#include "strutils.h" #include "fdiskP.h" /** * SECTION: ask * @title: Ask * @short_description: interface for dialog driven partitioning, warning and info messages * */ static void fdisk_ask_menu_reset_items(struct fdisk_ask *ask); /** * fdisk_set_ask: * @cxt: context * @ask_cb: callback * @data: callback data * * Set callback for dialog driven partitioning and library warnings/errors. * * Returns: 0 on success, < 0 on error. */ int fdisk_set_ask(struct fdisk_context *cxt, int (*ask_cb)(struct fdisk_context *, struct fdisk_ask *, void *), void *data) { assert(cxt); cxt->ask_cb = ask_cb; cxt->ask_data = data; return 0; } struct fdisk_ask *fdisk_new_ask(void) { struct fdisk_ask *ask = calloc(1, sizeof(struct fdisk_ask)); DBG(ASK, ul_debugobj(ask, "alloc")); ask->refcount = 1; return ask; } void fdisk_reset_ask(struct fdisk_ask *ask) { int refcount; assert(ask); free(ask->query); DBG(ASK, ul_debugobj(ask, "reset")); refcount = ask->refcount; if (fdisk_is_ask(ask, MENU)) fdisk_ask_menu_reset_items(ask); memset(ask, 0, sizeof(*ask)); ask->refcount = refcount; } /** * fdisk_ref_ask: * @ask: ask instance * * Increments reference counter. */ void fdisk_ref_ask(struct fdisk_ask *ask) { if (ask) ask->refcount++; } /** * fdisk_unref_ask: * @ask: ask instance * * Decrements reference counter, on zero the @ask is automatically * deallocated. */ void fdisk_unref_ask(struct fdisk_ask *ask) { if (!ask) return; ask->refcount--; if (ask->refcount <= 0) { fdisk_reset_ask(ask); DBG(ASK, ul_debugobj(ask, "free")); free(ask); } } /** * fdisk_ask_get_query: * @ask: ask instance * * Returns: pointer to dialog string. */ const char *fdisk_ask_get_query(struct fdisk_ask *ask) { assert(ask); return ask->query; } int fdisk_ask_set_query(struct fdisk_ask *ask, const char *str) { assert(ask); return strdup_to_struct_member(ask, query, str); } /** * fdisk_ask_get_type: * @ask: ask instance * * Returns: FDISK_ASKTYPE_* */ int fdisk_ask_get_type(struct fdisk_ask *ask) { assert(ask); return ask->type; } int fdisk_ask_set_type(struct fdisk_ask *ask, int type) { assert(ask); ask->type = type; return 0; } int fdisk_do_ask(struct fdisk_context *cxt, struct fdisk_ask *ask) { int rc; assert(ask); assert(cxt); DBG(ASK, ul_debugobj(ask, "do_ask for '%s'", ask->query ? ask->query : ask->type == FDISK_ASKTYPE_INFO ? "info" : ask->type == FDISK_ASKTYPE_WARNX ? "warnx" : ask->type == FDISK_ASKTYPE_WARN ? "warn" : "?nothing?")); if (!fdisk_has_dialogs(cxt) && !(ask->type == FDISK_ASKTYPE_INFO || ask->type == FDISK_ASKTYPE_WARNX || ask->type == FDISK_ASKTYPE_WARN)) { DBG(ASK, ul_debugobj(ask, "dialogs disabled")); return -EINVAL; } if (!cxt->ask_cb) { DBG(ASK, ul_debugobj(ask, "no ask callback specified!")); return -EINVAL; } rc = cxt->ask_cb(cxt, ask, cxt->ask_data); DBG(ASK, ul_debugobj(ask, "do_ask done [rc=%d]", rc)); return rc; } #define is_number_ask(a) (fdisk_is_ask(a, NUMBER) || fdisk_is_ask(a, OFFSET)) /** * fdisk_ask_number_get_range: * @ask: ask instance * * Returns: string with range (e.g. "1,3,5-10") */ const char *fdisk_ask_number_get_range(struct fdisk_ask *ask) { assert(ask); assert(is_number_ask(ask)); return ask->data.num.range; } int fdisk_ask_number_set_range(struct fdisk_ask *ask, const char *range) { assert(ask); assert(is_number_ask(ask)); ask->data.num.range = range; return 0; } /** * fdisk_ask_number_get_default: * @ask: ask instance * * Returns: default number * */ uint64_t fdisk_ask_number_get_default(struct fdisk_ask *ask) { assert(ask); assert(is_number_ask(ask)); return ask->data.num.dfl; } int fdisk_ask_number_set_default(struct fdisk_ask *ask, uint64_t dflt) { assert(ask); ask->data.num.dfl = dflt; return 0; } /** * fdisk_ask_number_get_low: * @ask: ask instance * * Returns: minimal possible number when ask for numbers in range */ uint64_t fdisk_ask_number_get_low(struct fdisk_ask *ask) { assert(ask); assert(is_number_ask(ask)); return ask->data.num.low; } int fdisk_ask_number_set_low(struct fdisk_ask *ask, uint64_t low) { assert(ask); ask->data.num.low = low; return 0; } /** * fdisk_ask_number_get_high: * @ask: ask instance * * Returns: maximal possible number when ask for numbers in range */ uint64_t fdisk_ask_number_get_high(struct fdisk_ask *ask) { assert(ask); assert(is_number_ask(ask)); return ask->data.num.hig; } int fdisk_ask_number_set_high(struct fdisk_ask *ask, uint64_t high) { assert(ask); ask->data.num.hig = high; return 0; } /** * fdisk_ask_number_get_result: * @ask: ask instance * * Returns: result */ uint64_t fdisk_ask_number_get_result(struct fdisk_ask *ask) { assert(ask); assert(is_number_ask(ask)); return ask->data.num.result; } /** * fdisk_ask_number_set_result: * @ask: ask instance * @result: dialog result * * Returns: 0 on success, <0 on error */ int fdisk_ask_number_set_result(struct fdisk_ask *ask, uint64_t result) { assert(ask); ask->data.num.result = result; return 0; } /** * fdisk_ask_number_get_base: * @ask: ask instance * * Returns: base when user specify number in relative notation (+size) */ uint64_t fdisk_ask_number_get_base(struct fdisk_ask *ask) { assert(ask); assert(is_number_ask(ask)); return ask->data.num.base; } int fdisk_ask_number_set_base(struct fdisk_ask *ask, uint64_t base) { assert(ask); ask->data.num.base = base; return 0; } /** * fdisk_ask_number_get_unit: * @ask: ask instance * * Returns: number of bytes per the unit */ uint64_t fdisk_ask_number_get_unit(struct fdisk_ask *ask) { assert(ask); assert(is_number_ask(ask)); return ask->data.num.unit; } int fdisk_ask_number_set_unit(struct fdisk_ask *ask, uint64_t unit) { assert(ask); ask->data.num.unit = unit; return 0; } int fdisk_ask_number_is_relative(struct fdisk_ask *ask) { assert(ask); assert(is_number_ask(ask)); return ask->data.num.relative; } /** * fdisk_ask_number_is_wrap_negative: * @ask: ask instance * * The wrap-negative flag can be used to accept negative number from user. In this * case the dialog result is calculated as "high - num" (-N from high limit). * * Returns: 1 or 0. * * Since: 2.33 */ int fdisk_ask_number_is_wrap_negative(struct fdisk_ask *ask) { assert(ask); assert(is_number_ask(ask)); return ask->data.num.wrap_negative; } /** * fdisk_ask_number_set_relative * @ask: ask instance * @relative: 0 or 1 * * Inform libfdisk that user can specify the number in relative notation rather than * by explicit number. This is useful for some optimization (e.g. * align end of partition, etc.) * * Returns: 0 on success, <0 on error */ int fdisk_ask_number_set_relative(struct fdisk_ask *ask, int relative) { assert(ask); ask->data.num.relative = relative ? 1 : 0; return 0; } /** * fdisk_ask_number_inchars: * @ask: ask instance * * For example for BSD is normal to address partition by chars rather than by * number (first partition is 'a'). * * Returns: 1 if number should be presented as chars * */ int fdisk_ask_number_inchars(struct fdisk_ask *ask) { assert(ask); assert(is_number_ask(ask)); return ask->data.num.inchars; } int fdisk_ask_number_set_wrap_negative(struct fdisk_ask *ask, int wrap_negative) { assert(ask); ask->data.num.wrap_negative = wrap_negative ? 