/* * avrdude - A Downloader/Uploader for AVR device programmers * Copyright (C) 2000-2005 Brian S. Dean * Copyright 2007 Joerg Wunsch * * 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 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., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA */ /* $Id$ */ /* * Code to program an Atmel AVR device through one of the supported * programmers. * * For parallel port connected programmers, the pin definitions can be * changed via a config file. See the config file for instructions on * how to add a programmer definition. * */ #include "ac_cfg.h" #include #include #include #include #include #include #include #include #include #include #include #include #include "avr.h" #include "config.h" #include "confwin.h" #include "fileio.h" #include "lists.h" #include "par.h" #include "pindefs.h" #include "term.h" #include "safemode.h" #include "update.h" /* Get VERSION from ac_cfg.h */ char * version = VERSION; char * progname; char progbuf[PATH_MAX]; /* temporary buffer of spaces the same length as progname; used for lining up multiline messages */ struct list_walk_cookie { FILE *f; const char *prefix; }; static LISTID updates; static LISTID extended_params; static PROGRAMMER * pgm; /* * global options */ int do_cycles; /* track erase-rewrite cycles */ int verbose; /* verbose output */ int quell_progress; /* un-verebose output */ int ovsigck; /* 1=override sig check, 0=don't */ /* * usage message */ static void usage(void) { fprintf(stderr, "Usage: %s [options]\n" "Options:\n" " -p Required. Specify AVR device.\n" " -b Override RS-232 baud rate.\n" " -B Specify JTAG/STK500v2 bit clock period (us).\n" " -C Specify location of configuration file.\n" " -c Specify programmer type.\n" " -D Disable auto erase for flash memory\n" " -i ISP Clock Delay [in microseconds]\n" " -P Specify connection port.\n" " -F Override invalid signature check.\n" " -e Perform a chip erase.\n" " -O Perform RC oscillator calibration (see AVR053). \n" " -U :r|w|v:[:format]\n" " Memory operation specification.\n" " Multiple -U options are allowed, each request\n" " is performed in the order specified.\n" " -n Do not write anything to the device.\n" " -V Do not verify.\n" " -u Disable safemode, default when running from a script.\n" " -s Silent safemode operation, will not ask you if\n" " fuses should be changed back.\n" " -t Enter terminal mode.\n" " -E [,] List programmer exit specifications.\n" " -x Pass to programmer.\n" " -y Count # erase cycles in EEPROM.\n" " -Y Initialize erase cycle # in EEPROM.\n" " -v Verbose output. -v -v for more.\n" " -q Quell progress output. -q -q for less.\n" " -? Display this usage.\n" "\navrdude project: \n" ,progname); } static void update_progress_tty (int percent, double etime, char *hdr) { static char hashes[51]; static char *header; static int last = 0; int i; setvbuf(stderr, (char*)NULL, _IONBF, 0); hashes[50] = 0; memset (hashes, ' ', 50); for (i=0; i>1)*2; setvbuf(stderr, (char*)NULL, _IONBF, 0); if (hdr) { fprintf (stderr, "\n%s | ", hdr); last = 0; done = 0; } else { while ((cnt > last) && (done == 0)) { fprintf (stderr, "#"); cnt -= 2; } } if ((percent == 100) && (done == 0)) { fprintf (stderr, " | 100%% %0.2fs\n\n", etime); last = 0; done = 1; } else last = (percent>>1)*2; /* Make last a multiple of 2. */ setvbuf(stderr, (char*)NULL, _IOLBF, 0); } static void list_programmers_callback(const char *name, const char *desc, const char *cfgname, int cfglineno, void *cookie) { struct list_walk_cookie *c = (struct list_walk_cookie *)cookie; fprintf(c->f, "%s%-8s = %-30s [%s:%d]\n", c->prefix, name, desc, cfgname, cfglineno); } static void list_programmers(FILE * f, const char *prefix, LISTID programmers) { struct list_walk_cookie c; c.f = f; c.prefix = prefix; walk_programmers(programmers, list_programmers_callback, &c); } static void list_avrparts_callback(const char *name, const char *desc, const char *cfgname, int cfglineno, void *cookie) { struct list_walk_cookie *c = (struct list_walk_cookie *)cookie; fprintf(c->f, "%s%-4s = %-15s [%s:%d]\n", c->prefix, name, desc, cfgname, cfglineno); } static void list_parts(FILE * f, const char *prefix, LISTID avrparts) { struct list_walk_cookie c; c.f = f; c.prefix = prefix; walk_avrparts(avrparts, list_avrparts_callback, &c); } static void exithook(void) { if (pgm->teardown) pgm->teardown(pgm); } /* * main routine */ int main(int argc, char * argv []) { int rc; /* general return code checking */ int exitrc; /* exit code for main() */ int i; /* general loop counter */ int ch; /* options flag */ int len; /* length for various strings */ struct avrpart * p; /* which avr part we are programming */ struct avrpart * v; /* used for verify */ AVRMEM * sig; /* signature data */ struct stat sb; UPDATE * upd; LNODEID * ln; /* options / operating mode variables */ int erase; /* 1=erase chip, 0=don't */ int calibrate; /* 1=calibrate RC oscillator, 0=don't */ int auto_erase; /* 0=never erase unless explicity told to do so, 1=erase if we are going to program flash */ char * port; /* device port (/dev/xxx) */ int terminal; /* 1=enter terminal mode, 0=don't */ int nowrite; /* don't actually write anything to the chip */ int verify; /* perform a verify operation */ char * exitspecs; /* exit specs string from command line */ char * programmer; /* programmer id */ char * partdesc; /* part id */ char sys_config[PATH_MAX]; /* system wide config file */ char usr_config[PATH_MAX]; /* per-user config file */ int cycles; /* erase-rewrite cycles */ int set_cycles; /* value to set the erase-rewrite cycles to */ char * e; /* for strtol() error checking */ int baudrate; /* override default programmer baud rate */ double bitclock; /* Specify programmer bit clock (JTAG ICE) */ int ispdelay; /* Specify the delay for ISP clock */ int safemode; /* Enable safemode, 1=safemode on, 0=normal */ int silentsafe; /* Don't ask about fuses, 1=silent, 0=normal */ int init_ok; /* Device initialization worked well */ unsigned char safemode_lfuse = 0xff; unsigned char safemode_hfuse = 0xff; unsigned char safemode_efuse = 0xff; unsigned char safemode_fuse = 0xff; char * safemode_response; int fuses_specified = 0; int fuses_updated = 0; #if !defined(WIN32NATIVE) char * homedir; #endif /* * Set line buffering for file descriptors so we see stdout and stderr * properly interleaved. */ setvbuf(stdout, (char*)NULL, _IOLBF, 0); setvbuf(stderr, (char*)NULL, _IOLBF, 0); progname = strrchr(argv[0],'/'); #if defined (WIN32NATIVE) /* take care of backslash as dir sep in W32 */ if (!progname) progname = strrchr(argv[0],'\\'); #endif /* WIN32NATIVE */ if (progname) progname++; else progname = argv[0]; default_parallel[0] = 0; default_serial[0] = 0; init_config(); updates = lcreat(NULL, 0); if (updates == NULL) { fprintf(stderr, "%s: cannot initialize updater list\n", progname); exit(1); } extended_params = lcreat(NULL, 0); if (extended_params == NULL) { fprintf(stderr, "%s: cannot