/* * This file Copyright (C) 2015-2016 Mnemosyne LLC * * It may be used under the GNU GPL versions 2 or 3 * or any future license endorsed by Mnemosyne LLC. * * $Id$ */ #include #include /* strcmp () */ #include #include #define __LIBTRANSMISSION_WATCHDIR_MODULE__ #include "transmission.h" #include "error.h" #include "error-types.h" #include "file.h" #include "log.h" #include "ptrarray.h" #include "utils.h" #include "watchdir.h" #include "watchdir-common.h" /*** **** ***/ #define log_debug(...) (!tr_logLevelIsActive (TR_LOG_DEBUG) ? (void) 0 : \ tr_logAddMessage (__FILE__, __LINE__, TR_LOG_DEBUG, "watchdir", __VA_ARGS__)) #define log_error(...) (!tr_logLevelIsActive (TR_LOG_ERROR) ? (void) 0 : \ tr_logAddMessage (__FILE__, __LINE__, TR_LOG_ERROR, "watchdir", __VA_ARGS__)) /*** **** ***/ struct tr_watchdir { char * path; tr_watchdir_cb callback; void * callback_user_data; struct event_base * event_base; tr_watchdir_backend * backend; tr_ptrArray active_retries; }; /*** **** ***/ static bool is_regular_file (const char * dir, const char * name) { char * const path = tr_buildPath (dir, name, NULL); tr_sys_path_info path_info; tr_error * error = NULL; bool ret; if ((ret = tr_sys_path_get_info (path, 0, &path_info, &error))) { ret = path_info.type == TR_SYS_PATH_IS_FILE; } else { if (!TR_ERROR_IS_ENOENT (error->code)) log_error ("Failed to get type of \"%s\" (%d): %s", path, error->code, error->message); tr_error_free (error); } tr_free (path); return ret; } static const char * watchdir_status_to_string (tr_watchdir_status status) { switch (status) { case TR_WATCHDIR_ACCEPT: return "accept"; case TR_WATCHDIR_IGNORE: return "ignore"; case TR_WATCHDIR_RETRY: return "retry"; default: return "???"; } } static tr_watchdir_status tr_watchdir_process_impl (tr_watchdir_t handle, const char * name) { /* File may be gone while we're retrying */ if (!is_regular_file (tr_watchdir_get_path (handle), name)) return TR_WATCHDIR_IGNORE; const tr_watchdir_status ret = handle->callback (handle, name, handle->callback_user_data); assert (ret == TR_WATCHDIR_ACCEPT || ret == TR_WATCHDIR_IGNORE || ret == TR_WATCHDIR_RETRY); log_debug ("Callback decided to %s file \"%s\"", watchdir_status_to_string (ret), name); return ret; } /*** **** ***/ typedef struct tr_watchdir_retry { tr_watchdir_t handle; char * name; unsigned int counter; struct event * timer; struct timeval interval; } tr_watchdir_retry; /* Non-static and mutable for unit tests */ unsigned int tr_watchdir_retry_limit = 3; struct timeval tr_watchdir_retry_start_interval = { 1, 0 }; struct timeval tr_watchdir_retry_max_interval = { 10, 0 }; #define tr_watchdir_retries_init(r) (void) 0 #define tr_watchdir_retries_destroy(r) tr_ptrArrayDestruct ((r), (PtrArrayForeachFunc) &tr_watchdir_retry_free) #define tr_watchdir_retries_insert(r, v) tr_ptrArrayInsertSorted ((r), (v), &compare_retry_names) #define tr_watchdir_retries_remove(r, v) tr_ptrArrayRemoveSortedPointer ((r), (v), &compare_retry_names) #define tr_watchdir_retries_find(r, v) tr_ptrArrayFindSorted ((r), (v), &compare_retry_names) static int compare_retry_names (const void * a, const void * b) { return strcmp (((tr_watchdir_retry *) a)->name, ((tr_watchdir_retry *) b)->name); } static void tr_watchdir_retry_free (tr_watchdir_retry * retry); static void tr_watchdir_on_retry_timer (evutil_socket_t fd UNUSED, short type UNUSED, void * context) { assert (context != NULL); tr_watchdir_retry * const retry = context; const tr_watchdir_t handle = retry->handle; if (tr_watchdir_process_impl (handle, retry->name) == TR_WATCHDIR_RETRY) { if (++retry->counter < tr_watchdir_retry_limit) { evutil_timeradd (&retry->interval, &retry->interval, &retry->interval); if (evutil_timercmp (&retry->interval, &tr_watchdir_retry_max_interval, >)) retry->interval = tr_watchdir_retry_max_interval; evtimer_del (retry->timer); evtimer_add (retry->timer, &retry->interval); return; } log_error ("Failed to add (corrupted?) torrent file: %s", retry->name); } tr_watchdir_retries_remove (&handle->active_retries, retry); tr_watchdir_retry_free (retry); } static