/* SPDX-License-Identifier: LGPL-2.1-or-later */ #include #include #include "sd-device.h" #include "alloc-util.h" #include "device-enumerator-private.h" #include "device-filter.h" #include "device-util.h" #include "dirent-util.h" #include "fd-util.h" #include "set.h" #include "sort-util.h" #include "string-util.h" #include "strv.h" typedef enum DeviceEnumerationType { DEVICE_ENUMERATION_TYPE_DEVICES, DEVICE_ENUMERATION_TYPE_SUBSYSTEMS, DEVICE_ENUMERATION_TYPE_ALL, _DEVICE_ENUMERATION_TYPE_MAX, _DEVICE_ENUMERATION_TYPE_INVALID = -EINVAL, } DeviceEnumerationType; struct sd_device_enumerator { unsigned n_ref; DeviceEnumerationType type; Hashmap *devices_by_syspath; sd_device **devices; size_t n_devices, current_device_index; bool scan_uptodate; bool sorted; char **prioritized_subsystems; Set *match_subsystem; Set *nomatch_subsystem; Hashmap *match_sysattr; Hashmap *nomatch_sysattr; Hashmap *match_property; Hashmap *match_property_required; Set *match_sysname; Set *nomatch_sysname; Set *match_tag; Set *match_parent; MatchInitializedType match_initialized; }; _public_ int sd_device_enumerator_new(sd_device_enumerator **ret) { _cleanup_(sd_device_enumerator_unrefp) sd_device_enumerator *enumerator = NULL; assert(ret); enumerator = new(sd_device_enumerator, 1); if (!enumerator) return -ENOMEM; *enumerator = (sd_device_enumerator) { .n_ref = 1, .type = _DEVICE_ENUMERATION_TYPE_INVALID, .match_initialized = MATCH_INITIALIZED_COMPAT, }; *ret = TAKE_PTR(enumerator); return 0; } static void device_unref_many(sd_device **devices, size_t n) { assert(devices || n == 0); for (size_t i = 0; i < n; i++) sd_device_unref(devices[i]); } static void device_enumerator_unref_devices(sd_device_enumerator *enumerator) { assert(enumerator); hashmap_clear_with_destructor(enumerator->devices_by_syspath, sd_device_unref); device_unref_many(enumerator->devices, enumerator->n_devices); enumerator->devices = mfree(enumerator->devices); enumerator->n_devices = 0; } static sd_device_enumerator *device_enumerator_free(sd_device_enumerator *enumerator) { assert(enumerator); device_enumerator_unref_devices(enumerator); hashmap_free(enumerator->devices_by_syspath); strv_free(enumerator->prioritized_subsystems); set_free(enumerator->match_subsystem); set_free(enumerator->nomatch_subsystem); hashmap_free(enumerator->match_sysattr); hashmap_free(enumerator->nomatch_sysattr); hashmap_free(enumerator->match_property); hashmap_free(enumerator->match_property_required); set_free(enumerator->match_sysname); set_free(enumerator->nomatch_sysname); set_free(enumerator->match_tag); set_free(enumerator->match_parent); return mfree(enumerator); } DEFINE_PUBLIC_TRIVIAL_REF_UNREF_FUNC(sd_device_enumerator, sd_device_enumerator, device_enumerator_free); int device_enumerator_add_prioritized_subsystem(sd_device_enumerator *enumerator, const char *subsystem) { int r; assert(enumerator); assert(subsystem); if (strv_contains(enumerator->prioritized_subsystems, subsystem)) return 0; r = strv_extend(&enumerator->prioritized_subsystems, subsystem); if (r < 0) return r; enumerator->scan_uptodate = false; return 1; } _public_ int sd_device_enumerator_add_match_subsystem(sd_device_enumerator *enumerator, const char *subsystem, int match) { Set **set; int r; assert_return(enumerator, -EINVAL); assert_return(subsystem, -EINVAL); if (match) set = &enumerator->match_subsystem; else set = &enumerator->nomatch_subsystem; r = set_put_strdup(set, subsystem); if (r <= 0) return r; enumerator->scan_uptodate = false; return 1; } _public_ int sd_device_enumerator_add_match_sysattr(sd_device_enumerator *enumerator, const char *sysattr, const char *value, int match) { Hashmap **hashmap; int r; assert_return(enumerator, -EINVAL); assert_return(sysattr, -EINVAL); if (match) hashmap = &enumerator->match_sysattr; else hashmap = &enumerator->nomatch_sysattr; r = update_match_strv(hashmap, sysattr, value, /* clear_on_null = */ true); if (r <= 0) return r; enumerator->scan_uptodate = false; return 1; } _public_ int sd_device_enumerator_add_match_property(sd_device_enumerator *enumerator, const char *property, const char *value) { int r; assert_return(enumerator, -EINVAL); assert_return(property, -EINVAL); r = update_match_strv(&enumerator->match_property, property, value, /* clear_on_null = */ false); if (r <= 0) return r; enumerator->scan_uptodate = false; return 1; } _public_ int sd_device_enumerator_add_match_property_required(sd_device_enumerator *enumerator, const char *property, const char *value) { int r; assert_return(enumerator, -EINVAL); assert_return(property, -EINVAL); r = update_match_strv(&enumerator->match_property_required, property, value, /* clear_on_null = */ false); if (r <= 0) return r; enumerator->scan_uptodate = false; return 1; } static int device_enumerator_add_match_sysname(sd_device_enumerator *enumerator, const char *sysname, bool match) { int r; assert_return(enumerator, -EINVAL); assert_return(sysname, -EINVAL); r = set_put_strdup(match ? &enumerator->match_sysname : &enumerator->nomatch_sysname, sysname); if (r <= 0) return r; enumerator->scan_uptodate = false; return 1; } _public_ int sd_device_enumerator_add_match_sysname(sd_device_enumerator *enumerator, const char *sysname) { return device_enumerator_add_match_sysname(enumerator, sysname, true); } _public_ int sd_device_enumerator_add_nomatch_sysname(sd_device_enumerator *enumerator, const char *sysname) { return device_enumerator_add_match_sysname(enumerator, sysname, false); } _public_ int sd_device_enumerator_add_match_tag(sd_device_enumerator *enumerator, const char *tag) { int r; assert_return(enumerator, -EINVAL); assert_return(tag, -EINVAL); r = set_put_strdup(&enumerator->match_tag, tag); if (r <= 0) return r; enumerator->scan_uptodate = false; return 1; } int device_enumerator_add_match_parent_incremental(sd_device_enumerator *enumerator, sd_device *parent) { const char *path; int r; assert(enumerator); assert(parent); r = sd_device_get_syspath(parent, &path); if (r < 0) return r; r = set_put_strdup(&enumerator->match_parent, path); if (r <= 0) return r; enumerator->scan_uptodate = false; return 1; } _public_ int sd_device_enumerator_add_match_parent(sd_device_enumerator *enumerator, sd_device *parent) { assert_return(enumerator, -EINVAL); assert_return(parent, -EINVAL); set_clear(enumerator->match_parent); return device_enumerator_add_match_parent_incremental(enumerator, parent); } _public_ int sd_device_enumerator_allow_uninitialized(sd_device_enumerator *enumerator) { assert_return(enumerator, -EINVAL); enumerator->match_initialized = MATCH_INITIALIZED_ALL; enumerator->scan_uptodate = false; return 1; } int device_enumerator_add_match_is_initialized(sd_device_enumerator *enumerator, MatchInitializedType type) { assert_return(enumerator, -EINVAL); assert_return(type >= 0 && type < _MATCH_INITIALIZED_MAX, -EINVAL); enumerator->match_initialized = type; enumerator->scan_uptodate = false; return 1; } static int sound_device_compare(const char *devpath_a, const char *devpath_b) { const char *sound_a, *sound_b; size_t prefix_len; assert(devpath_a); assert(devpath_b); /* For sound cards the control device must be enumerated last to make sure it's the final * device node that gets ACLs applied. Applications rely on this fact and use ACL changes on * the control node as an indicator that the ACL change of the entire sound card completed. The * kernel makes this guarantee when creating those devices, and hence we should too when * enumerating them. */ sound_a = strstrafter(devpath_a, "/sound/card"); if (!sound_a) return 0; sound_a = strchr(devpath_a, '/'); if (!sound_a) return 0; prefix_len = sound_a - devpath_a; if (!strneq(devpath_a, devpath_b, prefix_len)) return 0; sound_b = devpath_b + prefix_len; return CMP(!!startswith(sound_a, "/controlC"), !!startswith(sound_b, "/controlC")); } static bool devpath_is_late_block(const char *devpath) { assert(devpath); return strstr(devpath, "/block/md") || strstr(devpath, "/block/dm-"); } static int device_compare(sd_device * const *a, sd_device * const *b) { const char *devpath_a, *devpath_b; int r; assert(a); assert(b); assert(*a); assert(*b); assert_se(sd_device_get_devpath(*(sd_device**) a, &devpath_a) >= 0); assert_se(sd_device_get_devpath(*(sd_device**) b, &devpath_b) >= 0); r = sound_device_compare(devpath_a, devpath_b); if (r != 0) return r; /* md and dm devices are enumerated after all other devices */ r = CMP(devpath_is_late_block(devpath_a), devpath_is_late_block(devpath_b)); if (r != 0) return r; return path_compare(devpath_a, devpath_b); } static int enumerator_sort_devices(sd_device_enumerator *enumerator) { size_t n_sorted = 0, n = 0; sd_device **devices; sd_device *device; int r; assert(enumerator); if (enumerator->sorted) return 0; devices = new(sd_device*, hashmap_size(enumerator->devices_by_syspath)); if (!devices) return -ENOMEM; STRV_FOREACH(prioritized_subsystem, enumerator->prioritized_subsystems) { for (;;) { const char *syspath; size_t m = n; HASHMAP_FOREACH_KEY(device, syspath, enumerator->devices_by_syspath) { _cleanup_free_ char *p = NULL; if (!device_in_subsystem(device, *prioritized_subsystem)) continue; devices[n++] = sd_device_ref(device); for (;;) { _cleanup_free_ char *q = NULL; r = path_extract_directory(p ?: syspath, &q); if (r == -EADDRNOTAVAIL) break; if (r < 0) goto failed; device = hashmap_get(enumerator->devices_by_syspath, q); if (device) devices[n++] = sd_device_ref(device); free_and_replace(p, q); } break; } /* We cannot remove multiple entries in the loop HASHMAP_FOREACH_KEY() above. */ for (size_t i = m; i < n; i++) { r = sd_device_get_syspath(devices[i], &syspath); if (r < 0) goto failed; assert_se(hashmap_remove(enumerator->devices_by_syspath, syspath) == devices[i]); sd_device_unref(devices[i]); } if (m == n) break; } typesafe_qsort(devices + n_sorted, n - n_sorted, device_compare); n_sorted = n; } HASHMAP_FOREACH(device, enumerator->devices_by_syspath) devices[n++] = sd_device_ref(device); /* Move all devices back to the hashmap. Otherwise, devices added by * udev_enumerate_add_syspath() -> device_enumerator_add_device() may not be listed. */ for (size_t i = 0; i < n_sorted; i++) { const char *syspath; r = sd_device_get_syspath(devices[i], &syspath); if (r < 0) goto failed; r = hashmap_put(enumerator->devices_by_syspath, syspath, devices[i]); if (r < 0) goto failed; assert(r > 0); sd_device_ref(devices[i]); } typesafe_qsort(devices + n_sorted, n - n_sorted, device_compare); device_unref_many(enumerator->devices, enumerator->n_devices); enumerator->n_devices = n; free_and_replace(enumerator->devices, devices); enumerator->sorted = true; return 0; failed: device_unref_many(devices, n); free(devices); return r; } int device_enumerator_add_device(sd_device_enumerator *enumerator, sd_device *device) { const char *syspath; int r; assert_return(enumerator, -EINVAL); assert_return(device, -EINVAL); r = sd_device_get_syspath(device, &syspath); if (r < 0) return r; r = hashmap_ensure_put(&enumerator->devices_by_syspath, &string_hash_ops, syspath, device); if (IN_SET(r, -EEXIST, 0)) return 0; if (r < 0) return r; sd_device_ref(device); enumerator->sorted = false; return 1; } static bool match_property(Hashmap *properties, sd_device *device, bool match_all) { const char *property_pattern; char * const *value_patterns; assert(device); /* Unlike device_match_sysattr(), this accepts device that has at least one matching property. */ if (hashmap_isempty(properties)) return true; HASHMAP_FOREACH_KEY(value_patterns, property_pattern, properties) { bool match = false; FOREACH_DEVICE_PROPERTY(device, property, value) { if (fnmatch(property_pattern, property, 0) != 0) continue; match = strv_fnmatch(value_patterns, value); if (match) { if (!match_all) return true; break; } } if (!match && match_all) return false; } return match_all; } static bool match_tag(sd_device_enumerator *enumerator, sd_device *device) { const char *tag; assert(enumerator); assert(device); SET_FOREACH(tag, enumerator->match_tag) if (!sd_device_has_tag(device, tag)) return false; return true; } static bool match_sysname(sd_device_enumerator *enumerator, const char *sysname) { assert(enumerator); assert(sysname); return set_fnmatch(enumerator->match_sysname, enumerator->nomatch_sysname, sysname); } static int match_initialized(sd_device_enumerator *enumerator, sd_device *device) { int r; assert(enumerator); assert(device); if (enumerator->match_initialized == MATCH_INITIALIZED_ALL) return true; r = sd_device_get_is_initialized(device); if (r == -ENOENT) /* this is necessarily racey, so ignore missing devices */ return false; if (r < 0) return r; if (enumerator->match_initialized == MATCH_INITIALIZED_COMPAT) { /* only devices that have no devnode/ifindex or have a db entry are accepted. */ if (r > 0) return true; if (sd_device_get_devnum(device, NULL) >= 0) return false; if (sd_device_get_ifindex(device, NULL) >= 0) return false; return true; } return (enumerator->match_initialized == MATCH_INITIALIZED_NO) == (r == 0); } static bool match_subsystem(sd_device_enumerator *enumerator, const char *subsystem) { assert(enumerator); if (!subsystem) return false; return set_fnmatch(enumerator->match_subsystem, enumerator->nomatch_subsystem, subsystem); } typedef enum MatchFlag { MATCH_SYSNAME = 1u << 0, MATCH_SUBSYSTEM = 1u << 1, MATCH_PARENT = 1u << 2, MATCH_TAG = 1u << 3, MATCH_ALL = (1u << 4) - 1, } MatchFlag; static int test_matches( sd_device_enumerator *enumerator, sd_device *device, MatchFlag flags) { int r; assert(enumerator); assert(device); if (FLAGS_SET(flags, MATCH_SYSNAME)) { const char *sysname; r = sd_device_get_sysname(device, &sysname); if (r < 0) return r; if (!match_sysname(enumerator, sysname)) return false; } if (FLAGS_SET(flags, MATCH_SUBSYSTEM)) { const char *subsystem; r = sd_device_get_subsystem(device, &subsystem); if (r == -ENOENT) return false; if (r < 0) return r; if (!match_subsystem(enumerator, subsystem)) return false; } if (FLAGS_SET(flags, MATCH_PARENT) && !device_match_parent(device, enumerator->match_parent, NULL)) return false; if (FLAGS_SET(flags, MATCH_TAG) && !match_tag(enumerator, device)) return false; r = match_initialized(enumerator, device); if (r <= 0) return r; if (!match_property(enumerator->match_property, device, /* match_all = */ false)) return false; if (!match_property(enumerator->match_property_required, device, /* match_all = */ true)) return false; if (!device_match_sysattr(device, enumerator->match_sysattr, enumerator->nomatch_sysattr)) return false; return true; } static int enumerator_add_parent_devices( sd_device_enumerator *enumerator, sd_device *device, MatchFlag flags) { int r; assert(enumerator); assert(device); for (;;) { r = sd_device_get_parent(device, &device); if (r == -ENOENT) /* Reached the top? */ return 0; if (r < 0) return r; r = test_matches(enumerator, device, flags); if (r < 0) return r; if (r == 0) continue; r = device_enumerator_add_device(enumerator, device); if (r <= 0) /* r == 0 means the device already exists, then no need to go further up. */ return r; } } int device_enumerator_add_parent_devices(sd_device_enumerator *enumerator, sd_device *device) { return enumerator_add_parent_devices(enumerator, device, MATCH_ALL & (~MATCH_PARENT)); } static bool relevant_sysfs_subdir(const struct dirent *de) { assert(de); if (de->d_name[0] == '.') return false; /* Also filter out regular files and such, i.e. stuff that definitely isn't a kobject path. (Note * that we rely on the fact that sysfs fills in d_type here, i.e. doesn't do DT_UNKNOWN) */ return IN_SET(de->d_type, DT_DIR, DT_LNK); } static int enumerator_scan_dir_and_add_devices( sd_device_enumerator *enumerator, const char *basedir, const char *subdir1, const char *subdir2) { _cleanup_closedir_ DIR *dir = NULL; char *path; int k, r = 0; assert(enumerator); assert(basedir); path = strjoina("/sys/", basedir, "/"); if (subdir1) path = strjoina(path, subdir1, "/"); if (subdir2) path = strjoina(path, subdir2, "/"); dir = opendir(path); if (!dir) { bool ignore = errno == ENOENT; /* this is necessarily racey, so ignore missing directories */ log_debug_errno(errno, "sd-device-enumerator: Failed to open directory %s%s: %m", path, ignore ? ", ignoring" : ""); return ignore ? 0 : -errno; } FOREACH_DIRENT_ALL(de, dir, return -errno) { _cleanup_(sd_device_unrefp) sd_device *device = NULL; char syspath[strlen(path) + 1 + strlen(de->d_name) + 1]; if (!relevant_sysfs_subdir(de)) continue; if (!match_sysname(enumerator, de->d_name)) continue; (void) sprintf(syspath, "%s%s", path, de->d_name); k = sd_device_new_from_syspath(&device, syspath); if (k < 0) { if (k != -ENODEV) /* this is necessarily racey, so ignore missing devices */ r = k; continue; } k = test_matches(enumerator, device, MATCH_ALL & (~MATCH_SYSNAME)); /* sysname is already tested. */ if (k <= 0) { if (k < 0) r = k; continue; } k = device_enumerator_add_device(enumerator, device); if (k < 0) r = k; /* Also include all potentially matching parent devices in the enumeration. These are things * like root busses — e.g. /sys/devices/pci0000:00/ or /sys/devices/pnp0/, which ar not * linked from /sys/class/ or /sys/bus/, hence pick them up explicitly here. */ k = enumerator_add_parent_devices(enumerator, device, MATCH_ALL); if (k < 0) r = k; } return r; } static int enumerator_scan_dir( sd_device_enumerator *enumerator, const char *basedir, const char *subdir, const char *subsystem) { _cleanup_closedir_ DIR *dir = NULL; char *path; int r = 0; path = strjoina("/sys/", basedir); dir = opendir(path); if (!dir) { bool ignore = errno == ENOENT; log_debug_errno(errno, "sd-device-enumerator: Failed to open directory %s%s: %m", path, ignore ? ", ignoring" : ""); return ignore ? 0 : -errno; } FOREACH_DIRENT_ALL(de, dir, return -errno) { int k; if (!relevant_sysfs_subdir(de)) continue; if (!match_subsystem(enumerator, subsystem ?: de->d_name)) continue; k = enumerator_scan_dir_and_add_devices(enumerator, basedir, de->d_name, subdir); if (k < 0) r = k; } return r; } static int enumerator_scan_devices_tag(sd_device_enumerator *enumerator, const char *tag) { _cleanup_closedir_ DIR *dir = NULL; char *path; int r = 0; assert(enumerator); assert(tag); path = strjoina("/run/udev/tags/", tag); dir = opendir(path); if (!dir) { bool ignore = errno == ENOENT; log_debug_errno(errno, "sd-device-enumerator: Failed to open directory %s%s: %m", path, ignore ? ", ignoring" : ""); return ignore ? 0 : -errno; } /* TODO: filter away subsystems? */ FOREACH_DIRENT_ALL(de, dir, return -errno) { _cleanup_(sd_device_unrefp) sd_device *device = NULL; int k; if (de->d_name[0] == '.') continue; k = sd_device_new_from_device_id(&device, de->d_name); if (k < 0) { if (k != -ENODEV) /* this is necessarily racy, so ignore missing devices */ r = k; continue; } /* Generated from tag, hence not necessary to check tag again. */ k = test_matches(enumerator, device, MATCH_ALL & (~MATCH_TAG)); if (k < 0) r = k; if (k <= 0) continue; k = device_enumerator_add_device(enumerator, device); if (k < 0) { r = k; continue; } } return r; } static int enumerator_scan_devices_tags(sd_device_enumerator *enumerator) { const char *tag; int r = 0; assert(enumerator); SET_FOREACH(tag, enumerator->match_tag) { int k; k = enumerator_scan_devices_tag(enumerator, tag); if (k < 0) r = k; } return r; } static int