1 : 0; return 0; } /* * Generates string with list ranges (e.g. 1,2,5-8) for the 'cur' */ #define tochar(num) ((int) ('a' + num - 1)) static char *mk_string_list(char *ptr, size_t *len, size_t *begin, size_t *run, ssize_t cur, int inchar) { int rlen; if (cur != -1) { if (!*begin) { /* begin of the list */ *begin = cur + 1; return ptr; } if (*begin + *run == (size_t)cur) { /* no gap, continue */ (*run)++; return ptr; } } else if (!*begin) { *ptr = '\0'; return ptr; /* end of empty list */ } /* add to the list */ if (!*run) rlen = inchar ? snprintf(ptr, *len, "%c,", tochar(*begin)) : snprintf(ptr, *len, "%zu,", *begin); else if (*run == 1) rlen = inchar ? snprintf(ptr, *len, "%c,%c,", tochar(*begin), tochar(*begin + 1)) : snprintf(ptr, *len, "%zu,%zu,", *begin, *begin + 1); else rlen = inchar ? snprintf(ptr, *len, "%c-%c,", tochar(*begin), tochar(*begin + *run)) : snprintf(ptr, *len, "%zu-%zu,", *begin, *begin + *run); if (rlen < 0 || (size_t) rlen >= *len) return NULL; ptr += rlen; *len -= rlen; if (cur == -1 && *begin) { /* end of the list */ *(ptr - 1) = '\0'; /* remove tailing ',' from the list */ return ptr; } *begin = cur + 1; *run = 0; return ptr; } /** * fdisk_ask_partnum: * @cxt: context * @partnum: returns partition number * @wantnew: 0|1 * * High-level API to ask for used or unused partition number. * * Returns: 0 on success, < 0 on error, 1 if no free/used partition */ int fdisk_ask_partnum(struct fdisk_context *cxt, size_t *partnum, int wantnew) { int rc = 0, inchar = 0; char range[BUFSIZ], *ptr = range; size_t i, len = sizeof(range), begin = 0, run = 0; struct fdisk_ask *ask = NULL; __typeof__(ask->data.num) *num; assert(cxt); assert(cxt->label); assert(partnum); if (cxt->label && cxt->label->flags & FDISK_LABEL_FL_INCHARS_PARTNO) inchar = 1; DBG(ASK, ul_debug("%s: asking for %s partition number " "(max: %zu, inchar: %s)", cxt->label ? cxt->label->name : "???", wantnew ? "new" : "used", cxt->label ? cxt->label->nparts_max : 0, inchar ? "yes" : "not")); ask = fdisk_new_ask(); if (!ask) return -ENOMEM; fdisk_ask_set_type(ask, FDISK_ASKTYPE_NUMBER); num = &ask->data.num; ask->data.num.inchars = inchar ? 1 : 0; for (i = 0; i < cxt->label->nparts_max; i++) { int used = fdisk_is_partition_used(cxt, i); if (wantnew && !used) { ptr = mk_string_list(ptr, &len, &begin, &run, i, inchar); if (!ptr) { rc = -EINVAL; break; } if (!num->low) num->dfl = num->low = i + 1; num->hig = i + 1; } else if (!wantnew && used) { ptr = mk_string_list(ptr, &len, &begin, &run, i, inchar); if (!num->low) num->low = i + 1; num->dfl = num->hig = i + 1; } } DBG(ASK, ul_debugobj(ask, "ask limits: low: %"PRIu64", high: %"PRIu64", default: %"PRIu64"", num->low, num->hig, num->dfl)); if (!rc && !wantnew && num->low == num->hig) { if (num->low > 0) { /* only one existing partition, don't ask, return the number */ fdisk_ask_number_set_result(ask, num->low); fdisk_info(cxt, _("Selected partition %ju"), num->low); } else if (num->low == 0) { fdisk_warnx(cxt, _("No partition is defined yet!")); rc = 1; } goto dont_ask; } if (!rc && wantnew && num->low == num->hig) { if (num->low > 0) { /* only one free partition, don't ask, return the number */ fdisk_ask_number_set_result(ask, num->low); fdisk_info(cxt, _("Selected partition %ju"), num->low); } if (num->low == 0) { fdisk_warnx(cxt, _("No free partition available!")); rc = 1; } goto