dev, int stage); int usb_ingenic_upload(struct ingenic_dev *ingenic_dev, int stage);
void usb_ingenic_cleanup(struct ingenic_dev *ingenic_dev); void usb_ingenic_cleanup(struct ingenic_dev *ingenic_dev);
int usb_ingenic_nand_ops(struct ingenic_dev *ingenic_dev, int ops);
int usb_ingenic_mem_ops(struct ingenic_dev *ingenic_dev, int ops);
int usb_send_data_address_to_ingenic(struct ingenic_dev *ingenic_dev, int usb_send_data_address_to_ingenic(struct ingenic_dev *ingenic_dev,
unsigned int stage_addr); unsigned int stage_addr);
int usb_send_data_to_ingenic(struct ingenic_dev *ingenic_dev);
int usb_send_data_length_to_ingenic(struct ingenic_dev *ingenic_dev, int usb_send_data_length_to_ingenic(struct ingenic_dev *ingenic_dev,
int len); uint32_t len);
int usb_ingenic_nand_ops(struct ingenic_dev *ingenic_dev, int ops); int usb_send_data_to_ingenic(struct ingenic_dev *ingenic_dev, const char *data,
int usb_read_data_from_ingenic(struct ingenic_dev *ingenic_dev,unsigned char *buff, unsigned int len); int size);
int usb_read_data_from_ingenic(struct ingenic_dev *ingenic_dev, char *buffer,
int size);
int usb_ingenic_start(struct ingenic_dev *ingenic_dev, int rqst, int stage_addr);
int usb_ingenic_sdram_ops(struct ingenic_dev *ingenic_dev, int ops);
int usb_ingenic_configration(struct ingenic_dev *ingenic_dev, int ops);
#endif /* __INGENIC_USB_H__ */ #endif /* __INGENIC_USB_H__ */

View File

@ -28,7 +28,7 @@
#define CONFIG_FILE_PATH "/etc/xburst-tools/usbboot.cfg" #define CONFIG_FILE_PATH "/etc/xburst-tools/usbboot.cfg"
extern struct ingenic_dev ingenic_dev; struct ingenic_dev ingenic_dev;
extern struct hand hand; extern struct hand hand;
static void help(void) static void help(void)
@ -58,10 +58,9 @@ static struct option opts[] = {
int main(int argc, char **argv) int main(int argc, char **argv)
{ {
int command = 0;
char *cptr; char *cptr;
char com_buf[256] = {0}; char com_buf[256] = {0};
char *cmdpt; char *cmdpt = NULL;
char *cfgpath = CONFIG_FILE_PATH; char *cfgpath = CONFIG_FILE_PATH;
printf("usbboot - Ingenic XBurst USB Boot Utility\n" printf("usbboot - Ingenic XBurst USB Boot Utility\n"
@ -83,7 +82,6 @@ int main(int argc, char **argv)
print_version(); print_version();
exit(EXIT_SUCCESS); exit(EXIT_SUCCESS);
case 'c': case 'c':
command = 1;
cmdpt = optarg; cmdpt = optarg;
break; break;
case 'f': case 'f':
@ -95,10 +93,10 @@ int main(int argc, char **argv)
} }
} }
if ((getuid()) || (getgid())) { /* if ((getuid()) || (getgid())) {
fprintf(stderr, "Error - you must be root to run '%s'\n", argv[0]); fprintf(stderr, "Error - you must be root to run '%s'\n", argv[0]);
return EXIT_FAILURE; return EXIT_FAILURE;
} }*/
if (usb_ingenic_init(&ingenic_dev) < 1) if (usb_ingenic_init(&ingenic_dev) < 1)
return EXIT_FAILURE; return EXIT_FAILURE;
@ -106,7 +104,7 @@ int main(int argc, char **argv)
if (parse_configure(&hand, cfgpath) < 1) if (parse_configure(&hand, cfgpath) < 1)
return EXIT_FAILURE; return EXIT_FAILURE;
if (command) { /* direct run command */ if (cmdpt) { /* direct run command */
char *delim=";"; char *delim=";";
char *p; char *p;
p = strtok(cmdpt, delim); p = strtok(cmdpt, delim);
@ -128,8 +126,7 @@ int main(int argc, char **argv)
if (cptr == NULL) if (cptr == NULL)
continue; continue;
if (command_handle(com_buf) == -1 ) command_handle(com_buf);
break;
} }
out: out:

419
usbboot/src/nand.c Normal file
View File

@ -0,0 +1,419 @@
#include <stdlib.h>
#include <stdio.h>
#include <fcntl.h>
#include <unistd.h>
#include <errno.h>
#include <sys/stat.h>
#include <string.h>
#include "nand.h"
#include "ingenic_usb.h"
#include "usb_boot_defines.h"
extern struct hand hand;
#define NAND_OP(idx, op, mode) (((mode << 12) & 0xf000) | ((idx << 4) & 0xff0) | op)
#define DIV_ROUND_UP(n,d) (((n) + (d) - 1) / (d))
static const char IMAGE_TYPE[][30] = {
"with oob and ecc",
"with oob and without ecc",
"without oob",
};
static int error_check(const char *org, const char *obj, unsigned int size)
{
unsigned int i;
printf("Comparing %d bytes - ", size);
for (i = 0; i < size; i++) {
if (org[i] != obj[i]) {
unsigned int s = (i < 8) ? i : i - 8; // start_dump
printf("FAIL at off %d, wrote 0x%x, read 0x%x\n", i, org[i], obj[i]);
printf(" off %d write: %02x %02x %02x %02x %02x %02x %02x %02x"
" %02x %02x %02x %02x %02x %02x %02x %02x\n", s,
org[s], org[s+1], org[s+2], org[s+3], org[s+4], org[s+5], org[s+6], org[s+7],
org[s+8], org[s+9], org[s+10], org[s+11], org[s+12], org[s+13], org[s+14], org[s+15]);
printf(" off %d read: %02x %02x %02x %02x %02x %02x %02x %02x"
" %02x %02x %02x %02x %02x %02x %02x %02x\n", s,
obj[s], obj[s+1], obj[s+2], obj[s+3], obj[s+4], obj[s+5], obj[s+6], obj[s+7],
obj[s+8], obj[s+9], obj[s+10], obj[s+11], obj[s+12], obj[s+13], obj[s+14], obj[s+15]);
return 0;
}
}
printf("SUCCESS\n");
return 1;
}
static int nand_read_pages(struct ingenic_dev *dev, unsigned int start_page, int num_pages, char *buf,
int length, uint16_t op, char *ret)
{
usb_send_data_address_to_ingenic(dev, start_page);
usb_send_data_length_to_ingenic(dev, num_pages);
usb_ingenic_nand_ops(dev, op);
usb_read_data_from_ingenic(dev, buf, length);
usb_read_data_from_ingenic(dev, ret, 8);
return 0;
}
int nand_markbad(struct ingenic_dev *dev, uint8_t nand_idx, uint32_t block)
{
char ret[8];
(void)nand_idx;
if (usb_get_ingenic_cpu(dev) < 3) {
printf("Device unboot! Boot it first!\n");
return -1;
}
printf("Mark bad block : %d\n", block);
usb_send_data_address_to_ingenic(dev, block);
usb_ingenic_nand_ops(dev, NAND_MARK_BAD);
usb_read_data_from_ingenic(dev, ret, ARRAY_SIZE(ret));
printf("Mark bad block at %d\n",((ret[3] << 24) |
(ret[2] << 16) |
(ret[1] << 8) |
(ret[0] << 0)) / hand.nand_ppb);
return 0;
}
int nand_program_check(struct ingenic_dev *dev, uint8_t nand_idx,
unsigned int start_page, const char *data,
uint32_t length, unsigned int mode)
{
unsigned int page_num, cur_page = -1;
unsigned short op;
static char read_back_buf[MAX_TRANSFER_SIZE];
char ret[8];
printf("Writing NAND page %u len %u...\n", start_page, length);
if (length > (unsigned int)MAX_TRANSFER_SIZE) {
printf("Buffer size too long!\n");
return -ENOMEM;
}
if (usb_get_ingenic_cpu(dev) < 3) {
printf("Device unboot! Boot it first!\n");
return -ENODEV;
}
usb_send_data_to_ingenic(dev, data, length);
if (mode == NO_OOB)
page_num = DIV_ROUND_UP(length, hand.nand_ps);
else
page_num = DIV_ROUND_UP(length, hand.nand_ps + hand.nand_os);
op = NAND_OP(nand_idx, NAND_PROGRAM, mode);
usb_send_data_address_to_ingenic(dev, start_page);
usb_send_data_length_to_ingenic(dev, page_num);
usb_ingenic_nand_ops(dev, op);
usb_read_data_from_ingenic(dev, ret, 8);
printf("Finish! (len %d start_page %d page_num %d)\n",
length, start_page, page_num);
switch(mode) {
case NAND_READ:
op = NAND_OP(nand_idx, NAND_READ, NO_OOB);
break;
case NAND_READ_OOB:
op = NAND_OP(nand_idx, NAND_READ_OOB, 0);
break;
case NAND_READ_RAW:
