/*************************************************************************** * __________ __ ___. * Open \______ \ ____ ____ | | _\_ |__ _______ ___ * Source | _// _ \_/ ___\| |/ /| __ \ / _ \ \/ / * Jukebox | | ( <_> ) \___| < | \_\ ( <_> > < < * Firmware |____|_ /\____/ \___ >__|_ \|___ /\____/__/\_ \ * \/ \/ \/ \/ \/ * $Id$ * * Copyright (C) 2008 by Maurus Cuelenaere * * based on tcctool.c by Dave Chapman * * USB code based on ifp-line - http://ifp-driver.sourceforge.net * * ifp-line is (C) Pavel Kriz, Jun Yamishiro and Joe Roback and * licensed under the GPL (v2) * * * This program is free software; you can redistribute it and/or * modify it under the terms of the GNU General Public License * as published by the Free Software Foundation; either version 2 * of the License, or (at your option) any later version. * * This software is distributed on an "AS IS" basis, WITHOUT WARRANTY OF ANY * KIND, either express or implied. * ****************************************************************************/ #include #include #include #include #include #include #include #include #include "jz4740.h" #include #include #define VERSION "0.4" #define MAX_FIRMWARESIZE (64*1024*1024) /* Arbitrary limit (for safety) */ /* For win32 compatibility: */ #ifndef O_BINARY #define O_BINARY 0 #endif /* USB IDs for USB Boot Mode */ #define VID 0x601A #define PID 0x4740 #define EP_BULK_TO 0x01 #define TOUT 5000 enum USB_JZ4740_REQUEST { VR_GET_CPU_INFO = 0, VR_SET_DATA_ADDRESS, VR_SET_DATA_LENGTH, VR_FLUSH_CACHES, VR_PROGRAM_START1, VR_PROGRAM_START2, VR_NOR_OPS, VR_NAND_OPS, VR_SDRAM_OPS, VR_CONFIGURATION }; enum NOR_OPS_TYPE { NOR_INIT = 0, NOR_QUERY, NOR_WRITE, NOR_ERASE_CHIP, NOR_ERASE_SECTOR }; enum NOR_FLASH_TYPE { NOR_AM29 = 0, NOR_SST28, NOR_SST39x16, NOR_SST39x8 }; enum NAND_OPS_TYPE { NAND_QUERY = 0, NAND_INIT, NAND_MARK_BAD, NAND_READ_OOB, NAND_READ_RAW, NAND_ERASE, NAND_READ, NAND_PROGRAM, NAND_READ_TO_RAM }; enum SDRAM_OPS_TYPE { SDRAM_LOAD, }; enum DATA_STRUCTURE_OB { DS_flash_info, DS_hand }; enum OPTION { OOB_ECC, OOB_NO_ECC, NO_OOB, }; int filesize(FILE* fd) { int ret; fseek(fd, 0, SEEK_END); ret = ftell(fd); fseek(fd, 0, SEEK_SET); return ret; } #define SEND_COMMAND(cmd, arg) err = usb_control_msg(dh, USB_ENDPOINT_OUT | USB_TYPE_VENDOR, (cmd), (arg)>>16, (arg)&0xFFFF, NULL, 0, TOUT);\ if (err < 0) \ { \ fprintf(stderr,"\n[ERR] Error sending control message (%d, %s)\n", err, usb_strerror()); \ return -1; \ } #define GET_CPU_INFO(s) err = usb_control_msg(dh, USB_ENDPOINT_IN | USB_TYPE_VENDOR, VR_GET_CPU_INFO, 0, 0, (s), 8, TOUT); \ if (err < 0) \ { \ fprintf(stderr,"\n[ERR] Error sending control message (%d, %s)\n", err, usb_strerror()); \ return -1; \ } #define SEND_DATA(ptr, size) err = usb_bulk_write(dh, USB_ENDPOINT_OUT | EP_BULK_TO, ((char*)(ptr)), (size), TOUT); \ if (err != (size)) \ { \ fprintf(stderr,"\n[ERR] Error writing data\n"); \ fprintf(stderr,"[ERR] Bulk write error (%d, %s)\n", err, strerror(-err)); \ return -1; \ } #define GET_DATA(ptr, size) err = usb_bulk_read(dh, USB_ENDPOINT_IN | EP_BULK_TO, ((char*)(ptr)), (size), TOUT); \ if (err != (size)) \ { \ fprintf(stderr,"\n[ERR] Error writing data\n"); \ fprintf(stderr,"[ERR] Bulk write error (%d, %s)\n", err, strerror(-err)); \ return -1; \ } int upload_app(usb_dev_handle* dh, int address, unsigned char* p, int len, bool stage2) { int err; char buf[8]; unsigned char* tmp_buf; fprintf(stderr, "[INFO] GET_CPU_INFO: "); GET_CPU_INFO(buf); buf[8] = 0; fprintf(stderr, "%s\n", buf); #if 0 fprintf(stderr, "[INFO] Flushing cache..."); SEND_COMMAND(VR_FLUSH_CACHES, 0); fprintf(stderr, " Done!\n"); #endif fprintf(stderr, "[INFO] SET_DATA_ADDRESS to 0x%x...", address); SEND_COMMAND(VR_SET_DATA_ADDRESS, address); fprintf(stderr, " Done!\n"); fprintf(stderr, "[INFO] Sending data..."); /* Must not split the file in several packages! */ SEND_DATA(p, len); fprintf(stderr, " Done!\n"); fprintf(stderr, "[INFO] Verifying data..."); SEND_COMMAND(VR_SET_DATA_ADDRESS, address); SEND_COMMAND(VR_SET_DATA_LENGTH, len); tmp_buf = malloc(len); if (tmp_buf == NULL) { fprintf(stderr, "\n[ERR] Could not allocate memory.\n"); return -1; } GET_DATA(tmp_buf, len); if (memcmp(tmp_buf, p, len) != 0) fprintf(stderr, "\n[WARN] Sent data isn't the same as received data...\n"); else fprintf(stderr, " Done!\n"); free(tmp_buf); fprintf(stderr, "[INFO] Booting device [STAGE%d]...", (stage2 ? 2 : 1)); SEND_COMMAND((stage2 ? VR_PROGRAM_START2 : VR_PROGRAM_START1), address ); fprintf(stderr, " Done!\n"); return 0; } int read_data(usb_dev_handle* dh, int address, unsigned char *p, int len) { int err; char buf[8]; fprintf(stderr, "[INFO] GET_CPU_INFO: "); GET_CPU_INFO(buf); buf[8] = 0; fprintf(stderr, "%s\n", buf); fprintf(stderr, "[INFO] Reading data..."); SEND_COMMAND(VR_SET_DATA_ADDRESS, address); SEND_COMMAND(VR_SET_DATA_LENGTH, len); GET_DATA(p, len); fprintf(stderr, " Done!\n"); return 0; } unsigned int read_reg(usb_dev_handle* dh, int address, int size) { int err; unsigned char buf[4]; SEND_COMMAND(VR_SET_DATA_ADDRESS, address); SEND_COMMAND(VR_SET_DATA_LENGTH, size); GET_DATA(buf, size); if(size == 1) return buf[0]; else if(size == 2) return (buf[1] << 8) | buf[0]; else if(size == 4) return (buf[3] << 24) | (buf[2] << 16) | (buf[1] << 8) | buf[0]; else return 0; } int set_reg(usb_dev_handle* dh, int address, unsigned int val, int size) { int err, i; unsigned char buf[4]; buf[0] = val & 0xff; if(i > 1) { buf[1] = (val >> 8) & 0xff; if(i > 2) { buf[2] = (val >> 16) & 0xff; buf[3] = (val >> 24) & 0xff; } } SEND_COMMAND(VR_SET_DATA_ADDRESS, address); SEND_DATA(buf, size); return 0; } #define or_reg(dh, adr, val, size) set_reg(dh, adr, (read_reg(dh, adr, size) | (val)), size); #define and_reg(dh, adr, val, size) set_reg(dh, adr, (read_reg(dh, adr, size) & (val)), size); #define bc_reg(dh, adr, val, size) set_reg(dh, adr, (read_reg(dh, adr, size) & ~(val)), size); #define xor_reg(dh, adr, val, size) set_reg(dh, adr, (read_reg(dh, adr, size) ^ (val)), size); #define TEST(m, size) fprintf(stderr, "%s -> %x\n", #m, read_reg(dh, m, size)); int test_device(usb_dev_handle* dh) { TEST(INTC_ISR, 4); TEST(INTC_IMR, 4); TEST(INTC_IMSR, 4); TEST(INTC_IMCR, 4); TEST(INTC_IPR, 