/* * wterl: an Erlang NIF for WiredTiger * * Copyright (c) 2012-2013 Basho Technologies, Inc. All Rights Reserved. * * This file is provided to you under the Apache License, Version 2.0 (the * "License"); you may not use this file except in compliance with the License. * You may obtain a copy of the License at: * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, WITHOUT * WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the * License for the specific language governing permissions and limitations * under the License. * */ #include "erl_nif.h" #include "erl_driver.h" #include #include #include #include #include #include "common.h" #include "wiredtiger.h" #include "stats.h" #include "async_nif.h" #include "kbtree.h" #include "queue.h" #include "fifo_q.h" static ErlNifResourceType *wterl_conn_RESOURCE; static ErlNifResourceType *wterl_ctx_RESOURCE; static ErlNifResourceType *wterl_cursor_RESOURCE; /* WiredTiger object names*/ typedef char Uri[128]; struct wterl_ctx { WT_SESSION *session; // open session WT_CURSOR **cursors; // open cursors, all reset ready to reuse uint64_t sig; }; struct cache_entry { struct wterl_ctx *ctx; uint64_t sig; uint64_t tstamp; }; #define __ctx_sig_cmp(a, b) ((((a)->sig) > ((b)->sig)) - (((a)->sig) < ((b)->sig))) KBTREE_INIT(cache_entries, struct cache_entry*, __ctx_sig_cmp); DECL_FIFO_QUEUE(cache_entries, struct cache_entry); typedef struct wterl_conn { WT_CONNECTION *conn; const char *session_config; ErlNifMutex *cache_mutex; kbtree_t(cache_entries) *cache; fifo_t(cache_entries) recycled_cache_entries; SLIST_ENTRY(wterl_conn) conns; uint64_t histogram[64]; uint64_t hits, misses; } WterlConnHandle; typedef struct { WT_SESSION *session; WT_CURSOR *cursor; } WterlCursorHandle; struct wterl_event_handlers { WT_EVENT_HANDLER handlers; ErlNifEnv *msg_env_error; ErlNifMutex *error_mutex; ErlNifEnv *msg_env_message; ErlNifMutex *message_mutex; ErlNifEnv *msg_env_progress; ErlNifMutex *progress_mutex; ErlNifPid to_pid; }; struct wterl_priv_data { void *async_nif_priv; // Note: must be first element in struct ErlNifMutex *conns_mutex; SLIST_HEAD(conns, wterl_conn) conns; struct wterl_event_handlers eh; char wterl_vsn[512]; char wiredtiger_vsn[512]; }; /* Atoms (initialized in on_load) */ static ERL_NIF_TERM ATOM_ERROR; static ERL_NIF_TERM ATOM_OK; static ERL_NIF_TERM ATOM_NOT_FOUND; static ERL_NIF_TERM ATOM_FIRST; static ERL_NIF_TERM ATOM_LAST; static ERL_NIF_TERM ATOM_MESSAGE; static ERL_NIF_TERM ATOM_PROGRESS; static ERL_NIF_TERM ATOM_WTERL_VSN; static ERL_NIF_TERM ATOM_WIREDTIGER_VSN; static ERL_NIF_TERM ATOM_MSG_PID; /* Global init for async_nif. */ ASYNC_NIF_INIT(wterl); /** * A string hash function. * * A basic hash function for strings of characters used during the * affinity association. * * s a NULL terminated set of bytes to be hashed * -> an integer hash encoding of the bytes */ static inline uint32_t __str_hash(const char *s) { unsigned int h = (unsigned int)*s; if (h) for (++s ; *s; ++s) h = (h << 5) - h + (unsigned int)*s; return h; } /** * Calculate the log2 of 64bit unsigned integers. */ #ifdef __GCC__ #define __log2(X) ((unsigned) ((8 * (sizeof(uint64_t) - 1)) - __builtin_clzll((X)))) #else static inline uint32_t __log2(uint64_t x) { static const int tab64[64] = { 63, 0, 58, 1, 59, 47, 53, 2, 60, 39, 48, 27, 54, 33, 42, 3, 61, 51, 37, 40, 49, 18, 28, 20, 55, 30, 34, 11, 43, 14, 22, 4, 62, 57, 46, 52, 38, 26, 32, 41, 50, 36, 17, 19, 29, 10, 13, 21, 56, 45, 25, 31, 35, 16, 9, 12, 44, 24, 15, 8, 23, 7, 6, 5}; if (x == 0) return 0; uint64_t v = x; v |= v >> 1; v |= v >> 2; v |= v >> 4; v |= v >> 8; v |= v >> 16; v |= v >> 32; return tab64[((uint64_t)((v - (v >> 1)) * 0x07EDD5E59A4E28C2)) >> 58]; } #endif /** * Is the context cache full? * * -> 0 = no/false, anything else is true */ static int __ctx_cache_full(WterlConnHandle *conn) { return fifo_q_full(cache_entries, conn->recycled_cache_entries); } /** * Evict items from the cache. * * Evict old contexts from the cache to make space for new, more frequently * used contexts. * * -> number of items evicted */ static int __ctx_cache_evict(WterlConnHandle *conn_handle) { uint32_t i; uint64_t mean, now = cpu_clock_ticks(); kbtree_t(cache_entries) *t = conn_handle->cache; // Find the mean of the recorded times that items stayed in cache. for (i = 0; i < 64; i++) mean += (conn_handle->histogram[i] * i); if (mean > 0) mean /= conn_handle->hits; // Clear out the histogram and hit/misses memset(conn_handle->histogram, 0, sizeof(uint64_t) * 64); conn_handle->hits = 0; conn_handle->misses = 0; // Evict anything older than the mean time in queue. i = 0; #define traverse_f(p) \ { \ struct cache_entry *e = *p; \ uint64_t elapsed = e->tstamp - now; \ if (__log2(elapsed) > mean) { \ kb_del(cache_entries, t, e); \ e->ctx->session->close(e->ctx->session, NULL); \ enif_free(e->ctx); \ fifo_q_put(cache_entries, conn_handle->recycled_cache_entries, e); \ i++; \ } \ } __kb_traverse(struct cache_entry *, t, traverse_f); #undef traverse_f return i; } /** * Find a matching item in the cache. * * See if there exists an item in the cache with a matching signature, if * so remove it from the cache and return it for use by the callee. * * sig a 64-bit signature (hash) representing the session/cursor* needed * for the operation */ static struct wterl_ctx * __ctx_cache_find(WterlConnHandle *conn_handle, const uint64_t sig) { struct wterl_ctx *p = NULL; struct cache_entry key, *e; key.sig = sig; e = *kb_get(cache_entries, conn_handle->cache, &key); if (e) { // cache hit, remove it from the tree uint64_t elapsed = cpu_clock_ticks() - e->tstamp; kb_del(cache_entries, conn_handle->cache, &key); p = e->ctx; memset(e, 0, sizeof(struct cache_entry)); fifo_q_put(cache_entries, conn_handle->recycled_cache_entries, e); conn_handle->hits++; conn_handle->histogram[__log2(elapsed)]++; } else { conn_handle->misses++; } return p; } /** * Add/Return an item to the cache. * * Return an item into the cache, reset the cursors it has open and put it at * the front of the LRU. */ static int __ctx_cache_add(WterlConnHandle *conn, struct wterl_ctx *c) { struct cache_entry *e; if (__ctx_cache_full(conn)) __ctx_cache_evict(conn); e = fifo_q_get(cache_entries, conn->recycled_cache_entries); e->ctx = c; e->sig = c->sig; e->tstamp = cpu_clock_ticks(); kb_put(cache_entries, conn->cache, e); return 0; } /** * Produce the "Z-Index" or "Morton Number" from 2 32-bit unsigned integers. * e.g. p = 0101 1011 0100 0011 * q = 1011 1100 0001 0011 * z = 0110 0111 1101 1010 0010 0001 0000 1111 */ static inline uint64_t __zi(uint32_t p, uint32_t q) { static const uint32_t B[] = {0x55555555, 0x33333333, 0x0F0F0F0F, 0x00FF00FF}; static const uint32_t S[] = {1, 2, 4, 8}; uint32_t x, y; uint64_t z; x = p & 0x0000FFFF; // Interleave lower 16 bits of p as x and q as y, so the y = q & 0x0000FFFF; // bits of x are in the even positions and bits from y z = 0; // in the odd; the first 32 bits of 'z' is the result. x = (x | (x << S[3])) & B[3]; x = (x | (x << S[2])) & B[2]; x = (x | (x << S[1])) & B[1]; x = (x | (x << S[0])) & B[0]; y = (y | (y << S[3])) & B[3]; y = (y | (y << S[2])) & B[2]; y = (y | (y << S[1])) & B[1]; y = (y | (y << S[0])) & B[0]; z = x | (y << 1); x = (p >> 16) & 0x0000FFFF; // Interleave the upper 16 bits of p as x and q as y y = (q >> 16) & 0x0000FFFF; // just as before. x = (x | (x << S[3])) & B[3]; x = (x | (x << S[2])) & B[2]; x = (x | (x << S[1])) & B[1]; x = (x | (x << S[0])) & B[0]; y = (y | (y << S[3])) & B[3]; y = (y | (y << S[2])) & B[2]; y = (y | (y << S[1])) & B[1]; y = (y | (y << S[0])) & B[0]; z = (z << 16) | (x | (y << 1)); // the resulting 64-bit Morton Number. return z; } /** * Create a signature for the operation we're about to perform. * * Create a 32bit signature for this a combination of session configuration * some number of cursors open on tables each potentially with a different * configuration. "session_config, [{table_name, cursor_config}, ...]" * * session_config the string used to configure