op = NAND_OP(nand_idx, NAND_READ_RAW, NO_OOB);
break;
}
nand_read_pages(dev, start_page, page_num, read_back_buf, length, op, ret);
printf("Checking %d bytes...", length);
cur_page = (ret[3] << 24) | (ret[2] << 16) | (ret[1] << 8) |
(ret[0] << 0);
if (start_page < 1 &&
hand.nand_ps == 4096 &&
hand.fw_args.cpu_id == 0x4740) {
printf("no check! End at Page: %d\n", cur_page);
}
if (!error_check(data, read_back_buf, length)) {
// tbd: doesn't the other side skip bad blocks too? Can we just deduct 1 from cur_page?
// tbd: why do we only mark a block as bad if the last page in the block was written?
if (cur_page % hand.nand_ppb == 0)
nand_markbad(dev, nand_idx, (cur_page - 1) / hand.nand_ppb);
}
printf("End at Page: %d\n", cur_page);
/* *start_page = cur_page;*/
return 0;
}
int nand_erase(struct ingenic_dev *dev, uint8_t nand_idx, uint32_t start_block,
uint32_t num_blocks)
{
uint32_t end_block;
uint16_t op;
static char ret[8];
if (start_block > (unsigned int)NAND_MAX_BLK_NUM) {
printf("Start block number overflow!\n");
return -1;
}
if (num_blocks > (unsigned int)NAND_MAX_BLK_NUM) {
printf("Length block number overflow!\n");
return -1;
}
if (usb_get_ingenic_cpu(dev) < 3) {
printf("Device unboot! Boot it first!\n");
return -1;
}
printf("Erasing No.%d device No.%d flash (start_blk %u blk_num %u)......\n",
0, nand_idx, start_block, num_blocks);
usb_send_data_address_to_ingenic(dev, start_block);
usb_send_data_length_to_ingenic(dev, num_blocks);
op = NAND_OP(nand_idx, NAND_ERASE, 0);
usb_ingenic_nand_ops(dev, op);
usb_read_data_from_ingenic(dev, ret, 8);
printf("Finish!");
end_block = ((ret[3] << 24) | (ret[2] << 16) |
(ret[1] << 8) | (ret[0] << 0)) / hand.nand_ppb;
printf("Return: %02x %02x %02x %02x %02x %02x %02x %02x (position %d)\n",
ret[0], ret[1], ret[2], ret[3], ret[4], ret[5], ret[6], ret[7], end_block);
if (!hand.nand_force_erase) {
/* not force erase, show bad block infomation */
printf("There are marked bad blocks: %d\n",
end_block - start_block - num_blocks );
} else {
/* force erase, no bad block infomation can show */
printf("Force erase, no bad block infomation!\n" );
}
return 0;
}
int nand_program_file(struct ingenic_dev *dev, uint8_t nand_idx,
uint32_t start_page, const char *filename, int mode)
{
uint32_t start_block, num_blocks;
int flen, m, j, k;
unsigned int page_num, code_len, offset, transfer_size;
int fd, status;
struct stat fstat;
static char code_buf[MAX_TRANSFER_SIZE];
status = stat(filename, &fstat);
if (status < 0) {
fprintf(stderr, "Error - can't get file size from '%s': %s\n",
filename, strerror(errno));
return -1;
}
flen = fstat.st_size;
fd = open(filename, O_RDONLY);
if (fd < 0) {
fprintf(stderr, "Error - can't open file '%s': %s\n",
filename, strerror(errno));
return -1;
}
printf("Programing No.%d device, flen %d, start page %d...\n", 0,
flen, start_page);
/* printf("length %d flen %d\n", n_in.length, flen); */
if (mode == NO_OOB)
transfer_size = (hand.nand_ppb * hand.nand_ps);
else
transfer_size = (hand.nand_ppb * (hand.nand_ps + hand.nand_os));
start_block = start_page / hand.nand_ppb;
num_blocks = flen / (transfer_size - 1) + 1;
if (nand_erase(dev, nand_idx, start_block, num_blocks))
return -1;
m = flen / transfer_size;
j = flen % transfer_size;
printf("Size to send %d, transfer_size %d\n", flen, transfer_size);
printf("Image type : %s\n", IMAGE_TYPE[mode]);
printf("It will cause %d times buffer transfer.\n", j == 0 ? m : m + 1);
if (mode == NO_OOB)
page_num = transfer_size / hand.nand_ps;
else
page_num = transfer_size / (hand.nand_ps + hand.nand_os);