4); fprintf(stderr, "\n"); TEST(RTC_RCR, 4); TEST(RTC_RSR, 4); TEST(RTC_RSAR, 4); TEST(RTC_RGR, 4); TEST(RTC_HCR, 4); TEST(RTC_RCR, 4); TEST(RTC_HWFCR, 4); TEST(RTC_HRCR, 4); TEST(RTC_HWCR, 4); TEST(RTC_HWSR, 4); fprintf(stderr, "\n"); TEST(GPIO_PXPIN(0), 4); TEST(GPIO_PXPIN(1), 4); TEST(GPIO_PXPIN(2), 4); TEST(GPIO_PXPIN(3), 4); fprintf(stderr, "\n"); TEST(CPM_CLKGR, 4); fprintf(stderr, "\n"); TEST(SADC_ENA, 1); TEST(SADC_CTRL, 1); TEST(SADC_TSDAT, 4); TEST(SADC_BATDAT, 2); TEST(SADC_STATE, 1); fprintf(stderr, "\n"); TEST(SLCD_CFG, 4); TEST(SLCD_CTRL, 1); TEST(SLCD_STATE, 1); return 0; } #define VOL_DOWN (1 << 27) #define VOL_UP (1 << 0) #define MENU (1 << 1) #define HOLD (1 << 16) #define OFF (1 << 29) #define MASK (VOL_DOWN|VOL_UP|MENU|HOLD|OFF) #define TS_MASK (SADC_STATE_PEND|SADC_STATE_PENU|SADC_STATE_TSRDY) int probe_device(usb_dev_handle* dh) { int tmp; while(1) { if(read_reg(dh, SADC_STATE, 1) & SADC_STATE_TSRDY) { printf("%x\n", read_reg(dh, SADC_TSDAT, 4)); or_reg(dh, SADC_CTRL, read_reg(dh, SADC_STATE, 1) & TS_MASK, 1); } tmp = read_reg(dh, GPIO_PXPIN(3), 4); if(tmp < 0) return tmp; if(tmp ^ MASK) { if(!(tmp & VOL_DOWN)) printf("VOL_DOWN\t"); if(!(tmp & VOL_UP)) printf("VOL_UP\t"); if(!(tmp & MENU)) printf("MENU\t"); if(!(tmp & OFF)) printf("OFF\t"); if(!(tmp & HOLD)) printf("HOLD\t"); printf("\n"); } } return 0; } unsigned int read_file(const char *name, unsigned char **buffer) { FILE *fd; int len, n; fd = fopen(name, "rb"); if (fd == NULL) { fprintf(stderr, "[ERR] Could not open %s\n", name); return 0; } len = filesize(fd); *buffer = (unsigned char*)malloc(len); if (*buffer == NULL) { fprintf(stderr, "[ERR] Could not allocate memory.\n"); fclose(fd); return 0; } n = fread(*buffer, 1, len, fd); if (n != len) { fprintf(stderr, "[ERR] Short read.\n"); fclose(fd); return 0; } fclose(fd); return len; } #define _GET_CPU fprintf(stderr, "[INFO] GET_CPU_INFO:"); \ GET_CPU_INFO(cpu); \ cpu[8] = 0; \ fprintf(stderr, " %s\n", cpu); #define _SET_ADDR(a) fprintf(stderr, "[INFO] Set address to 0x%x...", a); \ SEND_COMMAND(VR_SET_DATA_ADDRESS, a); \ fprintf(stderr, " Done!\n"); #define _SEND_FILE(a) fsize = read_file(a, &buffer); \ if(fsize == 0) \ return -1; \ fprintf(stderr, "[INFO] Sending file %s: %d bytes...", a, fsize); \ SEND_DATA(buffer, fsize); \ free(buffer); \ fprintf(stderr, " Done!\n"); #define _VERIFY_DATA(a,c) fprintf(stderr, "[INFO] Verifying data (%s)...", a); \ fsize = read_file(a, &buffer); \ if(fsize == 0) \ return -1; \ buffer2 = (unsigned char*)malloc(fsize); \ SEND_COMMAND(VR_SET_DATA_ADDRESS, c); \ SEND_COMMAND(VR_SET_DATA_LENGTH, fsize); \ GET_DATA(buffer2, fsize); \ if(memcmp(buffer, buffer2, fsize) != 0) \ fprintf(stderr, "\n[WARN] Sent data isn't the same as received data...\n"); \ else \ fprintf(stderr, " Done!\n"); \ free(buffer); \ free(buffer2); #define _STAGE1(a) fprintf(stderr, "[INFO] Stage 1 at 0x%x\n", a); \ SEND_COMMAND(VR_PROGRAM_START1, a); #define _STAGE2(a) fprintf(stderr, "[INFO] Stage 2 at 0x%x\n", a); \ SEND_COMMAND(VR_PROGRAM_START2, a); #define _FLUSH fprintf(stderr, "[INFO] Flushing caches...