diff options
Diffstat (limited to 'compat/fsmonitor/fsm-listen-win32.c')
-rw-r--r-- | compat/fsmonitor/fsm-listen-win32.c | 874 |
1 files changed, 874 insertions, 0 deletions
diff --git a/compat/fsmonitor/fsm-listen-win32.c b/compat/fsmonitor/fsm-listen-win32.c new file mode 100644 index 0000000..03df8d9 --- /dev/null +++ b/compat/fsmonitor/fsm-listen-win32.c @@ -0,0 +1,874 @@ +#include "cache.h" +#include "config.h" +#include "fsmonitor.h" +#include "fsm-listen.h" +#include "fsmonitor--daemon.h" + +/* + * The documentation of ReadDirectoryChangesW() states that the maximum + * buffer size is 64K when the monitored directory is remote. + * + * Larger buffers may be used when the monitored directory is local and + * will help us receive events faster from the kernel and avoid dropped + * events. + * + * So we try to use a very large buffer and silently fallback to 64K if + * we get an error. + */ +#define MAX_RDCW_BUF_FALLBACK (65536) +#define MAX_RDCW_BUF (65536 * 8) + +struct one_watch +{ + char buffer[MAX_RDCW_BUF]; + DWORD buf_len; + DWORD count; + + struct strbuf path; + wchar_t wpath_longname[MAX_PATH + 1]; + DWORD wpath_longname_len; + + HANDLE hDir; + HANDLE hEvent; + OVERLAPPED overlapped; + + /* + * Is there an active ReadDirectoryChangesW() call pending. If so, we + * need to later call GetOverlappedResult() and possibly CancelIoEx(). + */ + BOOL is_active; + + /* + * Are shortnames enabled on the containing drive? This is + * always true for "C:/" drives and usually never true for + * other drives. + * + * We only set this for the worktree because we only need to + * convert shortname paths to longname paths for items we send + * to clients. (We don't care about shortname expansion for + * paths inside a GITDIR because we never send them to + * clients.) + */ + BOOL has_shortnames; + BOOL has_tilde; + wchar_t dotgit_shortname[16]; /* for 8.3 name */ +}; + +struct fsm_listen_data +{ + struct one_watch *watch_worktree; + struct one_watch *watch_gitdir; + + HANDLE hEventShutdown; + + HANDLE hListener[3]; /* we don't own these handles */ +#define LISTENER_SHUTDOWN 0 +#define LISTENER_HAVE_DATA_WORKTREE 1 +#define LISTENER_HAVE_DATA_GITDIR 2 + int nr_listener_handles; +}; + +/* + * Convert the WCHAR path from the event into UTF8 and normalize it. + * + * `wpath_len` is in WCHARS not bytes. + */ +static int normalize_path_in_utf8(wchar_t *wpath, DWORD wpath_len, + struct strbuf *normalized_path) +{ + int reserve; + int len = 0; + + strbuf_reset(normalized_path); + if (!wpath_len) + goto normalize; + + /* + * Pre-reserve enough space in the UTF8 buffer for + * each Unicode WCHAR character to be mapped into a + * sequence of 2 UTF8 characters. That should let us + * avoid ERROR_INSUFFICIENT_BUFFER 99.9+% of the time. + */ + reserve = 2 * wpath_len + 1; + strbuf_grow(normalized_path, reserve); + + for (;;) { + len = WideCharToMultiByte(CP_UTF8, 0, + wpath, wpath_len, + normalized_path->buf, + strbuf_avail(normalized_path) - 1, + NULL, NULL); + if (len > 0) + goto normalize; + if (GetLastError() != ERROR_INSUFFICIENT_BUFFER) { + error(_("[GLE %ld] could not convert path to UTF-8: '%.