offset = 0;
for (k = 0; k < m; k++) {
code_len = transfer_size;
status = read(fd, code_buf, code_len);
if (status < (int)code_len) {
fprintf(stderr, "Error - can't read file '%s': %s\n",
filename, strerror(errno));
goto close;
}
if (nand_program_check(dev, nand_idx, start_page, code_buf, code_len, mode) == -1)
goto close;
/* if (start_page - nand_in->start > hand.nand_ppb)
printf("Skip a old bad block !\n");*/
offset += code_len ;
}
if (j) {
code_len = j;
if (j % hand.nand_ps)
j += hand.nand_ps - (j % hand.nand_ps);
memset(code_buf, 0, j); /* set all to null */
status = read(fd, code_buf, code_len);
if (status < (int)code_len) {
fprintf(stderr, "Error - can't read file '%s': %s\n",
filename, strerror(errno));
goto close;
}
if (nand_program_check(dev, nand_idx, start_page, code_buf, j, mode) == -1)
goto close;
/*
if (start_page - nand_in->start > hand.nand_ppb)
printf("Skip a old bad block !");
*/
}
close:
close(fd);
return 0;
}
int nand_prog(struct ingenic_dev *dev, uint8_t nand_idx, uint32_t start_page,
const char *filename, int mode)
{
if (hand.nand_plane > 1)
printf("ERROR");
else
nand_program_file(dev, nand_idx, start_page, filename, mode);
return 0;
}
int nand_query(struct ingenic_dev *dev, uint8_t nand_idx)
{
uint16_t op;
char ret[8];
if (usb_get_ingenic_cpu(dev) < 3) {
printf("Device unboot! Boot it first!\n");
return -1;
}
printf("ID of No.%u device No.%u flash: \n", 0, nand_idx);
op = NAND_OP(nand_idx, NAND_QUERY, 0);
usb_ingenic_nand_ops(dev, op);
usb_read_data_from_ingenic(dev, ret, ARRAY_SIZE(ret));
printf("Vendor ID :0x%x \n", (unsigned char)ret[0]);
printf("Product ID :0x%x \n", (unsigned char)ret[1]);
printf("Chip ID :0x%x \n", (unsigned char)ret[2]);
printf("Page ID :0x%x \n", (unsigned char)ret[3]);
printf("Plane ID :0x%x \n", (unsigned char)ret[4]);
usb_read_data_from_ingenic(dev, ret, ARRAY_SIZE(ret));
printf("Operation status: Success!\n");
return 0;
}
int nand_read(struct ingenic_dev *dev, uint8_t nand_idx, int mode,
uint32_t start_page, uint32_t length, uint32_t ram_addr)
{
uint16_t op;
uint32_t page;
uint32_t request_length;
uint32_t pages_per_request;
char ret[8];
char *buf;
int fd;
if (start_page > NAND_MAX_PAGE_NUM) {
printf("Page number overflow!\n");
return -1;
}
if (usb_get_ingenic_cpu(dev) < 3) {
printf("Device unboot! Boot it first!\n");
return -1;
}
if (nand_idx >= 16)
return -1;
printf("Reading from No.%u device No.%u flash....\n", 0, nand_idx);
switch(mode) {
case NAND_READ:
op = NAND_OP(nand_idx, NAND_READ, NO_OOB);
break;
case NAND_READ_OOB:
op = NAND_OP(nand_idx, NAND_READ_OOB, 0);
break;
case NAND_READ_RAW:
op = NAND_OP(nand_idx, NAND_READ_RAW, NO_OOB);
break;
case NAND_READ_TO_RAM:
op = NAND_OP(nand_idx, NAND_READ_TO_RAM, NO_OOB);
printf("Reading nand to RAM: 0x%x\n", ram_addr);
usb_ingenic_start(dev, VR_PROGRAM_START1, ram_addr);
break;
default:
printf("unknow mode!\n");
return -1;
}
pages_per_request = 1;
request_length = hand.nand_ps * pages_per_request;
page = start_page;
buf = malloc(request_length);
fd = open("/tmp/dump.bin", O_WRONLY | O_TRUNC | O_CREAT);
if (fd < 0) {
printf("Failed to open file\n");
return errno;
}
while (length > 0) {
if (request_length > length)
request_length = length;
nand_read_pages(dev, page, pages_per_request, buf, request_length, op, ret);
write(fd, buf, request_length);
length -= request_length;
page += pages_per_request;
}
close(fd);
printf("Operation end position : %u \n",
(ret[3]<<24)|(ret[2]<<16)|(ret[1]<<8)|(ret[0]<<0));
free(buf);
return 1;
}

