diff options
Diffstat (limited to '')
-rw-r--r-- | storage/mroonga/vendor/groonga/src/groonga.c | 3763 |
1 files changed, 3763 insertions, 0 deletions
diff --git a/storage/mroonga/vendor/groonga/src/groonga.c b/storage/mroonga/vendor/groonga/src/groonga.c new file mode 100644 index 00000000..a7f15d13 --- /dev/null +++ b/storage/mroonga/vendor/groonga/src/groonga.c @@ -0,0 +1,3763 @@ +/* -*- c-basic-offset: 2 -*- */ +/* + Copyright(C) 2009-2017 Brazil + + This library is free software; you can redistribute it and/or + modify it under the terms of the GNU Lesser General Public + License version 2.1 as published by the Free Software Foundation. + + This library is distributed in the hope that it will be useful, + but WITHOUT ANY WARRANTY; without even the implied warranty of + MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU + Lesser General Public License for more details. + + You should have received a copy of the GNU Lesser General Public + License along with this library; if not, write to the Free Software + Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1335 USA +*/ + +#include <string.h> +#include <stdio.h> +#include <ctype.h> +#include <fcntl.h> +#include <sys/stat.h> +#include <errno.h> + +#ifdef WIN32 +# define GROONGA_MAIN +#endif /* WIN32 */ +#include <grn.h> + +#include <grn_com.h> +#include <grn_ctx_impl.h> +#include <grn_proc.h> +#include <grn_db.h> +#include <grn_util.h> +#include <grn_error.h> + +#ifdef HAVE_SYS_WAIT_H +# include <sys/wait.h> +#endif /* HAVE_SYS_WAIT_H */ +#ifdef HAVE_SYS_SOCKET_H +# include <sys/socket.h> +#endif /* HAVE_SYS_SOCKET_H */ +#ifndef WIN32 +# include <netinet/in.h> +#endif /* WIN32 */ + +#ifdef HAVE_SYS_RESOURCE_H +# include <sys/resource.h> +#endif /* HAVE_SYS_RESOURCE_H */ + +#ifdef HAVE_SYS_SYSCTL_H +# include <sys/sysctl.h> +#endif /* HAVE_SYS_SYSCTL_H */ + +#ifdef WIN32 +# include <io.h> +# include <direct.h> +#else /* WIN32 */ +# include <sys/uio.h> +#endif /* WIN32 */ + +#ifndef USE_MSG_NOSIGNAL +# ifdef MSG_NOSIGNAL +# undef MSG_NOSIGNAL +# endif +# define MSG_NOSIGNAL 0 +#endif /* USE_MSG_NOSIGNAL */ + +#ifndef STDIN_FILENO +# define STDIN_FILENO 0 +#endif /* STDIN_FILENO */ +#ifndef STDOUT_FILENO +# define STDOUT_FILENO 1 +#endif /* STDOUT_FILENO */ +#ifndef STDERR_FILENO +# define STDERR_FILENO 2 +#endif /* STDERR_FILENO */ + +#define DEFAULT_HTTP_PORT 10041 +#define DEFAULT_GQTP_PORT 10043 +#define DEFAULT_DEST "localhost" +#define DEFAULT_MAX_N_FLOATING_THREADS 8 +#define MAX_CON 0x10000 + +#define RLIMIT_NOFILE_MINIMUM 4096 + +static char bind_address[HOST_NAME_MAX + 1]; +static char hostname[HOST_NAME_MAX + 1]; +static int port = DEFAULT_GQTP_PORT; +static int batchmode; +static int number_of_lines = 0; +static int newdb; +static grn_bool is_daemon_mode = GRN_FALSE; +static int (*do_client)(int argc, char **argv); +static int (*do_server)(char *path); +static const char *pid_file_path = NULL; +static const char *input_path = NULL; +static grn_file_reader *input_reader = NULL; +static FILE *output = NULL; +static grn_bool is_memcached_mode = GRN_FALSE; +static const char *memcached_column_name = NULL; + +static int ready_notify_pipe[2]; +#define PIPE_READ 0 +#define PIPE_WRITE 1 + +static grn_encoding encoding; +static const char *windows_event_source_name = "Groonga"; +static grn_bool use_windows_event_log = GRN_FALSE; +static grn_obj http_response_server_line; + +static int +grn_rc_to_exit_code(grn_rc rc) +{ + if (rc == GRN_SUCCESS) { + return EXIT_SUCCESS; + } else { + return EXIT_FAILURE; + } +} + +static void +break_accept_event_loop(grn_ctx *ctx) +{ + grn_com *client; + const char *address; + + if (strcmp(bind_address, "0.0.0.0") == 0) { + address = "127.0.0.1"; + } else if (strcmp(bind_address, "::") == 0) { + address = "::1"; + } else { + address = bind_address; + } + client = grn_com_copen(ctx, NULL, address, port); + if (client) { + grn_com_close(ctx, client); + } +} + +#ifdef GRN_WITH_LIBEDIT +#include <locale.h> +#include <histedit.h> +static EditLine *line_editor = NULL; +static HistoryW *line_editor_history = NULL; +static HistEventW line_editor_history_event; +static char line_editor_history_path[PATH_MAX] = ""; + +static const wchar_t * +line_editor_prompt(EditLine *e __attribute__((unused))) +{ + return L"> "; +} +static const wchar_t * const line_editor_editor = L"emacs"; + +static void +line_editor_init(int argc __attribute__((unused)), char *argv[]) +{ + const char * const HOME_PATH = getenv("HOME"); + const char * const HISTORY_PATH = "/.groonga-history"; + + setlocale(LC_ALL, ""); + + if (strlen(HOME_PATH) + strlen(HISTORY_PATH) < PATH_MAX) { + grn_strcpy(line_editor_history_path, PATH_MAX, HOME_PATH); + grn_strcat(line_editor_history_path, PATH_MAX, HISTORY_PATH); + } else { + line_editor_history_path[0] = '\0'; + } + + line_editor_history = history_winit(); + history_w(line_editor_history, &line_editor_history_event, H_SETSIZE, 200); + if (line_editor_history_path[0]) { + history_w(line_editor_history, &line_editor_history_event, + H_LOAD, line_editor_history_path); + } + + line_editor = el_init(argv[0], stdin, stdout, stderr); + el_wset(line_editor, EL_PROMPT, &line_editor_prompt); + el_wset(line_editor, EL_EDITOR, line_editor_editor); + el_wset(line_editor, EL_HIST, history_w, line_editor_history); + el_source(line_editor, NULL); +} + +static void +line_editor_fin(void) +{ + if (line_editor) { + el_end(line_editor); + if (line_editor_history) { + if (line_editor_history_path[0]) { + history_w(line_editor_history, &line_editor_history_event, + H_SAVE, line_editor_history_path); + } + history_wend(line_editor_history); + } + } +} + +static grn_rc +line_editor_fgets(grn_ctx *ctx, grn_obj *buf) +{ + grn_rc rc = GRN_SUCCESS; + const wchar_t *line; + int nchar; + line = el_wgets(line_editor, &nchar); + if (nchar > 0) { + int i; + char multibyte_buf[MB_CUR_MAX]; + size_t multibyte_len; + mbstate_t ps; + history_w(line_editor_history, &line_editor_history_event, H_ENTER, line); + memset(&ps, 0, sizeof(ps)); + wcrtomb(NULL, L'\0', &ps); + for (i = 0; i < nchar; i++) { + multibyte_len = wcrtomb(multibyte_buf, line[i], &ps); + if (multibyte_len == (size_t)-1) { + GRN_LOG(ctx, GRN_LOG_WARNING, + "[prompt][libedit] failed to read input: %s", strerror(errno)); + rc = GRN_INVALID_ARGUMENT; + } else { + GRN_TEXT_PUT(ctx, buf, multibyte_buf, multibyte_len); + } + } + } else { + rc = GRN_END_OF_DATA; + } + return rc; +} +#endif /* GRN_WITH_LIBEDIT */ + +inline static grn_rc +read_next_line(grn_ctx *ctx, grn_obj *buf) +{ + static int the_first_read = GRN_TRUE; + grn_rc rc = GRN_SUCCESS; + if (!batchmode) { +#ifdef GRN_WITH_LIBEDIT + rc = line_editor_fgets(ctx, buf); +#else + fprintf(stderr, "> "); + fflush(stderr); + rc = grn_file_reader_read_line(ctx, input_reader, buf); +#endif + } else { + rc = grn_file_reader_read_line(ctx, input_reader, buf); + if (rc != GRN_END_OF_DATA) { + number_of_lines++; + } + } + if (the_first_read && GRN_TEXT_LEN(buf) > 0) { + const char bom[] = {0xef, 0xbb, 0xbf}; + if (GRN_CTX_GET_ENCODING(ctx) == GRN_ENC_UTF8 && + GRN_TEXT_LEN(buf) > 3 && !memcmp(GRN_TEXT_VALUE(buf), bom, 3)) { + grn_obj buf_without_bom; + GRN_TEXT_INIT(&buf_without_bom, 0); + GRN_TEXT_PUT(ctx, &buf_without_bom, + GRN_TEXT_VALUE(buf) + 3, GRN_TEXT_LEN(buf) - 3); + GRN_TEXT_SET(ctx, buf, + GRN_TEXT_VALUE(&buf_without_bom), + GRN_TEXT_LEN(&buf_without_bom)); + grn_obj_unlink(ctx, &buf_without_bom); + } + the_first_read = GRN_FALSE; + } + if (GRN_TEXT_LEN(buf) > 0 && + GRN_TEXT_VALUE(buf)[GRN_TEXT_LEN(buf) - 1] == '\n') { + grn_bulk_truncate(ctx, buf, GRN_TEXT_LEN(buf) - 1); + } + if (GRN_TEXT_LEN(buf) > 0 && + GRN_TEXT_VALUE(buf)[GRN_TEXT_LEN(buf) - 1] == '\r') { + grn_bulk_truncate(ctx, buf, GRN_TEXT_LEN(buf) - 1); + } + return rc; +} + +inline static grn_rc +prompt(grn_ctx *ctx, grn_obj *buf) +{ + grn_rc rc = GRN_SUCCESS; + grn_bool need_next_line = GRN_TRUE; + GRN_BULK_REWIND(buf); + while (need_next_line) { + rc = read_next_line(ctx, buf); + if (rc == GRN_SUCCESS && + GRN_TEXT_LEN(buf) > 0 && + GRN_TEXT_VALUE(buf)[GRN_TEXT_LEN(buf) - 1] == '\\') { + grn_bulk_truncate(ctx, buf, GRN_TEXT_LEN(buf) - 1); + need_next_line = GRN_TRUE; + } else { + need_next_line = GRN_FALSE; + } + } + return rc; +} + +static void +output_envelope(grn_ctx *ctx, grn_rc rc, grn_obj *head, grn_obj *body, grn_obj *foot) +{ + grn_output_envelope(ctx, rc, head, body, foot, input_path, number_of_lines); +} + +static void +s_output_raw(grn_ctx *ctx, int flags, FILE *stream) +{ + char *chunk = NULL; + unsigned int chunk_size = 0; + int recv_flags; + + grn_ctx_recv(ctx, &chunk, &chunk_size, &recv_flags); + if (chunk_size > 0) { + fwrite(chunk, 1, chunk_size, stream); + } + + if (flags & GRN_CTX_TAIL) { + grn_obj *command; + + if (grn_ctx_get_output_type(ctx) == GRN_CONTENT_GROONGA_COMMAND_LIST && + chunk_size > 0 && + chunk[chunk_size - 1] != '\n') { + fwrite("\n", 1, 1, stream); + } + fflush(stream); + + command = GRN_CTX_USER_DATA(ctx)->ptr; + GRN_BULK_REWIND(command); + } +} + +static void +s_output_typed(grn_ctx *ctx, int flags, FILE *stream) +{ + if (ctx && ctx->impl && (flags & GRN_CTX_TAIL)) { + char *chunk = NULL; + unsigned int chunk_size = 0; + int recv_flags; + grn_obj body; + grn_obj *command; + + GRN_TEXT_INIT(&body, 0); + grn_ctx_recv(ctx, &chunk, &chunk_size, &recv_flags); + GRN_TEXT_SET(ctx, &body, chunk, chunk_size); + + if (GRN_TEXT_LEN(&body) || ctx->rc) { + grn_obj head, foot; + GRN_TEXT_INIT(&head, 0); + GRN_TEXT_INIT(&foot, 0); + output_envelope(ctx, ctx->rc, &head, &body, &foot); + fwrite(GRN_TEXT_VALUE(&head), 1, GRN_TEXT_LEN(&head), stream); + fwrite(GRN_TEXT_VALUE(&body), 1, GRN_TEXT_LEN(&body), stream); + fwrite(GRN_TEXT_VALUE(&foot), 1, GRN_TEXT_LEN(&foot), stream); + fputc('\n', stream); + fflush(stream); + GRN_OBJ_FIN(ctx, &head); + GRN_OBJ_FIN(ctx, &foot); + } + GRN_OBJ_FIN(ctx, &body); + + command = GRN_CTX_USER_DATA(ctx)->ptr; + GRN_BULK_REWIND(command); + } +} + +static void +s_output(grn_ctx *ctx, int flags, void *arg) +{ + FILE *stream = (FILE *)arg; + + switch (grn_ctx_get_output_type(ctx)) { + case GRN_CONTENT_GROONGA_COMMAND_LIST : + case GRN_CONTENT_NONE : + s_output_raw(ctx, flags, stream); + break; + default : + s_output_typed(ctx, flags, stream); + break; + } +} + +static int +do_alone(int argc, char **argv) +{ + int exit_code = EXIT_FAILURE; + char *path = NULL; + grn_obj *db; + grn_ctx ctx_, *ctx = &ctx_; + grn_ctx_init(ctx, 0); + if (argc > 0 && argv) { path = *argv++; argc--; } + db = (newdb || !path) ? grn_db_create(ctx, path, NULL) : grn_db_open(ctx, path); + if (db) { + grn_obj command; + GRN_TEXT_INIT(&command, 0); + GRN_CTX_USER_DATA(ctx)->ptr = &command; + grn_ctx_recv_handler_set(ctx, s_output, output); + if (!argc) { + grn_obj text; + GRN_TEXT_INIT(&text, 0); + while (prompt(ctx, &text) != GRN_END_OF_DATA) { + GRN_TEXT_PUT(ctx, &command, GRN_TEXT_VALUE(&text), GRN_TEXT_LEN(&text)); + grn_ctx_send(ctx, GRN_TEXT_VALUE(&text), GRN_TEXT_LEN(&text), 0); + if (ctx->stat == GRN_CTX_QUIT) { break; } + } + exit_code = grn_rc_to_exit_code(ctx->rc); + grn_obj_unlink(ctx, &text); + } else { + grn_rc rc; + rc = grn_ctx_sendv(ctx, argc, argv, 0); + exit_code = grn_rc_to_exit_code(rc); + } + grn_obj_unlink(ctx, &command); + grn_obj_close(ctx, db); + } else { + fprintf(stderr, "db open failed (%s): %s\n", path, ctx->errbuf); + } + grn_ctx_fin(ctx); + return exit_code; +} + +static int +c_output(grn_ctx *ctx) +{ + int flags; + char *str; + unsigned int str_len; + do { + grn_ctx_recv(ctx, &str, &str_len, &flags); + /* + if (ctx->rc) { + fprintf(stderr, "grn_ctx_recv failed\n"); + return -1; + } + */ + if (str_len || ctx->rc) { + grn_obj head, body, foot; + GRN_TEXT_INIT(&head, 0); + GRN_TEXT_INIT(&body, GRN_OBJ_DO_SHALLOW_COPY); + GRN_TEXT_INIT(&foot, 0); + if (ctx->rc == GRN_SUCCESS) { + GRN_TEXT_SET(ctx, &body, str, str_len); + } else { + ERR(ctx->rc, "%.*s", str_len, str); + } + output_envelope(ctx, ctx->rc, &head, &body, &foot); + fwrite(GRN_TEXT_VALUE(&head), 1, GRN_TEXT_LEN(&head), output); + fwrite(GRN_TEXT_VALUE(&body), 1, GRN_TEXT_LEN(&body), output); + fwrite(GRN_TEXT_VALUE(&foot), 1, GRN_TEXT_LEN(&foot), output); + fputc('\n', output); + fflush(output); + GRN_OBJ_FIN(ctx, &head); + GRN_OBJ_FIN(ctx, &body); + GRN_OBJ_FIN(ctx, &foot); + } + } while ((flags & GRN_CTX_MORE)); + return 0; +} + +static int +g_client(int argc, char **argv) +{ + int exit_code = EXIT_FAILURE; + grn_ctx ctx_, *ctx = &ctx_; + const char *hostname = DEFAULT_DEST; + if (argc > 0 && argv) { hostname = *argv++; argc--; } + grn_ctx_init(ctx, 0); + if (!grn_ctx_connect(ctx, hostname, port, 0)) { + if (!argc) { + grn_obj text; + GRN_TEXT_INIT(&text, 0); + while (prompt(ctx, &text) != GRN_END_OF_DATA) { + grn_ctx_send(ctx, GRN_TEXT_VALUE(&text), GRN_TEXT_LEN(&text), 0); + exit_code = grn_rc_to_exit_code(ctx->rc); + if (ctx->rc != GRN_SUCCESS) { break; } + if (c_output(ctx)) { goto exit; } + if (ctx->stat == GRN_CTX_QUIT) { break; } + } + grn_obj_unlink(ctx, &text); + } else { + grn_rc rc; + rc = grn_ctx_sendv(ctx, argc, argv, 0); + exit_code = grn_rc_to_exit_code(rc); + if (c_output(ctx)) { goto exit; } + } + } else { + fprintf(stderr, "grn_ctx_connect failed (%s:%d)\n", hostname, port); + } +exit : + grn_ctx_fin(ctx); + return exit_code; +} + +/* server */ + +typedef void (*grn_edge_dispatcher_func)(grn_ctx *ctx, grn_edge *edge); +typedef void (*grn_handler_func)(grn_ctx *ctx, grn_obj *msg); + +static grn_com_queue ctx_new; +static grn_com_queue ctx_old; +static grn_mutex q_mutex; +static grn_cond q_cond; +static uint32_t n_running_threads = 0; +static uint32_t n_floating_threads = 0; +static uint32_t max_n_floating_threads; + +static uint32_t +groonga_get_thread_limit(void *data) +{ + return max_n_floating_threads; +} + +static void +groonga_set_thread_limit(uint32_t new_limit, void *data) +{ + uint32_t i; + uint32_t current_n_floating_threads; + static uint32_t n_changing_threads = 0; + uint32_t prev_n_changing_threads; + + GRN_ATOMIC_ADD_EX(&n_changing_threads, 1, prev_n_changing_threads); + + MUTEX_LOCK_ENSURE(&grn_gctx, q_mutex); + current_n_floating_threads = n_floating_threads; + max_n_floating_threads = new_limit; + MUTEX_UNLOCK(q_mutex); + + if (prev_n_changing_threads > 0) { + GRN_ATOMIC_ADD_EX(&n_changing_threads, -1, prev_n_changing_threads); + return; + } + + if (current_n_floating_threads > new_limit) { + for (i = 0; i < current_n_floating_threads; i++) { + MUTEX_LOCK_ENSURE(&grn_gctx, q_mutex); + COND_SIGNAL(q_cond); + MUTEX_UNLOCK(q_mutex); + } + } + + while (GRN_TRUE) { + grn_bool is_reduced; + MUTEX_LOCK_ENSURE(&grn_gctx, q_mutex); + is_reduced = (n_running_threads <= max_n_floating_threads); + if (!is_reduced && n_floating_threads > 0) { + COND_SIGNAL(q_cond); + } + MUTEX_UNLOCK(q_mutex); + if (is_reduced) { + break; + } + grn_nanosleep(1000000); + } + + GRN_ATOMIC_ADD_EX(&n_changing_threads, -1, prev_n_changing_threads); +} + +typedef struct { + grn_mutex mutex; + grn_ctx ctx; + grn_pat *entries; + uint64_t earliest_unix_time_msec; +} request_timer_data; +static request_timer_data the_request_timer_data; + +static void * +request_timer_register(const char *request_id, + unsigned int request_id_size, + double timeout, + void *user_data) +{ + request_timer_data *data = user_data; + grn_id id = GRN_ID_NIL; + + { + grn_ctx *ctx = &(data->ctx); + grn_bool is_first_timer; + grn_timeval tv; + uint64_t timeout_unix_time_msec; + void *value; + + MUTEX_LOCK(data->mutex); + is_first_timer = (grn_pat_size(ctx, data->entries) == 0); + grn_timeval_now(ctx, &tv); + timeout_unix_time_msec = GRN_TIMEVAL_TO_MSEC(&tv) + (timeout * 1000); + while (GRN_TRUE) { + int added; + id = grn_pat_add(ctx, data->entries, + &timeout_unix_time_msec, sizeof(uint64_t), + &value, &added); + if (added != 0) { + break; + } + timeout_unix_time_msec++; + } + grn_memcpy(value, &request_id_size, sizeof(unsigned int)); + grn_memcpy(((uint8_t *)value) + sizeof(unsigned int), + request_id, request_id_size); + if (data->earliest_unix_time_msec == 0 || + data->earliest_unix_time_msec > timeout_unix_time_msec) { + data->earliest_unix_time_msec = timeout_unix_time_msec; + } + if (is_first_timer) { + break_accept_event_loop(ctx); + } + MUTEX_UNLOCK(data->mutex); + } + + return (void *)(uint64_t)id; +} + +static void +request_timer_unregister(void *timer_id, + void *user_data) +{ + request_timer_data *data = user_data; + grn_id id = (grn_id)(uint64_t)timer_id; + + { + grn_ctx *ctx = &(data->ctx); + uint64_t timeout_unix_time_msec; + int key_size; + + MUTEX_LOCK(data->mutex); + key_size = grn_pat_get_key(ctx, + data->entries, + id, + &timeout_unix_time_msec, + sizeof(uint64_t)); + if (key_size > 0) { + grn_pat_delete_by_id(ctx, data->entries, id, NULL); + if (data->earliest_unix_time_msec >= timeout_unix_time_msec) { + data->earliest_unix_time_msec = 0; + } + } + MUTEX_UNLOCK(data->mutex); + } +} + +static void +request_timer_fin(void *user_data) +{ + request_timer_data *data = user_data; + + { + grn_ctx *ctx = &(data->ctx); + grn_pat_close(ctx, data->entries); + grn_ctx_fin(ctx); + MUTEX_FIN(data->mutex); + } +} + +static void +request_timer_init(void) +{ + static grn_request_timer timer; + request_timer_data *data = &the_request_timer_data; + grn_ctx *ctx; + + MUTEX_INIT(data->mutex); + ctx = &(data->ctx); + grn_ctx_init(ctx, 0); + data->entries = grn_pat_create(ctx, + NULL, + sizeof(uint64_t), + GRN_TABLE_MAX_KEY_SIZE, + GRN_OBJ_KEY_UINT); + data->earliest_unix_time_msec = 0; + + timer.user_data = data; + timer.register_func = request_timer_register; + timer.unregister_func = request_timer_unregister; + timer.fin_func = request_timer_fin; + + grn_request_timer_set(&timer); +} + +static grn_bool +request_timer_ensure_earliest_unix_time_msec(void) +{ + request_timer_data *data = &the_request_timer_data; + grn_ctx *ctx; + grn_pat_cursor *cursor; + + if (data->earliest_unix_time_msec > 0) { + return GRN_TRUE; + } + + ctx = &(data->ctx); + cursor = grn_pat_cursor_open(ctx, data->entries, + NULL, 0, + NULL, 0, + 0, 1, GRN_CURSOR_ASCENDING); + if (!cursor) { + return GRN_FALSE; + } + while (grn_pat_cursor_next(ctx, cursor) != GRN_ID_NIL) { + void *key; + uint64_t timeout_unix_time_msec; + + grn_pat_cursor_get_key(ctx, cursor, &key); + timeout_unix_time_msec = *(uint64_t *)key; + data->earliest_unix_time_msec = timeout_unix_time_msec; + break; + } + grn_pat_cursor_close(ctx, cursor); + + return data->earliest_unix_time_msec > 0; +} + +static int +request_timer_get_poll_timeout(void) +{ + request_timer_data *data = &the_request_timer_data; + int timeout = 1000; + grn_ctx *ctx; + grn_timeval tv; + + MUTEX_LOCK(data->mutex); + ctx = &(data->ctx); + if (grn_pat_size(ctx, data->entries) == 0) { + goto exit; + } + + if (!request_timer_ensure_earliest_unix_time_msec()) { + goto exit; + } + + grn_timeval_now(ctx, &tv); + timeout = data->earliest_unix_time_msec - GRN_TIMEVAL_TO_MSEC(&tv); + if (timeout < 0) { + timeout = 0; + } else if (timeout > 1000) { + timeout = 1000; + } + +exit : + MUTEX_UNLOCK(data->mutex); + + return timeout; +} + +static void +request_timer_process_timeout(void) +{ + request_timer_data *data = &the_request_timer_data; + grn_ctx *ctx; + grn_timeval tv; + uint64_t max; + grn_pat_cursor *cursor; + + ctx = &(data->ctx); + if (grn_pat_size(ctx, data->entries) == 0) { + return; + } + + grn_timeval_now(ctx, &tv); + max = GRN_TIMEVAL_TO_MSEC(&tv); + cursor = grn_pat_cursor_open(ctx, data->entries, + NULL, 0, + &max, sizeof(uint64_t), + 0, -1, GRN_CURSOR_ASCENDING); + if (!cursor) { + return; + } + + grn_id id; + while ((id = grn_pat_cursor_next(ctx, cursor)) != GRN_ID_NIL) { + void *value; + const char *request_id; + unsigned int request_id_size; + + grn_pat_cursor_get_value(ctx, cursor, &value); + request_id_size = *((unsigned int *)value); + request_id = (const char *)(((uint8_t *)value) + sizeof(unsigned int)); + grn_request_canceler_cancel(request_id, request_id_size); + } + grn_pat_cursor_close(ctx, cursor); +} + +static void +reset_ready_notify_pipe(void) +{ + ready_notify_pipe[PIPE_READ] = 0; + ready_notify_pipe[PIPE_WRITE] = 0; +} + +static void +close_ready_notify_pipe(void) +{ + if (ready_notify_pipe[PIPE_READ] > 0) { + close(ready_notify_pipe[PIPE_READ]); + } + if (ready_notify_pipe[PIPE_WRITE] > 0) { + close(ready_notify_pipe[PIPE_WRITE]); + } + reset_ready_notify_pipe(); +} + +static void +send_ready_notify(void) +{ + if (ready_notify_pipe[PIPE_WRITE] > 0) { + const char *ready_notify_message = "ready"; + write(ready_notify_pipe[PIPE_WRITE], + ready_notify_message, + strlen(ready_notify_message)); + } + close_ready_notify_pipe(); +} + +static void +create_pid_file(void) +{ + FILE *pid_file = NULL; + + if (!pid_file_path) { + return; + } + + pid_file = fopen(pid_file_path, "w"); + if (!pid_file) { + fprintf(stderr, + "Failed to open PID file: <%s>: <%s>\n", + pid_file_path, grn_strerror(errno)); + return; + } + + { +#ifdef WIN32 + DWORD pid; + pid = GetCurrentProcessId(); + fprintf(pid_file, "%" GRN_FMT_DWORD "\n", pid); +#else /* WIN32 */ + pid_t pid; + pid = grn_getpid(); + fprintf(pid_file, "%d\n", pid); +#endif /* WIN32 */ + } + fclose(pid_file); +} + +static void +clean_pid_file(void) +{ + if (pid_file_path) { + grn_unlink(pid_file_path); + } +} + +static int +daemonize(void) +{ + int exit_code = EXIT_SUCCESS; +#ifndef WIN32 + + if (pipe(ready_notify_pipe) == -1) { + reset_ready_notify_pipe(); + } + + switch (fork()) { + case 0: + break; + case -1: + perror("fork"); + return EXIT_FAILURE; + default: + wait(NULL); + if (ready_notify_pipe[PIPE_READ] > 0) { + int max_fd; + fd_set read_fds; + FD_ZERO(&read_fds); + FD_SET(ready_notify_pipe[PIPE_READ], &read_fds); + max_fd = ready_notify_pipe[PIPE_READ] + 1; + select(max_fd, &read_fds, NULL, NULL, NULL); + } + close_ready_notify_pipe(); + _exit(EXIT_SUCCESS); + } + switch (fork()) { + case 0: + if (pid_file_path) { + create_pid_file(); + } else { + pid_t pid; + pid = grn_getpid(); + fprintf(stderr, "%d\n", pid); + } + break; + case -1: + perror("fork"); + return EXIT_FAILURE; + default: + close_ready_notify_pipe(); + _exit(EXIT_SUCCESS); + } + { + int null_fd; + grn_open(null_fd, "/dev/null", O_RDWR); + if (null_fd != -1) { + dup2(null_fd, STDIN_FILENO); + dup2(null_fd, STDOUT_FILENO); + dup2(null_fd, STDERR_FILENO); + if (null_fd > STDERR_FILENO) { grn_close(null_fd); } + } + } +#endif /* WIN32 */ + return exit_code; +} + +static void +run_server_loop(grn_ctx *ctx, grn_com_event *ev) +{ + request_timer_init(); + while (!grn_com_event_poll(ctx, ev, request_timer_get_poll_timeout()) && + grn_gctx.stat != GRN_CTX_QUIT) { + grn_edge *edge; + while ((edge = (grn_edge *)grn_com_queue_deque(ctx, &ctx_old))) { + grn_obj *msg; + while ((msg = (grn_obj *)grn_com_queue_deque(ctx, &edge->send_old))) { + grn_msg_close(&edge->ctx, msg); + } + while ((msg = (grn_obj *)grn_com_queue_deque(ctx, &edge->recv_new))) { + grn_msg_close(ctx, msg); + } + grn_ctx_fin(&edge->ctx); + if (edge->com->has_sid && edge->com->opaque == edge) { + grn_com_close(ctx, edge->com); + } + grn_edges_delete(ctx, edge); + } + request_timer_process_timeout(); + /* todo : log stat */ + } + for (;;) { + MUTEX_LOCK_ENSURE(ctx, q_mutex); + if (n_running_threads == n_floating_threads) { break; } + MUTEX_UNLOCK(q_mutex); + grn_nanosleep(1000000); + } + { + grn_edge *edge; + GRN_HASH_EACH(ctx, grn_edges, id, NULL, NULL, &edge, { + grn_obj *obj; + while ((obj = (grn_obj *)grn_com_queue_deque(ctx, &edge->send_old))) { + grn_msg_close(&edge->ctx, obj); + } + while ((obj = (grn_obj *)grn_com_queue_deque(ctx, &edge->recv_new))) { + grn_msg_close(ctx, obj); + } + grn_ctx_fin(&edge->ctx); + if (edge->com->has_sid) { + grn_com_close(ctx, edge->com); + } + grn_edges_delete(ctx, edge); + }); + } + { + grn_com *com; + GRN_HASH_EACH(ctx, ev->hash, id, NULL, NULL, &com, { grn_com_close(ctx, com); }); + } +} + +static int +run_server(grn_ctx *ctx, grn_obj *db, grn_com_event *ev, + grn_edge_dispatcher_func dispatcher, grn_handler_func handler) +{ + int exit_code = EXIT_SUCCESS; + struct hostent *he; + if (!