\n"); \ SEND_COMMAND(VR_FLUSH_CACHES, 0); #ifdef _WIN32 #define _SLEEP(x) Sleep(x*1000); #else #define _SLEEP(x) sleep(x); #endif int mimic_of(usb_dev_handle *dh, bool vx767) { int err, fsize; unsigned char *buffer, *buffer2; char cpu[8]; fprintf(stderr, "[INFO] Start!\n"); _GET_CPU; _SET_ADDR(0x8000 << 16); _SEND_FILE("1.bin"); _GET_CPU; _VERIFY_DATA("1.bin", 0x8000 << 16); _STAGE1(0x8000 << 16); _SLEEP(3); _VERIFY_DATA("2.bin", 0xB3020060); _GET_CPU; _GET_CPU; _FLUSH; _GET_CPU; _GET_CPU; _SET_ADDR(0x8000 << 16); _SEND_FILE("3.bin"); _GET_CPU; _VERIFY_DATA("3.bin", 0x8000 << 16); _GET_CPU; _FLUSH; _GET_CPU; _GET_CPU; _SET_ADDR(0x80D0 << 16); _SEND_FILE("4.bin"); _GET_CPU; _VERIFY_DATA("4.bin", 0x80D0 << 16); _GET_CPU; _FLUSH; _GET_CPU; _GET_CPU; _SET_ADDR(0x80E0 << 16); _SEND_FILE("5.bin"); _GET_CPU; _VERIFY_DATA("5.bin", 0x80E0 << 16); _GET_CPU; _FLUSH; _GET_CPU; _GET_CPU; _SET_ADDR(0x80004000); _SEND_FILE("6.bin"); _GET_CPU; _VERIFY_DATA("6.bin", 0x80004000); _GET_CPU; _FLUSH; _GET_CPU; _GET_CPU; _SET_ADDR(0x80FD << 16); _SEND_FILE("7.bin"); _GET_CPU; _VERIFY_DATA("7.bin", 0x80FD << 16); _GET_CPU; _FLUSH; _GET_CPU; _STAGE2(0x80FD0004); _VERIFY_DATA("8.bin", 0x80004004); _VERIFY_DATA("9.bin", 0x80004008); _SLEEP(2); _GET_CPU; _SET_ADDR(0x80E0 << 16); _SEND_FILE("10.bin"); _GET_CPU; _VERIFY_DATA("10.bin", 0x80E0 << 16); _GET_CPU; _FLUSH; _GET_CPU; if(vx767) { _STAGE2(0x80E10008); } else { _STAGE2(0x80E00008); } fprintf(stderr, "[INFO] Done!\n"); return 0; } int send_rockbox(usb_dev_handle *dh) { int err, fsize; unsigned char *buffer, *buffer2; char cpu[8]; fprintf(stderr, "[INFO] Start!\n"); _GET_CPU; _SET_ADDR(0x8000 << 16); _SEND_FILE("1.bin"); _GET_CPU; _VERIFY_DATA("1.bin", 0x8000 << 16); _STAGE1(0x8000 << 16); _SLEEP(3); _GET_CPU; _SET_ADDR(0x080004000); _SEND_FILE("onda.bin"); _GET_CPU; _VERIFY_DATA("onda.bin", 0x080004000); _GET_CPU; _FLUSH; _GET_CPU; _STAGE2(0x080004008); fprintf(stderr, "[INFO] Done!\n"); return 0; } #define SEND_NAND_COMMAND(cs, cmd, option) SEND_COMMAND(VR_NAND_OPS, ((cmd&0xF)|((cs&0xFF)<<4)|((option&0xFF)<<12)) ); #define LENGTH 1024*1024*5 int nand_dump(usb_dev_handle *dh) { int err; unsigned int n; FILE *fd; unsigned char* buffer; fd = fopen("nand_dump.bin", "wb"); if (fd == NULL) { fprintf(stderr, "[ERR] Could not open nand_dump.bin\n"); return 0; } buffer = (unsigned char*)malloc(LENGTH); if (buffer == NULL) { fprintf(stderr, "[ERR] Could not allocate memory.\n"); fclose(fd); return 0; } memset(buffer, 0, LENGTH); SEND_NAND_COMMAND(0, NAND_INIT, 0); /* fprintf(stderr, "[INFO] Querying NAND...\n"); SEND_NAND_COMMAND(0, NAND_QUERY, 0); GET_DATA(buffer, 4); printf("[INFO] %x %x %x %x\n", buffer[0], buffer[1], buffer[2], buffer[3]); */ SEND_COMMAND(VR_SET_DATA_ADDRESS, 0); SEND_COMMAND(VR_SET_DATA_LENGTH, LENGTH); SEND_NAND_COMMAND(0, NAND_READ, NO_OOB); fprintf(stderr, "[INFO] Reading data...\n"); err = usb_bulk_read(dh, USB_ENDPOINT_IN | EP_BULK_TO, (char*)buffer, LENGTH, TOUT); if (err != LENGTH) { fprintf(stderr,"\n[ERR] Error writing data\n"); fprintf(stderr,"[ERR] Bulk write error (%d, %s)\n", err, strerror(-err)); return -1; } n = fwrite(buffer, 1, LENGTH, fd); if (n != LENGTH) { fprintf(stderr, "[ERR] Short write.