20
usbboot/src/nand.h Normal file
View File

@ -0,0 +1,20 @@
#ifndef __NAND_H
#define __NAND_H
#include <stdint.h>
struct ingenic_dev;
int nand_query(struct ingenic_dev *dev, uint8_t nand_idx);
int nand_read(struct ingenic_dev *dev, uint8_t nand_idx, int mode,
uint32_t start_page, uint32_t length, uint32_t ram_addr);
int nand_dump(struct ingenic_dev *dev, uint8_t nand_idx,
uint32_t start_page, uint32_t length, const char *filename);
int nand_erase(struct ingenic_dev *dev, uint8_t nand_idx,
uint32_t start_block, uint32_t num_blocks);
int nand_prog(struct ingenic_dev *dev, uint8_t nand_idx,
uint32_t start_page, const char *filename, int mode);
int nand_markbad(struct ingenic_dev *dev, uint8_t nand_idx, uint32_t block);
#endif

View File

@ -134,25 +134,9 @@ struct hand {
struct fw_args fw_args; struct fw_args fw_args;
} __attribute__((packed)); } __attribute__((packed));
struct nand_in {
unsigned char dev;
unsigned char max_chip;
unsigned char *buf;
unsigned char *cs_map;
unsigned int start;
unsigned int length;
unsigned int option;
int (* check) (unsigned char *,unsigned char *,unsigned int);
};
struct nand_out {
unsigned char *status;
};
struct sdram_in { struct sdram_in {
unsigned char dev; unsigned char dev;
unsigned char *buf; char *buf;
unsigned int start; unsigned int start;
unsigned int length; unsigned int length;
unsigned int option; unsigned int option;

View File

@ -22,8 +22,7 @@
#ifndef __USB_BOOT_H__ #ifndef __USB_BOOT_H__
#define __USB_BOOT_H__ #define __USB_BOOT_H__
#define BULK_OUT_BUF_SIZE 0x21000 #define BULK_BUF_SIZE (128 * 4096)
#define BULK_IN_BUF_SIZE 0x21000
enum UDC_STATE enum UDC_STATE
{ {
@ -43,7 +42,8 @@ enum USB_JZ4740_REQUEST /* add for USB_BOOT */
VR_NOR_OPS, VR_NOR_OPS,
VR_NAND_OPS, VR_NAND_OPS,
VR_SDRAM_OPS, VR_SDRAM_OPS,
VR_CONFIGRATION VR_CONFIGRATION,
VR_MEM_OPS,
}; };
#endif /* __USB_BOOT_H__ */ #endif /* __USB_BOOT_H__ */