the WT_SESSION * ... each pair of items in the varargs array is a table name, * cursor config pair * -> number of variable arguments processed */ static int __ctx_cache_sig_(const char *c, va_list ap, uint64_t *h) { int i = 0; if (NULL == c) return 0; *h = __str_hash(c); while (*c) { *h = __zi((uint32_t)(*h & 0xFFFFFFFF), __str_hash(va_arg(ap, const char *))); *h <<= 1; i++; } return i; } #if 0 static uint64_t __ctx_cache_sig(const char *c, ...) { int i; va_list ap; uint64_t h; if (NULL == c) return 0; va_start(ap, c); i = __ctx_cache_sig_(c, ap, &h); va_end (ap); return i; } #endif /** * Get a reusable cursor that was opened for a particular worker within its * session. */ static int __retain_ctx(WterlConnHandle *conn_handle, struct wterl_ctx **ctx, const char *session_config, ...) { int i, count; va_list ap; uint64_t sig; const char *c; c = session_config; va_start(ap, session_config); count = __ctx_cache_sig_(session_config, ap, &sig); va_end (ap); enif_mutex_lock(conn_handle->cache_mutex); (*ctx) = __ctx_cache_find(conn_handle, sig); if ((*ctx) == NULL) { // cache miss WT_CONNECTION *conn = conn_handle->conn; WT_SESSION *session = NULL; int rc = conn->open_session(conn, NULL, session_config, &session); if (rc != 0) return rc; size_t s = sizeof(struct wterl_ctx) + ((count / 2) * sizeof(WT_CURSOR*)); // TODO: *ctx = enif_alloc_resource(wterl_ctx_RESOURCE, s); *ctx = enif_alloc(s); if (*ctx == NULL) { session->close(session, NULL); return ENOMEM; } memset(*ctx, 0, s); (*ctx)->sig = sig; (*ctx)->session = session; WT_CURSOR **cursors = (*ctx)->cursors; session_config = c; va_start(ap, session_config); for (i = 0; i < (count / 2); i++) { const char *uri = va_arg(ap, const char *); const char *config = va_arg(ap, const char *); // TODO: error when uri or config is NULL rc = session->open_cursor(session, uri, NULL, config, &cursors[i]); if (rc != 0) { session->close(session, NULL); // this will free the cursors too return rc; } } va_end (ap); } // else { cache hit } enif_mutex_unlock(conn_handle->cache_mutex); return 0; } /** * Return a context to the cache for reuse. */ static void __release_ctx(WterlConnHandle *conn_handle, struct wterl_ctx *ctx) { int i, c; WT_CURSOR *cursor; c = sizeof(ctx->cursors) / sizeof(ctx->cursors[0]); for (i = 0; i < c; i++) { cursor = ctx->cursors[i]; cursor->reset(cursor); } enif_mutex_lock(conn_handle->cache_mutex); __ctx_cache_add(conn_handle, ctx); enif_mutex_unlock(conn_handle->cache_mutex); } /** * Close all sessions and all cursors open on any objects. * * Note: always call within enif_mutex_lock/unlock(conn_handle->cache_mutex) */ void __close_all_sessions(WterlConnHandle *conn_handle) { kbtree_t(cache_entries) *t = conn_handle->cache; #define traverse_f(p) { \ kb_del(cache_entries, t, *p); \ enif_free(p); \ } __kb_traverse(struct cache_entry *, t, traverse_f); #undef traverse_f } /** * Close cursors open on 'uri' object. * * Note: always call within enif_mutex_lock/unlock(conn_handle->cache_mutex) */ void __close_cursors_on(WterlConnHandle *conn_handle, const char *uri) { UNUSED(uri); // TODO: find a way to only close those session/cursor* open on uri __close_all_sessions(conn_handle); } /** * Callback to handle error messages. * * Deliver error messages into Erlang to be logged via loger:error() * or on failure, write message to stderr. * * error a WiredTiger, C99 or POSIX error code, which can * be converted to a string using wiredtiger_strerror() * message an error string * -> 0 on success, a non-zero return may cause the WiredTiger * function posting the event to fail, and may even cause * operation or library failure. */ int __wterl_error_handler(WT_EVENT_HANDLER *handler, int error, const char *message) { struct wterl_event_handlers *eh = (struct wterl_event_handlers *)handler; ErlNifEnv *msg_env; ErlNifPid *to_pid; int rc = 0; enif_mutex_lock(eh->error_mutex); msg_env = eh->msg_env_error; to_pid = &eh->to_pid; if (msg_env) { ERL_NIF_TERM msg = enif_make_tuple2(msg_env, ATOM_ERROR, enif_make_tuple2(msg_env, enif_make_atom(msg_env, erl_errno_id(error)), enif_make_string(msg_env, message, ERL_NIF_LATIN1))); enif_clear_env(msg_env); if (!enif_send(NULL, to_pid, msg_env, msg)) fprintf(stderr, "[%d] %s\n", error, message); } else { rc = (fprintf(stderr, "[%d] %s\n", error, message) >= 0 ? 0 : EIO); } enif_mutex_unlock(eh->error_mutex); return rc; } /** * Callback to handle informational messages. * * Deliver informational messages into Erlang to be logged via loger:info() * or on failure, write message to stdout. * * message an informational string * -> 0 on success, a non-zero return may cause the WiredTiger * function posting the event to fail, and may even cause * operation or library failure. */ int __wterl_message_handler(WT_EVENT_HANDLER *handler, const char *message) { struct wterl_event_handlers *eh = (struct wterl_event_handlers *)handler; ErlNifEnv *msg_env; ErlNifPid *to_pid; int rc = 0; enif_mutex_lock(eh->message_mutex); msg_env = eh->msg_env_message; to_pid = &eh->to_pid; if (msg_env) { ERL_NIF_TERM msg = enif_make_tuple2(msg_env, ATOM_MESSAGE, enif_make_string(msg_env, message, ERL_NIF_LATIN1)); enif_clear_env(msg_env); if (!enif_send(NULL, to_pid, msg_env, msg)) fprintf(stderr, "%s\n", message); } else { rc = (printf("%s\n", message) >= 0 ? 0 : EIO); } enif_mutex_unlock(eh->message_mutex); return rc; } /** * Callback to handle progress messages. * * Deliver progress messages into Erlang to be logged via loger:info() * or on failure, written message to stdout. * * operation a string representation of the operation * counter a progress counter [0..100] * -> 0 on success, a non-zero return may cause the WiredTiger * function posting the event to fail, and may even cause * operation or library failure. */ int __wterl_progress_handler(WT_EVENT_HANDLER *handler, const char *operation, uint64_t counter) { struct wterl_event_handlers *eh = (struct wterl_event_handlers *)handler; ErlNifEnv *msg_env; ErlNifPid *to_pid; int rc = 0; enif_mutex_lock(eh->progress_mutex); msg_env = eh->msg_env_progress; to_pid = &eh->to_pid; if (msg_env) { ERL_NIF_TERM msg = enif_make_tuple2(msg_env, ATOM_PROGRESS, enif_make_tuple2(msg_env, enif_make_string(msg_env, operation, ERL_NIF_LATIN1), enif_make_int64(msg_env, counter))); enif_clear_env(msg_env); if (!enif_send(NULL, to_pid, msg_env, msg)) fprintf(stderr, "[%ld] %s\n", counter, operation); } else { rc = (printf("[%ld] %s\n", counter, operation) >= 0 ? 0 : EIO); } enif_mutex_unlock(eh->progress_mutex); return rc; } /** * Convenience function to generate {error, {errno, Reason}} or 'not_found' * Erlang terms to return to callers. * * env NIF environment * rc code returned by WiredTiger */ static ERL_NIF_TERM __strerror_term(ErlNifEnv* env, int rc) { if (rc == WT_NOTFOUND) { return ATOM_NOT_FOUND; } else { /* We return the errno value as well as the message here because the error message provided by strerror() for differ across platforms and/or may be localized to any given language (i18n). Use the errno atom rather than the message when matching in Erlang. You've been warned. */ return enif_make_tuple2(env, ATOM_ERROR, enif_make_tuple2(env, enif_make_atom(env, erl_errno_id(rc)), enif_make_string(env, wiredtiger_strerror(rc), ERL_NIF_LATIN1))); } } /** * Opens a WiredTiger WT_CONNECTION object. * * argv[0] path to directory for the database files * argv[1] WiredTiger connection config string as an Erlang binary * argv[2] WiredTiger session config string as an Erlang binary */ ASYNC_NIF_DECL( wterl_conn_open, { // struct ERL_NIF_TERM config; ERL_NIF_TERM session_config; char homedir[4096]; struct wterl_priv_data *priv; }, { // pre if (!