initialize extended parameter list\n", progname); exit(1); } partdesc = NULL; port = default_parallel; erase = 0; calibrate = 0; auto_erase = 1; p = NULL; ovsigck = 0; terminal = 0; nowrite = 0; verify = 1; /* on by default */ quell_progress = 0; exitspecs = NULL; pgm = NULL; programmer = default_programmer; verbose = 0; do_cycles = 0; set_cycles = -1; baudrate = 0; bitclock = 0.0; ispdelay = 0; safemode = 1; /* Safemode on by default */ silentsafe = 0; /* Ask by default */ if (isatty(STDIN_FILENO) == 0) safemode = 0; /* Turn off safemode if this isn't a terminal */ #if defined(WIN32NATIVE) win_sys_config_set(sys_config); win_usr_config_set(usr_config); #else strcpy(sys_config, CONFIG_DIR); i = strlen(sys_config); if (i && (sys_config[i-1] != '/')) strcat(sys_config, "/"); strcat(sys_config, "avrdude.conf"); usr_config[0] = 0; homedir = getenv("HOME"); if (homedir != NULL) { strcpy(usr_config, homedir); i = strlen(usr_config); if (i && (usr_config[i-1] != '/')) strcat(usr_config, "/"); strcat(usr_config, ".avrduderc"); } #endif len = strlen(progname) + 2; for (i=0; iop == DEVICE_WRITE) { upd = dup_update(upd); upd->op = DEVICE_VERIFY; ladd(updates, upd); } break; case 'v': verbose++; break; case 'V': verify = 0; break; case 'x': ladd(extended_params, optarg); break; case 'y': do_cycles = 1; break; case 'Y': set_cycles = strtol(optarg, &e, 0); if ((e == optarg) || (*e != 0)) { fprintf(stderr, "%s: invalid cycle count '%s'\n", progname, optarg); exit(1); } do_cycles = 1; break; case '?': /* help */ usage(); exit(0); break; default: fprintf(stderr, "%s: invalid option -%c\n\n", progname, ch); usage(); exit(1); break; } } if (quell_progress == 0) { if (isatty (STDERR_FILENO)) update_progress = update_progress_tty; else { update_progress = update_progress_no_tty; /* disable all buffering of stderr for compatibility with software that captures and redirects output to a GUI i.e. Programmers Notepad */ setvbuf( stderr, NULL, _IONBF, 0 ); setvbuf( stdout, NULL, _IONBF, 0 ); } } if (verbose) { /* * Print out an identifying string so folks can tell what version * they are running */ fprintf(stderr, "\n%s: Version %s, compiled on %s at %s\n" "%sCopyright (c) 2000-2005 Brian Dean, http://www.bdmicro.com/\n\n", progname, version, __DATE__, __TIME__, progbuf); } if (verbose) { fprintf(stderr, "%sSystem wide configuration file is \"%s\"\n", progbuf, sys_config); } rc = read_config(sys_config); if (rc) { fprintf(stderr, "%s: error reading system wide configuration file \"%s\"\n", progname, sys_config); exit(1); } if (usr_config[0] != 0) { if (verbose) { fprintf(stderr, "%sUser configuration file is \"%s\"\n", progbuf, usr_config); } rc = stat(usr_config, &sb); if ((rc < 0) || ((sb.st_mode & S_IFREG) == 0)) { if (verbose) { fprintf(stderr, "%sUser configuration file does not exist or is not a " "regular file, skipping\n", progbuf); } } else { rc = read_config(usr_config); if (rc) { fprintf(stderr, "%s: error reading user configuration file \"%s\"\n", progname, usr_config); exit(1); } } } if (verbose) { fprintf(stderr, "\n"); } if (partdesc) { if (strcmp(partdesc, "?") == 0) { fprintf(stderr, "\n"); fprintf(stderr,"Valid parts are:\n"); list_parts(stderr, " ", part_list); fprintf(stderr, "\n"); exit(1); } } if (programmer) { if (strcmp(programmer, "?") == 0) { fprintf(stderr, "\n"); fprintf(stderr,"Valid programmers are:\n"); list_programmers(stderr, " ", programmers); fprintf(stderr,"\n"); exit(1); } } if (programmer[0] == 