\n"); fclose(fd); free(buffer); return 0; } fclose(fd); free(buffer); return n; } #undef LENGTH #define LENGTH 0x1000*16 int rom_dump(usb_dev_handle *dh) { int err; unsigned int n; FILE *fd; unsigned char* buffer; fd = fopen("rom_dump.bin", "wb"); if (fd == NULL) { fprintf(stderr, "[ERR] Could not open rom_dump.bin\n"); return 0; } buffer = (unsigned char*)malloc(LENGTH); if (buffer == NULL) { fprintf(stderr, "[ERR] Could not allocate memory.\n"); fclose(fd); return 0; } memset(buffer, 0, LENGTH); SEND_COMMAND(VR_SET_DATA_ADDRESS, 0x1FC00000); SEND_COMMAND(VR_SET_DATA_LENGTH, LENGTH); fprintf(stderr, "[INFO] Reading data...\n"); err = usb_bulk_read(dh, USB_ENDPOINT_IN | EP_BULK_TO, (char*)buffer, LENGTH, TOUT); if (err != LENGTH) { fprintf(stderr,"\n[ERR] Error writing data\n"); fprintf(stderr,"[ERR] Bulk write error (%d, %s)\n", err, strerror(-err)); return -1; } n = fwrite(buffer, 1, LENGTH, fd); if (n != LENGTH) { fprintf(stderr, "[ERR] Short write.\n"); fclose(fd); free(buffer); return 0; } fclose(fd); free(buffer); return n; } int jzconnect(int address, unsigned char* buf, int len, int func) { struct usb_bus *bus; struct usb_device *tmp_dev; struct usb_device *dev = NULL; usb_dev_handle *dh; int err; fprintf(stderr,"[INFO] Searching for device...\n"); usb_init(); if(usb_find_busses() < 0) { fprintf(stderr, "[ERR] Could not find any USB busses.\n"); return -2; } if (usb_find_devices() < 0) { fprintf(stderr, "[ERR] USB devices not found(nor hubs!).\n"); return -3; } for (bus = usb_get_busses(); bus; bus = bus->next) { for (tmp_dev = bus->devices; tmp_dev; tmp_dev = tmp_dev->next) { if (tmp_dev->descriptor.idVendor == VID && tmp_dev->descriptor.idProduct == PID) { dev = tmp_dev; goto found; } } } if (dev == NULL) { fprintf(stderr, "[ERR] Device not found.\n"); fprintf(stderr, "[ERR] Ensure your device is in USB boot mode and run usbtool again.\n"); return -4; } found: if ( (dh = usb_open(dev)) == NULL) { fprintf(stderr,"[ERR] Unable to open device.\n"); return -5; } /* usb_set_configuration() calls are already done in Linux */ #ifdef _WIN32 err = usb_set_configuration(dh, 1); if (err < 0) { fprintf(stderr, "[ERR] usb_set_configuration failed (%d, %s)\n", err, usb_strerror()); usb_close(dh); return -6; } #endif /* "must be called" written in the libusb documentation */ err = usb_claim_interface(dh, 0); if (err < 0) { fprintf(stderr, "[ERR] Unable to claim interface (%d, %s)\n", err, usb_strerror()); usb_close(dh); return -7; } fprintf(stderr,"[INFO] Found device, uploading application.