#ifndef FSMONITOR_DAEMON_H #define FSMONITOR_DAEMON_H #ifdef HAVE_FSMONITOR_DAEMON_BACKEND #include "hashmap.h" #include "thread-utils.h" #include "fsmonitor-path-utils.h" struct fsmonitor_batch; struct fsmonitor_token_data; /* * Create a new batch of path(s). The returned batch is considered * private and not linked into the fsmonitor daemon state. The caller * should fill this batch with one or more paths and then publish it. */ struct fsmonitor_batch *fsmonitor_batch__new(void); /* * Free the list of batches starting with this one. */ void fsmonitor_batch__free_list(struct fsmonitor_batch *batch); /* * Add this path to this batch of modified files. * * The batch should be private and NOT (yet) linked into the fsmonitor * daemon state and therefore not yet visible to worker threads and so * no locking is required. */ void fsmonitor_batch__add_path(struct fsmonitor_batch *batch, const char *path); struct fsm_listen_data; /* opaque platform-specific data for listener thread */ struct fsm_health_data; /* opaque platform-specific data for health thread */ struct fsmonitor_daemon_state { pthread_t listener_thread; pthread_t health_thread; pthread_mutex_t main_lock; struct strbuf path_worktree_watch; struct strbuf path_gitdir_watch; struct alias_info alias; int nr_paths_watching; struct fsmonitor_token_data *current_token_data; struct strbuf path_cookie_prefix; pthread_cond_t cookies_cond; int cookie_seq; struct hashmap cookies; int listen_error_code; int health_error_code; struct fsm_listen_data *listen_data; struct fsm_health_data *health_data; struct ipc_server_data *ipc_server_data; struct strbuf path_ipc; }; /* * Pathname classifications. * * The daemon classifies the pathnames that it receives from file * system notification events into the following categories and uses * that to decide whether clients are told about them. (And to watch * for file system synchronization events.) * * The daemon only collects and reports on the set of modified paths * within the working directory (proper). * * The client should only care about paths within the working * directory proper (inside the working directory and not ".git" nor * inside of ".git/"). That is, the client has read the index and is * asking for a list of any paths in the working directory that have * been modified since the last token. The client does not care about * file system changes within the ".git/" directory (such as new loose * objects or packfiles). So the client will only receive paths that * are classified as IS_WORKDIR_PATH. * * Note that ".git" is usually a directory and is therefore inside * the cone of the FS watch that we have on the working directory root, * so we will also get FS events for disk activity on and within ".git/" * that we need to respond to or filter from the client. * * But Git also allows ".git" to be a *file* that points to a GITDIR * outside of the working directory. When this happens, we need to * create FS watches on both the working directory root *and* on the * (external) GITDIR root. (The latter is required because we put * cookie files inside it and use them to sync with the FS event * stream.) * * Note that in the context of this discussion, I'm using "GITDIR" * to only mean an external GITDIR referenced by a ".git" file. * * The platform FS event backends will receive watch-specific * relative paths (except for those OSes that always emit absolute * paths). We use the following enum and routines to classify each * path so that we know how to handle it. There is a slight asymmetry * here because ".git/" is inside the working directory and the * (external) GITDIR is not, and therefore how we handle events may * vary slightly, so I have different enums for "IS...DOT_GIT..." and * "IS...GITDIR...". * * The daemon uses the IS_DOT_GIT and IS_GITDIR internally to mean the * exact ".git" file/directory or GITDIR directory. If the daemon * receives a delete event for either of these paths, it will * automatically shutdown, for example. * * Note that the daemon DOES NOT explicitly watch nor special case the * index. The daemon does not read the index nor have any internal * index-relative state, so there are no "IS...INDEX..." enum values. */ enum fsmonitor_path_type { IS_WORKDIR_PATH = 0, IS_DOT_GIT, IS_INSIDE_DOT_GIT, IS_INSIDE_DOT_GIT_WITH_COOKIE_PREFIX, IS_GITDIR, IS_INSIDE_GITDIR, IS_INSIDE_GITDIR_WITH_COOKIE_PREFIX, IS_OUTSIDE_CONE, }; /* * Classify a pathname relative to the root of the working directory. */ enum fsmonitor_path_type fsmonitor_classify_path_workdir_relative( const char *relative_path); /* * Classify a pathname relative to a <gitdir> that is external to the * worktree directory. */ enum fsmonitor_path_type fsmonitor_classify_path_gitdir_relative( const char *relative_path); /* * Classify an absolute pathname received from a filesystem event. */ enum fsmonitor_path_type fsmonitor_classify_path_absolute( struct fsmonitor_daemon_state *state, const char *path); /* * Prepend the this batch of path(s) onto the list of batches associated * with the current token. This makes the batch visible to worker threads. * * The caller no longer owns the batch and must not free it. * * Wake up the client threads waiting on these cookies. */ void fsmonitor_publish(struct fsmonitor_daemon_state *state, struct fsmonitor_batch *batch, const struct string_list *cookie_names); /* * If the platform-specific layer loses sync with the filesystem, * it should call this to invalidate cached data and abort waiting * threads. */ void fsmonitor_force_resync(struct fsmonitor_daemon_state *state); #endif /* HAVE_FSMONITOR_DAEMON_BACKEND */ #endif /* FSMONITOR_DAEMON_H */