(he = gethostbyname(hostname))) { + send_ready_notify(); + SOERR("gethostbyname"); + } else { + ev->opaque = db; + grn_edges_init(ctx, dispatcher); + if (!grn_com_sopen(ctx, ev, bind_address, port, handler, he)) { + send_ready_notify(); + run_server_loop(ctx, ev); + exit_code = EXIT_SUCCESS; + } else { + send_ready_notify(); + fprintf(stderr, "grn_com_sopen failed (%s:%d): %s\n", + bind_address, port, ctx->errbuf); + } + grn_edges_fin(ctx); + } + return exit_code; +} + +static grn_bool memcached_init(grn_ctx *ctx); + +static int +start_service(grn_ctx *ctx, const char *db_path, + grn_edge_dispatcher_func dispatcher, grn_handler_func handler) +{ + int exit_code = EXIT_SUCCESS; + grn_com_event ev; + + if (is_daemon_mode) { + exit_code = daemonize(); + if (exit_code != EXIT_SUCCESS) { + return exit_code; + } + } else { + create_pid_file(); + } + + if (!grn_com_event_init(ctx, &ev, MAX_CON, sizeof(grn_com))) { + grn_obj *db; + db = (newdb || !db_path) ? grn_db_create(ctx, db_path, NULL) : grn_db_open(ctx, db_path); + if (db) { + if (is_memcached_mode) { + if (!memcached_init(ctx)) { + fprintf(stderr, "failed to initialize memcached mode: %s\n", + ctx->errbuf); + exit_code = EXIT_FAILURE; + send_ready_notify(); + } + } + if (exit_code == EXIT_SUCCESS) { + exit_code = run_server(ctx, db, &ev, dispatcher, handler); + } + grn_obj_close(ctx, db); + } else { + fprintf(stderr, "db open failed (%s): %s\n", db_path, ctx->errbuf); + exit_code = EXIT_FAILURE; + send_ready_notify(); + } + grn_com_event_fin(ctx, &ev); + } else { + fprintf(stderr, "grn_com_event_init failed\n"); + exit_code = EXIT_FAILURE; + send_ready_notify(); + } + + clean_pid_file(); + + return exit_code; +} + +typedef struct { + grn_msg *msg; + grn_bool in_body; + grn_bool is_chunked; +} ht_context; + +static void +h_output_set_header(grn_ctx *ctx, + grn_obj *header, + grn_rc rc, + long long int content_length, + grn_obj *foot) +{ + switch (rc) { + case GRN_SUCCESS : + GRN_TEXT_SETS(ctx, header, "HTTP/1.1 200 OK\r\n"); + break; + case GRN_INVALID_ARGUMENT : + case GRN_FUNCTION_NOT_IMPLEMENTED : + case GRN_SYNTAX_ERROR : + GRN_TEXT_SETS(ctx, header, "HTTP/1.1 400 Bad Request\r\n"); + break; + case GRN_NO_SUCH_FILE_OR_DIRECTORY : + GRN_TEXT_SETS(ctx, header, "HTTP/1.1 404 Not Found\r\n"); + break; + case GRN_CANCEL : + GRN_TEXT_SETS(ctx, header, "HTTP/1.1 408 Request Timeout\r\n"); + break; + default : + GRN_TEXT_SETS(ctx, header, "HTTP/1.1 500 Internal Server Error\r\n"); + break; + } + GRN_TEXT_PUT(ctx, header, + GRN_TEXT_VALUE(&http_response_server_line), + GRN_TEXT_LEN(&http_response_server_line)); + GRN_TEXT_PUTS(ctx, header, "Content-Type: "); + if (grn_ctx_get_output_type(ctx) == GRN_CONTENT_JSON && + foot && + GRN_TEXT_LEN(foot) > 0 && + GRN_TEXT_VALUE(foot)[GRN_TEXT_LEN(foot) - 1] == ';') { + GRN_TEXT_PUTS(ctx, header, "application/javascript"); + } else { + GRN_TEXT_PUTS(ctx, header, grn_ctx_get_mime_type(ctx)); + } + GRN_TEXT_PUTS(ctx, header, "\r\n"); + if (content_length >= 0) { + GRN_TEXT_PUTS(ctx, header, "Connection: close\r\n"); + GRN_TEXT_PUTS(ctx, header, "Content-Length: "); + grn_text_lltoa(ctx, header, content_length); + GRN_TEXT_PUTS(ctx, header, "\r\n"); + } else { + GRN_TEXT_PUTS(ctx, header, "Transfer-Encoding: chunked\r\n"); + } + GRN_TEXT_PUTS(ctx, header, "\r\n"); +} + +static void +h_output_send(grn_ctx *ctx, grn_sock fd, + grn_obj *header, grn_obj *head, grn_obj *body, grn_obj *foot) +{ + ssize_t ret; + ssize_t len = 0; +#ifdef WIN32 + int n_buffers = 0; + WSABUF wsabufs[4]; + if (header) { + wsabufs[n_buffers].buf = GRN_TEXT_VALUE(header); + wsabufs[n_buffers].len = GRN_TEXT_LEN(header); + len += GRN_TEXT_LEN(header); + n_buffers++; + } + if (head) { + wsabufs[n_buffers].buf = GRN_TEXT_VALUE(head); + wsabufs[n_buffers].len = GRN_TEXT_LEN(head); + len += GRN_TEXT_LEN(head); + n_buffers++; + } + if (body) { + wsabufs[n_buffers].buf = GRN_TEXT_VALUE(body); + wsabufs[n_buffers].len = GRN_TEXT_LEN(body); + len += GRN_TEXT_LEN(body); + n_buffers++; + } + if (foot) { + wsabufs[n_buffers].buf = GRN_TEXT_VALUE(foot); + wsabufs[n_buffers].len = GRN_TEXT_LEN(foot); + len += GRN_TEXT_LEN(foot); + n_buffers++; + } + { + DWORD sent; + if (WSASend(fd, wsabufs, n_buffers, &sent, 0, NULL, NULL) == SOCKET_ERROR) { + SOERR("WSASend"); + } + ret = sent; + } +#else /* WIN32 */ + struct iovec msg_iov[4]; + struct msghdr msg; + msg.msg_name = NULL; + msg.msg_namelen = 0; + msg.msg_iov = msg_iov; + msg.msg_iovlen = 0; + msg.msg_control = NULL; + msg.msg_controllen = 0; + msg.msg_flags = 0; + + if (header) { + msg_iov[msg.msg_iovlen].iov_base = GRN_TEXT_VALUE(header); + msg_iov[msg.msg_iovlen].iov_len = GRN_TEXT_LEN(header); + len += GRN_TEXT_LEN(header); + msg.msg_iovlen++; + } + if (head) { + msg_iov[msg.msg_iovlen].iov_base = GRN_TEXT_VALUE(head); + msg_iov[msg.msg_iovlen].iov_len = GRN_TEXT_LEN(head); + len += GRN_TEXT_LEN(head); + msg.msg_iovlen++; + } + if (body) { + msg_iov[msg.msg_iovlen].iov_base = GRN_TEXT_VALUE(body); + msg_iov[msg.msg_iovlen].iov_len = GRN_TEXT_LEN(body); + len += GRN_TEXT_LEN(body); + msg.msg_iovlen++; + } + if (foot) { + msg_iov[msg.msg_iovlen].iov_base = GRN_TEXT_VALUE(foot); + msg_iov[msg.msg_iovlen].iov_len = GRN_TEXT_LEN(foot); + len += GRN_TEXT_LEN(foot); + msg.msg_iovlen++; + } + if ((ret = sendmsg(fd, &msg, MSG_NOSIGNAL)) == -1) { + SOERR("sendmsg"); + } +#endif /* WIN32 */ + if (ret != len) { + GRN_LOG(&grn_gctx, GRN_LOG_NOTICE, + "couldn't send all data (%" GRN_FMT_LLD "/%" GRN_FMT_LLD ")", + (long long int)ret, (long long int)len); + } +} + +static void +h_output_raw(grn_ctx *ctx, int flags, ht_context *hc) +{ + grn_rc expr_rc = ctx->rc; + grn_sock fd = hc->msg->u.fd; + grn_obj header_; + grn_obj head_; + grn_obj body_; + grn_obj foot_; + grn_obj *header = NULL; + grn_obj *head = NULL; + grn_obj *body = NULL; + grn_obj *foot = NULL; + char *chunk = NULL; + unsigned int chunk_size = 0; + int recv_flags; + grn_bool is_last_message = (flags & GRN_CTX_TAIL); + + GRN_TEXT_INIT(&header_, 0); + GRN_TEXT_INIT(&head_, 0); + GRN_TEXT_INIT(&body_, GRN_OBJ_DO_SHALLOW_COPY); + GRN_TEXT_INIT(&foot_, 0); + + grn_ctx_recv(ctx, &chunk, &chunk_size, &recv_flags); + GRN_TEXT_SET(ctx, &body_, chunk, chunk_size); + + if (!hc->in_body) { + if (is_last_message) { + h_output_set_header(ctx, &header_, expr_rc, GRN_TEXT_LEN(&body_), NULL); + hc->is_chunked = GRN_FALSE; + } else { + h_output_set_header(ctx, &header_, expr_rc, -1, NULL); + hc->is_chunked = GRN_TRUE; + } + header = &header_; + hc->in_body = GRN_TRUE; + } + + if (GRN_TEXT_LEN(&body_) > 0) { + if (hc->is_chunked) { + grn_text_printf(ctx, &head_, + "%x\r\n", (unsigned int)GRN_TEXT_LEN(&body_)); + head = &head_; + GRN_TEXT_PUTS(ctx, &foot_, "\r\n"); + foot = &foot_; + } + body = &body_; + } + + if (is_last_message) { + if (hc->is_chunked) { + GRN_TEXT_PUTS(ctx, &foot_, "0\r\n"); + GRN_TEXT_PUTS(ctx, &foot_, "Connection: close\r\n"); + GRN_TEXT_PUTS(ctx, &foot_, "\r\n"); + foot = &foot_; + } + } + + h_output_send(ctx, fd, header, head, body, foot); + + GRN_OBJ_FIN(ctx, &foot_); + GRN_OBJ_FIN(ctx, &body_); + GRN_OBJ_FIN(ctx, &head_); + GRN_OBJ_FIN(ctx, &header_); +} + +static void +h_output_typed(grn_ctx *ctx, int flags, ht_context *hc) +{ + grn_rc expr_rc = ctx->rc; + grn_sock fd = hc->msg->u.fd; + grn_obj header, head, body, foot; + char *chunk = NULL; + unsigned int chunk_size = 0; + int recv_flags; + grn_bool should_return_body; + + if (!