0) { fprintf(stderr, "\n%s: no programmer has been specified on the command line " "or the config file\n", progname); fprintf(stderr, "%sSpecify a programmer using the -c option and try again\n\n", progbuf); exit(1); } pgm = locate_programmer(programmers, programmer); if (pgm == NULL) { fprintf(stderr,"\n"); fprintf(stderr, "%s: Can't find programmer id \"%s\"\n", progname, programmer); fprintf(stderr,"\nValid programmers are:\n"); list_programmers(stderr, " ", programmers); fprintf(stderr,"\n"); exit(1); } if (pgm->setup) { pgm->setup(pgm); } if (pgm->teardown) { atexit(exithook); } if (lsize(extended_params) > 0) { if (pgm->parseextparams == NULL) { fprintf(stderr, "%s: WARNING: Programmer doesn't support extended parameters," " -x option(s) ignored\n", progname); } else { if (pgm->parseextparams(pgm, extended_params) < 0) { fprintf(stderr, "%s: Error parsing extended parameter list\n", progname); exit(1); } } } if ((strcmp(pgm->type, "STK500") == 0) || (strcmp(pgm->type, "avr910") == 0) || (strcmp(pgm->type, "STK500V2") == 0) || (strcmp(pgm->type, "JTAGMKII") == 0)) { if (port == default_parallel) { port = default_serial; } } if (partdesc == NULL) { fprintf(stderr, "%s: No AVR part has been specified, use \"-p Part\"\n\n", progname); fprintf(stderr,"Valid parts are:\n"); list_parts(stderr, " ", part_list); fprintf(stderr, "\n"); exit(1); } p = locate_part(part_list, partdesc); if (p == NULL) { fprintf(stderr, "%s: AVR Part \"%s\" not found.\n\n", progname, partdesc); fprintf(stderr,"Valid parts are:\n"); list_parts(stderr, " ", part_list); fprintf(stderr, "\n"); exit(1); } if (exitspecs != NULL) { if (pgm->parseexitspecs == NULL) { fprintf(stderr, "%s: WARNING: -E option not supported by this programmer type\n", progname); exitspecs = NULL; } else if (pgm->parseexitspecs(pgm, exitspecs) < 0) { usage(); exit(1); } } /* * set up seperate instances of the avr part, one for use in * programming, one for use in verifying. These are separate * because they need separate flash and eeprom buffer space */ p = avr_dup_part(p); v = avr_dup_part(p); /* * open the programmer */ if (port[0] == 0) { fprintf(stderr, "\n%s: no port has been specified on the command line " "or the config file\n", progname); fprintf(stderr, "%sSpecify a port using the -P option and try again\n\n", progbuf); exit(1); } if (verbose) { fprintf(stderr, "%sUsing Port : %s\n", progbuf, port); fprintf(stderr, "%sUsing Programmer : %s\n", progbuf, programmer); if ((strcmp(pgm->type, "avr910") == 0)) { fprintf(stderr, "%savr910_devcode (avrdude.conf) : ", progbuf); if(p->avr910_devcode)fprintf(stderr, "0x%x\n", p->avr910_devcode); else fprintf(stderr, "none\n"); } } if (baudrate != 0) { if (verbose) { fprintf(stderr, "%sOverriding Baud Rate : %d\n", progbuf, baudrate); } pgm->baudrate = baudrate; } if (bitclock != 0.0) { if (verbose) { fprintf(stderr, "%sSetting bit clk period : %.1f\n", progbuf, bitclock); } pgm->bitclock = bitclock * 1e-6; } if (ispdelay != 0) { if (verbose) { fprintf(stderr, "%sSetting isp clock delay : %3i\n", progbuf, ispdelay); } pgm->ispdelay = ispdelay; } rc = pgm->open(pgm, port); if (rc < 0) { exitrc = 1; pgm->ppidata = 0; /* clear all bits at exit */ goto main_exit; } if (calibrate) { /* * perform an RC oscillator calibration * as outlined in appnote AVR053 */ if (pgm->perform_osccal == 0) { fprintf(stderr, "%s: programmer does not support RC oscillator calibration\n", progname); exitrc = 1; } else { fprintf(stderr, "%s: performing RC