*ls'"), + GetLastError(), (int)wpath_len, wpath); + return -1; + } + + strbuf_grow(normalized_path, + strbuf_avail(normalized_path) + reserve); + } + +normalize: + strbuf_setlen(normalized_path, len); + return strbuf_normalize_path(normalized_path); +} + +/* + * See if the worktree root directory has shortnames enabled. + * This will help us decide if we need to do an expensive shortname + * to longname conversion on every notification event. + * + * We do not want to create a file to test this, so we assume that the + * root directory contains a ".git" file or directory. (Our caller + * only calls us for the worktree root, so this should be fine.) + * + * Remember the spelling of the shortname for ".git" if it exists. + */ +static void check_for_shortnames(struct one_watch *watch) +{ + wchar_t buf_in[MAX_PATH + 1]; + wchar_t buf_out[MAX_PATH + 1]; + wchar_t *last; + wchar_t *p; + + /* build L"<wt-root-path>/.git" */ + swprintf(buf_in, ARRAY_SIZE(buf_in) - 1, L"%ls.git", + watch->wpath_longname); + + if (!GetShortPathNameW(buf_in, buf_out, ARRAY_SIZE(buf_out))) + return; + + /* + * Get the final filename component of the shortpath. + * We know that the path does not have a final slash. + */ + for (last = p = buf_out; *p; p++) + if (*p == L'/' || *p == '\\') + last = p + 1; + + if (!wcscmp(last, L".git")) + return; + + watch->has_shortnames = 1; + wcsncpy(watch->dotgit_shortname, last, + ARRAY_SIZE(watch->dotgit_shortname)); + + /* + * The shortname for ".git" is usually of the form "GIT~1", so + * we should be able to avoid shortname to longname mapping on + * every notification event if the source string does not + * contain a "~". + * + * However, the documentation for GetLongPathNameW() says + * that there are filesystems that don't follow that pattern + * and warns against this optimization. + * + * Lets test this. + */ + if (wcschr(watch->dotgit_shortname, L'~')) + watch->has_tilde = 1; +} + +enum get_relative_result { + GRR_NO_CONVERSION_NEEDED, + GRR_HAVE_CONVERSION, + GRR_SHUTDOWN, +}; + +/* + * Info notification paths are relative to the root of the watch. + * If our CWD is still at the root, then we can use relative paths + * to convert from shortnames to longnames. If our process has a + * different CWD, then we need to construct an absolute path, do + * the conversion, and then return the root-relative portion. + * + * We use the longname form of the root as our basis and assume that + * it already has a trailing slash. + * + * `wpath_len` is in WCHARS not bytes. + */ +static enum get_relative_result get_relative_longname( + struct one_watch *watch, + const wchar_t *wpath, DWORD wpath_len, + wchar_t *wpath_longname, size_t bufsize_wpath_longname) +{ + wchar_t buf_in[2 * MAX_PATH + 1]; + wchar_t buf_out[MAX_PATH + 1]; + DWORD root_len; + DWORD out_len; + + /* + * Build L"<wt-root-path>/<event-rel-path>" + * Note that the <event-rel-path> might not be null terminated + * so we avoid swprintf() constructions. + */ + root_len = watch->wpath_longname_len; + if (root_len + wpath_len >= ARRAY_SIZE(buf_in)) { + /* + * This should not happen. We cannot append the observed + * relative path onto the end of the worktree root path + * without overflowing the buffer. Just give up. + */ + return GRR_SHUTDOWN; + } + wcsncpy(buf_in, watch->wpath_longname, root_len); + wcsncpy(buf_in + root_len, wpath, wpath_len); + buf_in[root_len + wpath_len] = 0; + + /* + * We don't actually know if the source pathname is a + * shortname or a longname. This Windows routine allows + * either to be given as input. + */ + out_len = GetLongPathNameW(buf_in, buf_out, ARRAY_SIZE(buf_out)); + if (!out_len) { + /* + * The shortname to longname conversion can fail for + * various reasons, for example if the file has been + * deleted. (That is, if we just received a + * delete-file