/* * libudev - interface to udev device information * * Copyright (C) 2008 Kay Sievers * Copyright (C) 2009 Alan Jenkins * * This library is free software; you can redistribute it and/or * modify it under the terms of the GNU Lesser General Public * License as published by the Free Software Foundation; either * version 2.1 of the License, or (at your option) any later version. */ /* * DISCLAIMER - The file format mentioned here is private to udev/libudev, * and may be changed without notice. * * The udev event queue is exported as a binary log file. * Each log record consists of a sequence number followed by the device path. * * When a new event is queued, its details are appended to the log. * When the event finishes, a second record is appended to the log * with the same sequence number but a devpath len of 0. * * Example: * { 0x0000000000000001 } * { 0x0000000000000001, 0x0019, "/devices/virtual/mem/null" }, * { 0x0000000000000002, 0x001b, "/devices/virtual/mem/random" }, * { 0x0000000000000001, 0x0000 }, * { 0x0000000000000003, 0x0019, "/devices/virtual/mem/zero" }, * * Events 2 and 3 are still queued, but event 1 has finished. * * The queue does not grow indefinitely. It is periodically re-created * to remove finished events. Atomic rename() makes this transparent to readers. * * The queue file starts with a single sequence number which specifies the * minimum sequence number in the log that follows. Any events prior to this * sequence number have already finished. */ #include #include #include #include #include #include #include #include #include #include #include "libudev.h" #include "libudev-private.h" static int rebuild_queue_file(struct udev_queue_export *udev_queue_export); struct udev_queue_export { struct udev *udev; int failed_count; /* number of failed events exported */ int queued_count; /* number of unfinished events exported in queue file */ FILE *queue_file; unsigned long long int seqnum_max; /* earliest sequence number in queue file */ unsigned long long int seqnum_min; /* latest sequence number in queue file */ int waste_bytes; /* queue file bytes wasted on finished events */ }; struct udev_queue_export *udev_queue_export_new(struct udev *udev) { struct udev_queue_export *udev_queue_export; unsigned long long int initial_seqnum; if (udev == NULL) return NULL; udev_queue_export = calloc(1, sizeof(struct udev_queue_export)); if (udev_queue_export == NULL) return NULL; udev_queue_export->udev = udev; initial_seqnum = udev_get_kernel_seqnum(udev); udev_queue_export->seqnum_min = initial_seqnum; udev_queue_export->seqnum_max = initial_seqnum; udev_queue_export_cleanup(udev_queue_export); if (rebuild_queue_file(udev_queue_export) != 0) { free(udev_queue_export); return NULL; } return udev_queue_export; } struct udev_queue_export *udev_queue_export_unref(struct udev_queue_export *udev_queue_export) { if (udev_queue_export == NULL) return NULL; if (udev_queue_export->queue_file != NULL) fclose(udev_queue_export->queue_file); free(udev_queue_export); return NULL; } void udev_queue_export_cleanup(struct udev_queue_export *udev_queue_export) { char filename[UTIL_PATH_SIZE]; util_strscpyl(filename, sizeof(filename), udev_get_run_path(udev_queue_export->udev), "/queue.tmp", NULL); unlink(filename); util_strscpyl(filename, sizeof(filename), udev_get_run_path(udev_queue_export->udev), "/queue.bin", NULL); unlink(filename); } static int skip_to(FILE *file, long offset) { long old_offset; /* fseek may drop buffered data, avoid it for small seeks */ old_offset = ftell(file); if (offset > old_offset && offset - old_offset <= BUFSIZ) { size_t skip_bytes = offset - old_offset; char buf[skip_bytes]; if (fread(buf, skip_bytes, 1, file) != skip_bytes) return -1; } return fseek(file, offset, SEEK_SET); } struct queue_devpaths { unsigned int devpaths_first; /* index of first queued event */ unsigned int devpaths_size; long devpaths[]; /* seqnum -> offset of devpath in queue file (or 0) */ }; /* * Returns a table mapping seqnum to devpath file offset for currently queued events. * devpaths[i] represents the event with seqnum = i + udev_queue_export->seqnum_min. */ static struct queue_devpaths *build_index(struct udev_queue_export *udev_queue_export) { struct queue_devpaths *devpaths; unsigned long long int range; long devpath_offset; ssize_t devpath_len; unsigned long long int seqnum; unsigned long long int n; unsigned int