(flags & GRN_CTX_TAIL)) { return; } + + switch (hc->msg->header.qtype) { + case 'G' : + case 'P' : + should_return_body = GRN_TRUE; + break; + default : + should_return_body = GRN_FALSE; + break; + } + + GRN_TEXT_INIT(&header, 0); + GRN_TEXT_INIT(&head, 0); + GRN_TEXT_INIT(&body, 0); + GRN_TEXT_INIT(&foot, 0); + + grn_ctx_recv(ctx, &chunk, &chunk_size, &recv_flags); + GRN_TEXT_SET(ctx, &body, chunk, chunk_size); + + output_envelope(ctx, expr_rc, &head, &body, &foot); + h_output_set_header(ctx, &header, expr_rc, + GRN_TEXT_LEN(&head) + + GRN_TEXT_LEN(&body) + + GRN_TEXT_LEN(&foot), + &foot); + if (should_return_body) { + h_output_send(ctx, fd, &header, &head, &body, &foot); + } else { + h_output_send(ctx, fd, &header, NULL, NULL, NULL); + } + GRN_OBJ_FIN(ctx, &foot); + GRN_OBJ_FIN(ctx, &body); + GRN_OBJ_FIN(ctx, &head); + GRN_OBJ_FIN(ctx, &header); +} + +static void +h_output(grn_ctx *ctx, int flags, void *arg) +{ + ht_context *hc = (ht_context *)arg; + + switch (grn_ctx_get_output_type(ctx)) { + case GRN_CONTENT_GROONGA_COMMAND_LIST : + case GRN_CONTENT_NONE : + h_output_raw(ctx, flags, hc); + break; + default : + h_output_typed(ctx, flags, hc); + break; + } +} + +static void +do_htreq_get(grn_ctx *ctx, ht_context *hc) +{ + grn_msg *msg = hc->msg; + char *path = NULL; + char *pathe = GRN_BULK_HEAD((grn_obj *)msg); + char *e = GRN_BULK_CURR((grn_obj *)msg); + for (;; pathe++) { + if (e <= pathe + 6) { + /* invalid request */ + return; + } + if (*pathe == ' ') { + if (!path) { + path = pathe + 1; + } else { + if (!memcmp(pathe + 1, "HTTP/1", 6)) { + break; + } + } + } + } + grn_ctx_send(ctx, path, pathe - path, GRN_CTX_TAIL); +} + +typedef struct { + const char *path_start; + int path_length; + long long int content_length; + grn_bool have_100_continue; + const char *body_start; +} h_post_header; + +#define STRING_EQUAL(string, string_length, constant_string)\ + (string_length == strlen(constant_string) &&\ + strncmp(string, constant_string, string_length) == 0) + +#define STRING_EQUAL_CI(string, string_length, constant_string)\ + (string_length == strlen(constant_string) &&\ + grn_strncasecmp(string, constant_string, string_length) == 0) + +static const char * +do_htreq_post_parse_header_request_line(grn_ctx *ctx, + const char *start, + const char *end, + h_post_header *header) +{ + const char *current; + + { + const char *method = start; + int method_length = -1; + + for (current = method; current < end; current++) { + if (current[0] == '\n') { + return NULL; + } + if (current[0] == ' ') { + method_length = current - method; + current++; + break; + } + } + if (method_length == -1) { + return NULL; + } + if (!STRING_EQUAL_CI(method, method_length, "POST")) { + return NULL; + } + } + + { + header->path_start = current; + header->path_length = -1; + for (; current < end; current++) { + if (current[0] == '\n') { + return NULL; + } + if (current[0] == ' ') { + header->path_length = current - header->path_start; + current++; + break; + } + } + if (header->path_length == -1) { + return NULL; + } + } + + { + const char *http_version_start = current; + int http_version_length = -1; + for (; current < end; current++) { + if (current[0] == '\n') { + http_version_length = current - http_version_start; + if (http_version_length > 0 && + http_version_start[http_version_length - 1] == '\r') { + http_version_length--; + } + current++; + break; + } + } + if (http_version_length == -1) { + return NULL; + } + if (!(STRING_EQUAL_CI(http_version_start, http_version_length, "HTTP/1.0") || + STRING_EQUAL_CI(http_version_start, http_version_length, "HTTP/1.1"))) { + return NULL; + } + } + + return current; +} + +static const char * +do_htreq_post_parse_header_values(grn_ctx *ctx, + const char *start, + const char *end, + h_post_header *header) +{ + const char *current; + const char *name = start; + int name_length = -1; + const char *value = NULL; + int value_length = -1; + + for (current = start; current < end; current++) { + switch (current[0]) { + case '\n' : + if (name_length == -1) { + if (current - name == 1 && current[-1] == '\r') { + return current + 1; + } else { + /* No ":" header line. TODO: report error. */ + return NULL; + } + } else { + while (value < current && value[0] == ' ') { + value++; + } + value_length = current - value; + if (value_length > 0 && value[value_length - 1] == '\r') { + value_length--; + } + if (STRING_EQUAL_CI(name, name_length, "Content-Length")) { + const char *rest; + header->content_length = grn_atoll(value, value + value_length, &rest); + if (rest != value + value_length) { + /* Invalid Content-Length value. TODO: report error. */ + header->content_length = -1; + } + } else if (STRING_EQUAL_CI(name, name_length, "Expect")) { + if (STRING_EQUAL(value, value_length, "100-continue")) { + header->have_100_continue = GRN_TRUE; + } + } + } + name = current + 1; + name_length = -1; + value = NULL; + value_length = -1; + break; + case ':' : + if (name_length == -1) { + name_length = current - name; + value = current + 1; + } + break; + default : + break; + } + } + + return NULL; +} + +static grn_bool +do_htreq_post_parse_header(grn_ctx *ctx, + const char *start, + const char *end, + h_post_header *header) +{ + const char *current; + + current = do_htreq_post_parse_header_request_line(ctx, start, end, header); + if (!current) { + return GRN_FALSE; + } + current = do_htreq_post_parse_header_values(ctx, current, end, header); + if (!current) { + return GRN_FALSE; + } + + if (current == end) { + header->body_start = NULL; + } else { + header->body_start = current; + } + + return GRN_TRUE; +} + +static void +do_htreq_post(grn_ctx *ctx, ht_context *hc) +{ + grn_msg *msg = hc->msg; + grn_sock fd = msg->u.fd; + const char *end; + h_post_header header; + + header.path_start = NULL; + header.path_length = -1; + header.content_length = -1; + header.body_start = NULL; + header.have_100_continue = GRN_FALSE; + + end = GRN_BULK_CURR((grn_obj *)msg); + if (!do_htreq_post_parse_header(ctx, + GRN_BULK_HEAD((grn_obj *)msg), + end, + &header)) { + return; + } + + grn_ctx_send(ctx, header.path_start, header.path_length, GRN_CTX_MORE); + if (ctx->rc != GRN_SUCCESS) { + ht_context context; + context.msg = msg; + context.in_body = GRN_FALSE; + context.is_chunked = GRN_FALSE; + h_output(ctx, GRN_CTX_TAIL, &context); + return; + } + + if (header.have_100_continue) { + const char *continue_message = "HTTP/1.1 100 Continue\r\n"; + ssize_t send_size; + int send_flags = MSG_NOSIGNAL; + send_size = send(fd, continue_message, strlen(continue_message), send_flags); + if (send_size == -1) { + SOERR("send"); + return; + } + } + + { + grn_obj chunk_buffer; + long long int read_content_length = 0; + + GRN_TEXT_INIT(&chunk_buffer, 0); + while (read_content_length < header.content_length) { +#define POST_BUFFER_SIZE 8192 + char buffer[POST_BUFFER_SIZE]; + const char *buffer_start, *buffer_current, *buffer_end; + + if (header.body_start) { + buffer_start = header.body_start; + buffer_end = end; + header.body_start = NULL; + } else { + ssize_t recv_length; + int recv_flags = 0; + recv_length = recv(fd, buffer, POST_BUFFER_SIZE, recv_flags); + if (recv_length == 0) { + break; + } + if (recv_length == -1) { + SOERR("recv"); + break; + } + buffer_start = buffer; + buffer_end = buffer_start + recv_length; + } + read_content_length += buffer_end - buffer_start; + + buffer_current = buffer_end - 1; + for (; buffer_current > buffer_start; buffer_current--) { + grn_bool is_separator; + switch (buffer_current[0]) { + case '\n' : + case ',' : + is_separator = GRN_TRUE; + break; + default : + is_separator = GRN_FALSE; + break; + } + if (!is_separator) { + continue; + } + + GRN_TEXT_PUT(ctx, + &chunk_buffer, + buffer_start, + buffer_current + 1 - buffer_start); + { + int flags = 0; + if (!(read_content_length == header.content_length && + buffer_current + 1 == buffer_end)) { + flags |= GRN_CTX_MORE; + } else { + flags |= GRN_CTX_TAIL; + } + grn_ctx_send(ctx, + GRN_TEXT_VALUE(&chunk_buffer), + GRN_TEXT_LEN(&chunk_buffer), + flags); + } + buffer_start = buffer_current + 1; + GRN_BULK_REWIND(&chunk_buffer); + break; + } + if (buffer_end > buffer_start) { + GRN_TEXT_PUT(ctx, &chunk_buffer, + buffer_start, buffer_end - buffer_start); + } +#undef POST_BUFFER_SIZE + + if (ctx->rc != GRN_SUCCESS) { + break; + } + } + + if (ctx->rc == GRN_CANCEL) { + h_output(ctx, GRN_CTX_TAIL, hc); + } else if (ctx->rc == GRN_SUCCESS && GRN_TEXT_LEN(&chunk_buffer) > 0) { + grn_ctx_send(ctx, + GRN_TEXT_VALUE(&chunk_buffer), + GRN_TEXT_LEN(&chunk_buffer), + GRN_CTX_TAIL); + } + + GRN_OBJ_FIN(ctx, &chunk_buffer); + } +} + +static void +do_htreq(grn_ctx *ctx, ht_context *hc) +{ + grn_msg *msg = hc->msg; + grn_com_header *header = &msg->header; + switch (header->qtype) { + case 'G' : /* GET */ + case 'H' : /* HEAD */ + do_htreq_get(ctx, hc); + break; + case 'P' : /* POST */ + do_htreq_post(ctx, hc); + break; + } + /* if (ctx->rc != GRN_OPERATION_WOULD_BLOCK) {...