notification event and the file is + * already gone, we can't ask the file system to + * lookup the longname for it. Likewise, for moves + * and renames where we are given the old name.) + * + * Since deleting or moving a file or directory by its + * shortname is rather obscure, I'm going ignore the + * failure and ask the caller to report the original + * relative path. This seems kinder than failing here + * and forcing a resync. Besides, forcing a resync on + * every file/directory delete would effectively + * cripple monitoring. + * + * We might revisit this in the future. + */ + return GRR_NO_CONVERSION_NEEDED; + } + + if (!wcscmp(buf_in, buf_out)) { + /* + * The path does not have a shortname alias. + */ + return GRR_NO_CONVERSION_NEEDED; + } + + if (wcsncmp(buf_in, buf_out, root_len)) { + /* + * The spelling of the root directory portion of the computed + * longname has changed. This should not happen. Basically, + * it means that we don't know where (without recomputing the + * longname of just the root directory) to split out the + * relative path. Since this should not happen, I'm just + * going to let this fail and force a shutdown (because all + * subsequent events are probably going to see the same + * mismatch). + */ + return GRR_SHUTDOWN; + } + + if (out_len - root_len >= bufsize_wpath_longname) { + /* + * This should not happen. We cannot copy the root-relative + * portion of the path into the provided buffer without an + * overrun. Just give up. + */ + return GRR_SHUTDOWN; + } + + /* Return the worktree root-relative portion of the longname. */ + + wcscpy(wpath_longname, buf_out + root_len); + return GRR_HAVE_CONVERSION; +} + +void fsm_listen__stop_async(struct fsmonitor_daemon_state *state) +{ + SetEvent(state->listen_data->hListener[LISTENER_SHUTDOWN]); +} + +static struct one_watch *create_watch(struct fsmonitor_daemon_state *state, + const char *path) +{ + struct one_watch *watch = NULL; + DWORD desired_access = FILE_LIST_DIRECTORY; + DWORD share_mode = + FILE_SHARE_WRITE | FILE_SHARE_READ | FILE_SHARE_DELETE; + HANDLE hDir; + DWORD len_longname; + wchar_t wpath[MAX_PATH + 1]; + wchar_t wpath_longname[MAX_PATH + 1]; + + if (xutftowcs_path(wpath, path) < 0) { + error(_("could not convert to wide characters: '%s'"), path); + return NULL; + } + + hDir = CreateFileW(wpath, + desired_access, share_mode, NULL, OPEN_EXISTING, + FILE_FLAG_BACKUP_SEMANTICS | FILE_FLAG_OVERLAPPED, + NULL); + if (hDir == INVALID_HANDLE_VALUE) { + error(_("[GLE %ld] could not watch '%s'"), + GetLastError(), path); + return NULL; + } + + len_longname = GetLongPathNameW(wpath, wpath_longname, + ARRAY_SIZE(wpath_longname)); + if (!len_longname) { + error(_("[GLE %ld] could not get longname of '%s'"), + GetLastError(), path); + CloseHandle(hDir); + return NULL; + } + + if (wpath_longname[len_longname - 1] != L'/' && + wpath_longname[len_longname - 1] != L'\\') { + wpath_longname[len_longname++] = L'/'; + wpath_longname[len_longname] = 0; + } + + CALLOC_ARRAY(watch, 1); + + watch->buf_len = sizeof(watch->buffer); /* assume full MAX_RDCW_BUF */ + + strbuf_init(&watch->path, 0); + strbuf_addstr(&watch->path, path); + + wcscpy(watch->wpath_longname, wpath_longname); + watch->wpath_longname_len = len_longname; + + watch->hDir = hDir; + watch->hEvent = CreateEvent(NULL, TRUE, FALSE, NULL); + + return watch; +} + +static void destroy_watch(struct one_watch *watch) +{ + if (!watch) + return; + + strbuf_release(&watch->path); + if (watch->hDir != INVALID_HANDLE_VALUE) + CloseHandle(watch->hDir); + if (watch->hEvent != INVALID_HANDLE_VALUE) + CloseHandle(watch->hEvent); + + free(watch); +} + +static int start_rdcw_watch(struct fsm_listen_data *data, + struct one_watch *watch) +{ + DWORD dwNotifyFilter = + FILE_NOTIFY_CHANGE_FILE_NAME | + FILE_NOTIFY_CHANGE_DIR_NAME | + FILE_NOTIFY_CHANGE_ATTRIBUTES | + FILE_NOTIFY_CHANGE_SIZE | + FILE_NOTIFY_CHANGE_LAST_WRITE | + FILE_NOTIFY_CHANGE_CREATION; + + ResetEvent(watch->hEvent); + + memset(&watch->overlapped, 0, sizeof(watch->overlapped)); + watch->overlapped.hEvent = watch->hEvent; + + /* + * Queue an async call using Overlapped IO. This returns immediately. + * Our event handle will be signalled when the real result is available. + * + * The return value here just means that we successfully queued it. + * We won't know if the Read...() actually produces data until later. + */ + watch->is_active = ReadDirectoryChangesW( + watch->hDir, watch->buffer, watch->buf_len, TRUE, + dwNotifyFilter, &watch->count, &watch->overlapped, NULL); + + if (watch->is_active) + return 0; + + error(_("ReadDirectoryChangedW failed on '%s' [GLE %ld]"), + watch->path.buf, GetLastError()); + return -1; +} + +static int recv_rdcw_watch(struct one_watch *watch) +{ + DWORD gle; + + watch->is_active = FALSE; + + /* + * The overlapped result is ready. If the Read...() was successful + * we finally receive the actual result into our buffer. + */ + if (GetOverlappedResult(watch->hDir, &watch->overlapped, &watch->count, + TRUE)) + return 0; + + gle = GetLastError(); + if (gle == ERROR_INVALID_PARAMETER && + /* + * The kernel throws an invalid parameter error when our + * buffer is too big and we are pointed at a remote + * directory (and possibly for other reasons). Quietly + * set it down and try again. + * + * See note about MAX_RDCW_BUF at the top. + */ + watch->buf_len > MAX_RDCW_BUF_FALLBACK) { + watch->buf_len = MAX_RDCW_BUF_FALLBACK; + return -2; + } + + /* + * GetOverlappedResult() fails if the watched directory is + * deleted while we were waiting for an overlapped IO to + * complete. The documentation did not list specific errors, + * but I observed ERROR_ACCESS_DENIED (0x05) errors during + * testing. + * + * Note that we only get notificaiton events for events + * *within* the directory, not *on* the directory itself. + * (These might be properies of the parent directory, for + * example). + * + * NEEDSWORK: We might try to check for the deleted directory + * case and return a better error message, but I'm not sure it + * is worth it. + * + * Shutdown if we get any error. + */ + + error(_("GetOverlappedResult failed on '%s' [GLE %ld]"), + watch->path.buf, gle); + return -1; +} + +static void cancel_rdcw_watch(struct one_watch *watch) +{ + DWORD count; + + if (!watch || !watch->is_active) + return; + + /* + * The calls to ReadDirectoryChangesW() and GetOverlappedResult() + * form a "pair" (my term) where we queue an IO and promise to + * hang around and wait for the kernel to give us the result. + * + * If for some reason after we queue the IO, we have to quit + * or otherwise not stick around for the second half, we must + * tell the kernel to abort the IO. This prevents the kernel + * from writing to our buffer and/or signalling our event + * after we free them. + * + * (Ask me how much fun it was to track that one down). + */ + CancelIoEx(watch->hDir, &watch->overlapped); + GetOverlappedResult(watch->hDir, &watch->overlapped, &count, TRUE); + watch->is_active = FALSE; +} + +/* + * Process a single relative pathname event. + * Return 1 if we should shutdown. + */ +static int process_1_worktree_event( + struct string_list *cookie_list, + struct fsmonitor_batch **batch, + const struct strbuf *path, + enum fsmonitor_path_type t, + DWORD info_action) +{ + const char *slash; + + switch (t) { + case IS_INSIDE_DOT_GIT_WITH_COOKIE_PREFIX: + /* special case cookie files within .git */ + + /* Use just the filename of the cookie file. */ + slash = find_last_dir_sep(path->buf); + string_list_append(cookie_list, + slash ? slash + 1 : path->buf); + break; + + case IS_INSIDE_DOT_GIT: + /* ignore everything inside of "<worktree>/.git/" */ + break; + + case IS_DOT_GIT: + /* "<worktree>/.git" was deleted (or renamed away) */ + if ((info_action == FILE_ACTION_REMOVED) || + (info_action == FILE_ACTION_RENAMED_OLD_NAME)) { + trace2_data_string("fsmonitor", NULL, + "fsm-listen/dotgit", + "removed"); + return 1; + } + break; + + case IS_WORKDIR_PATH: + /* queue normal pathname */ + if (!*batch) + *batch = fsmonitor_batch__new(); + fsmonitor_batch__add_path(*batch, path->buf); + break; + + case IS_GITDIR: + case IS_INSIDE_GITDIR: + case IS_INSIDE_GITDIR_WITH_COOKIE_PREFIX: + default: + BUG("unexpected path classification '%d' for '%s'", + t, path->buf); + } + + return 0; +} + +/* + * Process filesystem events that happen anywhere (recursively) under the + * <worktree> root directory. For a normal working directory, this includes + * both version controlled files and the contents of the .git/ directory. + * + * If <worktree>/.git is a file, then we only see events for the file + * itself. + */ +static int process_worktree_events(struct fsmonitor_daemon_state *state) +{ + struct fsm_listen_data *data = state->listen_data; + struct one_watch *watch = data->watch_worktree; + struct strbuf path = STRBUF_INIT; + struct string_list cookie_list = STRING_LIST_INIT_DUP; + struct fsmonitor_batch *batch = NULL; + const char *p = watch->buffer; + wchar_t wpath_longname[MAX_PATH + 1]; + + /* + * If the kernel gets more events than will fit in the kernel + * buffer associated with our RDCW handle, it drops them and + * returns a count of zero. + * + * Yes, the call returns WITHOUT error and with length zero. + * This is the documented behavior. (My testing has confirmed + * that it also sets the last error to ERROR_NOTIFY_ENUM_DIR, + * but we do not rely on that since the function did not + * return an error and it is not documented.) + * + * (The "overflow" case is not ambiguous with the "no data" case + * because we did an INFINITE wait.) + * + * This means we have a gap in coverage. Tell the daemon layer + * to resync. + */ + if (!watch->count) { + trace2_data_string("fsmonitor", NULL, "fsm-listen/kernel", + "overflow"); + fsmonitor_force_resync(state); + return LISTENER_HAVE_DATA_WORKTREE; + } + + /* + * On Windows, `info` contains an "array" of paths that are + * relative to the root of whichever directory handle received + * the event. + */ + for (;;) { + FILE_NOTIFY_INFORMATION *info = (void *)p; + wchar_t *wpath = info->FileName; + DWORD wpath_len = info->FileNameLength / sizeof(WCHAR); + enum fsmonitor_path_type t; + enum get_relative_result grr; + + if (watch->has_shortnames) { + if (!wcscmp(wpath, watch->dotgit_shortname)) { + /* + * This event exactly matches the + * spelling of the shortname of + * ".git", so we can skip some steps. + * + * (This case is odd because the user + * can "rm -rf GIT~1" and we cannot + * use the filesystem to map it back + * to ".git".) + */ + strbuf_reset(&path); + strbuf_addstr(&path, ".git"); + t = IS_DOT_GIT; + goto process_it; + } + + if (watch->has_tilde && !wcschr(wpath, L'~')) { + /* + * Shortnames on this filesystem have tildes + * and the notification path does not have + * one, so we assume that it is a longname. + */ + goto normalize_it; + } + + grr = get_relative_longname(watch, wpath, wpath_len, + wpath_longname, + ARRAY_SIZE(wpath_longname)); + switch (grr) { + case GRR_NO_CONVERSION_NEEDED: /* use info buffer as is */ + break; + case GRR_HAVE_CONVERSION: + wpath = wpath_longname; + wpath_len = wcslen(wpath); + break; + default: + case GRR_SHUTDOWN: + goto force_shutdown; + } + } + +normalize_it: + if (normalize_path_in_utf8(wpath, wpath_len, &path) == -1) + goto skip_this_path; + + t = fsmonitor_classify_path_workdir_relative(path.buf); + +process_it: + if (process_1_worktree_event(&cookie_list, &batch, &path, t, + info->Action)) + goto force_shutdown; + +skip_this_path: + if (!info->NextEntryOffset) + break; + p += info->NextEntryOffset; + } + + fsmonitor_publish(state, batch, &cookie_list); + batch = NULL; + string_list_clear(&cookie_list, 0); + strbuf_release(&path); + return LISTENER_HAVE_DATA_WORKTREE; + +force_shutdown: + fsmonitor_batch__free_list(batch); + string_list_clear(&cookie_list, 0); + strbuf_release(&path); + return LISTENER_SHUTDOWN; +} + +/* + * Process filesystem events that happened anywhere (recursively) under the + * external <gitdir> (such as non-primary worktrees or submodules). + * We only care about cookie files that our client threads created here. + * + * Note that we DO NOT get filesystem events on the external <gitdir> + * itself (it is not inside something that we are watching). In particular, + * we do not get an event if the external <gitdir> is deleted. + * + * Also, we do not care about shortnames within the external <gitdir>, since + * we never send these paths to clients. + */ +static int process_gitdir_events(struct fsmonitor_daemon_state *state) +{ + struct fsm_listen_data *data = state->listen_data; + struct one_watch *watch = data->watch_gitdir; + struct strbuf path = STRBUF_INIT; + struct string_list cookie_list = STRING_LIST_INIT_DUP; + const char *p = watch->buffer; + + if (!watch->count) { + trace2_data_string("fsmonitor", NULL, "fsm-listen/kernel", + "overflow"); + fsmonitor_force_resync(state); + return LISTENER_HAVE_DATA_GITDIR; + } + + for (;;) { + FILE_NOTIFY_INFORMATION *info = (void *)p; + const char *slash; + enum fsmonitor_path_type t; + + if (normalize_path_in_utf8( + info->FileName, + info->FileNameLength / sizeof(WCHAR), + &path) == -1) + goto skip_this_path; + + t = fsmonitor_classify_path_gitdir_relative(path.buf); + + switch (t) { + case IS_INSIDE_GITDIR_WITH_COOKIE_PREFIX: + /* special case cookie files within gitdir */ + + /* Use just the filename of the cookie file. */ + slash = find_last_dir_sep(path.buf); + string_list_append(&cookie_list, + slash ? slash + 1 : path.buf); + break; + + case IS_INSIDE_GITDIR: + goto skip_this_path; + + default: + BUG("unexpected path classification '%d' for '%s'", + t, path.buf); + } + +skip_this_path: + if (!info->NextEntryOffset) + break; + p += info->NextEntryOffset; + } + + fsmonitor_publish(state, NULL, &cookie_list); + string_list_clear(&cookie_list, 0); + strbuf_release(&path); + return LISTENER_HAVE_DATA_GITDIR; +} + +void fsm_listen__loop(struct