tr_watchdir_retry * tr_watchdir_retry_new (tr_watchdir_t handle, const char * name) { tr_watchdir_retry * retry; retry = tr_new0 (tr_watchdir_retry, 1); retry->handle = handle; retry->name = tr_strdup (name); retry->timer = evtimer_new (handle->event_base, &tr_watchdir_on_retry_timer, retry); retry->interval = tr_watchdir_retry_start_interval; evtimer_add (retry->timer, &retry->interval); return retry; } static void tr_watchdir_retry_free (tr_watchdir_retry * retry) { if (retry == NULL) return; if (retry->timer != NULL) { evtimer_del (retry->timer); event_free (retry->timer); } tr_free (retry->name); tr_free (retry); } static void tr_watchdir_retry_restart (tr_watchdir_retry * retry) { assert (retry != NULL); evtimer_del (retry->timer); retry->counter = 0; retry->interval = tr_watchdir_retry_start_interval; evtimer_add (retry->timer, &retry->interval); } /*** **** ***/ tr_watchdir_t tr_watchdir_new (const char * path, tr_watchdir_cb callback, void * callback_user_data, struct event_base * event_base) { tr_watchdir_t handle; handle = tr_new0 (struct tr_watchdir, 1); handle->path = tr_strdup (path); handle->callback = callback; handle->callback_user_data = callback_user_data; handle->event_base = event_base; tr_watchdir_retries_init (&handle->active_retries); #ifdef WITH_INOTIFY if (handle->backend == NULL) handle->backend = tr_watchdir_inotify_new (handle); #endif #ifdef WITH_KQUEUE if (handle->backend == NULL) handle->backend = tr_watchdir_kqueue_new (handle); #endif #ifdef _WIN32 if (handle->backend == NULL) handle->backend = tr_watchdir_win32_new (handle); #endif if (handle->backend == NULL) handle->backend = tr_watchdir_generic_new (handle); if (handle->backend == NULL) { tr_watchdir_free (handle); handle = NULL; } else { assert (handle->backend->free_func != NULL); } return handle; } void tr_watchdir_free (tr_watchdir_t handle) { if (handle == NULL) return; tr_watchdir_retries_destroy (&handle->active_retries); if (handle->backend != NULL) handle->backend->free_func (handle->backend); tr_free (handle->path); tr_free (handle); } const char * tr_watchdir_get_path (tr_watchdir_t handle) { assert (handle != NULL); return handle->path; } tr_watchdir_backend * tr_watchdir_get_backend (tr_watchdir_t handle) { assert (handle != NULL); return handle->backend; } struct event_base * tr_watchdir_get_event_base (tr_watchdir_t handle) { assert (handle != NULL); return handle->event_base; } /*** **** ***/ void tr_watchdir_process (tr_watchdir_t handle, const char * name) { const tr_watchdir_retry search_key = { .name = (char *) name }; tr_watchdir_retry * existing_retry; assert (handle != NULL); if ((existing_retry = tr_watchdir_retries_find (&handle->active_retries, &search_key)) != NULL) { tr_watchdir_retry_restart (existing_retry); return; } if (tr_watchdir_process_impl (handle, name) == TR_WATCHDIR_RETRY) { tr_watchdir_retry * retry = tr_watchdir_retry_new (handle, name); tr_watchdir_retries_insert (&handle->active_retries, retry); } } void tr_watchdir_scan (tr_watchdir_t handle, tr_ptrArray * dir_entries) { tr_sys_dir_t dir; const char * name; tr_ptrArray new_dir_entries = TR_PTR_ARRAY_INIT_STATIC; const PtrArrayCompareFunc name_compare_func = (PtrArrayCompareFunc) &strcmp; tr_error * error = NULL; if ((dir = tr_sys_dir_open (handle->path, &error)) == TR_BAD_SYS_DIR) { log_error ("Failed to open directory \"%s\" (%d): %s", handle->path, error->code, error->message); tr_error_free (error); return; } while ((name = tr_sys_dir_read_name (dir, &error)) != NULL) { if (strcmp (name, ".") == 0 || strcmp (name, "..") == 0) continue; if (dir_entries != NULL) { tr_ptrArrayInsertSorted (&new_dir_entries, tr_strdup (name), name_compare_func); if (tr_ptrArrayFindSorted (dir_entries, name, name_compare_func) != NULL) continue; } tr_watchdir_process (handle, name); } if (error != NULL) { log_error ("Failed to read directory \"%s\" (%d): %s", handle->path, error->code, error->message); tr_error_free (error); } tr_sys_dir_close (dir, NULL); if (dir_entries != NULL) { tr_ptrArrayDestruct (dir_entries, &tr_free); *dir_entries = new_dir_entries; } }