} */ + grn_msg_close(ctx, (grn_obj *)msg); + /* if not keep alive connection */ + grn_sock_close(msg->u.fd); + grn_com_event_start_accept(ctx, msg->acceptor->ev); +} + +enum { + MBRES_SUCCESS = 0x00, + MBRES_KEY_ENOENT = 0x01, + MBRES_KEY_EEXISTS = 0x02, + MBRES_E2BIG = 0x03, + MBRES_EINVAL = 0x04, + MBRES_NOT_STORED = 0x05, + MBRES_UNKNOWN_COMMAND = 0x81, + MBRES_ENOMEM = 0x82, +}; + +enum { + MBCMD_GET = 0x00, + MBCMD_SET = 0x01, + MBCMD_ADD = 0x02, + MBCMD_REPLACE = 0x03, + MBCMD_DELETE = 0x04, + MBCMD_INCREMENT = 0x05, + MBCMD_DECREMENT = 0x06, + MBCMD_QUIT = 0x07, + MBCMD_FLUSH = 0x08, + MBCMD_GETQ = 0x09, + MBCMD_NOOP = 0x0a, + MBCMD_VERSION = 0x0b, + MBCMD_GETK = 0x0c, + MBCMD_GETKQ = 0x0d, + MBCMD_APPEND = 0x0e, + MBCMD_PREPEND = 0x0f, + MBCMD_STAT = 0x10, + MBCMD_SETQ = 0x11, + MBCMD_ADDQ = 0x12, + MBCMD_REPLACEQ = 0x13, + MBCMD_DELETEQ = 0x14, + MBCMD_INCREMENTQ = 0x15, + MBCMD_DECREMENTQ = 0x16, + MBCMD_QUITQ = 0x17, + MBCMD_FLUSHQ = 0x18, + MBCMD_APPENDQ = 0x19, + MBCMD_PREPENDQ = 0x1a +}; + +static grn_obj *cache_table = NULL; +static grn_obj *cache_value = NULL; +static grn_obj *cache_flags = NULL; +static grn_obj *cache_expire = NULL; +static grn_obj *cache_cas = NULL; + +#define CTX_GET(name) (grn_ctx_get(ctx, (name), strlen(name))) + +static grn_bool +memcached_setup_flags_column(grn_ctx *ctx, const char *name) +{ + cache_flags = grn_obj_column(ctx, cache_table, name, strlen(name)); + if (cache_flags) { + return GRN_TRUE; + } + + cache_flags = grn_column_create(ctx, cache_table, name, strlen(name), NULL, + GRN_OBJ_COLUMN_SCALAR|GRN_OBJ_PERSISTENT, + grn_ctx_at(ctx, GRN_DB_UINT32)); + if (!cache_flags) { + return GRN_FALSE; + } + + return GRN_TRUE; +} + +static grn_bool +memcached_setup_expire_column(grn_ctx *ctx, const char *name) +{ + cache_expire = grn_obj_column(ctx, cache_table, name, strlen(name)); + if (cache_expire) { + return GRN_TRUE; + } + + cache_expire = grn_column_create(ctx, cache_table, name, strlen(name), NULL, + GRN_OBJ_COLUMN_SCALAR|GRN_OBJ_PERSISTENT, + grn_ctx_at(ctx, GRN_DB_UINT32)); + if (!cache_expire) { + return GRN_FALSE; + } + + return GRN_TRUE; +} + +static grn_bool +memcached_setup_cas_column(grn_ctx *ctx, const char *name) +{ + cache_cas = grn_obj_column(ctx, cache_table, name, strlen(name)); + if (cache_cas) { + return GRN_TRUE; + } + + cache_cas = grn_column_create(ctx, cache_table, name, strlen(name), NULL, + GRN_OBJ_COLUMN_SCALAR|GRN_OBJ_PERSISTENT, + grn_ctx_at(ctx, GRN_DB_UINT64)); + if (!cache_cas) { + return GRN_FALSE; + } + + return GRN_TRUE; +} + +static grn_bool +memcached_init(grn_ctx *ctx) +{ + if (memcached_column_name) { + cache_value = CTX_GET(memcached_column_name); + if (!cache_value) { + ERR(GRN_INVALID_ARGUMENT, + "memcached column doesn't exist: <%s>", + memcached_column_name); + return GRN_FALSE; + } + if (!(grn_obj_is_column(ctx, cache_value) && + ((cache_value->header.flags & GRN_OBJ_COLUMN_TYPE_MASK) == + GRN_OBJ_COLUMN_SCALAR))) { + grn_obj inspected; + GRN_TEXT_INIT(&inspected, 0); + grn_inspect(ctx, &inspected, cache_value); + ERR(GRN_INVALID_ARGUMENT, + "memcached column must be scalar column: <%.*s>", + (int)GRN_TEXT_LEN(&inspected), + GRN_TEXT_VALUE(&inspected)); + GRN_OBJ_FIN(ctx, &inspected); + return GRN_FALSE; + } + if (!(GRN_DB_SHORT_TEXT <= grn_obj_get_range(ctx, cache_value) && + grn_obj_get_range(ctx, cache_value) <= GRN_DB_LONG_TEXT)) { + grn_obj inspected; + GRN_TEXT_INIT(&inspected, 0); + grn_inspect(ctx, &inspected, cache_value); + ERR(GRN_INVALID_ARGUMENT, + "memcached column must be text column: <%.*s>", + (int)GRN_TEXT_LEN(&inspected), + GRN_TEXT_VALUE(&inspected)); + GRN_OBJ_FIN(ctx, &inspected); + return GRN_FALSE; + } + + cache_table = grn_ctx_at(ctx, cache_value->header.domain); + if (cache_table->header.type == GRN_TABLE_NO_KEY) { + grn_obj inspected; + GRN_TEXT_INIT(&inspected, 0); + grn_inspect(ctx, &inspected, cache_table); + ERR(GRN_INVALID_ARGUMENT, + "memcached column's table must be HASH_KEY, PAT_KEY or DAT_KEY table: " + "<%.*s>", + (int)GRN_TEXT_LEN(&inspected), + GRN_TEXT_VALUE(&inspected)); + GRN_OBJ_FIN(ctx, &inspected); + return GRN_FALSE; + } + + { + char column_name[GRN_TABLE_MAX_KEY_SIZE]; + char value_column_name[GRN_TABLE_MAX_KEY_SIZE]; + int value_column_name_size; + + value_column_name_size = grn_column_name(ctx, cache_value, + value_column_name, + GRN_TABLE_MAX_KEY_SIZE); + grn_snprintf(column_name, + GRN_TABLE_MAX_KEY_SIZE, + GRN_TABLE_MAX_KEY_SIZE, + "%.*s_memcached_flags", + value_column_name_size, + value_column_name); + if (!memcached_setup_flags_column(ctx, column_name)) { + return GRN_FALSE; + } + grn_snprintf(column_name, + GRN_TABLE_MAX_KEY_SIZE, + GRN_TABLE_MAX_KEY_SIZE, + "%.*s_memcached_expire", + value_column_name_size, + value_column_name); + if (!memcached_setup_expire_column(ctx, column_name)) { + return GRN_FALSE; + } + grn_snprintf(column_name, + GRN_TABLE_MAX_KEY_SIZE, + GRN_TABLE_MAX_KEY_SIZE, + "%.*s_memcached_cas", + value_column_name_size, + value_column_name); + if (!memcached_setup_cas_column(ctx, column_name)) { + return GRN_FALSE; + } + } + } else { + const char *table_name = "Memcache"; + const char *value_column_name = "value"; + + cache_table = CTX_GET(table_name); + if (!cache_table) { + cache_table = grn_table_create(ctx, table_name, strlen(table_name), NULL, + GRN_OBJ_TABLE_PAT_KEY|GRN_OBJ_PERSISTENT, + grn_ctx_at(ctx, GRN_DB_SHORT_TEXT), + NULL); + if (!cache_table) { + return GRN_FALSE; + } + } + + cache_value = grn_obj_column(ctx, cache_table, + value_column_name, + strlen(value_column_name)); + if (!cache_value) { + cache_value = grn_column_create(ctx, cache_table, + value_column_name, + strlen(value_column_name), + NULL, + GRN_OBJ_COLUMN_SCALAR|GRN_OBJ_PERSISTENT, + grn_ctx_at(ctx, GRN_DB_SHORT_TEXT)); + if (!cache_value) { + return GRN_FALSE; + } + } + + if (!memcached_setup_flags_column(ctx, "flags")) { + return GRN_FALSE; + } + if (!memcached_setup_expire_column(ctx, "expire")) { + return GRN_FALSE; + } + if (!memcached_setup_cas_column(ctx, "cas")) { + return GRN_FALSE; + } + } + + return GRN_TRUE; +} + +#define RELATIVE_TIME_THRESH 1000000000 + +#define MBRES(ctx,re,status,key_len,extra_len,flags) do {\ + grn_msg_set_property((ctx), (re), (status), (key_len), (extra_len));\ + grn_msg_send((ctx), (re), (flags));\ +} while (0) + +#define GRN_MSG_MBRES(block) do {\ + if (!quiet) {\ + grn_obj *re = grn_msg_open_for_reply(ctx, (grn_obj *)msg, &edge->send_old);\ + ((grn_msg *)re)->header.qtype = header->qtype;\ + block\ + }\ +} while (0) + +static uint64_t +get_mbreq_cas_id() +{ + static uint64_t cas_id = 0; + /* FIXME: use GRN_ATOMIC_ADD_EX_64, but it is not implemented */ + return ++cas_id; +} + +static void +do_mbreq(grn_ctx *ctx, grn_edge *edge) +{ + int quiet = 0; + int flags = 0; + grn_msg *msg = edge->msg; + grn_com_header *header = &msg->header; + + switch (header->qtype) { + case MBCMD_GETQ : + flags = GRN_CTX_MORE; + /* fallthru */ + case MBCMD_GET : + { + grn_id rid; + uint16_t keylen = ntohs(header->keylen); + char *key = GRN_BULK_HEAD((grn_obj *)msg); + rid = grn_table_get(ctx, cache_table, key, keylen); + if (!rid) { + GRN_MSG_MBRES({ + MBRES(ctx, re, MBRES_KEY_ENOENT, 0, 0, 0); + }); + } else { + grn_timeval tv; + uint32_t expire; + { + grn_obj expire_buf; + GRN_UINT32_INIT(&expire_buf, 0); + grn_obj_get_value(ctx, cache_expire, rid, &expire_buf); + expire = GRN_UINT32_VALUE(&expire_buf); + grn_obj_close(ctx, &expire_buf); + } + grn_timeval_now(ctx, &tv); + if (expire && expire < tv.tv_sec) { + grn_table_delete_by_id(ctx, cache_table, rid); + GRN_MSG_MBRES({ + MBRES(ctx, re, MBRES_KEY_ENOENT, 0, 0, 0); + }); + } else { + grn_obj cas_buf; + GRN_UINT64_INIT(&cas_buf, 0); + grn_obj_get_value(ctx, cache_cas, rid, &cas_buf); + GRN_MSG_MBRES({ + grn_obj_get_value(ctx, cache_flags, rid, re); + grn_obj_get_value(ctx, cache_value, rid, re); + ((grn_msg *)re)->header.cas = GRN_UINT64_VALUE(&cas_buf); + MBRES(ctx, re, MBRES_SUCCESS, 0, 4, flags); + }); + grn_obj_close(ctx, &cas_buf); + } + } + } + break; + case MBCMD_SETQ : + case MBCMD_ADDQ : + case MBCMD_REPLACEQ : + quiet = 1; + /* fallthru */ + case MBCMD_SET : + case MBCMD_ADD : + case MBCMD_REPLACE : + { + grn_id rid; + uint32_t size = ntohl(header->size); + uint16_t keylen = ntohs(header->keylen); + uint8_t extralen = header->level; + char *body = GRN_BULK_HEAD((grn_obj *)msg); + uint32_t flags = *((uint32_t *)body); + uint32_t expire = ntohl(*((uint32_t *)(body + 4))); + uint32_t valuelen = size - keylen - extralen; + char *key = body + 8; + char *value = key + keylen; + int added = 0; + int f = (header->qtype == MBCMD_REPLACE || + header->qtype == MBCMD_REPLACEQ) ? 