/* cdsymlinks.c * * Map cdrom, cd-r, cdrw, dvd, dvdrw, dvdram to suitable devices. * Prefers cd* for DVD-incapable and cdrom and dvd for read-only devices. * First parameter is the kernel device name. * Second parameter, if present, must be "-d" => output the full mapping. * * Usage: * BUS="ide", KERNEL="hd[a-z]", PROGRAM="/etc/udev/cdsymlinks.sh %k", SYMLINK="%c{1} %c{2} %c{3} %c{4} %c{5} %c{6}" * BUS="scsi", KERNEL="sr[0-9]*", PROGRAM="/etc/udev/cdsymlinks.sh %k", SYMLINK="%c{1} %c{2} %c{3} %c{4} %c{5} %c{6}" * BUS="scsi", KERNEL="scd[0-9]*", PROGRAM="/etc/udev/cdsymlinks.sh %k", SYMLINK="%c{1} %c{2} %c{3} %c{4} %c{5} %c{6}" * (this last one is "just in case") * * (c) 2004 Darren Salt */ #define _GNU_SOURCE #include #include #include #include #include #include #include #include #include #include static const char *progname; /* This file provides us with our devices and capabilities information. */ #define CDROM_INFO "/proc/sys/dev/cdrom/info" /* This file contains our default settings. */ #define CONFIGURATION "/etc/udev/cdsymlinks.conf" /* Default output types configuration, in the presence of an empty list */ #define OUTPUT_DEFAULT "CD CDRW DVD DVDRW DVDRAM" static int debug = 0; /* List item */ struct list_item_t { struct list_item_t *next; char *data; }; /* List root. Note offset of list_t->head and list_item_t->next */ struct list_t { struct list_item_t *head, *tail; }; /* Configuration variables */ static struct list_t allowed_output = {0}; static int numbered_links = 1; /* Available devices */ static struct list_t Devices = {0}; /* Devices' capabilities in full (same order as available devices list). * There's no cap_CD; all are assumed able to read CDs. */ static struct list_t cap_DVDRAM = {0}, cap_DVDRW = {0}, cap_DVD = {0}, cap_CDRW = {0}, cap_CDR = {0}, cap_CDWMRW = {0}, cap_CDMRW = {0}; /* Device capabilities by name */ static struct list_t dev_DVDRAM = {0}, dev_DVDRW = {0}, dev_DVD = {0}, dev_CDRW = {0}, dev_CDR = {0}, dev_CDWMRW = {0}, dev_CDMRW = {0}; #define dev_CD Devices /* * Some library-like bits first... */ static void errexit (const char *reason) { fprintf (stderr, "%s: %s: %s\n", progname, reason, strerror (errno)); exit (2); } static void msgexit (const char *reason) { fprintf (stderr, "%s: %s\n", progname, reason); exit (2); } static void errwarn (const char *reason) { fprintf (stderr, "%s: warning: %s: %s\n", progname, reason, strerror (errno)); } static void msgwarn (const char *reason) { fprintf (stderr, "%s: warning: %s\n", progname, reason); } static void * xmalloc (size_t size) { void *mem = malloc (size); if (size && !mem) msgexit ("malloc failed"); return mem; } static char * xstrdup (const char *text) { char *mem = xmalloc (strlen (text) + 1); return strcpy (mem, text); } /* Append a string to a list. The string is duplicated. */ static void list_append (struct list_t *list, const char *data) { struct list_item_t *node = xmalloc (sizeof (struct list_item_t)); node->next = NULL; if (list->tail) list->tail->next = node; list->tail = node; if (!list->head) list->head = node; node->data = xstrdup (data); } /* Prepend a string to a list. The string is duplicated. */ static void list_prepend (struct list_t *list, const char *data) { struct list_item_t *node = xmalloc (sizeof (struct list_item_t)); node->next = list->head; list->head = node; if (!list->tail) list->tail = node; node->data = xstrdup (data); } /* Delete a lists's contents, freeing claimed memory */ static void list_delete (struct list_t *list) { struct list_item_t *node = list->head; while (node) { struct list_item_t *n = node; node = node->next; free (n->data); free (n); } list->tail = list->head = NULL; } /* Print out a list on one line, each item space-prefixed, no LF */ static void list_print (const struct list_t *list, FILE *stream) { const struct list_item_t *node = (const struct list_item_t *)list; while ((node = node->next) != NULL) fprintf (stream, " %s", node->data); } /* Return the nth item in a list (count from 0) * If there aren't enough items in the list, return the requested default */ static const struct list_item_t * list_nth (const struct list_t *list, size_t nth) { const struct list_item_t *node = list->head; while (nth && node) { node = node->next; --nth; } return node; } /* Return the first matching item in a list, or NULL */ static const struct list_item_t * list_search (const struct list_t *list, const char *data) { const struct list_item_t *node = list->head; while (node) { if (!strcmp (node->data, data)) return node; node = node->next; } return NULL; } /* Split up a string on whitespace & assign the resulting tokens to a list. * Ignore everything up until the first colon (if present). */ static void list_assign_split (struct list_t *list, char *text) { char *token = strchr (text, ':'); token = strtok (token ? token + 1 : text, " \t"); while (token) { list_prepend (list, token); token = strtok (0, " \t\n"); } } /* Gather the default settings. */ static void read_defaults (void) { FILE *conf = fopen (CONFIGURATION, "r"); if (!conf) { if (errno != ENOENT) errwarn ("error accessing configuration"); } else { char *text = NULL; size_t textlen; while (getline (&text, &textlen, conf) != -1) { wordexp_t p = {0}; int len = strlen (text); if (len && text[len - 1] == '\n') text[--len] = '\0'; if (len && text[len - 1] == '\r') text[--len] = '\0'; if (!len) continue; char *token = text + strspn (text, " \t"); if (!*token || *token == '#') continue; switch (len = wordexp (text, &p, 0)) { case WRDE_NOSPACE: msgexit ("malloc failed"); case 0: if (p.we_wordc == 1) { if (!strncmp (p.we_wordv[0], "OUTPUT=", 7)) { list_delete (&allowed_output); list_assign_split (&allowed_output, p.we_wordv[0] + 7); } else if (!strncmp (p.we_wordv[0], "NUMBERED_LINKS=", 14)) numbered_links = atoi (p.we_wordv[0] + 14); break; } /* fall through */ default: msgwarn ("syntax error in configuration file"); } wordfree (&p); } if (!feof (conf)) errwarn ("error accessing configuration"); if (fclose (conf)) errwarn ("error accessing configuration"); free (text); } if (!allowed_output.head) { char *dflt = strdup (OUTPUT_DEFAULT); list_assign_split (&allowed_output, dflt); free (dflt); } } /* From information supplied by the kernel: * + get the names of the available devices * + populate our capability lists * Order is significant: device item N maps to each capability item N. */ static void populate_capability_lists (void) { FILE *info = fopen (CDROM_INFO, "r"); if (!info) { if (errno == ENOENT) exit (0); errexit ("error accessing CD/DVD info"); } char *text = 0; size_t textlen = 0; while (getline (&text, &textlen, info) != -1) { if (!strncasecmp (text, "drive name", 10)) list_assign_split (&Devices, text); else if (!strncasecmp (text, "Can write DVD-RAM", 17)) list_assign_split (&cap_DVDRAM, text); else if (!strncasecmp (text, "Can write DVD-R", 15)) list_assign_split (&cap_DVDRW, text); else if (!strncasecmp (text, "Can read DVD", 12)) list_assign_split (&cap_DVD, text); else if (!strncasecmp (text, "Can write CD-RW", 15)) list_assign_split (&cap_CDRW, text); else if (!strncasecmp (text, "Can write CD-R", 14)) list_assign_split (&cap_CDR, text); else if (!strncasecmp (text, "Can read MRW", 14)) list_assign_split (&cap_CDMRW, text); else if (!strncasecmp (text, "Can write MRW", 14)) list_assign_split (&cap_CDWMRW, text); } if (!feof (info)) errexit ("error accessing CD/DVD info"); fclose (info); free (text); } /* Write out the links of type LINK which should be created for device NAME, * taking into account existing links and the capability list for type LINK. */ static void do_output (const char *name, const char *link, const struct list_t *dev) { const struct list_item_t *i = (const struct list_item_t *)dev; if (!i->next) return; errno = 0; size_t link_len = strlen (link); DIR *dir = opendir ("/dev"); if (!dir) errexit ("error reading /dev"); struct list_t devls = {0}; /* symlinks whose name matches LINK */ struct list_t devlinks = {0}; /* those symlinks' targets */ struct dirent *entry; while ((entry = readdir (dir)) != NULL) { if (strncmp (entry->d_name, link, link_len)) continue; /* wrong name: ignore it */ /* The rest of the name must be null or consist entirely of digits. */ const char *p = entry->d_name + link_len - 1; while (*++p) if (!isdigit (*p)) break; if (*p) continue; /* wrong format - ignore */ /* Assume that it's a symlink and try to read its