(argc == 3 && (enif_get_string(env, argv[0], args->homedir, sizeof args->homedir, ERL_NIF_LATIN1) > 0) && enif_is_binary(env, argv[1]) && enif_is_binary(env, argv[2]))) { ASYNC_NIF_RETURN_BADARG(); } args->config = enif_make_copy(ASYNC_NIF_WORK_ENV, argv[1]); args->session_config = enif_make_copy(ASYNC_NIF_WORK_ENV, argv[2]); args->priv = (struct wterl_priv_data *)enif_priv_data(env); }, { // work WT_CONNECTION *conn; ErlNifBinary config; ErlNifBinary session_config; if (!enif_inspect_binary(env, args->config, &config)) { ASYNC_NIF_REPLY(enif_make_badarg(env)); return; } if (!enif_inspect_binary(env, args->session_config, &session_config)) { ASYNC_NIF_REPLY(enif_make_badarg(env)); return; } int rc = wiredtiger_open(args->homedir, (WT_EVENT_HANDLER*)&args->priv->eh.handlers, config.data[0] != 0 ? (const char*)config.data : NULL, &conn); if (rc == 0) { WterlConnHandle *conn_handle = enif_alloc_resource(wterl_conn_RESOURCE, sizeof(WterlConnHandle)); if (!conn_handle) { ASYNC_NIF_REPLY(__strerror_term(env, ENOMEM)); return; } if (session_config.size > 1) { char *sc = enif_alloc(session_config.size); if (!sc) { enif_release_resource(conn_handle); ASYNC_NIF_REPLY(__strerror_term(env, ENOMEM)); return; } memcpy(sc, session_config.data, session_config.size); conn_handle->session_config = (const char *)sc; } else { conn_handle->session_config = NULL; } conn_handle->cache_mutex = enif_mutex_create(NULL); enif_mutex_lock(conn_handle->cache_mutex); conn_handle->conn = conn; ERL_NIF_TERM result = enif_make_resource(env, conn_handle); /* Init tree which manages the cache of session/cursor(s) */ conn_handle->cache = kb_init(cache_entries, ASYNC_NIF_MAX_WORKERS); // TODO: size conn_handle->recycled_cache_entries = fifo_q_new(cache_entries, ASYNC_NIF_MAX_WORKERS); /* Keep track of open connections so as to free when unload/reload/etc. are called. */ enif_mutex_lock(args->priv->conns_mutex); SLIST_INSERT_HEAD(&args->priv->conns, conn_handle, conns); enif_mutex_unlock(args->priv->conns_mutex); enif_release_resource(conn_handle); enif_mutex_unlock(conn_handle->cache_mutex); ASYNC_NIF_REPLY(enif_make_tuple2(env, ATOM_OK, result)); } else { ASYNC_NIF_REPLY(__strerror_term(env, rc)); } }, { // post }); /** * Closes a WiredTiger WT_CONNECTION object. * * argv[0] WterlConnHandle resource */ ASYNC_NIF_DECL( wterl_conn_close, { // struct WterlConnHandle* conn_handle; struct wterl_priv_data *priv; }, { // pre if (!(argc == 1 && enif_get_resource(env, argv[0], wterl_conn_RESOURCE, (void**)&args->conn_handle))) { ASYNC_NIF_RETURN_BADARG(); } enif_keep_resource((void*)args->conn_handle); args->priv = (struct wterl_priv_data *)enif_priv_data(env); }, { // work /* Free up the shared sessions and cursors. */ enif_mutex_lock(args->conn_handle->cache_mutex); __close_all_sessions(args->conn_handle); if (args->conn_handle->session_config) { enif_free((char *)args->conn_handle->session_config); args->conn_handle->session_config = NULL; } WT_CONNECTION* conn = args->conn_handle->conn; int rc = conn->close(conn, NULL); /* Connection is closed, remove it so we don't free on unload/reload/etc. */ enif_mutex_lock(args->priv->conns_mutex); SLIST_REMOVE(&args->priv->conns, args->conn_handle, wterl_conn, conns); enif_mutex_unlock(args->priv->conns_mutex); enif_mutex_unlock(args->conn_handle->cache_mutex); enif_mutex_destroy(args->conn_handle->cache_mutex); memset(args->conn_handle, 0, sizeof(WterlConnHandle)); ASYNC_NIF_REPLY(rc == 0 ? ATOM_OK : __strerror_term(env, rc)); }, { // post enif_release_resource((void*)args->conn_handle); }); /** * Create a WiredTiger table, column group, index or file. * * We create, use and discard a WT_SESSION here because table creation is not * too performance sensitive. * * argv[0] WterlConnHandle resource * argv[1] object name URI string * argv[2] config string as an Erlang binary */ ASYNC_NIF_DECL( wterl_create, { // struct WterlConnHandle *conn_handle; Uri uri; ERL_NIF_TERM config; }, { // pre if (!(argc == 3 && enif_get_resource(env, argv[0], wterl_conn_RESOURCE, (void**)&args->conn_handle) && (enif_get_string(env, argv[1], args->uri, sizeof args->uri, ERL_NIF_LATIN1) > 0) && enif_is_binary(env, argv[2]))) { ASYNC_NIF_RETURN_BADARG(); } args->config = enif_make_copy(ASYNC_NIF_WORK_ENV, argv[2]); enif_keep_resource((void*)args->conn_handle); }, { // work ErlNifBinary config; if (!enif_inspect_binary(env, args->config, &config)) { ASYNC_NIF_REPLY(enif_make_badarg(env)); return; } /* We create, use and discard a WT_SESSION here because a) we don't need a cursor and b) we don't anticipate doing this operation frequently enough to impact performance. */ WT_CONNECTION *conn = args->conn_handle->conn; WT_SESSION *session = NULL; int rc = conn->open_session(conn, NULL, args->conn_handle->session_config, &session); if (rc != 0) { ASYNC_NIF_REPLY(__strerror_term(env, rc)); return; } rc = session->create(session, args->uri, (const char*)config.data); (void)session->close(session, NULL); ASYNC_NIF_REPLY(rc == 0 ? ATOM_OK : __strerror_term(env, rc)); }, { // post enif_release_resource((void*)args->conn_handle); }); /** * Drop (remove) a WiredTiger table, column group, index or file. * * argv[0] WterlConnHandle resource * argv[1] object name URI string * argv[2] config string as an Erlang binary */ ASYNC_NIF_DECL( wterl_drop, { // struct Uri uri; ERL_NIF_TERM config; WterlConnHandle *conn_handle; }, { // pre if (!(argc == 3 && enif_get_resource(env, argv[0], wterl_conn_RESOURCE, (void**)&args->conn_handle) && (enif_get_string(env, argv[1], args->uri, sizeof args->uri, ERL_NIF_LATIN1) > 0) && enif_is_binary(env, argv[2]))) { ASYNC_NIF_RETURN_BADARG(); } args->config = enif_make_copy(ASYNC_NIF_WORK_ENV, argv[2]); enif_keep_resource((void*)args->conn_handle); }, { // work /* This call requires that there be no open cursors referencing the object. */ enif_mutex_lock(args->conn_handle->cache_mutex); __close_cursors_on(args->conn_handle, args->uri); ErlNifBinary config; if (!enif_inspect_binary(env, args->config, &config)) { enif_mutex_unlock(args->conn_handle->cache_mutex); ASYNC_NIF_REPLY(enif_make_badarg(env)); return; } /* We create, use and discard a WT_SESSION here because a) we don't need a cursor and b) we don't anticipate doing this operation frequently enough to impact performance. */ WT_CONNECTION *conn = args->conn_handle->conn; WT_SESSION *session = NULL; int rc = conn->open_session(conn, NULL, args->conn_handle->session_config, &session); if (rc != 0) { enif_mutex_unlock(args->conn_handle->cache_mutex); ASYNC_NIF_REPLY(__strerror_term(env, rc)); return; } /* Note: we locked the context mutex and called __close_cursors_on() earlier so that we are sure that before we call into WiredTiger we have first closed all open cursors referencing this object. Failure to do this will result in EBUSY(16) "Device or resource busy". */ rc = session->drop(session, args->uri, (const char*)config.data); (void)session->close(session, NULL); enif_mutex_unlock(args->conn_handle->cache_mutex); ASYNC_NIF_REPLY(rc == 0 ? ATOM_OK : __strerror_term(env, rc)); }, { // post enif_release_resource((void*)args->conn_handle); }); /** * Rename a WiredTiger table, column group, index or file. * * argv[0] WterlConnHandle resource * argv[1] old object name URI string * argv[2] new object name URI string * argv[3] config string as an Erlang binary */ ASYNC_NIF_DECL( wterl_rename, { // struct Uri oldname; Uri newname; ERL_NIF_TERM config; WterlConnHandle *conn_handle; }, { // pre if (!