View File

@ -28,6 +28,22 @@
#include "udc.h" #include "udc.h"
#define dprintf(x) serial_puts(x) #define dprintf(x) serial_puts(x)
#define MEM_WRITE 0
#define MEM_READ 1
#define MEM_8BIT (0 << 1)
#define MEM_16BIT (1 << 1)
#define MEM_32BIT (2 << 1)
#define MEM_WRITE8 (MEM_WRITE | MEM_8BIT)
#define MEM_WRITE16 (MEM_WRITE | MEM_16BIT)
#define MEM_WRITE32 (MEM_WRITE | MEM_32BIT)
#define MEM_READ8 (MEM_READ | MEM_8BIT)
#define MEM_READ16 (MEM_READ | MEM_16BIT)
#define MEM_READ32 (MEM_READ | MEM_32BIT)
unsigned int (*nand_query)(u8 *); unsigned int (*nand_query)(u8 *);
int (*nand_init)(int bus_width, int row_cycle, int page_size, int page_per_block, int (*nand_init)(int bus_width, int row_cycle, int page_size, int page_per_block,
int,int,int,int); int,int,int,int);
@ -42,8 +58,7 @@ void (*nand_enable) (unsigned int csn);
void (*nand_disable) (unsigned int csn); void (*nand_disable) (unsigned int csn);
struct hand Hand,*Hand_p; struct hand Hand,*Hand_p;
extern u32 Bulk_out_buf[BULK_OUT_BUF_SIZE]; extern u32 Bulk_buf[BULK_BUF_SIZE];
extern u32 Bulk_in_buf[BULK_IN_BUF_SIZE];
extern u16 handshake_PKT[4]; extern u16 handshake_PKT[4];
extern udc_state; extern udc_state;
extern void *memset(void *s, int c, size_t count); extern void *memset(void *s, int c, size_t count);
@ -68,8 +83,8 @@ void dump_data(unsigned int *p, int size)
void config_hand() void config_hand()
{ {
struct hand *hand_p; struct hand *hand_p;
hand_p=(struct hand *)Bulk_out_buf; hand_p=(struct hand *)Bulk_buf;
memcpy(&Hand, (unsigned char *)Bulk_out_buf, sizeof(struct hand)); memcpy(&Hand, (unsigned char *)Bulk_buf, sizeof(struct hand));
#if 0 #if 0
Hand.nand_bw=hand_p->nand_bw; Hand.nand_bw=hand_p->nand_bw;
@ -151,9 +166,57 @@ int PROGRAM_START2_Handle(u8 *buf)
return ERR_OK; return ERR_OK;
} }
int MEM_OPS_Handle(u8 *buf)
{
USB_DeviceRequest *dreq = (USB_DeviceRequest *)buf;
u32 val;
switch (dreq->wValue) {
case MEM_WRITE8:
*((volatile u8*)(start_addr)) = (u8)ops_length;
handshake_PKT[0] = ops_length & 0xff;
handshake_PKT[1] = 8;
break;
case MEM_WRITE16:
*((volatile u16*)(start_addr)) = (u16)ops_length;
handshake_PKT[0] = ops_length & 0xffff;
handshake_PKT[1] = 16;
break;
case MEM_WRITE32:
*((volatile u32*)(start_addr)) = ops_length;
handshake_PKT[0] = ops_length;
handshake_PKT[1] = ops_length >> 16;
break;
case MEM_READ8:
val = *((volatile u8*)(start_addr));
handshake_PKT[0] = (u16)val;
handshake_PKT[1] = (u16)(val >> 16);
break;
case MEM_READ16:
val = *((volatile u16*)(start_addr));
handshake_PKT[0] = (u16)val;
handshake_PKT[1] = (u16)(val >> 16);
break;
case MEM_READ32:
val = *((volatile u32*)(start_addr));
handshake_PKT[0] = (u16)val;
handshake_PKT[1] = (u16)(val >> 16);
break;
default:
handshake_PKT[0] = 0xDEAD;
handshake_PKT[1] = 0xC0DE;
break;
}
handshake_PKT[2] = 0;
handshake_PKT[3] = 0;
HW_SendPKT(1,handshake_PKT,sizeof(handshake_PKT));
return ERR_OK;
}
int NOR_OPS_Handle(u8 *buf) int NOR_OPS_Handle(u8 *buf)
{ {
USB_DeviceRequest *dreq = (USB_DeviceRequest *)buf; USB_DeviceRequest *dreq = (USB_DeviceRequest *)buf;
udc_state = IDLE;
return ERR_OK; return ERR_OK;
} }
@ -171,8 +234,8 @@ int NAND_OPS_Handle(u8 *buf)
{ {
case NAND_QUERY: case NAND_QUERY:
dprintf("\n Request : NAND_QUERY!"); dprintf("\n Request : NAND_QUERY!");
nand_query((u8 *)Bulk_in_buf); nand_query((u8 *)Bulk_buf);
HW_SendPKT(1, Bulk_in_buf, 8); HW_SendPKT(1, Bulk_buf, 8);
handshake_PKT[3]=(u16)ERR_OK; handshake_PKT[3]=(u16)ERR_OK;
udc_state = BULK_IN; udc_state = BULK_IN;
break; break;
@ -191,11 +254,11 @@ int NAND_OPS_Handle(u8 *buf)
break; break;
case NAND_READ_OOB: case NAND_READ_OOB:
dprintf("\n Request : NAND_READ_OOB!"); dprintf("\n Request : NAND_READ_OOB!");
memset(Bulk_in_buf,0,ops_length*Hand.nand_ps); memset(Bulk_buf,0,ops_length*Hand.nand_ps);
ret_dat = nand_read_oob(Bulk_in_buf,start_addr,ops_length); ret_dat = nand_read_oob(Bulk_buf,start_addr,ops_length);
handshake_PKT[0] = (u16) ret_dat; handshake_PKT[0] = (u16) ret_dat;
handshake_PKT[1] = (u16) (ret_dat>>16); handshake_PKT[1] = (u16) (ret_dat>>16);