parent_add_child(sd_device_enumerator *enumerator, const char *path, MatchFlag flags) { _cleanup_(sd_device_unrefp) sd_device *device = NULL; int r; r = sd_device_new_from_syspath(&device, path); if (r == -ENODEV) /* this is necessarily racy, so ignore missing devices */ return 0; else if (r < 0) return r; r = test_matches(enumerator, device, flags); if (r <= 0) return r; return device_enumerator_add_device(enumerator, device); } static int parent_crawl_children(sd_device_enumerator *enumerator, const char *path, Set **stack) { _cleanup_closedir_ DIR *dir = NULL; int r = 0; assert(enumerator); assert(path); assert(stack); dir = opendir(path); if (!dir) { bool ignore = errno == ENOENT; log_debug_errno(errno, "sd-device-enumerator: Failed to open directory %s%s: %m", path, ignore ? ", ignoring" : ""); return ignore ? 0 : -errno; } FOREACH_DIRENT_ALL(de, dir, return -errno) { _cleanup_free_ char *child = NULL; int k; if (de->d_name[0] == '.') continue; if (de->d_type != DT_DIR) continue; child = path_join(path, de->d_name); if (!child) return -ENOMEM; /* Let's check sysname filter earlier. The other tests require the sd-device object created * from the path, thus much costly. */ if (match_sysname(enumerator, de->d_name)) { k = parent_add_child(enumerator, child, MATCH_ALL & (~(MATCH_SYSNAME|MATCH_PARENT))); if (k < 0) r = k; } k = set_ensure_consume(stack, &path_hash_ops_free, TAKE_PTR(child)); if (k < 0) r = k; } return r; } static int enumerator_scan_devices_children(sd_device_enumerator *enumerator) { _cleanup_set_free_ Set *stack = NULL; const char *path; int r = 0, k; assert(enumerator); SET_FOREACH(path, enumerator->match_parent) { k = parent_add_child(enumerator, path, MATCH_ALL & (~MATCH_PARENT)); if (k < 0) r = k; k = parent_crawl_children(enumerator, path, &stack); if (k < 0) r = k; } for (;;) { _cleanup_free_ char *p = NULL; p = set_steal_first(stack); if (!p) return r; k = parent_crawl_children(enumerator, p, &stack); if (k < 0) r = k; } } static int enumerator_scan_devices_all(sd_device_enumerator *enumerator) { int k, r = 0; k = enumerator_scan_dir(enumerator, "bus", "devices", NULL); if (k < 0) r = log_debug_errno(k, "sd-device-enumerator: Failed to scan /sys/bus: %m"); k = enumerator_scan_dir(enumerator, "class", NULL, NULL); if (k < 0) r = log_debug_errno(k, "sd-device-enumerator: Failed to scan /sys/class: %m"); return r; } int device_enumerator_scan_devices(sd_device_enumerator *enumerator) { int r = 0, k; assert(enumerator); if (enumerator->scan_uptodate && enumerator->type == DEVICE_ENUMERATION_TYPE_DEVICES) return 0; device_enumerator_unref_devices(enumerator); if (!set_isempty(enumerator->match_tag)) { k = enumerator_scan_devices_tags(enumerator); if (k < 0) r = k; } else if (enumerator->match_parent) { k = enumerator_scan_devices_children(enumerator); if (k < 0) r = k; } else { k = enumerator_scan_devices_all(enumerator); if (k < 0) r = k; } enumerator->scan_uptodate = true; enumerator->type = DEVICE_ENUMERATION_TYPE_DEVICES; return r; } _public_ sd_device *sd_device_enumerator_get_device_first(sd_device_enumerator *enumerator) { assert_return(enumerator, NULL); if (device_enumerator_scan_devices(enumerator) < 0) return NULL; if (enumerator_sort_devices(enumerator) < 0) return NULL; enumerator->current_device_index = 0; if (enumerator->n_devices == 0) return NULL; return enumerator->devices[0]; } _public_ sd_device *sd_device_enumerator_get_device_next(sd_device_enumerator *enumerator) { assert_return(enumerator, NULL); if (!enumerator->scan_uptodate || !enumerator->sorted || enumerator->type != DEVICE_ENUMERATION_TYPE_DEVICES || enumerator->current_device_index + 1 >= enumerator->n_devices) return NULL; return enumerator->devices[++enumerator->current_device_index]; } int device_enumerator_scan_subsystems(sd_device_enumerator *enumerator) { int r = 0, k; assert(enumerator); if (enumerator->scan_uptodate && enumerator->type == DEVICE_ENUMERATION_TYPE_SUBSYSTEMS) return 0; device_enumerator_unref_devices(enumerator); /* modules */ if (match_subsystem(enumerator, "module")) { k = enumerator_scan_dir_and_add_devices(enumerator, "module", NULL, NULL); if (k < 0) r = log_debug_errno(k, "sd-device-enumerator: Failed to scan modules: %m"); } /* subsystems (only buses support coldplug) */ if (match_subsystem(enumerator, "subsystem")) { k = enumerator_scan_dir_and_add_devices(enumerator, "bus", NULL, NULL); if (k < 0) r = log_debug_errno(k, "sd-device-enumerator: Failed to scan subsystems: %m"); } /* subsystem drivers */ if (match_subsystem(enumerator, "drivers")) { k = enumerator_scan_dir(enumerator, "bus", "drivers", "drivers"); if (k < 0) r = log_debug_errno(k, "sd-device-enumerator: Failed to scan drivers: %m"); } enumerator->scan_uptodate = true; enumerator->type = DEVICE_ENUMERATION_TYPE_SUBSYSTEMS; return r; } _public_ sd_device *sd_device_enumerator_get_subsystem_first(sd_device_enumerator *enumerator) { assert_return(enumerator, NULL); if (device_enumerator_scan_subsystems(enumerator) < 0) return NULL; if (enumerator_sort_devices(enumerator) < 0) return NULL; enumerator->current_device_index = 0; if (enumerator->n_devices == 0) return NULL; return enumerator->devices[0]; } _public_ sd_device *sd_device_enumerator_get_subsystem_next(sd_device_enumerator *enumerator) { assert_return(enumerator, NULL); if (!enumerator->scan_uptodate || !enumerator->sorted || enumerator->type != DEVICE_ENUMERATION_TYPE_SUBSYSTEMS || enumerator->current_device_index + 1 >= enumerator->n_devices) return NULL; return enumerator->devices[++enumerator->current_device_index]; } int device_enumerator_scan_devices_and_subsystems(sd_device_enumerator *enumerator) { int r; assert(enumerator); if (enumerator->scan_uptodate && enumerator->type == DEVICE_ENUMERATION_TYPE_ALL) return 0; device_enumerator_unref_devices(enumerator); if (!set_isempty(enumerator->match_tag)) r = enumerator_scan_devices_tags(enumerator); else if (enumerator->match_parent) r = enumerator_scan_devices_children(enumerator); else { int k; r = enumerator_scan_devices_all(enumerator); if (match_subsystem(enumerator, "module")) { k = enumerator_scan_dir_and_add_devices(enumerator, "module", NULL, NULL); if (k < 0) r = log_debug_errno(k, "sd-device-enumerator: Failed to scan modules: %m"); } if (match_subsystem(enumerator, "subsystem")) { k = enumerator_scan_dir_and_add_devices(enumerator, "bus", NULL, NULL); if (k < 0) r = log_debug_errno(k, "sd-device-enumerator: Failed to scan subsystems: %m"); } if (match_subsystem(enumerator, "drivers")) { k = enumerator_scan_dir(enumerator, "bus", "drivers", "drivers"); if (k < 0) r = log_debug_errno(k, "sd-device-enumerator: Failed to scan drivers: %m"); } } enumerator->scan_uptodate = true; enumerator->type = DEVICE_ENUMERATION_TYPE_ALL; return r; } sd_device *device_enumerator_get_first(sd_device_enumerator *enumerator) { assert_return(enumerator, NULL); if (!enumerator->scan_uptodate) return NULL; if (enumerator_sort_devices(enumerator) < 0) return NULL; enumerator->current_device_index = 0; if (enumerator->n_devices == 0) return NULL; return enumerator->devices[0]; } sd_device *device_enumerator_get_next(sd_device_enumerator *enumerator) { assert_return(enumerator, NULL); if (!enumerator->scan_uptodate || !enumerator->sorted || enumerator->current_device_index + 1 >= enumerator->n_devices) return NULL; return enumerator->devices[++enumerator->current_device_index]; } sd_device **device_enumerator_get_devices(sd_device_enumerator *enumerator, size_t *ret_n_devices) { assert(enumerator); assert(ret_n_devices); if (!enumerator->scan_uptodate) return NULL; if (enumerator_sort_devices(enumerator) < 0) return NULL; *ret_n_devices = enumerator->n_devices; return enumerator->devices; }