(argc == 4 && enif_get_resource(env, argv[0], wterl_conn_RESOURCE, (void**)&args->conn_handle) && (enif_get_string(env, argv[1], args->oldname, sizeof args->oldname, ERL_NIF_LATIN1) > 0) && (enif_get_string(env, argv[2], args->newname, sizeof args->newname, ERL_NIF_LATIN1) > 0) && enif_is_binary(env, argv[3]))) { ASYNC_NIF_RETURN_BADARG(); } args->config = enif_make_copy(ASYNC_NIF_WORK_ENV, argv[3]); enif_keep_resource((void*)args->conn_handle); }, { // work /* This call requires that there be no open cursors referencing the object. */ enif_mutex_lock(args->conn_handle->cache_mutex); __close_cursors_on(args->conn_handle, args->oldname); ErlNifBinary config; if (!enif_inspect_binary(env, args->config, &config)) { enif_mutex_unlock(args->conn_handle->cache_mutex); ASYNC_NIF_REPLY(enif_make_badarg(env)); return; } /* We create, use and discard a WT_SESSION here because a) we don't need a cursor and b) we don't anticipate doing this operation frequently enough to impact performance. */ WT_CONNECTION *conn = args->conn_handle->conn; WT_SESSION *session = NULL; int rc = conn->open_session(conn, NULL, args->conn_handle->session_config, &session); if (rc != 0) { enif_mutex_unlock(args->conn_handle->cache_mutex); ASYNC_NIF_REPLY(__strerror_term(env, rc)); return; } /* Note: we locked the context mutex and called __close_cursors_on() earlier so that we are sure that before we call into WiredTiger we have first closed all open cursors referencing this object. Failure to do this will result in EBUSY(16) "Device or resource busy". */ rc = session->rename(session, args->oldname, args->newname, (const char*)config.data); (void)session->close(session, NULL); enif_mutex_unlock(args->conn_handle->cache_mutex); ASYNC_NIF_REPLY(rc == 0 ? ATOM_OK : __strerror_term(env, rc)); }, { // post enif_release_resource((void*)args->conn_handle); }); /** * Salvage rebuilds the file, or files of which a table is comprised, * discarding any corrupted file blocks. Use this as a fallback if * an attempt to open a WiredTiger database object fails. * * argv[0] WterlConnHandle resource * argv[1] object name URI string * argv[2] config string as an Erlang binary */ ASYNC_NIF_DECL( wterl_salvage, { // struct WterlConnHandle *conn_handle; Uri uri; ERL_NIF_TERM config; }, { // pre if (!(argc == 3 && enif_get_resource(env, argv[0], wterl_conn_RESOURCE, (void**)&args->conn_handle) && (enif_get_string(env, argv[1], args->uri, sizeof args->uri, ERL_NIF_LATIN1) > 0) && enif_is_binary(env, argv[2]))) { ASYNC_NIF_RETURN_BADARG(); } args->config = enif_make_copy(ASYNC_NIF_WORK_ENV, argv[2]); enif_keep_resource((void*)args->conn_handle); }, { // work /* This call requires that there be no open cursors referencing the object. */ enif_mutex_lock(args->conn_handle->cache_mutex); __close_cursors_on(args->conn_handle, args->uri); ErlNifBinary config; if (!enif_inspect_binary(env, args->config, &config)) { enif_mutex_unlock(args->conn_handle->cache_mutex); ASYNC_NIF_REPLY(enif_make_badarg(env)); return; } /* We create, use and discard a WT_SESSION here because a) we don't need a cursor and b) we don't anticipate doing this operation frequently enough to impact performance. */ WT_CONNECTION *conn = args->conn_handle->conn; WT_SESSION *session = NULL; int rc = conn->open_session(conn, NULL, args->conn_handle->session_config, &session); if (rc != 0) { enif_mutex_unlock(args->conn_handle->cache_mutex); ASYNC_NIF_REPLY(__strerror_term(env, rc)); return; } rc = session->salvage(session, args->uri, (const char*)config.data); (void)session->close(session, NULL); enif_mutex_unlock(args->conn_handle->cache_mutex); ASYNC_NIF_REPLY(rc == 0 ? ATOM_OK : __strerror_term(env, rc)); }, { // post enif_release_resource((void*)args->conn_handle); }); /** * Checkpoint writes a transactionally consistent snapshot of a database or set * of objects specified. * * argv[0] WterlConnHandle resource * argv[1] config string as an Erlang binary */ ASYNC_NIF_DECL( wterl_checkpoint, { // struct WterlConnHandle *conn_handle; ERL_NIF_TERM config; }, { // pre if (!(argc == 2 && enif_get_resource(env, argv[0], wterl_conn_RESOURCE, (void**)&args->conn_handle) && enif_is_binary(env, argv[1]))) { ASYNC_NIF_RETURN_BADARG(); } args->config = enif_make_copy(ASYNC_NIF_WORK_ENV, argv[1]); enif_keep_resource((void*)args->conn_handle); }, { // work ErlNifBinary config; if (!enif_inspect_binary(env, args->config, &config)) { ASYNC_NIF_REPLY(enif_make_badarg(env)); return; } WT_CONNECTION *conn = args->conn_handle->conn; WT_SESSION *session = NULL; int rc = conn->open_session(conn, NULL, args->conn_handle->session_config, &session); if (rc != 0) { ASYNC_NIF_REPLY(__strerror_term(env, rc)); return; } rc = session->checkpoint(session, (const char*)config.data); (void)session->close(session, NULL); ASYNC_NIF_REPLY(rc == 0 ? ATOM_OK : __strerror_term(env, rc)); }, { // post enif_release_resource((void*)args->conn_handle); }); /** * Truncate a file, table or cursor range. * * argv[0] WterlConnHandle resource * argv[1] object name URI string * argv[2] start key as an Erlang binary * argv[3] stop key as an Erlang binary * argv[4] config string as an Erlang binary */ ASYNC_NIF_DECL( wterl_truncate, { // struct WterlConnHandle *conn_handle; Uri uri; int from_first; int to_last; ERL_NIF_TERM start; ERL_NIF_TERM stop; ERL_NIF_TERM config; }, { // pre if (!(argc == 5 && enif_get_resource(env, argv[0], wterl_conn_RESOURCE, (void**)&args->conn_handle) && (enif_get_string(env, argv[1], args->uri, sizeof args->uri, ERL_NIF_LATIN1) > 0) && enif_is_binary(env, argv[4]))) { ASYNC_NIF_RETURN_BADARG(); } if (enif_is_binary(env, argv[2])) { args->from_first = 0; args->start = enif_make_copy(ASYNC_NIF_WORK_ENV, argv[2]); } else if (enif_is_atom(env, argv[2])) { // TODO && argv[2] == ATOM_FIRST) { args->from_first = 1; args->start = 0; } else { ASYNC_NIF_RETURN_BADARG(); } if (enif_is_binary(env, argv[3])) { args->to_last = 0; args->stop = enif_make_copy(ASYNC_NIF_WORK_ENV, argv[3]); } else if (enif_is_atom(env, argv[3])) { // TODO && argv[3] == ATOM_LAST) { args->to_last = 1; args->stop = 0; } else { ASYNC_NIF_RETURN_BADARG(); } args->config = enif_make_copy(ASYNC_NIF_WORK_ENV, argv[4]); enif_keep_resource((void*)args->conn_handle); affinity = __str_hash(args->uri); }, { // work /* This call requires that there be no open cursors referencing the object. */ enif_mutex_lock(args->conn_handle->cache_mutex); __close_cursors_on(args->conn_handle, args->uri); ErlNifBinary config; if (!enif_inspect_binary(env, args->config, &config)) { enif_mutex_unlock(args->conn_handle->cache_mutex); ASYNC_NIF_REPLY(enif_make_badarg(env)); return; } /* Note: we locked the context mutex and called __close_cursors_on() earlier so that we are sure that before we call into WiredTiger we have first closed all open cursors referencing this object. Failure to do this will result in EBUSY(16) "Device or resource busy". */ WT_CONNECTION *conn = args->conn_handle->conn; WT_SESSION *session = NULL; int rc = conn->open_session(conn, NULL, args->conn_handle->session_config, &session); if (rc != 0) { enif_mutex_unlock(args->conn_handle->cache_mutex); ASYNC_NIF_REPLY(__strerror_term(env, rc)); return; } ErlNifBinary start_key; ErlNifBinary stop_key; WT_CURSOR *start = NULL; WT_CURSOR *stop = NULL; /* The truncate method should be passed either a URI or start/stop cursors, but not both. So we simply open cursors no matter what to avoid the mess. */ if (!args->from_first) { if (!enif_inspect_binary(env, args->start, &start_key)) { enif_mutex_unlock(args->conn_handle->cache_mutex); ASYNC_NIF_REPLY(enif_make_badarg(env)); return; } } rc = session->open_cursor(session, args->uri, NULL, "raw", &start); if (rc != 0) { session->close(session, NULL); enif_mutex_unlock(args->conn_handle->cache_mutex); ASYNC_NIF_REPLY(__strerror_term(env, rc)); return; } /* Position the start cursor at the first record or the specified record. */ if (args->from_first) { rc = start->next(start); if (rc != 0) { start->close(start); session->close(session, NULL); enif_mutex_unlock(args->conn_handle->cache_mutex); ASYNC_NIF_REPLY(__strerror_term(env, rc)); return; } } else { WT_ITEM item_start; item_start.data = start_key.data; item_start.size = start_key.size; start->set_key(start, item_start); } if (!args->to_last) { if (!enif_inspect_binary(env, args->stop, &stop_key)) { start->close(start); session->close(session, NULL); enif_mutex_unlock(args->conn_handle->cache_mutex); ASYNC_NIF_REPLY(enif_make_badarg(env)); return; } } rc = session->open_cursor(session, args->uri, NULL, "raw", &stop); if (rc != 0) { start->close(start); session->close(session, NULL); enif_mutex_unlock(args->conn_handle->cache_mutex); ASYNC_NIF_REPLY(__strerror_term(env, rc)); return; } /* Position the stop cursor at the last record or the specified record. */ if (args->to_last) { rc = stop->prev(stop); if (rc != 0) { start->close(start); stop->close(stop); session->close(session, NULL); enif_mutex_unlock(args->conn_handle->cache_mutex); ASYNC_NIF_REPLY(__strerror_term(env, rc)); return; } } else { WT_ITEM item_stop; item_stop.data = stop_key.data; item_stop.size = stop_key.size; stop->set_key(stop, item_stop); } /* Always pass NULL for URI here because we always specify the range with the start and stop cursors which were opened referencing that URI. */ rc = session->truncate(session, NULL, start, stop, (const char*)config.data); start->close(start); stop->close(stop); session->close(session, NULL); enif_mutex_unlock(args->conn_handle->cache_mutex); ASYNC_NIF_REPLY(rc == 0 ? ATOM_OK : __strerror_term(env, rc)); }, { // post enif_release_resource((void*)args->conn_handle); }); /** * Upgrade upgrades a file or table, if upgrade is required. * * argv[0] WterlConnHandle resource * argv[1] object name URI string * argv[2] config string as an Erlang binary */ ASYNC_NIF_DECL( wterl_upgrade, { // struct WterlConnHandle *conn_handle; Uri uri; ERL_NIF_TERM config; }, { // pre if (!