dont_ask; } if (!rc) { mk_string_list(ptr, &len, &begin, &run, -1, inchar); /* terminate the list */ rc = fdisk_ask_number_set_range(ask, range); } if (!rc) rc = fdisk_ask_set_query(ask, _("Partition number")); if (!rc) rc = fdisk_do_ask(cxt, ask); dont_ask: if (!rc) { *partnum = fdisk_ask_number_get_result(ask); if (*partnum) *partnum -= 1; } DBG(ASK, ul_debugobj(ask, "result: %"PRIu64" [rc=%d]\n", fdisk_ask_number_get_result(ask), rc)); fdisk_unref_ask(ask); return rc; } /** * fdisk_ask_number: * @cxt: context * @low: minimal possible number * @dflt: default suggestion * @high: maximal possible number * @query: question string * @result: returns result * * Returns: 0 on success, <0 on error. */ int fdisk_ask_number(struct fdisk_context *cxt, uintmax_t low, uintmax_t dflt, uintmax_t high, const char *query, uintmax_t *result) { struct fdisk_ask *ask; int rc; assert(cxt); ask = fdisk_new_ask(); if (!ask) return -ENOMEM; rc = fdisk_ask_set_type(ask, FDISK_ASKTYPE_NUMBER); if (!rc) fdisk_ask_number_set_low(ask, low); if (!rc) fdisk_ask_number_set_default(ask, dflt); if (!rc) fdisk_ask_number_set_high(ask, high); if (!rc) fdisk_ask_set_query(ask, query); if (!rc) rc = fdisk_do_ask(cxt, ask); if (!rc) *result = fdisk_ask_number_get_result(ask); DBG(ASK, ul_debugobj(ask, "result: %ju [rc=%d]\n", *result, rc)); fdisk_unref_ask(ask); return rc; } /** * fdisk_ask_string_get_result: * @ask: ask instance * * Returns: pointer to dialog result */ char *fdisk_ask_string_get_result(struct fdisk_ask *ask) { assert(ask); assert(fdisk_is_ask(ask, STRING)); return ask->data.str.result; } /** * fdisk_ask_string_set_result: * @ask: ask instance * @result: pointer to allocated buffer with string * * You don't have to care about the @result deallocation, libfdisk is going to * deallocate the result when destroy @ask instance. * * Returns: 0 on success, <0 on error */ int fdisk_ask_string_set_result(struct fdisk_ask *ask, char *result) { assert(ask); ask->data.str.result = result; return 0; } /** * fdisk_ask_string: * @cxt: context: * @query: question string * @result: returns allocated buffer * * High-level API to ask for strings. Don't forget to deallocate the @result. * * Returns: 0 on success, <0 on error. */ int fdisk_ask_string(struct fdisk_context *cxt, const char *query, char **result) { struct fdisk_ask *ask; int rc; assert(cxt); ask = fdisk_new_ask(); if (!ask) return -ENOMEM; rc = fdisk_ask_set_type(ask, FDISK_ASKTYPE_STRING); if (!rc) fdisk_ask_set_query(ask, query); if (!rc) rc = fdisk_do_ask(cxt, ask); if (!rc) *result = fdisk_ask_string_get_result(ask); DBG(ASK, ul_debugobj(ask, "result: %s [rc=%d]\n", *result, rc)); fdisk_unref_ask(ask); return rc; } /** * fdisk_ask_yesno: * @cxt: context * @query: question string * @result: returns 0 (no) or 1 (yes) * * High-level API to ask Yes/No questions * * Returns: 0 on success, <0 on error */ int fdisk_ask_yesno(struct fdisk_context *cxt, const char *query, int *result) { struct fdisk_ask *ask; int rc; assert(cxt); ask = fdisk_new_ask(); if (!ask) return -ENOMEM; rc = fdisk_ask_set_type(ask, FDISK_ASKTYPE_YESNO); if (!rc) fdisk_ask_set_query(ask, query); if (!rc) rc = fdisk_do_ask(cxt, ask); if (!rc) *result = fdisk_ask_yesno_get_result(ask) == 1 ? 