oscillator calibration\n", progname); exitrc = pgm->perform_osccal(pgm); } if (exitrc == 0 && quell_progress < 2) { fprintf(stderr, "%s: calibration value is now stored in EEPROM at address 0\n", progname); } goto main_exit; } if (verbose) { avr_display(stderr, p, progbuf, verbose); fprintf(stderr, "\n"); programmer_display(pgm, progbuf); } if (quell_progress < 2) { fprintf(stderr, "\n"); } exitrc = 0; /* * enable the programmer */ pgm->enable(pgm); /* * turn off all the status leds */ pgm->rdy_led(pgm, OFF); pgm->err_led(pgm, OFF); pgm->pgm_led(pgm, OFF); pgm->vfy_led(pgm, OFF); /* * initialize the chip in preperation for accepting commands */ init_ok = (rc = pgm->initialize(pgm, p)) >= 0; if (!init_ok) { fprintf(stderr, "%s: initialization failed, rc=%d\n", progname, rc); if (!ovsigck) { fprintf(stderr, "%sDouble check connections and try again, " "or use -F to override\n" "%sthis check.\n\n", progbuf, progbuf); exitrc = 1; goto main_exit; } } /* indicate ready */ pgm->rdy_led(pgm, ON); if (quell_progress < 2) { fprintf(stderr, "%s: AVR device initialized and ready to accept instructions\n", progname); } /* * Let's read the signature bytes to make sure there is at least a * chip on the other end that is responding correctly. A check * against 0xffffff / 0x000000 should ensure that the signature bytes * are valid. */ if (init_ok) { rc = avr_signature(pgm, p); if (rc != 0) { fprintf(stderr, "%s: error reading signature data, rc=%d\n", progname, rc); exitrc = 1; goto main_exit; } } sig = avr_locate_mem(p, "signature"); if (sig == NULL) { fprintf(stderr, "%s: WARNING: signature data not defined for device \"%s\"\n", progname, p->desc); } if (sig != NULL) { int ff, zz; if (quell_progress < 2) { fprintf(stderr, "%s: Device signature = 0x", progname); } ff = zz = 1; for (i=0; isize; i++) { if (quell_progress < 2) { fprintf(stderr, "%02x", sig->buf[i]); } if (sig->buf[i] != 0xff) ff = 0; if (sig->buf[i] != 0x00) zz = 0; } if (quell_progress < 2) { fprintf(stderr, "\n"); } if (ff || zz) { fprintf(stderr, "%s: Yikes! Invalid device signature.\n", progname); if (!ovsigck) { fprintf(stderr, "%sDouble check connections and try again, " "or use -F to override\n" "%sthis check.\n\n", progbuf, progbuf); exitrc = 1; goto main_exit; } } if (sig->size != 3 || sig->buf[0] != p->signature[0] || sig->buf[1] != p->signature[1] || sig->buf[2] != p->signature[2]) { fprintf(stderr, "%s: Expected signature for %s is %02X %02X %02X\n", progname, p->desc, p->signature[0], p->signature[1], p->signature[2]); if (!ovsigck) { fprintf(stderr, "%sDouble check chip, " "or use -F to override this check.\n", progbuf); exitrc = 1; goto main_exit; } } } if (init_ok && safemode == 1) { /* If safemode is enabled, go ahead and read the current low, high, and extended fuse bytes as needed */ rc = safemode_readfuses(&safemode_lfuse, &safemode_hfuse, &safemode_efuse, &safemode_fuse, pgm, p, verbose); if (rc != 0) { //Check if the programmer just doesn't support reading if (rc == -5) { if (verbose > 0) { fprintf(stderr, "%s: safemode: Fuse reading not support by programmer.\n" " Safemode disabled.