target. */ char buf[sizeof (entry->d_name)]; int r = readlink (entry->d_name, buf, sizeof (buf) - 1); if (r < 0) { if (errno == EINVAL) continue; /* not a symlink - ignore */ errexit ("error reading link in /dev"); } /* We have the name and the target, so update our lists. */ buf[r] = 0; list_append (&devls, entry->d_name); list_append (&devlinks, buf); } if (errno) errexit ("error reading /dev"); if (closedir (dir)) errexit ("error closing /dev"); /* Now we write our output... */ size_t count = 0; while ((i = i->next) != NULL) { int isdev = !strcmp (name, i->data); /* current dev == target dev? */ int present = 0; size_t li = -1; const struct list_item_t *l = (const struct list_item_t *)&devlinks; /* First, we look for existing symlinks to the target device. */ while (++li, (l = l->next) != NULL) { if (strcmp (l->data, i->data)) continue; /* Existing symlink found - don't output a new one. * If ISDEV, we output the name of the existing symlink. */ present = 1; if (isdev) printf (" %s", list_nth (&devls, li)->data); } /* If we found no existing symlinks for the target device... */ if (!present) { char buf[256]; snprintf (buf, sizeof (buf), count ? "%s%d" : "%s", link, count); /* Find the next available (not present) symlink name. * We always need to do this for reasons of output consistency: if a * symlink is created by udev as a result of use of this program, we * DON'T want different output! */ while (list_search (&devls, buf)) snprintf (buf, sizeof (buf), "%s%d", link, ++count); /* If ISDEV, output it. */ if (isdev && (numbered_links || count == 0)) printf (" %s", buf); /* If the link isn't in our "existing links" list, add it and increment * our counter. */ if (!list_search (&devls, buf)) { list_append (&devls, buf); ++count; } } } list_delete (&devls); list_delete (&devlinks); } /* Populate a device list from a capabilities list. */ static void populate_device_list (struct list_t *out, const struct list_t *caps) { const struct list_item_t *cap, *dev; cap = (const struct list_item_t *)caps; dev = (const struct list_item_t *)&Devices; while ((cap = cap->next) != NULL && (dev = dev->next) != NULL) if (cap->data[0] != '0') list_append (out, dev->data); } int main (int argc, char *argv[]) { progname = argv[0]; debug = argc > 2 && !strcmp (argv[2], "-d"); if (argc < 2 || argc > 2 + debug) msgexit ("usage: cdsymlinks DEVICE [-d]"); if (chdir ("/dev")) errexit ("can't chdir /dev"); read_defaults (); populate_capability_lists (); /* Construct the device lists from the capability lists. */ populate_device_list (&dev_DVDRAM, &cap_DVDRAM); populate_device_list (&dev_DVDRW, &cap_DVDRW); populate_device_list (&dev_DVD, &cap_DVD); populate_device_list (&dev_CDRW, &cap_CDRW); populate_device_list (&dev_CDR, &cap_CDR); populate_device_list (&dev_CDWMRW, &cap_CDWMRW); populate_device_list (&dev_CDMRW, &cap_CDMRW); /* (All devices can read CDs.) */ if (debug) { #define printdev(DEV) \ printf ("%-7s:", #DEV); \ list_print (&cap_##DEV, stdout); \ list_print (&dev_##DEV, stdout); \ puts (""); printf ("Devices:"); const struct list_item_t *item = (const struct list_item_t *)&Devices; while ((item = item->next) != NULL) printf (" %s", item->data); puts (""); printdev (DVDRAM); printdev (DVDRW); printdev (DVD); printdev (CDRW); printdev (CDR); printdev (CDWMRW); printdev (CDMRW); printf ("CDROM : (all)"); item = (const struct list_item_t *)&dev_CD; while ((item = item->next) != NULL) printf (" %s", item->data); puts (""); } /* Write the symlink names. */ if (list_search (&allowed_output, "CD")) do_output (argv[1], "cdrom", &dev_CD); if (list_search (&allowed_output, "CDR")) do_output (argv[1], "cd-r", &dev_CDR); if (list_search (&allowed_output, "CDRW")) do_output (argv[1], "cdrw", &dev_CDRW); if (list_search (&allowed_output, "DVD")) do_output (argv[1], "dvd", &dev_DVD); if (list_search (&allowed_output, "DVDRW")) do_output (argv[1], "dvdrw", &dev_DVDRW); if (list_search (&allowed_output, "DVDRAM")) do_output (argv[1], "dvdram", &dev_DVDRAM); if (list_search (&allowed_output, "CDMRW")) do_output (argv[1], "cdmrw", &dev_CDMRW); if (list_search (&allowed_output, "CDWMRW")) do_output (argv[1], "cdwmrw", &dev_CDWMRW); puts (""); return 0; }