HW_SendPKT(1,(u8 *)Bulk_in_buf,ops_length*Hand.nand_ps); HW_SendPKT(1,(u8 *)Bulk_buf,ops_length*Hand.nand_ps);
udc_state = BULK_IN; udc_state = BULK_IN;
break; break;
case NAND_READ_RAW: case NAND_READ_RAW:
@ -203,15 +266,15 @@ int NAND_OPS_Handle(u8 *buf)
switch (option) switch (option)
{ {
case OOB_ECC: case OOB_ECC:
nand_read_raw(Bulk_in_buf,start_addr,ops_length,option); nand_read_raw(Bulk_buf,start_addr,ops_length,option);
HW_SendPKT(1,(u8 *)Bulk_in_buf,ops_length*(Hand.nand_ps + Hand.nand_os)); HW_SendPKT(1,(u8 *)Bulk_buf,ops_length*(Hand.nand_ps + Hand.nand_os));
handshake_PKT[0] = (u16) ret_dat; handshake_PKT[0] = (u16) ret_dat;
handshake_PKT[1] = (u16) (ret_dat>>16); handshake_PKT[1] = (u16) (ret_dat>>16);
udc_state = BULK_IN; udc_state = BULK_IN;
break; break;
default: default:
nand_read_raw(Bulk_in_buf,start_addr,ops_length,option); nand_read_raw(Bulk_buf,start_addr,ops_length,option);
HW_SendPKT(1,(u8 *)Bulk_in_buf,ops_length*Hand.nand_ps); HW_SendPKT(1,(u8 *)Bulk_buf,ops_length*Hand.nand_ps);
handshake_PKT[0] = (u16) ret_dat; handshake_PKT[0] = (u16) ret_dat;
handshake_PKT[1] = (u16) (ret_dat>>16); handshake_PKT[1] = (u16) (ret_dat>>16);
udc_state = BULK_IN; udc_state = BULK_IN;
@ -234,24 +297,24 @@ int NAND_OPS_Handle(u8 *buf)
switch (option) switch (option)
{ {
case OOB_ECC: case OOB_ECC:
ret_dat = nand_read(Bulk_in_buf,start_addr,ops_length,OOB_ECC); ret_dat = nand_read(Bulk_buf,start_addr,ops_length,OOB_ECC);
handshake_PKT[0] = (u16) ret_dat; handshake_PKT[0] = (u16) ret_dat;
handshake_PKT[1] = (u16) (ret_dat>>16); handshake_PKT[1] = (u16) (ret_dat>>16);
HW_SendPKT(1,(u8 *)Bulk_in_buf,ops_length*(Hand.nand_ps + Hand.nand_os )); HW_SendPKT(1,(u8 *)Bulk_buf,ops_length*(Hand.nand_ps + Hand.nand_os ));
udc_state = BULK_IN; udc_state = BULK_IN;
break; break;
case OOB_NO_ECC: case OOB_NO_ECC:
ret_dat = nand_read(Bulk_in_buf,start_addr,ops_length,OOB_NO_ECC); ret_dat = nand_read(Bulk_buf,start_addr,ops_length,OOB_NO_ECC);
handshake_PKT[0] = (u16) ret_dat; handshake_PKT[0] = (u16) ret_dat;
handshake_PKT[1] = (u16) (ret_dat>>16); handshake_PKT[1] = (u16) (ret_dat>>16);
HW_SendPKT(1,(u8 *)Bulk_in_buf,ops_length*(Hand.nand_ps + Hand.nand_os)); HW_SendPKT(1,(u8 *)Bulk_buf,ops_length*(Hand.nand_ps + Hand.nand_os));
udc_state = BULK_IN; udc_state = BULK_IN;
break; break;
case NO_OOB: case NO_OOB:
ret_dat = nand_read(Bulk_in_buf,start_addr,ops_length,NO_OOB); ret_dat = nand_read(Bulk_buf,start_addr,ops_length,NO_OOB);
handshake_PKT[0] = (u16) ret_dat; handshake_PKT[0] = (u16) ret_dat;
handshake_PKT[1] = (u16) (ret_dat>>16); handshake_PKT[1] = (u16) (ret_dat>>16);
HW_SendPKT(1,(u8 *)Bulk_in_buf,ops_length*Hand.nand_ps); HW_SendPKT(1,(u8 *)Bulk_buf,ops_length*Hand.nand_ps);
udc_state = BULK_IN; udc_state = BULK_IN;
break; break;
} }
@ -260,7 +323,7 @@ int NAND_OPS_Handle(u8 *buf)
case NAND_PROGRAM: case NAND_PROGRAM:
dprintf("\n Request : NAND_PROGRAM!"); dprintf("\n Request : NAND_PROGRAM!");
// dprintf("\n Option : %x",option); // dprintf("\n Option : %x",option);
ret_dat = nand_program((void *)Bulk_out_buf, ret_dat = nand_program((void *)Bulk_buf,
start_addr,ops_length,option); start_addr,ops_length,option);
dprintf("\n NAND_PROGRAM finish!"); dprintf("\n NAND_PROGRAM finish!");
handshake_PKT[0] = (u16) ret_dat; handshake_PKT[0] = (u16) ret_dat;
@ -294,7 +357,7 @@ int SDRAM_OPS_Handle(u8 *buf)
{ {
case SDRAM_LOAD: case SDRAM_LOAD:
// dprintf("\n Request : SDRAM_LOAD!"); // dprintf("\n Request : SDRAM_LOAD!");
ret_dat = (u32)memcpy((u8 *)start_addr,Bulk_out_buf,ops_length); ret_dat = (u32)memcpy((u8 *)start_addr,Bulk_buf,ops_length);
handshake_PKT[0] = (u16) ret_dat; handshake_PKT[0] = (u16) ret_dat;
handshake_PKT[1] = (u16) (ret_dat>>16); handshake_PKT[1] = (u16) (ret_dat>>16);
HW_SendPKT(1,handshake_PKT,sizeof(handshake_PKT)); HW_SendPKT(1,handshake_PKT,sizeof(handshake_PKT));
@ -368,7 +431,6 @@ int CONFIGRATION_Handle(u8 *buf)
config_hand(); config_hand();
break; break;
default:; default:;
} }
Borad_Init(); Borad_Init();
return ERR_OK; return ERR_OK;