\n", progname); } safemode = 0; } else { fprintf(stderr, "%s: safemode: To protect your AVR the programming " "will be aborted\n", progname); exitrc = 1; goto main_exit; } } else { //Save the fuses as default safemode_memfuses(1, &safemode_lfuse, &safemode_hfuse, &safemode_efuse, &safemode_fuse); } } if ((p->flags & AVRPART_HAS_PDI) != 0) { /* * This is an ATxmega which can page erase, so no auto erase is * needed. */ auto_erase = 0; } if ((erase == 0) && (auto_erase == 1)) { AVRMEM * m; for (ln=lfirst(updates); ln; ln=lnext(ln)) { upd = ldata(ln); m = avr_locate_mem(p, upd->memtype); if (m == NULL) continue; if ((strcasecmp(m->desc, "flash") == 0) && (upd->op == DEVICE_WRITE)) { erase = 1; if (quell_progress < 2) { fprintf(stderr, "%s: NOTE: FLASH memory has been specified, an erase cycle " "will be performed\n" "%sTo disable this feature, specify the -D option.\n", progname, progbuf); } break; } } } /* * Display cycle count, if and only if it is not set later on. * * The cycle count will be displayed anytime it will be changed later. */ if (init_ok && (set_cycles == -1) && ((erase == 0) || (do_cycles == 0))) { /* * see if the cycle count in the last four bytes of eeprom seems * reasonable */ rc = avr_get_cycle_count(pgm, p, &cycles); if (quell_progress < 2) { if ((rc >= 0) && (cycles != 0)) { fprintf(stderr, "%s: current erase-rewrite cycle count is %d%s\n", progname, cycles, do_cycles ? "" : " (if being tracked)"); } } } if (init_ok && set_cycles != -1) { rc = avr_get_cycle_count(pgm, p, &cycles); if (rc == 0) { /* * only attempt to update the cycle counter if we can actually * read the old value */ cycles = set_cycles; if (quell_progress < 2) { fprintf(stderr, "%s: setting erase-rewrite cycle count to %d\n", progname, cycles); } rc = avr_put_cycle_count(pgm, p, cycles); if (rc < 0) { fprintf(stderr, "%s: WARNING: failed to update the erase-rewrite cycle " "counter\n", progname); } } } if (init_ok && erase) { /* * erase the chip's flash and eeprom memories, this is required * before the chip can accept new programming */ if (nowrite) { fprintf(stderr, "%s: conflicting -e and -n options specified, NOT erasing chip\n", progname); } else { if (quell_progress < 2) { fprintf(stderr, "%s: erasing chip\n", progname); } avr_chip_erase(pgm, p); } } if (terminal) { /* * terminal mode */ exitrc = terminal_mode(pgm, p); } if (!init_ok) { /* * If we came here by the -tF options, bail out now. */ exitrc = 1; goto main_exit; } for (ln=lfirst(updates); ln; ln=lnext(ln)) { upd = ldata(ln); rc = do_op(pgm, p, upd, nowrite, verify); if (rc) { exitrc = 1; break; } } /* Right before we exit programming mode, which will make the fuse bits active, check to make sure they are still correct */ if (safemode == 1){ /* If safemode is enabled, go ahead and read the current low, * high, and extended fuse bytes as needed */ unsigned char safemodeafter_lfuse = 0xff; unsigned char safemodeafter_hfuse = 0xff; unsigned char safemodeafter_efuse = 0xff; unsigned char safemodeafter_fuse = 0xff; unsigned char failures = 0; char yes[1] = {'y'}; if (quell_progress < 2) { fprintf(stderr, "\n"); } //Restore the default fuse values safemode_memfuses(0, &safemode_lfuse, &safemode_hfuse, &safemode_efuse, &safemode_fuse); /* Try reading back fuses, make sure they are reliable to read back */ if (safemode_readfuses(&safemodeafter_lfuse, &safemodeafter_hfuse, &safemodeafter_efuse, &safemodeafter_fuse, pgm, p, verbose) != 0) { /* Uh-oh.. try once more to read back fuses */ if (safemode_readfuses(&safemodeafter_lfuse, &safemodeafter_hfuse, &safemodeafter_efuse, &safemodeafter_fuse, pgm, p, verbose) != 0) { fprintf(stderr, "%s: safemode: Sorry, reading back fuses was unreliable. " "I have given up and exited programming mode\n", progname); exitrc = 1; goto main_exit; } } /* Now check what fuses are against what they should