fsmonitor_daemon_state *state) +{ + struct fsm_listen_data *data = state->listen_data; + DWORD dwWait; + int result; + + state->listen_error_code = 0; + + if (start_rdcw_watch(data, data->watch_worktree) == -1) + goto force_error_stop; + + if (data->watch_gitdir && + start_rdcw_watch(data, data->watch_gitdir) == -1) + goto force_error_stop; + + for (;;) { + dwWait = WaitForMultipleObjects(data->nr_listener_handles, + data->hListener, + FALSE, INFINITE); + + if (dwWait == WAIT_OBJECT_0 + LISTENER_HAVE_DATA_WORKTREE) { + result = recv_rdcw_watch(data->watch_worktree); + if (result == -1) { + /* hard error */ + goto force_error_stop; + } + if (result == -2) { + /* retryable error */ + if (start_rdcw_watch(data, data->watch_worktree) == -1) + goto force_error_stop; + continue; + } + + /* have data */ + if (process_worktree_events(state) == LISTENER_SHUTDOWN) + goto force_shutdown; + if (start_rdcw_watch(data, data->watch_worktree) == -1) + goto force_error_stop; + continue; + } + + if (dwWait == WAIT_OBJECT_0 + LISTENER_HAVE_DATA_GITDIR) { + result = recv_rdcw_watch(data->watch_gitdir); + if (result == -1) { + /* hard error */ + goto force_error_stop; + } + if (result == -2) { + /* retryable error */ + if (start_rdcw_watch(data, data->watch_gitdir) == -1) + goto force_error_stop; + continue; + } + + /* have data */ + if (process_gitdir_events(state) == LISTENER_SHUTDOWN) + goto force_shutdown; + if (start_rdcw_watch(data, data->watch_gitdir) == -1) + goto force_error_stop; + continue; + } + + if (dwWait == WAIT_OBJECT_0 + LISTENER_SHUTDOWN) + goto clean_shutdown; + + error(_("could not read directory changes [GLE %ld]"), + GetLastError()); + goto force_error_stop; + } + +force_error_stop: + state->listen_error_code = -1; + +force_shutdown: + /* + * Tell the IPC thead pool to stop (which completes the await + * in the main thread (which will also signal this thread (if + * we are still alive))). + */ + ipc_server_stop_async(state->ipc_server_data); + +clean_shutdown: + cancel_rdcw_watch(data->watch_worktree); + cancel_rdcw_watch(data->watch_gitdir); +} + +int fsm_listen__ctor(struct fsmonitor_daemon_state *state) +{ + struct fsm_listen_data *data; + + CALLOC_ARRAY(data, 1); + + data->hEventShutdown = CreateEvent(NULL, TRUE, FALSE, NULL); + + data->watch_worktree = create_watch(state, + state->path_worktree_watch.buf); + if (!data->watch_worktree) + goto failed; + + check_for_shortnames(data->watch_worktree); + + if (state->nr_paths_watching > 1) { + data->watch_gitdir = create_watch(state, + state->path_gitdir_watch.buf); + if (!data->watch_gitdir) + goto failed; + } + + data->hListener[LISTENER_SHUTDOWN] = data->hEventShutdown; + data->nr_listener_handles++; + + data->hListener[LISTENER_HAVE_DATA_WORKTREE] = + data->watch_worktree->hEvent; + data->nr_listener_handles++; + + if (data->watch_gitdir) { + data->hListener[LISTENER_HAVE_DATA_GITDIR] = + data->watch_gitdir->hEvent; + data->nr_listener_handles++; + } + + state->listen_data = data; + return 0; + +failed: + CloseHandle(data->hEventShutdown); + destroy_watch(data->watch_worktree); + destroy_watch(data->watch_gitdir); + + return -1; +} + +void fsm_listen__dtor(struct fsmonitor_daemon_state *state) +{ + struct fsm_listen_data *data; + + if (!state || !state->listen_data) + return; + + data = state->listen_data; + + CloseHandle(data->hEventShutdown); + destroy_watch(data->watch_worktree); + destroy_watch(data->watch_gitdir); + + FREE_AND_NULL(state->listen_data); +} |