(argc == 3 && enif_get_resource(env, argv[0], wterl_conn_RESOURCE, (void**)&args->conn_handle) && (enif_get_string(env, argv[1], args->uri, sizeof args->uri, ERL_NIF_LATIN1) > 0) && enif_is_binary(env, argv[2]))) { ASYNC_NIF_RETURN_BADARG(); } args->config = enif_make_copy(ASYNC_NIF_WORK_ENV, argv[2]); enif_keep_resource((void*)args->conn_handle); }, { // work /* This call requires that there be no open cursors referencing the object. */ enif_mutex_lock(args->conn_handle->cache_mutex); __close_cursors_on(args->conn_handle, args->uri); ErlNifBinary config; if (!enif_inspect_binary(env, args->config, &config)) { enif_mutex_unlock(args->conn_handle->cache_mutex); ASYNC_NIF_REPLY(enif_make_badarg(env)); return; } /* We create, use and discard a WT_SESSION here because a) we don't need a cursor and b) we don't anticipate doing this operation frequently enough to impact performance. */ WT_CONNECTION *conn = args->conn_handle->conn; WT_SESSION *session = NULL; int rc = conn->open_session(conn, NULL, args->conn_handle->session_config, &session); if (rc != 0) { enif_mutex_unlock(args->conn_handle->cache_mutex); ASYNC_NIF_REPLY(__strerror_term(env, rc)); return; } rc = session->upgrade(session, args->uri, (const char*)config.data); (void)session->close(session, NULL); enif_mutex_unlock(args->conn_handle->cache_mutex); ASYNC_NIF_REPLY(rc == 0 ? ATOM_OK : __strerror_term(env, rc)); }, { // post enif_release_resource((void*)args->conn_handle); }); /** * Verify reports if a file, or the files of which a table is comprised, have * been corrupted. * * argv[0] WterlConnHandle resource * argv[1] object name URI string * argv[2] config string as an Erlang binary */ ASYNC_NIF_DECL( wterl_verify, { // struct WterlConnHandle *conn_handle; Uri uri; ERL_NIF_TERM config; }, { // pre if (!(argc == 3 && enif_get_resource(env, argv[0], wterl_conn_RESOURCE, (void**)&args->conn_handle) && (enif_get_string(env, argv[1], args->uri, sizeof args->uri, ERL_NIF_LATIN1) > 0) && enif_is_binary(env, argv[2]))) { ASYNC_NIF_RETURN_BADARG(); } args->config = enif_make_copy(ASYNC_NIF_WORK_ENV, argv[2]); enif_keep_resource((void*)args->conn_handle); }, { // work /* This call requires that there be no open cursors referencing the object. */ enif_mutex_lock(args->conn_handle->cache_mutex); __close_all_sessions(args->conn_handle); ErlNifBinary config; if (!enif_inspect_binary(env, args->config, &config)) { enif_mutex_unlock(args->conn_handle->cache_mutex); ASYNC_NIF_REPLY(enif_make_badarg(env)); return; } /* We create, use and discard a WT_SESSION here because a) we don't need a cursor and b) we don't anticipate doing this operation frequently enough to impact performance. */ WT_CONNECTION *conn = args->conn_handle->conn; WT_SESSION *session = NULL; int rc = conn->open_session(conn, NULL, args->conn_handle->session_config, &session); if (rc != 0) { enif_mutex_unlock(args->conn_handle->cache_mutex); ASYNC_NIF_REPLY(__strerror_term(env, rc)); return; } rc = session->verify(session, args->uri, (const char*)config.data); (void)session->close(session, NULL); enif_mutex_unlock(args->conn_handle->cache_mutex); ASYNC_NIF_REPLY(rc == 0 ? ATOM_OK : __strerror_term(env, rc)); }, { // post enif_release_resource((void*)args->conn_handle); }); /** * Delete a key's value from the specified table or index. * * argv[0] WterlConnHandle resource * argv[1] object name URI string * argv[2] key as an Erlang binary */ ASYNC_NIF_DECL( wterl_delete, { // struct WterlConnHandle *conn_handle; Uri uri; ERL_NIF_TERM key; }, { // pre if (!(argc == 3 && enif_get_resource(env, argv[0], wterl_conn_RESOURCE, (void**)&args->conn_handle) && (enif_get_string(env, argv[1], args->uri, sizeof args->uri, ERL_NIF_LATIN1) > 0) && enif_is_binary(env, argv[2]))) { ASYNC_NIF_RETURN_BADARG(); } args->key = enif_make_copy(ASYNC_NIF_WORK_ENV, argv[2]); enif_keep_resource((void*)args->conn_handle); affinity = __str_hash(args->uri); }, { // work ErlNifBinary key; if (!enif_inspect_binary(env, args->key, &key)) { ASYNC_NIF_REPLY(enif_make_badarg(env)); return; } struct wterl_ctx *ctx = NULL; WT_CURSOR *cursor = NULL; int rc = __retain_ctx(args->conn_handle, &ctx, args->conn_handle->session_config, args->uri, "overwrite,raw"); if (rc != 0) { ASYNC_NIF_REPLY(__strerror_term(env, rc)); return; } cursor = ctx->cursors[0]; WT_ITEM item_key; item_key.data = key.data; item_key.size = key.size; cursor->set_key(cursor, &item_key); rc = cursor->remove(cursor); ASYNC_NIF_REPLY(rc == 0 ? ATOM_OK : __strerror_term(env, rc)); __release_ctx(args->conn_handle, ctx); }, { // post enif_release_resource((void*)args->conn_handle); }); /** * Get the value for the key's value from the specified table or index. * * argv[0] WterlConnHandle resource * argv[1] object name URI string * argv[2] key as an Erlang binary */ ASYNC_NIF_DECL( wterl_get, { // struct WterlConnHandle *conn_handle; Uri uri; ERL_NIF_TERM key; }, { // pre if (!(argc == 3 && enif_get_resource(env, argv[0], wterl_conn_RESOURCE, (void**)&args->conn_handle) && (enif_get_string(env, argv[1], args->uri, sizeof args->uri, ERL_NIF_LATIN1) > 0) && enif_is_binary(env, argv[2]))) { ASYNC_NIF_RETURN_BADARG(); } args->key = enif_make_copy(ASYNC_NIF_WORK_ENV, argv[2]); enif_keep_resource((void*)args->conn_handle); affinity = __str_hash(args->uri); }, { // work ErlNifBinary key; if (!enif_inspect_binary(env, args->key, &key)) { ASYNC_NIF_REPLY(enif_make_badarg(env)); return; } struct wterl_ctx *ctx = NULL; WT_CURSOR *cursor = NULL; int rc = __retain_ctx(args->conn_handle, &ctx, args->conn_handle->session_config, args->uri, "overwrite,raw"); if (rc != 0) { ASYNC_NIF_REPLY(__strerror_term(env, rc)); return; } cursor = ctx->cursors[0]; WT_ITEM item_key; WT_ITEM item_value; item_key.data = key.data; item_key.size = key.size; cursor->set_key(cursor, &item_key); rc = cursor->search(cursor); if (rc != 0) { ASYNC_NIF_REPLY(__strerror_term(env, rc)); return; } rc = cursor->get_value(cursor, &item_value); if (rc != 0) { ASYNC_NIF_REPLY(__strerror_term(env, rc)); return; } ERL_NIF_TERM value; unsigned char *bin = enif_make_new_binary(env, item_value.size, &value); memcpy(bin, item_value.data, item_value.size); ASYNC_NIF_REPLY(enif_make_tuple2(env, ATOM_OK, value)); __release_ctx(args->conn_handle, ctx); }, { // post enif_release_resource((void*)args->conn_handle); }); /** * Store a value for the key's value from the specified table or index. * * argv[0] WterlConnHandle resource * argv[1] object name URI string * argv[2] key as an Erlang binary * argv[3] value as an Erlang binary */ ASYNC_NIF_DECL( wterl_put, { // struct WterlConnHandle *conn_handle; Uri uri; ERL_NIF_TERM key; ERL_NIF_TERM value; }, { // pre if (!