#define _GNU_SOURCE #include #include #include #include #include #include #include #include #include #include "log.h" #include "stat_cache.h" #include "fdevent.h" #include "etag.h" #ifdef HAVE_ATTR_ATTRIBUTES_H #include #endif #ifdef HAVE_FAM_H # include #endif #include "sys-mmap.h" /* NetBSD 1.3.x needs it */ #ifndef MAP_FAILED # define MAP_FAILED -1 #endif #ifndef O_LARGEFILE # define O_LARGEFILE 0 #endif #ifndef HAVE_LSTAT #define lstat stat #endif #if 0 /* enables debug code for testing if all nodes in the stat-cache as accessable */ #define DEBUG_STAT_CACHE #endif /* * stat-cache * * we cache the stat() calls in our own storage * the directories are cached in FAM * * if we get a change-event from FAM, we increment the version in the FAM->dir mapping * * if the stat()-cache is queried we check if the version id for the directory is the * same and return immediatly. * * * What we need: * * - for each stat-cache entry we need a fast indirect lookup on the directory name * - for each FAMRequest we have to find the version in the directory cache (index as userdata) * * stat <<-> directory <-> FAMRequest * * if file is deleted, directory is dirty, file is rechecked ... * if directory is deleted, directory mapping is removed * * */ #ifdef HAVE_FAM_H typedef struct { FAMRequest *req; FAMConnection *fc; buffer *name; int version; } fam_dir_entry; #endif /* the directory name is too long to always compare on it * - we need a hash * - the hash-key is used as sorting criteria for a tree * - a splay-tree is used as we can use the caching effect of it */ /* we want to cleanup the stat-cache every few seconds, let's say 10 * * - remove entries which are outdated since 30s * - remove entries which are fresh but havn't been used since 60s * - if we don't have a stat-cache entry for a directory, release it from the monitor */ #ifdef DEBUG_STAT_CACHE typedef struct { int *ptr; size_t used; size_t size; } fake_keys; static fake_keys ctrl; #endif stat_cache *stat_cache_init(void) { stat_cache *fc = NULL; fc = calloc(1, sizeof(*fc)); fc->dir_name = buffer_init(); fc->hash_key = buffer_init(); #ifdef HAVE_FAM_H fc->fam = calloc(1, sizeof(*fc->fam)); #endif #ifdef DEBUG_STAT_CACHE ctrl.size = 0; #endif return fc; } static stat_cache_entry * stat_cache_entry_init(void) { stat_cache_entry *sce = NULL; sce = calloc(1, sizeof(*sce)); sce->name = buffer_init(); sce->etag = buffer_init(); sce->content_type = buffer_init(); return sce; } static void stat_cache_entry_free(void *data) { stat_cache_entry *sce = data; if (!sce) return; buffer_free(sce->etag); buffer_free(sce->name); buffer_free(sce->content_type); free(sce); } #ifdef HAVE_FAM_H static fam_dir_entry * fam_dir_entry_init(void) { fam_dir_entry *fam_dir = NULL; fam_dir = calloc(1, sizeof(*fam_dir)); fam_dir->name = buffer_init(); return fam_dir; } static void fam_dir_entry_free(void *data) { fam_dir_entry *fam_dir = data; if (!fam_dir) return; FAMCancelMonitor(fam_dir->fc, fam_dir->req); buffer_free(fam_dir->name); free(fam_dir->req); free(fam_dir); } #endif void stat_cache_free(stat_cache *sc) { while (sc->files) { int osize; splay_tree *node = sc->files; osize = sc->files->size; stat_cache_entry_free(node->data); sc->files = splaytree_delete(sc->files, node->key); assert(osize - 1 == splaytree_size(sc->files)); } buffer_free(sc->dir_name); buffer_free(sc->hash_key); #ifdef HAVE_FAM_H while (sc->dirs) { int osize; splay_tree *node = sc->dirs; osize = sc->dirs->size; fam_dir_entry_free(node->data); sc->dirs = splaytree_delete(sc->dirs, node->key); if (osize == 1) { assert(NULL == sc->dirs); } else { assert(osize == (sc->dirs->size + 1)); } } if (sc->fam) { FAMClose(sc->fam); free(sc->fam); } #endif free(sc); } #ifdef HAVE_XATTR static int stat_cache_attr_get(buffer *buf, char *name) { int attrlen; int ret; attrlen = 1024; buffer_prepare_copy(buf, attrlen); attrlen--; if(0 == (ret = attr_get(name, "Content-Type", buf->ptr, &attrlen, 0))) { buf->used = attrlen + 1; buf->ptr[attrlen] = '\0'; } return ret; } #endif /* the famous DJB hash function for strings */ static uint32_t hashme(buffer *str) { uint32_t hash = 5381; const char *s; for (s = str->ptr; *s; s++) { hash = ((hash << 5) + hash) + *s; } hash &= ~(1 << 31); /* strip the highest bit */ return hash; } #ifdef HAVE_FAM_H handler_t stat_cache_handle_fdevent(void *_srv, void *_fce, int revent) { size_t i; server *srv = _srv; stat_cache *sc = srv->stat_cache; size_t events; UNUSED(_fce); /* */ if ((revent & FDEVENT_IN) && sc->fam) { events = FAMPending(sc->fam); for (i = 0; i < events; i++) { FAMEvent fe; fam_dir_entry *fam_dir; splay_tree *node; int ndx, j; FAMNextEvent(sc->fam, &fe); /* handle event */ switch(fe.code) { case FAMChanged: case FAMDeleted: case FAMMoved: /* if the filename is a directory remove the entry */ fam_dir = fe.userdata; fam_dir->version++; /* file/dir is still here */ if (fe.code == FAMChanged) break; /* we have 2 versions, follow and no-follow-symlink */ for (j = 0; j < 2; j++) { buffer_copy_string(sc->hash_key, fe.filename); buffer_append_long(sc->hash_key, j); ndx = hashme(sc->hash_key); sc->dirs = splaytree_splay(sc->dirs, ndx); node = sc->dirs; if (node && (node->key == ndx)) { int osize = splaytree_size(sc->dirs); fam_dir_entry_free(node->data); sc->dirs = splaytree_delete(sc->dirs, ndx); assert(osize - 1 == splaytree_size(sc->dirs)); } } break; default: break; } } } if (revent & FDEVENT_HUP) { /* fam closed the connection */ srv->stat_cache->fam_fcce_ndx = -1; fdevent_event_del(srv->ev, &(sc->fam_fcce_ndx), FAMCONNECTION_GETFD(sc->fam)); fdevent_unregister(srv->ev, FAMCONNECTION_GETFD(sc->fam)); FAMClose(sc->fam); free(sc->fam); sc->fam = NULL; } return HANDLER_GO_ON; } static int buffer_copy_dirname(buffer *dst, buffer *file) { size_t i; if (buffer_is_empty(file)) return -1; for (i = file->used - 1; i+1 > 0; i--) { if (file->ptr[i] == '/') { buffer_copy_string_len(dst, file->ptr, i); return 0; } } return -1; } #endif #ifdef HAVE_LSTAT static int stat_cache_lstat(server *srv, buffer *dname, struct stat *lst) { if (lstat(dname->ptr, lst) == 0) { return S_ISLNK(lst->st_mode) ? 0 : 1; } else { log_error_write(srv, __FILE__, __LINE__, "sbs", "lstat failed for:", dname, strerror(errno)); }; return -1; } #endif /*** * * * * returns: * - HANDLER_FINISHED on cache-miss (don't forget to reopen the file) * - HANDLER_ERROR on stat() failed -> see errno for problem */ handler_t stat_cache_get_entry(server *srv, connection *con, buffer *name, stat_cache_entry **ret_sce) { #ifdef HAVE_FAM_H fam_dir_entry *fam_dir = NULL; int dir_ndx = -1; splay_tree *dir_node = NULL; #endif stat_cache_entry *sce = NULL; stat_cache *sc; struct stat st; size_t k; int fd; struct stat lst; #ifdef DEBUG_STAT_CACHE size_t i; #endif int file_ndx; splay_tree *file_node = NULL; *ret_sce = NULL; /* * check if the directory for this file has changed */ sc = srv->stat_cache; buffer_copy_string_buffer(sc->hash_key, name); buffer_append_long(sc->hash_key, con->conf.follow_symlink); file_ndx = hashme(sc->hash_key); sc->files = splaytree_splay(sc->files, file_ndx); #ifdef DEBUG_STAT_CACHE for (i = 0; i < ctrl.used; i++) { if (ctrl.ptr[i] == file_ndx) break; } #endif if (sc->files && (sc->files->key == file_ndx)) { #ifdef DEBUG_STAT_CACHE /* it was in the cache */ assert(i < ctrl.used); #endif /* we have seen this file already and * don't stat() it again in the same second */ file_node = sc->files; sce = file_node->data; /* check if the name is the same, we might have a collision */ if (buffer_is_equal(name, sce->name)) { if (srv->srvconf.stat_cache_engine == STAT_CACHE_ENGINE_SIMPLE) { if (sce->stat_ts == srv->cur_ts) { *ret_sce = sce; return HANDLER_GO_ON; } } } else { /* oops, a collision, * * file_node is used by the FAM check below to see if we know this file * and if we can save a stat(). * * BUT, the sce is not reset here as the entry into the cache is ok, we * it is just not pointing to our requested file. * * */ file_node = NULL; } } else { #ifdef DEBUG_STAT_CACHE if (i != ctrl.used) { fprintf(stderr, "%s.%d: %08x was already inserted but not found in cache, %s\n", __FILE__, __LINE__, file_ndx, name->ptr); } assert(i == ctrl.used); #endif } #ifdef HAVE_FAM_H /* dir-check */ if (srv->srvconf.stat_cache_engine == STAT_CACHE_ENGINE_FAM) { if (0 != buffer_copy_dirname(sc->dir_name, name)) { SEGFAULT(); } buffer_copy_string_buffer(sc->hash_key, sc->dir_name); buffer_append_long(sc->hash_key, con->conf.follow_symlink); dir_ndx = hashme(sc->hash_key); sc->dirs = splaytree_splay(sc->dirs, dir_ndx); if (sc->dirs && (sc->dirs->key == dir_ndx)) { dir_node = sc->dirs; } if (dir_node && file_node) { /* we found a file */ sce = file_node->data; fam_dir = dir_node->data; if (fam_dir->version == sce->dir_version) { /* the stat()-cache entry is still ok */ *ret_sce = sce; return HANDLER_GO_ON; } } } #endif /* * *lol* * - open() + fstat() on a named-pipe results in a (intended) hang. * - stat() if regular file + open() to see if we can read from it is better * * */ if (-1 == stat(name->ptr, &st)) { return HANDLER_ERROR; } if (S_ISREG(st.st_mode)) { /* try to open the file to check if we can read it */ if (-1 == (fd = open(name->ptr, O_RDONLY))) { return HANDLER_ERROR; } close(fd); } if (NULL == sce) { int osize = 0; if (sc->files) { osize = sc->files->size; } sce = stat_cache_entry_init(); buffer_copy_string_buffer(sce->name, name); sc->files = splaytree_insert(sc->files, file_ndx, sce); #ifdef DEBUG_STAT_CACHE if (ctrl.size == 0) { ctrl.size = 16; ctrl.used = 0; ctrl.ptr = malloc(ctrl.size * sizeof(*ctrl.ptr)); } else if (ctrl.size == ctrl.used) { ctrl.size += 16; ctrl.ptr = realloc(ctrl.ptr, ctrl.size * sizeof(*ctrl.ptr)); } ctrl.ptr[ctrl.used++] = file_ndx; assert(sc->files); assert(sc->files->data == sce); assert(osize + 1 == splaytree_size(sc->files)); #endif } sce->st = st; sce->stat_ts = srv->cur_ts; /* catch the obvious symlinks * * this is not a secure check as we still have a race-condition between * the stat() and the open. We can only solve this by * 1. open() the file * 2. fstat() the fd * * and keeping the file open for the rest of the time. But this can * only be done at network level. * * per default it is not a symlink * */ #ifdef HAVE_LSTAT sce->is_symlink = 0; /* we want to only check for symlinks if we should block symlinks. */ if (!con->conf.follow_symlink) { if (stat_cache_lstat(srv, name, &lst) == 0) { #ifdef DEBUG_STAT_CACHE log_error_write(srv, __FILE__, __LINE__, "sb", "found symlink", name); #endif sce->is_symlink = 1; } /* * we assume "/" can not be symlink, so * skip the symlink stuff if our path is / **/ else if ((name->used > 2)) { buffer *dname; char *s_cur; dname = buffer_init(); buffer_copy_string_buffer(dname, name); while ((s_cur = strrchr(dname->ptr,'/'))) { *s_cur = '\0'; dname->used = s_cur - dname->ptr + 1; if (dname->ptr == s_cur) { #ifdef DEBUG_STAT_CACHE log_error_write(srv, __FILE__, __LINE__, "s", "reached /"); #endif break; } #ifdef DEBUG_STAT_CACHE log_error_write(srv, __FILE__, __LINE__, "sbs", "checking if", dname, "is a symlink"); #endif if (stat_cache_lstat(srv, dname, &lst) == 0) { sce->is_symlink = 1; #ifdef DEBUG_STAT_CACHE log_error_write(srv, __FILE__, __LINE__, "sb", "found symlink", dname); #endif break; }; }; buffer_free(dname); }; }; #endif if (S_ISREG(st.st_mode)) { /* determine mimetype */ buffer_reset(sce->content_type); for (k = 0; k < con->conf.mimetypes->used; k++) { data_string *ds = (data_string *)con->conf.mimetypes->data[k]; buffer *type = ds->key; if (type->used == 0) continue; /* check if the right side is the same */ if (type->used > name->used) continue; if (0 == strncasecmp(name->ptr + name->used - type->used, type->ptr, type->used - 1)) { buffer_copy_string_buffer(sce->content_type, ds->value); break; } } etag_create(sce->etag, &(sce->st), con->etag_flags); #ifdef HAVE_XATTR if (con->conf.use_xattr && buffer_is_empty(sce->content_type)) { stat_cache_attr_get(sce->content_type, name->ptr); } #endif } else if (S_ISDIR(st.st_mode)) { etag_create(sce->etag, &(sce->st), con->etag_flags); } #ifdef HAVE_FAM_H if (sc->fam && (srv->srvconf.stat_cache_engine == STAT_CACHE_ENGINE_FAM)) { /* is this directory already registered ? */ if (!dir_node) { fam_dir = fam_dir_entry_init(); fam_dir->fc = sc->fam; buffer_copy_string_buffer(fam_dir->name, sc->dir_name); fam_dir->version = 1; fam_dir->req = calloc(1, sizeof(FAMRequest)); if (0 != FAMMonitorDirectory(sc->fam, fam_dir->name->ptr, fam_dir->req, fam_dir)) { log_error_write(srv, __FILE__, __LINE__, "sbsbs", "monitoring dir failed:", fam_dir->name, "file:", name, FamErrlist[FAMErrno]); fam_dir_entry_free(fam_dir); } else { int osize = 0; if (sc->dirs) { osize = sc->dirs->size; } sc->dirs = splaytree_insert(sc->dirs, dir_ndx, fam_dir); assert(sc->dirs); assert(sc->dirs->data == fam_dir); assert(osize == (sc->dirs->size - 1)); } } else { fam_dir = dir_node->data; } /* bind the fam_fc to the stat() cache entry */ if (fam_dir) { sce->dir_version = fam_dir->version; sce->dir_ndx = dir_ndx; } } #endif *ret_sce = sce; return HANDLER_GO_ON; } /** * remove stat() from cache which havn't been stat()ed for * more than 10 seconds * * * walk though the stat-cache, collect the ids which are too old * and remove them in a second loop */ static int stat_cache_tag_old_entries(server *srv, splay_tree *t, int *keys, size_t *ndx) { stat_cache_entry *sce; if (!t) return 0; stat_cache_tag_old_entries(srv, t->left, keys, ndx); stat_cache_tag_old_entries(srv, t->right, keys, ndx); sce = t->data; if (srv->cur_ts - sce->stat_ts > 2) { keys[(*ndx)++] = t->key; } return 0; } int stat_cache_trigger_cleanup(server *srv) { stat_cache *sc; size_t max_ndx = 0, i; int *keys; sc = srv->stat_cache; if (!sc->files) return 0; keys = calloc(1, sizeof(size_t) * sc->files->size); stat_cache_tag_old_entries(srv, sc->files, keys, &max_ndx); for (i = 0; i < max_ndx; i++) { int ndx = keys[i]; splay_tree *node; sc->files = splaytree_splay(sc->files, ndx); node = sc->files; if (node && (node->key == ndx)) { #ifdef DEBUG_STAT_CACHE size_t j; int osize = splaytree_size(sc->files); stat_cache_entry *sce = node->data; #endif stat_cache_entry_free(node->data); sc->files = splaytree_delete(sc->files, ndx); #ifdef DEBUG_STAT_CACHE for (j = 0; j < ctrl.used; j++) { if (ctrl.ptr[j] == ndx) { ctrl.ptr[j] = ctrl.ptr[--ctrl.used]; break; } } assert(osize - 1 == splaytree_size(sc->files)); #endif } } free(keys); return 0; }