1 : 0; DBG(ASK, ul_debugobj(ask, "result: %d [rc=%d]\n", *result, rc)); fdisk_unref_ask(ask); return rc; } /** * fdisk_ask_yesno_get_result: * @ask: ask instance * * Returns: 0 or 1 */ int fdisk_ask_yesno_get_result(struct fdisk_ask *ask) { assert(ask); assert(fdisk_is_ask(ask, YESNO)); return ask->data.yesno.result; } /** * fdisk_ask_yesno_set_result: * @ask: ask instance * @result: 1 or 0 * * Returns: 0 on success, <0 on error */ int fdisk_ask_yesno_set_result(struct fdisk_ask *ask, int result) { assert(ask); ask->data.yesno.result = result; return 0; } /* * menu */ int fdisk_ask_menu_set_default(struct fdisk_ask *ask, int dfl) { assert(ask); assert(fdisk_is_ask(ask, MENU)); ask->data.menu.dfl = dfl; return 0; } /** * fdisk_ask_menu_get_default: * @ask: ask instance * * Returns: default menu item key */ int fdisk_ask_menu_get_default(struct fdisk_ask *ask) { assert(ask); assert(fdisk_is_ask(ask, MENU)); return ask->data.menu.dfl; } /** * fdisk_ask_menu_set_result: * @ask: ask instance * @key: result * * Returns: 0 on success, <0 on error */ int fdisk_ask_menu_set_result(struct fdisk_ask *ask, int key) { assert(ask); assert(fdisk_is_ask(ask, MENU)); ask->data.menu.result = key; DBG(ASK, ul_debugobj(ask, "menu result: %c\n", key)); return 0; } /** * fdisk_ask_menu_get_result: * @ask: ask instance * @key: returns selected menu item key * * Returns: 0 on success, <0 on error. */ int fdisk_ask_menu_get_result(struct fdisk_ask *ask, int *key) { assert(ask); assert(fdisk_is_ask(ask, MENU)); if (key) *key = ask->data.menu.result; return 0; } /** * fdisk_ask_menu_get_item: * @ask: ask menu instance * @idx: wanted menu item index * @key: returns key of the menu item * @name: returns name of the menu item * @desc: returns description of the menu item * * Returns: 0 on success, <0 on error, >0 if idx out-of-range */ int fdisk_ask_menu_get_item(struct fdisk_ask *ask, size_t idx, int *key, const char **name, const char **desc) { size_t i; struct ask_menuitem *mi; assert(ask); assert(fdisk_is_ask(ask, MENU)); for (i = 0, mi = ask->data.menu.first; mi; mi = mi->next, i++) { if (i == idx) break; } if (!mi) return 1; /* no more items */ if (key) *key = mi->key; if (name) *name = mi->name; if (desc) *desc = mi->desc; return 0; } static void fdisk_ask_menu_reset_items(struct fdisk_ask *ask) { struct ask_menuitem *mi; assert(ask); assert(fdisk_is_ask(ask, MENU)); for (mi = ask->data.menu.first; mi; ) { struct ask_menuitem *next = mi->next; free(mi); mi = next; } } /** * fdisk_ask_menu_get_nitems: * @ask: ask instance * * Returns: number of menu items */ size_t fdisk_ask_menu_get_nitems(struct fdisk_ask *ask) { struct ask_menuitem *mi; size_t n; assert(ask); assert(fdisk_is_ask(ask, MENU)); for (n = 0, mi = ask->data.menu.first; mi; mi = mi->next, n++); return n; } int fdisk_ask_menu_add_item(struct fdisk_ask *ask, int key, const char *name, const char *desc) { struct ask_menuitem *mi; assert(ask); assert(fdisk_is_ask(ask, MENU)); mi = calloc(1, sizeof(*mi)); if (!mi) return -ENOMEM; mi->key = key; mi->name = name; mi->desc = desc; if (!ask->data.menu.first) ask->data.menu.first = mi; else { struct ask_menuitem *last = ask->data.menu.first; while (last->next) last = last->next; last->next = mi; } DBG(ASK, ul_debugobj(ask, "new menu item: %c, \"%s\" (%s)\n", mi->key, mi->name, mi->desc)); return 0; } /* * print-like */ #define is_print_ask(a) (fdisk_is_ask(a, WARN) || fdisk_is_ask(a, WARNX) || fdisk_is_ask(a, INFO)) /** * fdisk_ask_print_get_errno: * @ask: ask instance * * Returns: error number for warning/error messages */ int fdisk_ask_print_get_errno(struct fdisk_ask *ask) { assert(ask); assert(is_print_ask(ask)); return ask->data.print.errnum; } int