View File

@ -219,6 +219,7 @@ u32 nand_read_oob_4740(void *buf, u32 startpage, u32 pagenum)
static int nand_check_block(u32 block) static int nand_check_block(u32 block)
{ {
u32 pg,i; u32 pg,i;
if ( bad_block_page >= ppb ) { if ( bad_block_page >= ppb ) {
/* do absolute bad block detect! */ /* do absolute bad block detect! */
pg = block * ppb + 0; pg = block * ppb + 0;

View File

@ -24,8 +24,7 @@
#define dprintf(x...) #define dprintf(x...)
#define TXFIFOEP0 USB_FIFO_EP0 #define TXFIFOEP0 USB_FIFO_EP0
u32 Bulk_in_buf[BULK_IN_BUF_SIZE]; u32 Bulk_buf[BULK_BUF_SIZE];
u32 Bulk_out_buf[BULK_OUT_BUF_SIZE];
u32 Bulk_in_size, Bulk_in_finish, Bulk_out_size; u32 Bulk_in_size, Bulk_in_finish, Bulk_out_size;
u16 handshake_PKT[4] = {0, 0, 0, 0}; u16 handshake_PKT[4] = {0, 0, 0, 0};
u8 udc_state; u8 udc_state;
@ -407,6 +406,10 @@ void usbHandleVendorReq(u8 *buf)
SDRAM_OPS_Handle(buf); SDRAM_OPS_Handle(buf);
Bulk_out_size = 0; Bulk_out_size = 0;
break; break;
case VR_MEM_OPS:
MEM_OPS_Handle(buf);
Bulk_out_size = 0;
break;
} }
} }
@ -513,12 +516,12 @@ void EPIN_Handler(u8 EP)
} }
if (Bulk_in_size - Bulk_in_finish <= fifosize[EP]) { if (Bulk_in_size - Bulk_in_finish <= fifosize[EP]) {
udcWriteFifo((u8 *)((u32)Bulk_in_buf+Bulk_in_finish), udcWriteFifo((u8 *)((u32)Bulk_buf+Bulk_in_finish),
Bulk_in_size - Bulk_in_finish); Bulk_in_size - Bulk_in_finish);
usb_setw(USB_REG_INCSR, USB_INCSR_INPKTRDY); usb_setw(USB_REG_INCSR, USB_INCSR_INPKTRDY);
Bulk_in_finish = Bulk_in_size; Bulk_in_finish = Bulk_in_size;
} else { } else {
udcWriteFifo((u8 *)((u32)Bulk_in_buf+Bulk_in_finish), udcWriteFifo((u8 *)((u32)Bulk_buf+Bulk_in_finish),
fifosize[EP]); fifosize[EP]);
usb_setw(USB_REG_INCSR, USB_INCSR_INPKTRDY); usb_setw(USB_REG_INCSR, USB_INCSR_INPKTRDY);
Bulk_in_finish += fifosize[EP]; Bulk_in_finish += fifosize[EP];
@ -531,7 +534,13 @@ void EPOUT_Handler(u8 EP)
jz_writeb(USB_REG_INDEX, EP); jz_writeb(USB_REG_INDEX, EP);
size = jz_readw(USB_REG_OUTCOUNT); size = jz_readw(USB_REG_OUTCOUNT);
fifo = fifoaddr[EP]; fifo = fifoaddr[EP];
udcReadFifo((u8 *)((u32)Bulk_out_buf+Bulk_out_size), size);
if (size + Bulk_out_size > BULK_BUF_SIZE) {
serial_puts("\n Bulk_out overflow");
return;
}
udcReadFifo((u8 *)((u32)Bulk_buf+Bulk_out_size), size);
usb_clearb(USB_REG_OUTCSR,USB_OUTCSR_OUTPKTRDY); usb_clearb(USB_REG_OUTCSR,USB_OUTCSR_OUTPKTRDY);
Bulk_out_size += size; Bulk_out_size += size;
dprintf("\nEPOUT_handle return!"); dprintf("\nEPOUT_handle return!");