(argc == 4 && enif_get_resource(env, argv[0], wterl_conn_RESOURCE, (void**)&args->conn_handle) && (enif_get_string(env, argv[1], args->uri, sizeof args->uri, ERL_NIF_LATIN1) > 0) && enif_is_binary(env, argv[2]) && enif_is_binary(env, argv[3]))) { ASYNC_NIF_RETURN_BADARG(); } args->key = enif_make_copy(ASYNC_NIF_WORK_ENV, argv[2]); args->value = enif_make_copy(ASYNC_NIF_WORK_ENV, argv[3]); enif_keep_resource((void*)args->conn_handle); affinity = __str_hash(args->uri); }, { // work ErlNifBinary key; ErlNifBinary value; if (!enif_inspect_binary(env, args->key, &key)) { ASYNC_NIF_REPLY(enif_make_badarg(env)); return; } if (!enif_inspect_binary(env, args->value, &value)) { ASYNC_NIF_REPLY(enif_make_badarg(env)); return; } struct wterl_ctx *ctx = NULL; WT_CURSOR *cursor = NULL; int rc = __retain_ctx(args->conn_handle, &ctx, args->conn_handle->session_config, args->uri, "overwrite,raw"); if (rc != 0) { ASYNC_NIF_REPLY(__strerror_term(env, rc)); return; } cursor = ctx->cursors[0]; WT_ITEM item_key; WT_ITEM item_value; item_key.data = key.data; item_key.size = key.size; cursor->set_key(cursor, &item_key); item_value.data = value.data; item_value.size = value.size; cursor->set_value(cursor, &item_value); rc = cursor->insert(cursor); __release_ctx(args->conn_handle, ctx); ASYNC_NIF_REPLY(rc == 0 ? ATOM_OK : __strerror_term(env, rc)); }, { // post enif_release_resource((void*)args->conn_handle); }); /** * Open a cursor on a table or index. * * argv[0] WterlConnHandle resource * argv[1] object name URI string * argv[2] config string as an Erlang binary */ ASYNC_NIF_DECL( wterl_cursor_open, { // struct WterlConnHandle *conn_handle; Uri uri; ERL_NIF_TERM config; }, { // pre if (!(argc == 3 && enif_get_resource(env, argv[0], wterl_conn_RESOURCE, (void**)&args->conn_handle) && (enif_get_string(env, argv[1], args->uri, sizeof args->uri, ERL_NIF_LATIN1) > 0) && enif_is_binary(env, argv[2]))) { ASYNC_NIF_RETURN_BADARG(); } args->config = enif_make_copy(ASYNC_NIF_WORK_ENV, argv[2]); enif_keep_resource((void*)args->conn_handle); affinity = __str_hash(args->uri); }, { // work ErlNifBinary config; if (!enif_inspect_binary(env, args->config, &config)) { ASYNC_NIF_REPLY(enif_make_badarg(env)); return; } /* We create a separate session here to ensure that operations are thread safe. */ WT_CONNECTION *conn = args->conn_handle->conn; WT_SESSION *session = NULL; int rc = conn->open_session(conn, NULL, args->conn_handle->session_config, &session); if (rc != 0) { ASYNC_NIF_REPLY(__strerror_term(env, rc)); return; } WT_CURSOR* cursor; rc = session->open_cursor(session, args->uri, NULL, (config.data[0] != 0) ? (char *)config.data : "overwrite,raw", &cursor); if (rc != 0) { session->close(session, NULL); ASYNC_NIF_REPLY(__strerror_term(env, rc)); return; } WterlCursorHandle* cursor_handle = enif_alloc_resource(wterl_cursor_RESOURCE, sizeof(WterlCursorHandle)); if (!cursor_handle) { cursor->close(cursor); session->close(session, NULL); ASYNC_NIF_REPLY(__strerror_term(env, ENOMEM)); return; } cursor_handle->session = session; cursor_handle->cursor = cursor; ERL_NIF_TERM result = enif_make_resource(env, cursor_handle); enif_release_resource(cursor_handle); ASYNC_NIF_REPLY(enif_make_tuple2(env, ATOM_OK, result)); }, { // post enif_release_resource((void*)args->conn_handle); }); /** * Close a cursor releasing resources it held. * * argv[0] WterlCursorHandle resource */ ASYNC_NIF_DECL( wterl_cursor_close, { // struct WterlCursorHandle *cursor_handle; }, { // pre if (!(argc == 1 && enif_get_resource(env, argv[0], wterl_cursor_RESOURCE, (void**)&args->cursor_handle))) { ASYNC_NIF_RETURN_BADARG(); } enif_keep_resource((void*)args->cursor_handle); }, { // work /* Note: session->close() will cause all open cursors in the session to be closed first, so we don't have explicitly to do that here. WT_CURSOR *cursor = args->cursor_handle->cursor; rc = cursor->close(cursor); */ WT_SESSION *session = args->cursor_handle->session; int rc = session->close(session, NULL); ASYNC_NIF_REPLY(rc == 0 ? ATOM_OK : __strerror_term(env, rc)); }, { // post enif_release_resource((void*)args->cursor_handle); }); static ERL_NIF_TERM __cursor_key_ret(ErlNifEnv *env, WT_CURSOR *cursor, int rc) { if (rc == 0) { WT_ITEM item_key; rc = cursor->get_key(cursor, &item_key); if (rc == 0) { ERL_NIF_TERM key; memcpy(enif_make_new_binary(env, item_key.size, &key), item_key.data, item_key.size); return enif_make_tuple2(env, ATOM_OK, key); } } return __strerror_term(env, rc); } static ERL_NIF_TERM __cursor_kv_ret(ErlNifEnv *env, WT_CURSOR *cursor, int rc) { if (rc == 0) { WT_ITEM item_key, item_value; rc = cursor->get_key(cursor, &item_key); if (rc == 0) { rc = cursor->get_value(cursor, &item_value); if (rc == 0) { ERL_NIF_TERM key, value; memcpy(enif_make_new_binary(env, item_key.size, &key), item_key.data, item_key.size); memcpy(enif_make_new_binary(env, item_value.size, &value), item_value.data, item_value.size); return enif_make_tuple3(env, ATOM_OK, key, value); } } } return __strerror_term(env, rc); } static ERL_NIF_TERM __cursor_value_ret(ErlNifEnv* env, WT_CURSOR *cursor, int rc) { if (rc == 0) { WT_ITEM item_value; rc = cursor->get_value(cursor, &item_value); if (rc == 0) { ERL_NIF_TERM value; memcpy(enif_make_new_binary(env, item_value.size, &value), item_value.data, item_value.size); return enif_make_tuple2(env, ATOM_OK, value); } } return __strerror_term(env, rc); } /** * Use a cursor to fetch the next key/value pair from the table or index. * * argv[0] WterlCursorHandle resource */ ASYNC_NIF_DECL( wterl_cursor_next, { // struct WterlCursorHandle *cursor_handle; }, { // pre if (!(argc == 1 && enif_get_resource(env, argv[0], wterl_cursor_RESOURCE, (void**)&args->cursor_handle))) { ASYNC_NIF_RETURN_BADARG(); } enif_keep_resource((void*)args->cursor_handle); }, { // work WT_CURSOR* cursor = args->cursor_handle->cursor; ASYNC_NIF_REPLY(__cursor_kv_ret(env, cursor, cursor->next(cursor))); }, { // post enif_release_resource((void*)args->cursor_handle); }); /** * Use a cursor to fetch the next key from the table or index. * * argv[0] WterlCursorHandle resource */ ASYNC_NIF_DECL( wterl_cursor_next_key, { // struct WterlCursorHandle *cursor_handle; }, { // pre if (!(enif_get_resource(env, argv[0], wterl_cursor_RESOURCE, (void**)&args->cursor_handle))) { ASYNC_NIF_RETURN_BADARG(); } enif_keep_resource((void*)args->cursor_handle); }, { // work WT_CURSOR* cursor = args->cursor_handle->cursor; ASYNC_NIF_REPLY(__cursor_key_ret(env, cursor, cursor->next(cursor))); }, { // post enif_release_resource((void*)args->cursor_handle); }); /** * Use a cursor to fetch the next value from the table or index. * * argv[0] WterlCursorHandle resource */ ASYNC_NIF_DECL( wterl_cursor_next_value, { // struct WterlCursorHandle *cursor_handle; }, { // pre if (!(argc == 1 && enif_get_resource(env, argv[0], wterl_cursor_RESOURCE, (void**)&args->cursor_handle))) { ASYNC_NIF_RETURN_BADARG(); } enif_keep_resource((void*)args->cursor_handle); }, { // work WT_CURSOR* cursor = args->cursor_handle->cursor; ASYNC_NIF_REPLY(__cursor_value_ret(env, cursor, cursor->next(cursor))); }, { // post enif_release_resource((void*)args->cursor_handle); }); /** * Use a cursor to fetch the previous key/value pair from the table or index. * * argv[0] WterlCursorHandle resource */ ASYNC_NIF_DECL( wterl_cursor_prev, { // struct WterlCursorHandle *cursor_handle; }, { // pre if (!(argc == 1 && enif_get_resource(env, argv[0], wterl_cursor_RESOURCE, (void**)&args->cursor_handle))) { ASYNC_NIF_RETURN_BADARG(); } enif_keep_resource((void*)args->cursor_handle); }, { // work WT_CURSOR* cursor = args->cursor_handle->cursor; ASYNC_NIF_REPLY(__cursor_kv_ret(env, cursor, cursor->prev(cursor))); }, { // post enif_release_resource((void*)args->cursor_handle); }); /** * Use a cursor to fetch the previous key from the table or index. * * argv[0] WterlCursorHandle resource */ ASYNC_NIF_DECL( wterl_cursor_prev_key, { // struct WterlCursorHandle *cursor_handle; }, { // pre if (!