fdisk_ask_print_set_errno(struct fdisk_ask *ask, int errnum) { assert(ask); ask->data.print.errnum = errnum; return 0; } /** * fdisk_ask_print_get_mesg: * @ask: ask instance * * Returns: pointer to message */ const char *fdisk_ask_print_get_mesg(struct fdisk_ask *ask) { assert(ask); assert(is_print_ask(ask)); return ask->data.print.mesg; } /* does not reallocate the message! */ int fdisk_ask_print_set_mesg(struct fdisk_ask *ask, const char *mesg) { assert(ask); ask->data.print.mesg = mesg; return 0; } static int do_vprint(struct fdisk_context *cxt, int errnum, int type, const char *fmt, va_list va) { struct fdisk_ask *ask; int rc; char *mesg; assert(cxt); if (vasprintf(&mesg, fmt, va) < 0) return -ENOMEM; ask = fdisk_new_ask(); if (!ask) { free(mesg); return -ENOMEM; } fdisk_ask_set_type(ask, type); fdisk_ask_print_set_mesg(ask, mesg); if (errnum >= 0) fdisk_ask_print_set_errno(ask, errnum); rc = fdisk_do_ask(cxt, ask); fdisk_unref_ask(ask); free(mesg); return rc; } /** * fdisk_info: * @cxt: context * @fmt: printf-like formatted string * @...: variable parameters * * High-level API to print info messages, * * Returns: 0 on success, <0 on error */ int fdisk_info(struct fdisk_context *cxt, const char *fmt, ...) { int rc; va_list ap; assert(cxt); va_start(ap, fmt); rc = do_vprint(cxt, -1, FDISK_ASKTYPE_INFO, fmt, ap); va_end(ap); return rc; } /** * fdisk_info: * @cxt: context * @fmt: printf-like formatted string * @...: variable parameters * * High-level API to print warning message (errno expected) * * Returns: 0 on success, <0 on error */ int fdisk_warn(struct fdisk_context *cxt, const char *fmt, ...) { int rc; va_list ap; assert(cxt); va_start(ap, fmt); rc = do_vprint(cxt, errno, FDISK_ASKTYPE_WARN, fmt, ap); va_end(ap); return rc; } /** * fdisk_warnx: * @cxt: context * @fmt: printf-like formatted string * @...: variable options * * High-level API to print warning message * * Returns: 0 on success, <0 on error */ int fdisk_warnx(struct fdisk_context *cxt, const char *fmt, ...) { int rc; va_list ap; assert(cxt); va_start(ap, fmt); rc = do_vprint(cxt, -1, FDISK_ASKTYPE_WARNX, fmt, ap); va_end(ap); return rc; } int fdisk_info_new_partition( struct fdisk_context *cxt, int num, fdisk_sector_t start, fdisk_sector_t stop, struct fdisk_parttype *t) { int rc; char *str = size_to_human_string(SIZE_SUFFIX_3LETTER | SIZE_SUFFIX_SPACE, (uint64_t)(stop - start + 1) * cxt->sector_size); rc = fdisk_info(cxt, _("Created a new partition %d of type '%s' and of size %s."), num, t ? t->name : _("Unknown"), str); free(str); return rc; } #ifdef TEST_PROGRAM static int test_ranges(struct fdisk_test *ts, int argc, char *argv[]) { /* 1 - 3, 6, 8, 9, 11 13 */ size_t nums[] = { 1, 1, 1, 0, 0, 1, 0, 1, 1, 0, 1, 0, 1 }; size_t numx[] = { 0, 0, 0 }; char range[BUFSIZ], *ptr = range; size_t i, len = sizeof(range), begin = 0, run = 0; for (i = 0; i < ARRAY_SIZE(nums); i++) { if (!nums[i]) continue; ptr = mk_string_list(ptr, &len, &begin, &run, i, 0); } mk_string_list(ptr, &len, &begin, &run, -1, 0); printf("list: '%s'\n", range); ptr = range; len = sizeof(range), begin = 0, run = 0; for (i = 0; i < ARRAY_SIZE(numx); i++) { if (!numx[i]) continue; ptr = mk_string_list(ptr, &len, &begin, &run, i, 0); } mk_string_list(ptr, &len, &begin, &run, -1, 0); printf("empty list: '%s'\n", range); return 0; } int main(int argc, char *argv[]) { struct fdisk_test tss[] = { { "--ranges", test_ranges, "generates ranges" }, { NULL } }; return fdisk_run_test(tss, argc, argv); } #endif