i; /* seek to the first event in the file */ rewind(udev_queue_export->queue_file); udev_queue_read_seqnum(udev_queue_export->queue_file, &seqnum); /* allocate the table */ range = udev_queue_export->seqnum_min - udev_queue_export->seqnum_max; if (range - 1 > INT_MAX) { err(udev_queue_export->udev, "queue file overflow\n"); return NULL; } devpaths = calloc(1, sizeof(struct queue_devpaths) + (range + 1) * sizeof(long)); if (devpaths == NULL) return NULL; devpaths->devpaths_size = range + 1; /* read all records and populate the table */ while(1) { if (udev_queue_read_seqnum(udev_queue_export->queue_file, &seqnum) < 0) break; n = seqnum - udev_queue_export->seqnum_max; if (n >= devpaths->devpaths_size) goto read_error; devpath_offset = ftell(udev_queue_export->queue_file); devpath_len = udev_queue_skip_devpath(udev_queue_export->queue_file); if (devpath_len < 0) goto read_error; if (devpath_len > 0) devpaths->devpaths[n] = devpath_offset; else devpaths->devpaths[n] = 0; } /* find first queued event */ for (i = 0; i < devpaths->devpaths_size; i++) { if (devpaths->devpaths[i] != 0) break; } devpaths->devpaths_first = i; return devpaths; read_error: err(udev_queue_export->udev, "queue file corrupted\n"); free(devpaths); return NULL; } static int rebuild_queue_file(struct udev_queue_export *udev_queue_export) { unsigned long long int seqnum; struct queue_devpaths *devpaths = NULL; char filename[UTIL_PATH_SIZE]; char filename_tmp[UTIL_PATH_SIZE]; FILE *new_queue_file = NULL; unsigned int i; /* read old queue file */ if (udev_queue_export->queue_file != NULL) { dbg(udev_queue_export->udev, "compacting queue file, freeing %d bytes\n", udev_queue_export->waste_bytes); devpaths = build_index(udev_queue_export); if (devpaths != NULL) udev_queue_export->seqnum_max += devpaths->devpaths_first; } if (devpaths == NULL) { dbg(udev_queue_export->udev, "creating empty queue file\n"); udev_queue_export->queued_count = 0; udev_queue_export->seqnum_max = udev_queue_export->seqnum_min; } /* create new queue file */ util_strscpyl(filename_tmp, sizeof(filename_tmp), udev_get_run_path(udev_queue_export->udev), "/queue.tmp", NULL); new_queue_file = fopen(filename_tmp, "w+"); if (new_queue_file == NULL) goto error; seqnum = udev_queue_export->seqnum_max; fwrite(&seqnum, 1, sizeof(unsigned long long int), new_queue_file); /* copy unfinished events only to the new file */ if (devpaths != NULL) { for (i = devpaths->devpaths_first; i < devpaths->devpaths_size; i++) { char devpath[UTIL_PATH_SIZE]; int err; unsigned short devpath_len; if (devpaths->devpaths[i] != 0) { skip_to(udev_queue_export->queue_file, devpaths->devpaths[i]); err = udev_queue_read_devpath(udev_queue_export->queue_file, devpath, sizeof(devpath)); devpath_len = err; fwrite(&seqnum, sizeof(unsigned long long int), 1, new_queue_file); fwrite(&devpath_len, sizeof(unsigned short), 1, new_queue_file); fwrite(devpath, 1, devpath_len, new_queue_file); } seqnum++; } free(devpaths); devpaths = NULL; } fflush(new_queue_file); if (ferror(new_queue_file)) goto error; /* rename the new file on top of the old one */ util_strscpyl(filename, sizeof(filename), udev_get_run_path(udev_queue_export->udev), "/queue.bin", NULL); if (rename(filename_tmp, filename) != 0) goto error; if (udev_queue_export->queue_file != NULL) fclose(udev_queue_export->queue_file); udev_queue_export->queue_file = new_queue_file; udev_queue_export->waste_bytes = 0; return 0; error: err(udev_queue_export->udev, "failed to create queue file: %m\n"); udev_queue_export_cleanup(udev_queue_export); if (udev_queue_export->queue_file != NULL) { fclose(udev_queue_export->queue_file); udev_queue_export->queue_file = NULL; } if (new_queue_file != NULL) fclose(new_queue_file); if (devpaths != NULL) free(devpaths); udev_queue_export->queued_count = 0; udev_queue_export->waste_bytes = 0; udev_queue_export->seqnum_max = udev_queue_export->seqnum_min; return -1; } static int write_queue_record(struct udev_queue_export *udev_queue_export, unsigned long long int seqnum, const char *devpath, size_t devpath_len) { unsigned short len; if (udev_queue_export->queue_file == NULL) { dbg(udev_queue_export->udev, "can't record event: queue file not available\n"); return -1; } if (fwrite(&seqnum, sizeof(unsigned long long int), 1, udev_queue_export->queue_file) != 1) goto write_error; len = (devpath_len < USHRT_MAX) ? devpath_len : USHRT_MAX; if (fwrite(&len, sizeof(unsigned short), 1, udev_queue_export->queue_file) != 1) goto write_error; if (fwrite(devpath, 1, len, udev_queue_export->queue_file) != len) goto write_error; /* *must* flush output; caller may fork */ if (fflush(udev_queue_export->queue_file) != 0) goto write_error; return 0; write_error: /* if we failed half way through writing a record to a file, we should not try to write any further records to it. */ err(udev_queue_export->udev, "error writing to queue file: %m\n"); fclose(udev_queue_export->queue_file); udev_queue_export->queue_file = NULL; return -1; } enum device_state { DEVICE_QUEUED, DEVICE_FINISHED, DEVICE_FAILED, }; static inline size_t queue_record_size(size_t devpath_len) { return sizeof(unsigned long long int) + sizeof(unsigned short int) + devpath_len; } static int update_queue(struct udev_queue_export *udev_queue_export, struct udev_device *udev_device, enum device_state state) { unsigned long long int seqnum = udev_device_get_seqnum(udev_device); const char *devpath = NULL; size_t devpath_len = 0; int bytes; int err; if (state == DEVICE_QUEUED) { devpath = udev_device_get_devpath(udev_device); devpath_len = strlen(devpath); } /* recover from an earlier failed rebuild */ if (udev_queue_export->queue_file == NULL) { if (rebuild_queue_file(udev_queue_export) != 0) return -1; } /* when the queue file grows too large, garbage-collect and rebuild it */ bytes = ftell(udev_queue_export->queue_file) + queue_record_size(devpath_len); /* if we're removing the last event from the queue, that's the best time to rebuild it */ if (state != DEVICE_QUEUED && udev_queue_export->queued_count == 1 && bytes > 2048) { /* because we don't need to read the old queue file */ fclose(udev_queue_export->queue_file); udev_queue_export->queue_file = NULL; rebuild_queue_file(udev_queue_export); return 0; } /* try to rebuild the queue files before they grow larger than one page. */ if ((udev_queue_export->waste_bytes > bytes / 2) && bytes > 4096) rebuild_queue_file(udev_queue_export); /* don't record a finished event, if we already dropped the event in a failed rebuild */ if (seqnum < udev_queue_export->seqnum_max) return 0; /* now write to the queue */ if (state == DEVICE_QUEUED) { udev_queue_export->queued_count++; udev_queue_export->seqnum_min = seqnum; } else { udev_queue_export->waste_bytes += queue_record_size(devpath_len) + queue_record_size(0); udev_queue_export->queued_count--; } err = write_queue_record(udev_queue_export, seqnum, devpath, devpath_len); /* try to handle ENOSPC */ if (err != 0 && udev_queue_export->queued_count == 0) { udev_queue_export_cleanup(udev_queue_export); err = rebuild_queue_file(udev_queue_export); } return err; } static void update_failed(struct udev_queue_export *udev_queue_export, struct udev_device *udev_device, enum device_state state) { struct udev *udev = udev_device_get_udev(udev_device); char filename[UTIL_PATH_SIZE]; if (state != DEVICE_FAILED && udev_queue_export->failed_count == 0) return; /* location of failed file */ util_strscpyl(filename, sizeof(filename), udev_get_run_path(udev), "/failed/", udev_device_get_subsystem(udev_device), ":", udev_device_get_sysname(udev_device), NULL); switch (state) { case DEVICE_FAILED: /* record event in the failed directory */ udev_queue_export->failed_count++; util_create_path(udev, filename); symlink(udev_device_get_devpath(udev_device), filename); break; case DEVICE_QUEUED: /* delete failed file */ if (unlink(filename) == 0) { util_delete_path(udev, filename); udev_queue_export->failed_count--; } break; case DEVICE_FINISHED: break; } return; } static int update(struct udev_queue_export *udev_queue_export, struct udev_device *udev_device, enum device_state state) { update_failed(udev_queue_export, udev_device, state); if (update_queue(udev_queue_export, udev_device, state) != 0) return -1; return 0; } int udev_queue_export_device_queued(struct udev_queue_export *udev_queue_export, struct udev_device *udev_device) { return update(udev_queue_export, udev_device, DEVICE_QUEUED); } int udev_queue_export_device_finished(struct udev_queue_export *udev_queue_export, struct udev_device *udev_device) { return update(udev_queue_export, udev_device, DEVICE_FINISHED); } int udev_queue_export_device_failed(struct udev_queue_export *udev_queue_export, struct udev_device *udev_device) { return update(udev_queue_export, udev_device, DEVICE_FAILED); }