/* * "Ingenic flash tool" - flash the Ingenic CPU via USB * * (C) Copyright 2009 * Author: Marek Lindner * Author: Xiangfu Liu * * This program is free software; you can redistribute it and/or * modify it under the terms of the GNU General Public License * version 3 as published by the Free Software Foundation. * * 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., 51 Franklin Street, Fifth Floor, * Boston, MA 02110-1301, USA */ #include #include #include #include #include #include #include #include #include #include "cmd.h" #include "ingenic_cfg.h" #include "ingenic_usb.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 nand_in nand_in; static struct nand_out nand_out; unsigned int total_size; unsigned char code_buf[4 * 512 * 1024]; unsigned char check_buf[4 * 512 * 1024]; 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) { struct stat fstat; int fd, status, res = -1; status = stat(file_path, &fstat); if (status < 0) { fprintf(stderr, "Error - can't get file size from '%s': %s\n", file_path, strerror(errno)); goto out; } ingenic_dev->file_len = fstat.st_size; ingenic_dev->file_buff = code_buf; fd = open(file_path, O_RDONLY); if (fd < 0) { fprintf(stderr, "Error - can't open file '%s': %s\n", file_path, strerror(errno)); goto out; } status = read(fd, ingenic_dev->file_buff, ingenic_dev->file_len); if (status < ingenic_dev->file_len) { fprintf(stderr, "Error - can't read file '%s': %s\n", file_path, strerror(errno)); goto close; } /* write args to code */ memcpy(ingenic_dev->file_buff + 8, &hand.fw_args, sizeof(struct fw_args)); res = 1; close: close(fd); out: return res; } /* after upload stage2. must init device */ int init_cfg() { if (usb_get_ingenic_cpu(&ingenic_dev) < 3) { printf("\n Device unboot! Boot it first!"); return -1; } ingenic_dev.file_buff = &hand; ingenic_dev.file_len = sizeof(hand); if (usb_send_data_to_ingenic(&ingenic_dev) != 1) return -1; if (usb_ingenic_configration(&ingenic_dev, DS_hand) != 1) return -1; if (usb_read_data_from_ingenic(&ingenic_dev, ret, 8) != 1) return -1; return 1; } int boot(char *stage1_path, char *stage2_path){ int status; status = usb_get_ingenic_cpu(&ingenic_dev); switch (status) { case 1: /* Jz4740v1 */ status = 0; hand.fw_args.cpu_id = 0x4740; break; case 2: /* Jz4750v1 */ status = 0; hand.fw_args.cpu_id = 0x4750; break; case 3: /* Boot4740 */ status = 1; hand.fw_args.cpu_id = 0x4740; break; case 4: /* Boot4750 */ status = 1; hand.fw_args.cpu_id = 0x4750; break; default: return 1; } if (status) { printf("Booted"); return 1; } else { printf("Unboot"); printf("\n Now booting device"); /* now we upload the usb boot stage1 */ printf("\n Upload usb boot stage1"); if (load_file(&ingenic_dev, stage1_path) < 1) return -1; if (usb_ingenic_upload(&ingenic_dev, 1) < 1) return -1; /* now we upload the usb boot stage2 */ sleep(1); printf("\n Upload usb boot stage2"); if (load_file(&ingenic_dev, stage2_path) < 1) return -1; if (usb_ingenic_upload(&ingenic_dev, 2) < 1) return -1; printf("\n Boot success!"); } sleep(1); printf("\n Now configure Ingenic device"); (init_cfg() == 1) ? printf("\n Configure success!") : printf("\n Configure fail!"); return 1; } /* nand function */ int error_check(unsigned char *org,unsigned char * obj,unsigned int size) { unsigned int i; for (i = 0; i < size; i++) { if (org[i] != obj[i]) { printf("\n Check Error! %d = %x : %x ", i, org[i], obj[i]); return 0; } } return 1; } int nand_markbad(struct nand_in *nand_in) { if (usb_get_ingenic_cpu(&ingenic_dev) < 3) { printf("\n Device unboot! Boot it first!"); return -1; } printf("\n mark bad block : %d ",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("\n Mark bad block at %d ",((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, struct nand_out *nand_out, unsigned int *start_page) { unsigned int i, page_num, cur_page; unsigned short temp; if (nand_in->length > (unsigned int)MAX_TRANSFER_SIZE) { printf("\n Buffer size too long!"); 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("\n Device unboot! Boot it first!"); return -1; } ingenic_dev.file_buff = nand_in->buf; ingenic_dev.file_len = nand_in->length; usb_send_data_to_ingenic(&ingenic_dev); /* dump_data(nand_in->buf, 100); */ 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! "); 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..."); 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..."); 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..."); 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: ; } if (nand_in->start < 1 && hand.nand_ps == 4096 && hand.fw_args.cpu_id == 0x4740) { /* (nand_out->status)[i] = 1; */ printf(" no check!"); cur_page = (ret[3] << 24) | (ret[2] << 16) | (ret[1] << 8) | (ret[0] << 0); printf(" End at %d ",cur_page); continue; } if (nand_in->check(nand_in->buf, check_buf, nand_in->length)) { /* (nand_out->status)[i] = 1; */ printf(" pass!"); cur_page = (ret[3] << 24) | (ret[2] << 16) | (ret[1] << 8) | (ret[0] << 0); printf(" End at %d ",cur_page); } else { /* (nand_out->status)[i] = 0; */ printf(" fail!"); struct nand_in bad; cur_page = (ret[3] << 24) | (ret[2] << 16) | (ret[1] << 8) | (ret[0] << 0); printf(" End at %d ",cur_page); bad.start = (cur_page - 1) / hand.nand_ppb; if (cur_page % hand.nand_ppb == 0) nand_markbad(&bad); } } *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("\n Start block number overflow!"); return -1; } if (blk_num > (unsigned int)NAND_MAX_BLK_NUM) { printf("\n Length block number overflow!"); return -1; } if (usb_get_ingenic_cpu(&ingenic_dev) < 3) { printf("\n Device unboot! Boot it first!"); return -1; } for (i = 0; i < nand_in->max_chip; i++) { if ((nand_in->cs_map)[i]==0) continue; printf("\n Erasing No.%d device No.%d flash......", nand_in->dev, i); 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("\n Operation end position : %d ",end_block); if (!hand.nand_force_erase) { /* not force erase, show bad block infomation */ printf("\n There are marked bad blocks :%d ", end_block - start_blk - blk_num ); } else { /* force erase, no bad block infomation can show */ printf("\n Force erase ,no bad block infomation !" ); } 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; imax_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("\n Programing No.%d device...",nand_in->dev); 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("\n length %d flen %d ", 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("\n Total size to send in byte is :%d", flen); printf("\n Image type : %s", IMAGE_TYPE[nand_in->option]); printf("\n It will cause %d times buffer transfer.", 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; } /* read code from file to buffer */ printf("\n No.%d Programming...",k+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("\n Skip a old bad block !"); 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 ; //lseek(fd, offset, SEEK_SET); } if (j) { code_len = j; j += hand.nand_ps - (j % hand.nand_ps); memset(code_buf, 0, j); /* set all to null */ status = read(fd, code_buf, j); 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; printf("\n No.%d Programming...", k+1); 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(" \n not implement yet !"); 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) { unsigned int i; char *image_file; char *help = "\n 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"; if (com_argc != 6) { printf("\n not enough argument."); 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("\n Flash check result:"); 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("\n Usage:"); printf(" nquery (1) (2) "); printf("\n (1):device index number" "\n (2):flash index number"); 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("\n Device unboot! Boot it first!"); return -1; } csn = i; printf("\n ID of No.%d device No.%d flash: ", 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("\n Vendor ID :0x%x ",(unsigned char)ret[0]); printf("\n Product ID :0x%x ",(unsigned char)ret[1]); printf("\n Chip ID :0x%x ",(unsigned char)ret[2]); printf("\n Page ID :0x%x ",(unsigned char)ret[3]); printf("\n Plane ID :0x%x ",(unsigned char)ret[4]); usb_read_data_from_ingenic(&ingenic_dev, ret, 8); printf("\n Operation status: Success!"); return 1; }