be */ if (safemodeafter_fuse != safemode_fuse) { fuses_updated = 1; fprintf(stderr, "%s: safemode: fuse changed! Was %x, and is now %x\n", progname, safemode_fuse, safemodeafter_fuse); /* Ask user - should we change them */ if (silentsafe == 0) safemode_response = terminal_get_input("Would you like this fuse to be changed back? [y/n] "); else safemode_response = yes; if (tolower(safemode_response[0]) == 'y') { /* Enough chit-chat, time to program some fuses and check them */ if (safemode_writefuse (safemode_fuse, "fuse", pgm, p, 10, verbose) == 0) { fprintf(stderr, "%s: safemode: and is now rescued\n", progname); } else { fprintf(stderr, "%s: and COULD NOT be changed\n", progname); failures++; } } } /* Now check what fuses are against what they should be */ if (safemodeafter_lfuse != safemode_lfuse) { fuses_updated = 1; fprintf(stderr, "%s: safemode: lfuse changed! Was %x, and is now %x\n", progname, safemode_lfuse, safemodeafter_lfuse); /* Ask user - should we change them */ if (silentsafe == 0) safemode_response = terminal_get_input("Would you like this fuse to be changed back? [y/n] "); else safemode_response = yes; if (tolower(safemode_response[0]) == 'y') { /* Enough chit-chat, time to program some fuses and check them */ if (safemode_writefuse (safemode_lfuse, "lfuse", pgm, p, 10, verbose) == 0) { fprintf(stderr, "%s: safemode: and is now rescued\n", progname); } else { fprintf(stderr, "%s: and COULD NOT be changed\n", progname); failures++; } } } /* Now check what fuses are against what they should be */ if (safemodeafter_hfuse != safemode_hfuse) { fuses_updated = 1; fprintf(stderr, "%s: safemode: hfuse changed! Was %x, and is now %x\n", progname, safemode_hfuse, safemodeafter_hfuse); /* Ask user - should we change them */ if (silentsafe == 0) safemode_response = terminal_get_input("Would you like this fuse to be changed back? [y/n] "); else safemode_response = yes; if (tolower(safemode_response[0]) == 'y') { /* Enough chit-chat, time to program some fuses and check them */ if (safemode_writefuse(safemode_hfuse, "hfuse", pgm, p, 10, verbose) == 0) { fprintf(stderr, "%s: safemode: and is now rescued\n", progname); } else { fprintf(stderr, "%s: and COULD NOT be changed\n", progname); failures++; } } } /* Now check what fuses are against what they should be */ if (safemodeafter_efuse != safemode_efuse) { fuses_updated = 1; fprintf(stderr, "%s: safemode: efuse changed! Was %x, and is now %x\n", progname, safemode_efuse, safemodeafter_efuse); /* Ask user - should we change them */ if (silentsafe == 0) safemode_response = terminal_get_input("Would you like this fuse to be changed back? [y/n] "); else safemode_response = yes; if (tolower(safemode_response[0]) == 'y') { /* Enough chit-chat, time to program some fuses and check them */ if (safemode_writefuse (safemode_efuse, "efuse", pgm, p, 10, verbose) == 0) { fprintf(stderr, "%s: safemode: and is now rescued\n", progname); } else { fprintf(stderr, "%s: and COULD NOT be changed\n", progname); failures++; } } } if (quell_progress < 2) { fprintf(stderr, "%s: safemode: ", progname); if (failures == 0) { fprintf(stderr, "Fuses OK\n"); } else { fprintf(stderr, "Fuses not recovered, sorry\n"); } } if (fuses_updated && fuses_specified) { exitrc = 1; } } main_exit: /* * program complete */ pgm->powerdown(pgm); pgm->disable(pgm); pgm->rdy_led(pgm, OFF); pgm->close(pgm); if (quell_progress < 2) { fprintf(stderr, "\n%s done. Thank you.\n\n", progname); } return exitrc; }