\n"); /* Now we can transfer the application to the device. */ switch(func) { case 1: case 5: err = upload_app(dh, address, buf, len, (func == 5)); break; case 2: err = read_data(dh, address, buf, len); break; case 3: err = test_device(dh); break; case 4: err = probe_device(dh); break; case 6: case 7: err = mimic_of(dh, (func == 7)); break; case 8: err = nand_dump(dh); break; case 9: err = rom_dump(dh); break; case 10: err = send_rockbox(dh); break; } /* release claimed interface */ usb_release_interface(dh, 0); usb_close(dh); return err; } void print_usage(void) { #ifdef _WIN32 fprintf(stderr, "Usage: usbtool.exe [FILE] [ADDRESS] [LEN]\n"); #else fprintf(stderr, "Usage: usbtool [FILE] [ADDRESS] [LEN]\n"); #endif fprintf(stderr, "\t[ADDRESS] has to be in 0xHEXADECIMAL format\n"); fprintf(stderr, "\tCMD:\n"); fprintf(stderr, "\t\t 1 -> upload file to specified address and boot from it\n"); fprintf(stderr, "\t\t 2 -> read data from [ADDRESS] with length [LEN] to [FILE]\n"); fprintf(stderr, "\t\t 3 -> read device status\n"); fprintf(stderr, "\t\t 4 -> probe keys (only Onda VX747)\n"); fprintf(stderr, "\t\t 5 -> same as 1 but do a stage 2 boot\n"); fprintf(stderr, "\t\t 6 -> mimic VX747 OF fw recovery\n"); fprintf(stderr, "\t\t 7 -> mimic VX767 OF fw recovery\n"); fprintf(stderr, "\t\t 8 -> do a NAND dump\n"); fprintf(stderr, "\t\t 9 -> do a ROM dump\n"); fprintf(stderr, "\t\t10 -> send Rockbox bootloader to SDRAM\n"); #ifdef _WIN32 fprintf(stderr, "\nExample:\n\t usbtool.exe 1 fw.bin 0x80000000\n"); fprintf(stderr, "\t usbtool.exe 2 save.bin 0x81000000 1024\n"); #else fprintf(stderr, "\nExample:\n\t usbtool 1 fw.bin 0x80000000\n"); fprintf(stderr, "\t usbtool 2 save.bin 0x81000000 1024\n"); #endif } int main(int argc, char* argv[]) { unsigned char* buf; int n, len, address, cmd=0; FILE* fd; fprintf(stderr, "USBtool v" VERSION " - (C) 2008 Maurus Cuelenaere\n"); fprintf(stderr, "This is free software; see the source for copying conditions. There is NO\n"); fprintf(stderr, "warranty; not even for MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.\n\n"); if(argc > 1) sscanf(argv[1], "%d", &cmd); switch(cmd) { case 5: case 1: if (strcmp(argv[3], "-1") == 0) address = 0x80000000; else { if (sscanf(argv[3], "0x%x", &address) <= 0) { print_usage(); return -1; } } fd = fopen(argv[2], "rb"); if (fd < 0) { fprintf(stderr, "[ERR] Could not open %s\n", argv[2]); return 4; } len = filesize(fd); if (len > MAX_FIRMWARESIZE) { fprintf(stderr, "[ERR] Firmware file too big\n"); fclose(fd); return 5; } buf = malloc(len); if (buf == NULL) { fprintf(stderr, "[ERR] Could not allocate memory.\n"); fclose(fd); return 6; } n = fread(buf, 1, len, fd); if (n != len) { fprintf(stderr, "[ERR] Short read.\n"); fclose(fd); return 7; } fclose(fd); fprintf(stderr, "[INFO] File size: %d bytes\n", n); return jzconnect(address, buf, len, cmd); break; case 2: if (sscanf(argv[3], "0x%x", &address) <= 0) { print_usage(); return -1; } fd = fopen(argv[2], "wb"); if (fd < 0) { fprintf(stderr, "[ERR] Could not open %s\n", argv[2]); return 4; } sscanf(argv[4], "%d", &len); buf = malloc(len); if (buf == NULL) { fprintf(stderr, "[ERR] Could not allocate memory.\n"); fclose(fd); return 6; } int err = jzconnect(address, buf, len, 2); n = fwrite(buf, 1, len, fd); if (n != len) { fprintf(stderr, "[ERR] Short write.\n"); fclose(fd); return 7; } fclose(fd); return err; break; case 3: case 4: case 6: case 7: case 8: case 9: case 10: return jzconnect(address, NULL, 0, cmd); break; default: print_usage(); return 1; break; } return 0; }