(argc == 1 && enif_get_resource(env, argv[0], wterl_cursor_RESOURCE, (void**)&args->cursor_handle))) { ASYNC_NIF_RETURN_BADARG(); } enif_keep_resource((void*)args->cursor_handle); }, { // work WT_CURSOR* cursor = args->cursor_handle->cursor; ASYNC_NIF_REPLY(__cursor_key_ret(env, cursor, cursor->prev(cursor))); }, { // post enif_release_resource((void*)args->cursor_handle); }); /** * Use a cursor to fetch the previous value from the table or index. * * argv[0] WterlCursorHandle resource */ ASYNC_NIF_DECL( wterl_cursor_prev_value, { // struct WterlCursorHandle *cursor_handle; }, { // pre if (!(argc == 1 && enif_get_resource(env, argv[0], wterl_cursor_RESOURCE, (void**)&args->cursor_handle))) { ASYNC_NIF_RETURN_BADARG(); } enif_keep_resource((void*)args->cursor_handle); }, { // work WT_CURSOR* cursor = args->cursor_handle->cursor; ASYNC_NIF_REPLY(__cursor_value_ret(env, cursor, cursor->prev(cursor))); }, { // post enif_release_resource((void*)args->cursor_handle); }); /** * Position the cursor at the record matching the key. * * argv[0] WterlCursorHandle resource * argv[1] key as an Erlang binary * argv[2] boolean, when false the cursor will be reset */ ASYNC_NIF_DECL( wterl_cursor_search, { // struct WterlCursorHandle *cursor_handle; ERL_NIF_TERM key; int scanning; }, { // pre static ERL_NIF_TERM ATOM_TRUE = 0; if (ATOM_TRUE == 0) enif_make_atom(env, "true"); if (!(argc == 3 && enif_get_resource(env, argv[0], wterl_cursor_RESOURCE, (void**)&args->cursor_handle) && enif_is_binary(env, argv[1]) && enif_is_atom(env, argv[2]))) { ASYNC_NIF_RETURN_BADARG(); } args->key = enif_make_copy(ASYNC_NIF_WORK_ENV, argv[1]); args->scanning = (enif_is_identical(argv[2], ATOM_TRUE)) ? 1 : 0; enif_keep_resource((void*)args->cursor_handle); }, { // work WT_CURSOR* cursor = args->cursor_handle->cursor; ErlNifBinary key; if (!enif_inspect_binary(env, args->key, &key)) { ASYNC_NIF_REPLY(enif_make_badarg(env)); return; } WT_ITEM item_key; item_key.data = key.data; item_key.size = key.size; cursor->set_key(cursor, &item_key); ERL_NIF_TERM reply = __cursor_value_ret(env, cursor, cursor->search(cursor)); if (!args->scanning) (void)cursor->reset(cursor); ASYNC_NIF_REPLY(reply); }, { // post enif_release_resource((void*)args->cursor_handle); }); /** * Position the cursor at the record matching the key if it exists, or a record * that would be adjacent. * * argv[0] WterlCursorHandle resource * argv[1] key as an Erlang binary * argv[2] boolean, when false the cursor will be reset */ ASYNC_NIF_DECL( wterl_cursor_search_near, { // struct WterlCursorHandle *cursor_handle; ERL_NIF_TERM key; int scanning; }, { // pre static ERL_NIF_TERM ATOM_TRUE = 0; if (ATOM_TRUE == 0) enif_make_atom(env, "true"); if (!(argc == 3 && enif_get_resource(env, argv[0], wterl_cursor_RESOURCE, (void**)&args->cursor_handle) && enif_is_binary(env, argv[1]) && enif_is_atom(env, argv[2]))) { ASYNC_NIF_RETURN_BADARG(); } args->key = enif_make_copy(ASYNC_NIF_WORK_ENV, argv[1]); args->scanning = (enif_is_identical(argv[2], ATOM_TRUE)) ? 1 : 0; enif_keep_resource((void*)args->cursor_handle); }, { // work WT_CURSOR* cursor = args->cursor_handle->cursor; ErlNifBinary key; if (!enif_inspect_binary(env, args->key, &key)) { ASYNC_NIF_REPLY(enif_make_badarg(env)); return; } WT_ITEM item_key; int exact = 0; item_key.data = key.data; item_key.size = key.size; cursor->set_key(cursor, &item_key); int rc = cursor->search_near(cursor, &exact); if (rc != 0) { (void)cursor->reset(cursor); ASYNC_NIF_REPLY(__strerror_term(env, rc)); return; } if (!args->scanning) (void)cursor->reset(cursor); if (exact == 0) { /* an exact match */ ASYNC_NIF_REPLY(enif_make_tuple2(env, ATOM_OK, enif_make_atom(env, "match"))); } else if (exact < 0) { /* cursor now positioned at the next smaller key */ ASYNC_NIF_REPLY(enif_make_tuple2(env, ATOM_OK, enif_make_atom(env, "lt"))); } else if (exact > 0) { /* cursor now positioned at the next larger key */ ASYNC_NIF_REPLY(enif_make_tuple2(env, ATOM_OK, enif_make_atom(env, "gt"))); } }, { // post enif_release_resource((void*)args->cursor_handle); }); /** * Reset the position of the cursor. * * Any resources held by the cursor are released, and the cursor's key and * position are no longer valid. A subsequent iteration with wterl_cursor_next * will move to the first record, or with wterl_cursor_prev will move to the * last record. * * argv[0] WterlCursorHandle resource */ ASYNC_NIF_DECL( wterl_cursor_reset, { // struct WterlCursorHandle *cursor_handle; }, { // pre if (!(argc == 1 && enif_get_resource(env, argv[0], wterl_cursor_RESOURCE, (void**)&args->cursor_handle))) { ASYNC_NIF_RETURN_BADARG(); } enif_keep_resource((void*)args->cursor_handle); }, { // work WT_CURSOR* cursor = args->cursor_handle->cursor; int rc = cursor->reset(cursor); ASYNC_NIF_REPLY(rc == 0 ? ATOM_OK : __strerror_term(env, rc)); }, { // post enif_release_resource((void*)args->cursor_handle); }); /** * Insert, or overwrite, a record using a cursor. * * argv[0] WterlCursorHandle resource * argv[1] key as an Erlang binary * argv[2] value as an Erlang binary */ ASYNC_NIF_DECL( wterl_cursor_insert, { // struct WterlCursorHandle *cursor_handle; ERL_NIF_TERM key; ERL_NIF_TERM value; int rc; }, { // pre if (!(argc == 3 && enif_get_resource(env, argv[0], wterl_cursor_RESOURCE, (void**)&args->cursor_handle) && enif_is_binary(env, argv[1]) && enif_is_binary(env, argv[2]))) { ASYNC_NIF_RETURN_BADARG(); } args->key = enif_make_copy(ASYNC_NIF_WORK_ENV, argv[1]); args->value = enif_make_copy(ASYNC_NIF_WORK_ENV, argv[2]); enif_keep_resource((void*)args->cursor_handle); }, { // work WT_CURSOR* cursor = args->cursor_handle->cursor; ErlNifBinary key; ErlNifBinary value; if (!enif_inspect_binary(env, args->key, &key)) { ASYNC_NIF_REPLY(enif_make_badarg(env)); return; } if (!enif_inspect_binary(env, args->value, &value)) { ASYNC_NIF_REPLY(enif_make_badarg(env)); return; } WT_ITEM item_key; WT_ITEM item_value; item_key.data = key.data; item_key.size = key.size; cursor->set_key(cursor, &item_key); item_value.data = value.data; item_value.size = value.size; cursor->set_value(cursor, &item_value); int rc = cursor->insert(cursor); if (rc == 0) rc = cursor->reset(cursor); ASYNC_NIF_REPLY(rc == 0 ? ATOM_OK : __strerror_term(env, rc)); }, { // post enif_release_resource((void*)args->cursor_handle); }); /** * Update an existing record using a cursor. * * argv[0] WterlCursorHandle resource * argv[1] key as an Erlang binary * argv[2] value as an Erlang binary */ ASYNC_NIF_DECL( wterl_cursor_update, { // struct WterlCursorHandle *cursor_handle; ERL_NIF_TERM key; ERL_NIF_TERM value; int rc; }, { // pre if (!(argc == 3 && enif_get_resource(env, argv[0], wterl_cursor_RESOURCE, (void**)&args->cursor_handle) && enif_is_binary(env, argv[1]) && enif_is_binary(env, argv[2]))) { ASYNC_NIF_RETURN_BADARG(); } args->key = enif_make_copy(ASYNC_NIF_WORK_ENV, argv[1]); args->value = enif_make_copy(ASYNC_NIF_WORK_ENV, argv[2]); enif_keep_resource((void*)args->cursor_handle); }, { // work WT_CURSOR* cursor = args->cursor_handle->cursor; ErlNifBinary key; ErlNifBinary value; if (!enif_inspect_binary(env, args->key, &key)) { ASYNC_NIF_REPLY(enif_make_badarg(env)); return; } if (!enif_inspect_binary(env, args->value, &value)) { ASYNC_NIF_REPLY(enif_make_badarg(env)); return; } WT_ITEM item_key; WT_ITEM item_value; item_key.data = key.data; item_key.size = key.size; cursor->set_key(cursor, &item_key); item_value.data = value.data; item_value.size = value.size; cursor->set_value(cursor, &item_value); int rc = cursor->update(cursor); if (rc == 0) rc = cursor->reset(cursor); ASYNC_NIF_REPLY(rc == 0 ? ATOM_OK : __strerror_term(env, rc)); }, { // post enif_release_resource((void*)args->cursor_handle); }); /** * Remove a record using a cursor. * * argv[0] WterlCursorHandle resource * argv[1] key as an Erlang binary */ ASYNC_NIF_DECL( wterl_cursor_remove, { // struct WterlCursorHandle *cursor_handle; ERL_NIF_TERM key; int rc; }, { // pre if (!(argc == 2 && enif_get_resource(env, argv[0], wterl_cursor_RESOURCE, (void**)&args->cursor_handle) && enif_is_binary(env, argv[1]))) { ASYNC_NIF_RETURN_BADARG(); } args->key = enif_make_copy(ASYNC_NIF_WORK_ENV, argv[1]); enif_keep_resource((void*)args->cursor_handle); }, { // work WT_CURSOR* cursor = args->cursor_handle->cursor; ErlNifBinary key; if (!enif_inspect_binary(env, args->key, &key)) { ASYNC_NIF_REPLY(enif_make_badarg(env)); return; } WT_ITEM item_key; item_key.data = key.data; item_key.size = key.size; cursor->set_key(cursor, &item_key); int rc = cursor->remove(cursor); if (rc == 0) rc = cursor->reset(cursor); ASYNC_NIF_REPLY(rc == 0 ? ATOM_OK : __strerror_term(env, rc)); }, { // post enif_release_resource((void*)args->cursor_handle); }); /** * Called by wterl_event_handler to set the pid for message delivery. */ static ERL_NIF_TERM wterl_set_event_handler_pid(ErlNifEnv* env, int argc, const ERL_NIF_TERM argv[]) { struct wterl_priv_data *priv = enif_priv_data(env); struct wterl_event_handlers *eh = &priv->eh; if (!(argc == 1 && enif_is_pid(env, argv[0]))) { return enif_make_badarg(env); } if (enif_get_local_pid(env, argv[0], &eh->to_pid)) { if (!eh->msg_env_message) eh->msg_env_message = enif_alloc_env(); // TOOD: if (!eh->msg_env) { return ENOMEM; } if (!eh->msg_env_error) eh->msg_env_error = enif_alloc_env(); if (!eh->msg_env_progress) eh->msg_env_progress = enif_alloc_env(); eh->handlers.handle_error = __wterl_error_handler; eh->handlers.handle_message = __wterl_message_handler; eh->handlers.handle_progress = __wterl_progress_handler; } else { memset(&eh->to_pid, 0, sizeof(ErlNifPid)); } return ATOM_OK; } /** * Called as this driver is loaded by the Erlang BEAM runtime triggered by the * module's on_load directive. * * env the NIF environment * priv_data used to hold the state for this NIF rather than global variables * load_info an Erlang term, in this case a list with two two-tuples of the * form: [{wterl, ""}, {wiredtiger, ""}] where the strings contain * the git hash of the last commit for this code. This is used * to determin if a rolling upgrade is possible or not. */ static int on_load(ErlNifEnv *env, void **priv_data, ERL_NIF_TERM load_info) { int arity; ERL_NIF_TERM head, tail; const ERL_NIF_TERM* option; ErlNifResourceFlags flags = ERL_NIF_RT_CREATE | ERL_NIF_RT_TAKEOVER; wterl_conn_RESOURCE = enif_open_resource_type(env, NULL, "wterl_conn_resource", NULL, flags, NULL); wterl_cursor_RESOURCE = enif_open_resource_type(env, NULL, "wterl_cursor_resource", NULL, flags, NULL); wterl_ctx_RESOURCE = enif_open_resource_type(env, NULL, "wterl_ctx_resource", NULL, flags, NULL); ATOM_ERROR = enif_make_atom(env, "error"); ATOM_OK = enif_make_atom(env, "ok"); ATOM_NOT_FOUND = enif_make_atom(env, "not_found"); ATOM_FIRST = enif_make_atom(env, "first"); ATOM_LAST = enif_make_atom(env, "last"); ATOM_MESSAGE = enif_make_atom(env, "message"); ATOM_PROGRESS = enif_make_atom(env, "progress"); ATOM_WTERL_VSN = enif_make_atom(env, "wterl_vsn"); ATOM_WIREDTIGER_VSN = enif_make_atom(env, "wiredtiger_vsn"); ATOM_MSG_PID = enif_make_atom(env, "message_pid"); struct wterl_priv_data *priv = enif_alloc(sizeof(struct wterl_priv_data)); if (!priv) return ENOMEM; memset(priv, 0, sizeof(struct wterl_priv_data)); priv->conns_mutex = enif_mutex_create(NULL); SLIST_INIT(&priv->conns); struct wterl_event_handlers *eh = &priv->eh; eh->error_mutex = enif_mutex_create(NULL); eh->message_mutex = enif_mutex_create(NULL); eh->progress_mutex = enif_mutex_create(NULL); /* Process the load_info array of tuples, we expect: [{wterl_vsn, "a version string"}, {wiredtiger_vsn, "a version string"}]. */ while (enif_get_list_cell(env, load_info, &head, &tail)) { if (enif_get_tuple(env, head, &arity, &option)) { if (arity == 2) { if (enif_is_identical(option[0], ATOM_WTERL_VSN)) { enif_get_string(env, option[1], priv->wterl_vsn, sizeof(priv->wterl_vsn), ERL_NIF_LATIN1); } else if (enif_is_identical(option[0], ATOM_WIREDTIGER_VSN)) { enif_get_string(env, option[1], priv->wiredtiger_vsn, sizeof(priv->wiredtiger_vsn), ERL_NIF_LATIN1); } } } load_info = tail; } /* Note: !!! the first element of our priv_data struct *must* be the pointer to the async_nif's private data which we set here. */ ASYNC_NIF_LOAD(wterl, priv->async_nif_priv); if (!priv->async_nif_priv) { enif_mutex_destroy(priv->conns_mutex); enif_free(priv); return ENOMEM; } *priv_data = priv; char msg[1024]; snprintf(msg, 1024, "NIF on_load complete (wterl version: %s, wiredtiger version: %s)", priv->wterl_vsn, priv->wiredtiger_vsn); __wterl_message_handler((WT_EVENT_HANDLER *)&priv->eh, msg); return 0; } static int on_reload(ErlNifEnv *env, void **priv_data, ERL_NIF_TERM load_info) { UNUSED(env); UNUSED(priv_data); UNUSED(load_info); return 0; // TODO: implement } static void on_unload(ErlNifEnv *env, void *priv_data) { struct wterl_priv_data *priv = (struct wterl_priv_data *)priv_data; WterlConnHandle *conn_handle; struct cache_entry *e; enif_mutex_lock(priv->conns_mutex); /* Lock the cache mutex before unloading the async_nif to prevent new work from coming in while shutting down. */ SLIST_FOREACH(conn_handle, &priv->conns, conns) { enif_mutex_lock(conn_handle->cache_mutex); } ASYNC_NIF_UNLOAD(wterl, env, priv->async_nif_priv); SLIST_FOREACH(conn_handle, &priv->conns, conns) { fifo_q_foreach(cache_entries, conn_handle->recycled_cache_entries, e, { struct wterl_ctx *ctx = e->ctx; ctx->session->close(ctx->session, NULL); }); fifo_q_free(cache_entries, conn_handle->recycled_cache_entries); kb_destroy(cache_entries, conn_handle->cache); enif_mutex_unlock(conn_handle->cache_mutex); enif_mutex_destroy(conn_handle->cache_mutex); } /* At this point all WiredTiger state and threads are free'd/stopped so there is no chance that the event handler functions will be called so we can be sure that there won't be a race on eh.msg_env in the callback functions. */ struct wterl_event_handlers *eh = &priv->eh; enif_mutex_destroy(eh->error_mutex); enif_mutex_destroy(eh->message_mutex); enif_mutex_destroy(eh->progress_mutex); if (eh->msg_env_message) enif_free_env(eh->msg_env_message); if (eh->msg_env_error) enif_free_env(eh->msg_env_error); if (eh->msg_env_progress) enif_free_env(eh->msg_env_progress); enif_mutex_unlock(priv->conns_mutex); enif_mutex_destroy(priv->conns_mutex); enif_free(priv); } static int on_upgrade(ErlNifEnv *env, void **priv_data, void **old_priv_data, ERL_NIF_TERM load_info) { UNUSED(priv_data); UNUSED(old_priv_data); UNUSED(load_info); ASYNC_NIF_UPGRADE(wterl, env); // TODO: implement return 0; } static ErlNifFunc nif_funcs[] = { {"checkpoint_nif", 3, wterl_checkpoint}, {"conn_close_nif", 2, wterl_conn_close}, {"conn_open_nif", 4, wterl_conn_open}, {"create_nif", 4, wterl_create}, {"delete_nif", 4, wterl_delete}, {"drop_nif", 4, wterl_drop}, {"get_nif", 4, wterl_get}, {"put_nif", 5, wterl_put}, {"rename_nif", 5, wterl_rename}, {"salvage_nif", 4, wterl_salvage}, // TODO: {"txn_begin", 3, wterl_txn_begin}, // TODO: {"txn_commit", 3, wterl_txn_commit}, // TODO: {"txn_abort", 3, wterl_txn_abort}, {"truncate_nif", 6, wterl_truncate}, {"upgrade_nif", 4, wterl_upgrade}, {"verify_nif", 4, wterl_verify}, // TODO: {"cursor_get_key_nif", 2, wterl_cursor_get_key}, // TODO: {"cursor_get_value_nif", 2, wterl_cursor_get_value}, // TODO: {"cursor_get_nif", 2, wterl_cursor_get}, // TODO: {"cursor_set_key_nif", 2, wterl_cursor_set_key}, // TODO: {"cursor_set_value_nif", 2, wterl_cursor_set_value}, // TODO: {"cursor_set_nif", 2, wterl_cursor_set}, {"cursor_close_nif", 2, wterl_cursor_close}, {"cursor_insert_nif", 4, wterl_cursor_insert}, {"cursor_next_key_nif", 2, wterl_cursor_next_key}, {"cursor_next_nif", 2, wterl_cursor_next}, {"cursor_next_value_nif", 2, wterl_cursor_next_value}, {"cursor_open_nif", 4, wterl_cursor_open}, {"cursor_prev_key_nif", 2, wterl_cursor_prev_key}, {"cursor_prev_nif", 2, wterl_cursor_prev}, {"cursor_prev_value_nif", 2, wterl_cursor_prev_value}, {"cursor_remove_nif", 3, wterl_cursor_remove}, {"cursor_reset_nif", 2, wterl_cursor_reset}, {"cursor_search_near_nif", 4, wterl_cursor_search_near}, {"cursor_search_nif", 4, wterl_cursor_search}, {"cursor_update_nif", 4, wterl_cursor_update}, {"set_event_handler_pid", 1, wterl_set_event_handler_pid}, }; ERL_NIF_INIT(wterl, nif_funcs, &on_load, &on_reload, &on_upgrade, &on_unload);