0 : GRN_TABLE_ADD; + GRN_ASSERT(extralen == 8); + if (header->qtype == MBCMD_REPLACE || header->qtype == MBCMD_REPLACEQ) { + rid = grn_table_get(ctx, cache_table, key, keylen); + } else { + rid = grn_table_add(ctx, cache_table, key, keylen, &added); + } + if (!rid) { + GRN_MSG_MBRES({ + MBRES(ctx, re, (f & GRN_TABLE_ADD) ? MBRES_ENOMEM : MBRES_NOT_STORED, 0, 0, 0); + }); + } else { + if (added) { + if (header->cas) { + GRN_MSG_MBRES({ + MBRES(ctx, re, MBRES_EINVAL, 0, 0, 0); + }); + } else { + grn_obj text_buf, uint32_buf; + GRN_TEXT_INIT(&text_buf, GRN_OBJ_DO_SHALLOW_COPY); + GRN_TEXT_SET_REF(&text_buf, value, valuelen); + grn_obj_set_value(ctx, cache_value, rid, &text_buf, GRN_OBJ_SET); + GRN_UINT32_INIT(&uint32_buf, 0); + GRN_UINT32_SET(ctx, &uint32_buf, flags); + grn_obj_set_value(ctx, cache_flags, rid, &uint32_buf, GRN_OBJ_SET); + if (expire && expire < RELATIVE_TIME_THRESH) { + grn_timeval tv; + grn_timeval_now(ctx, &tv); + expire += tv.tv_sec; + } + GRN_UINT32_SET(ctx, &uint32_buf, expire); + grn_obj_set_value(ctx, cache_expire, rid, &uint32_buf, GRN_OBJ_SET); + grn_obj_close(ctx, &uint32_buf); + { + grn_obj cas_buf; + uint64_t cas_id = get_mbreq_cas_id(); + GRN_UINT64_INIT(&cas_buf, 0); + GRN_UINT64_SET(ctx, &cas_buf, cas_id); + grn_obj_set_value(ctx, cache_cas, rid, &cas_buf, GRN_OBJ_SET); + grn_obj_close(ctx, &cas_buf); + GRN_MSG_MBRES({ + ((grn_msg *)re)->header.cas = cas_id; + MBRES(ctx, re, MBRES_SUCCESS, 0, 0, 0); + }); + } + } + } else { + if (header->qtype != MBCMD_SET && header->qtype != MBCMD_SETQ) { + grn_obj uint32_buf; + grn_timeval tv; + uint32_t oexpire; + + GRN_UINT32_INIT(&uint32_buf, 0); + grn_obj_get_value(ctx, cache_expire, rid, &uint32_buf); + oexpire = GRN_UINT32_VALUE(&uint32_buf); + grn_timeval_now(ctx, &tv); + + if (oexpire && oexpire < tv.tv_sec) { + if (header->qtype == MBCMD_REPLACE || + header->qtype == MBCMD_REPLACEQ) { + grn_table_delete_by_id(ctx, cache_table, rid); + GRN_MSG_MBRES({ + MBRES(ctx, re, MBRES_NOT_STORED, 0, 0, 0); + }); + break; + } + } else if (header->qtype == MBCMD_ADD || + header->qtype == MBCMD_ADDQ) { + GRN_MSG_MBRES({ + MBRES(ctx, re, MBRES_NOT_STORED, 0, 0, 0); + }); + break; + } + } + { + if (header->cas) { + grn_obj cas_buf; + GRN_UINT64_INIT(&cas_buf, 0); + grn_obj_get_value(ctx, cache_cas, rid, &cas_buf); + if (header->cas != GRN_UINT64_VALUE(&cas_buf)) { + GRN_MSG_MBRES({ + MBRES(ctx, re, MBRES_NOT_STORED, 0, 0, 0); + }); + } + } + { + grn_obj text_buf, uint32_buf; + GRN_TEXT_INIT(&text_buf, GRN_OBJ_DO_SHALLOW_COPY); + GRN_TEXT_SET_REF(&text_buf, value, valuelen); + grn_obj_set_value(ctx, cache_value, rid, &text_buf, GRN_OBJ_SET); + GRN_UINT32_INIT(&uint32_buf, 0); + GRN_UINT32_SET(ctx, &uint32_buf, flags); + grn_obj_set_value(ctx, cache_flags, rid, &uint32_buf, GRN_OBJ_SET); + if (expire && expire < RELATIVE_TIME_THRESH) { + grn_timeval tv; + grn_timeval_now(ctx, &tv); + expire += tv.tv_sec; + } + GRN_UINT32_SET(ctx, &uint32_buf, expire); + grn_obj_set_value(ctx, cache_expire, rid, &uint32_buf, GRN_OBJ_SET); + { + grn_obj cas_buf; + uint64_t cas_id = get_mbreq_cas_id(); + GRN_UINT64_INIT(&cas_buf, 0); + GRN_UINT64_SET(ctx, &cas_buf, cas_id); + grn_obj_set_value(ctx, cache_cas, rid, &cas_buf, GRN_OBJ_SET); + GRN_MSG_MBRES({ + ((grn_msg *)re)->header.cas = cas_id; + MBRES(ctx, re, MBRES_SUCCESS, 0, 0, 0); + }); + } + } + } + } + } + } + break; + case MBCMD_DELETEQ : + quiet = 1; + /* fallthru */ + case MBCMD_DELETE : + { + grn_id rid; + uint16_t keylen = ntohs(header->keylen); + char *key = GRN_BULK_HEAD((grn_obj *)msg); + rid = grn_table_get(ctx, cache_table, key, keylen); + if (!rid) { + /* GRN_LOG(ctx, GRN_LOG_NOTICE, "GET k=%d not found", keylen); */ + GRN_MSG_MBRES({ + MBRES(ctx, re, MBRES_KEY_ENOENT, 0, 0, 0); + }); + } else { + grn_table_delete_by_id(ctx, cache_table, rid); + GRN_MSG_MBRES({ + MBRES(ctx, re, MBRES_SUCCESS, 0, 4, 0); + }); + } + } + break; + case MBCMD_INCREMENTQ : + case MBCMD_DECREMENTQ : + quiet = 1; + /* fallthru */ + case MBCMD_INCREMENT : + case MBCMD_DECREMENT : + { + grn_id rid; + int added = 0; + uint64_t delta, init; + uint16_t keylen = ntohs(header->keylen); + char *body = GRN_BULK_HEAD((grn_obj *)msg); + char *key = body + 20; + uint32_t expire = ntohl(*((uint32_t *)(body + 16))); + grn_ntoh(&delta, body, 8); + grn_ntoh(&init, body + 8, 8); + GRN_ASSERT(header->level == 20); /* extralen */ + if (expire == 0xffffffff) { + rid = grn_table_get(ctx, cache_table, key, keylen); + } else { + rid = grn_table_add(ctx, cache_table, key, keylen, &added); + } + if (!rid) { + GRN_MSG_MBRES({ + MBRES(ctx, re, MBRES_KEY_ENOENT, 0, 0, 0); + }); + } else { + grn_obj uint32_buf, text_buf; + GRN_UINT32_INIT(&uint32_buf, 0); + GRN_TEXT_INIT(&text_buf, GRN_OBJ_DO_SHALLOW_COPY); + if (added) { + GRN_TEXT_SET_REF(&text_buf, &init, 8); + grn_obj_set_value(ctx, cache_value, rid, &text_buf, GRN_OBJ_SET); + GRN_UINT32_SET(ctx, &uint32_buf, 0); + grn_obj_set_value(ctx, cache_flags, rid, &uint32_buf, GRN_OBJ_SET); + } else { + grn_timeval tv; + uint32_t oexpire; + + grn_obj_get_value(ctx, cache_expire, rid, &uint32_buf); + oexpire = GRN_UINT32_VALUE(&uint32_buf); + grn_timeval_now(ctx, &tv); + + if (oexpire && oexpire < tv.tv_sec) { + if (expire == 0xffffffffU) { + GRN_MSG_MBRES({ + MBRES(ctx, re, MBRES_KEY_ENOENT, 0, 0, 0); + }); + break; + } else { + GRN_TEXT_SET_REF(&text_buf, &init, 8); + grn_obj_set_value(ctx, cache_value, rid, &text_buf, GRN_OBJ_SET); + GRN_UINT32_SET(ctx, &uint32_buf, 0); + grn_obj_set_value(ctx, cache_flags, rid, &uint32_buf, GRN_OBJ_SET); + } + } else { + grn_obj uint64_buf; + GRN_UINT64_INIT(&uint64_buf, 0); + GRN_UINT64_SET(ctx, &uint64_buf, delta); + grn_obj_set_value(ctx, cache_value, rid, &uint64_buf, + header->qtype == MBCMD_INCREMENT || + header->qtype == MBCMD_INCREMENTQ + ? GRN_OBJ_INCR + : GRN_OBJ_DECR); + } + } + if (expire && expire < RELATIVE_TIME_THRESH) { + grn_timeval tv; + grn_timeval_now(ctx, &tv); + expire += tv.tv_sec; + } + GRN_UINT32_SET(ctx, &uint32_buf, expire); + grn_obj_set_value(ctx, cache_expire, rid, &uint32_buf, GRN_OBJ_SET); + GRN_MSG_MBRES({ + /* TODO: get_mbreq_cas_id() */ + grn_obj_get_value(ctx, cache_value, rid, re); + grn_hton(&delta, (uint64_t *)GRN_BULK_HEAD(re), 8); + GRN_TEXT_SET(ctx, re, &delta, sizeof(uint64_t)); + MBRES(ctx, re, MBRES_SUCCESS, 0, sizeof(uint64_t), 0); + }); + } + } + break; + case MBCMD_FLUSHQ : + quiet = 1; + /* fallthru */ + case MBCMD_FLUSH : + { + uint32_t expire; + uint8_t extralen = header->level; + if (extralen) { + char *body = GRN_BULK_HEAD((grn_obj *)msg); + GRN_ASSERT(extralen == 4); + expire = ntohl(*((uint32_t *)(body))); + if (expire < RELATIVE_TIME_THRESH) { + grn_timeval tv; + grn_timeval_now(ctx, &tv); + if (expire) { + expire += tv.tv_sec; + } else { + expire = tv.tv_sec - 1; + } + } + } else { + grn_timeval tv; + grn_timeval_now(ctx, &tv); + expire = tv.tv_sec - 1; + } + { + grn_obj exp_buf; + GRN_UINT32_INIT(&exp_buf, 0); + GRN_UINT32_SET(ctx, &exp_buf, expire); + GRN_TABLE_EACH(ctx, cache_table, 0, 0, rid, NULL, NULL, NULL, { + grn_obj_set_value(ctx, cache_expire, rid, &exp_buf, GRN_OBJ_SET); + }); + GRN_MSG_MBRES({ + MBRES(ctx, re, MBRES_SUCCESS, 0, 4, 0); + }); + grn_obj_close(ctx, &exp_buf); + } + } + break; + case MBCMD_NOOP : + break; + case MBCMD_VERSION : + GRN_MSG_MBRES({ + grn_bulk_write(ctx, re, PACKAGE_VERSION, strlen(PACKAGE_VERSION)); + MBRES(ctx, re, MBRES_SUCCESS, 0, 0, 0); + }); + break; + case MBCMD_GETKQ : + flags = GRN_CTX_MORE; + /* fallthru */ + case MBCMD_GETK : + { + grn_id rid; + uint16_t keylen = ntohs(header->keylen); + char *key = GRN_BULK_HEAD((grn_obj *)msg); + rid = grn_table_get(ctx, cache_table, key, keylen); + if (!rid) { + GRN_MSG_MBRES({ + MBRES(ctx, re, MBRES_KEY_ENOENT, 0, 0, 0); + }); + } else { + grn_obj uint32_buf; + grn_timeval tv; + uint32_t expire; + GRN_UINT32_INIT(&uint32_buf, 0); + grn_obj_get_value(ctx, cache_expire, rid, &uint32_buf); + expire = GRN_UINT32_VALUE(&uint32_buf); + grn_timeval_now(ctx, &tv); + if (expire && expire < tv.tv_sec) { + grn_table_delete_by_id(ctx, cache_table, rid); + GRN_MSG_MBRES({ + MBRES(ctx, re, MBRES_KEY_ENOENT, 0, 0, 0); + }); + } else { + grn_obj uint64_buf; + GRN_UINT64_INIT(&uint64_buf, 0); + grn_obj_get_value(ctx, cache_cas, rid, &uint64_buf); + GRN_MSG_MBRES({ + grn_obj_get_value(ctx, cache_flags, rid, re); + grn_bulk_write(ctx, re, key, keylen); + grn_obj_get_value(ctx, cache_value, rid, re); + ((grn_msg *)re)->header.cas = GRN_UINT64_VALUE(&uint64_buf); + MBRES(ctx, re, MBRES_SUCCESS, keylen, 4, flags); + }); + } + } + } + break; + case MBCMD_APPENDQ : + case MBCMD_PREPENDQ : + quiet = 1; + /* fallthru */ + case MBCMD_APPEND : + case MBCMD_PREPEND : + { + grn_id rid; + uint32_t size = ntohl(header->size); + uint16_t keylen = ntohs(header->keylen); + char *key = GRN_BULK_HEAD((grn_obj *)msg); + char *value = key + keylen; + uint32_t valuelen = size - keylen; + rid = grn_table_add(ctx, cache_table, key, keylen, NULL); + if (!rid) { + GRN_MSG_MBRES({ + MBRES(ctx, re, MBRES_ENOMEM, 0, 0, 0); + }); + } else { + /* FIXME: check expire */ + grn_obj buf; + int flags = header->qtype == MBCMD_APPEND ? GRN_OBJ_APPEND : GRN_OBJ_PREPEND; + GRN_TEXT_INIT(&buf, GRN_OBJ_DO_SHALLOW_COPY); + GRN_TEXT_SET_REF(&buf, value, valuelen); + grn_obj_set_value(ctx, cache_value, rid, &buf, flags); + GRN_MSG_MBRES({ + MBRES(ctx, re, MBRES_SUCCESS, 0, 0, 0); + }); + } + } + break; + case MBCMD_STAT : + { + pid_t pid = grn_getpid(); + GRN_MSG_MBRES({ + grn_bulk_write(ctx, re, "pid", 3); + grn_text_itoa(ctx, re, pid); + MBRES(ctx, re, MBRES_SUCCESS, 3, 0, 0); + }); + } + break; + case MBCMD_QUITQ : + quiet = 1; + /* fallthru */ + case MBCMD_QUIT : + GRN_MSG_MBRES({ + MBRES(ctx, re, MBRES_SUCCESS, 0, 0, 0); + }); + /* fallthru */ + default : + ctx->stat = GRN_CTX_QUIT; + break; + } +} + +/* worker thread */ + +enum { + EDGE_IDLE = 0x00, + EDGE_WAIT = 0x01, + EDGE_DOING = 0x02, + EDGE_ABORT = 0x03, +}; + +static void +check_rlimit_nofile(grn_ctx *ctx) +{ +#ifndef WIN32 + struct rlimit limit; + limit.rlim_cur = 0; + limit.rlim_max = 0; + getrlimit(RLIMIT_NOFILE, &limit); + if (limit.rlim_cur < RLIMIT_NOFILE_MINIMUM) { + limit.rlim_cur = RLIMIT_NOFILE_MINIMUM; + limit.rlim_max = RLIMIT_NOFILE_MINIMUM; + setrlimit(RLIMIT_NOFILE, &limit); + limit.rlim_cur = 0; + limit.rlim_max = 0; + getrlimit(RLIMIT_NOFILE, &limit); + } + GRN_LOG(ctx, GRN_LOG_NOTICE, + "RLIMIT_NOFILE(%" GRN_FMT_LLD ",%" GRN_FMT_LLD ")", + (long long int)limit.rlim_cur, (long long int)limit.rlim_max); +#endif /* WIN32 */ +} + +static grn_thread_func_result CALLBACK +h_worker(void *arg) +{ + ht_context hc; + grn_ctx ctx_, *ctx = &ctx_; + grn_ctx_init(ctx, 0); + grn_ctx_use(ctx, (grn_obj *)arg); + grn_ctx_recv_handler_set(ctx, h_output, &hc); + MUTEX_LOCK_ENSURE(ctx, q_mutex); + GRN_LOG(&grn_gctx, GRN_LOG_NOTICE, "thread start (%d/%d)", + n_floating_threads, n_running_threads); + while (n_running_threads <= max_n_floating_threads && + grn_gctx.stat != GRN_CTX_QUIT) { + grn_obj *msg; + if (ctx->rc == GRN_CANCEL) { + ctx->rc = GRN_SUCCESS; + } + n_floating_threads++; + while (!(msg = (grn_obj *)grn_com_queue_deque(&grn_gctx, &ctx_new))) { + COND_WAIT(q_cond, q_mutex); + if (grn_gctx.stat == GRN_CTX_QUIT) { + n_floating_threads--; + goto exit; + } + if (n_running_threads > max_n_floating_threads) { + n_floating_threads--; + goto exit; + } + } + n_floating_threads--; + MUTEX_UNLOCK(q_mutex); + hc.msg = (grn_msg *)msg; + hc.in_body = GRN_FALSE; + hc.is_chunked = GRN_FALSE; + do_htreq(ctx, &hc); + MUTEX_LOCK_ENSURE(ctx, q_mutex); + } +exit : + n_running_threads--; + GRN_LOG(&grn_gctx, GRN_LOG_NOTICE, "thread end (%d/%d)", + n_floating_threads, n_running_threads); + if (grn_gctx.stat == GRN_CTX_QUIT) { + break_accept_event_loop(ctx); + } + grn_ctx_fin(ctx); + MUTEX_UNLOCK(q_mutex); + return GRN_THREAD_FUNC_RETURN_VALUE; +} + +static void +h_handler(grn_ctx *ctx, grn_obj *msg) +{ + grn_com *com = ((grn_msg *)msg)->u.peer; + if (ctx->rc) { + grn_com_close(ctx, com); + grn_msg_close(ctx, msg); + } else { + grn_sock fd = com->fd; + void *arg = com->ev->opaque; + /* if not keep alive connection */ + grn_com_event_del(ctx, com->ev, fd); + ((grn_msg *)msg)->u.fd = fd; + MUTEX_LOCK_ENSURE(ctx, q_mutex); + grn_com_queue_enque(ctx, &ctx_new, (grn_com_queue_entry *)msg); + if (n_floating_threads == 0 && n_running_threads < max_n_floating_threads) { + grn_thread thread; + n_running_threads++; + if (THREAD_CREATE(thread, h_worker, arg)) { + n_running_threads--; + SERR("pthread_create"); + } + } + COND_SIGNAL(q_cond); + MUTEX_UNLOCK(q_mutex); + } +} + +static int +h_server(char *path) +{ + int exit_code = EXIT_FAILURE; + grn_ctx ctx_, *ctx = &ctx_; + grn_ctx_init(ctx, 0); + GRN_COM_QUEUE_INIT(&ctx_new); + GRN_COM_QUEUE_INIT(&ctx_old); + check_rlimit_nofile(ctx); + GRN_TEXT_INIT(&http_response_server_line, 0); + grn_text_printf(ctx, + &http_response_server_line, + "Server: %s/%s\r\n", + grn_get_package_label(), + grn_get_version()); + exit_code = start_service(ctx, path, NULL, h_handler); + GRN_OBJ_FIN(ctx, &http_response_server_line); + grn_ctx_fin(ctx); + return exit_code; +} + +static grn_thread_func_result CALLBACK +g_worker(void *arg) +{ + MUTEX_LOCK_ENSURE(NULL, q_mutex); + GRN_LOG(&grn_gctx, GRN_LOG_NOTICE, "thread start (%d/%d)", + n_floating_threads, n_running_threads); + while (n_running_threads <= max_n_floating_threads && + grn_gctx.stat != GRN_CTX_QUIT) { + grn_ctx *ctx; + grn_edge *edge; + n_floating_threads++; + while (!(edge = (grn_edge *)grn_com_queue_deque(&grn_gctx, &ctx_new))) { + COND_WAIT(q_cond, q_mutex); + if (grn_gctx.stat == GRN_CTX_QUIT) { + n_floating_threads--; + goto exit; + } + if (n_running_threads > max_n_floating_threads) { + n_floating_threads--; + goto exit; + } + } + ctx = &edge->ctx; + n_floating_threads--; + if (edge->stat == EDGE_DOING) { continue; } + if (edge->stat == EDGE_WAIT) { + edge->stat = EDGE_DOING; + while (!GRN_COM_QUEUE_EMPTYP(&edge->recv_new)) { + grn_obj *msg; + MUTEX_UNLOCK(q_mutex); + /* if (edge->flags == GRN_EDGE_WORKER) */ + while (ctx->stat != GRN_CTX_QUIT && + (edge->msg = (grn_msg *)grn_com_queue_deque(ctx, &edge->recv_new))) { + grn_com_header *header = &edge->msg->header; + msg = (grn_obj *)edge->msg; + switch (header->proto) { + case GRN_COM_PROTO_MBREQ : + do_mbreq(ctx, edge); + break; + case GRN_COM_PROTO_GQTP : + grn_ctx_send(ctx, GRN_BULK_HEAD(msg), GRN_BULK_VSIZE(msg), header->flags); + ERRCLR(ctx); + if (ctx->rc == GRN_CANCEL) { + ctx->rc = GRN_SUCCESS; + } + break; + default : + ctx->stat = GRN_CTX_QUIT; + break; + } + grn_msg_close(ctx, msg); + } + while ((msg = (grn_obj *)grn_com_queue_deque(ctx, &edge->send_old))) { + grn_msg_close(ctx, msg); + } + MUTEX_LOCK_ENSURE(ctx, q_mutex); + if (ctx->stat == GRN_CTX_QUIT || edge->stat == EDGE_ABORT) { break; } + } + } + if (ctx->stat == GRN_CTX_QUIT || edge->stat == EDGE_ABORT) { + grn_com_queue_enque(&grn_gctx, &ctx_old, (grn_com_queue_entry *)edge); + edge->stat = EDGE_ABORT; + } else { + edge->stat = EDGE_IDLE; + } + }; +exit : + n_running_threads--; + GRN_LOG(&grn_gctx, GRN_LOG_NOTICE, "thread end (%d/%d)", + n_floating_threads, n_running_threads); + MUTEX_UNLOCK(q_mutex); + return GRN_THREAD_FUNC_RETURN_VALUE; +} + +static void +g_dispatcher(grn_ctx *ctx, grn_edge *edge) +{ + MUTEX_LOCK_ENSURE(ctx, q_mutex); + if (edge->stat == EDGE_IDLE) { + grn_com_queue_enque(ctx, &ctx_new, (grn_com_queue_entry *)edge); + edge->stat = EDGE_WAIT; + if (n_floating_threads == 0 && n_running_threads < max_n_floating_threads) { + grn_thread thread; + n_running_threads++; + if (THREAD_CREATE(thread, g_worker, NULL)) { + n_running_threads--; + SERR("pthread_create"); + } + } + COND_SIGNAL(q_cond); + } + MUTEX_UNLOCK(q_mutex); +} + +static void +g_output(grn_ctx *ctx, int flags, void *arg) +{ + grn_edge *edge = arg; + grn_com *com = edge->com; + grn_msg *req = edge->msg, *msg = (grn_msg *)ctx->impl->output.buf; + msg->edge_id = req->edge_id; + msg->header.proto = req->header.proto == GRN_COM_PROTO_MBREQ + ? GRN_COM_PROTO_MBRES : req->header.proto; + if (ctx->rc != GRN_SUCCESS && GRN_BULK_VSIZE(ctx->impl->output.buf) == 0) { + GRN_TEXT_PUTS(ctx, ctx->impl->output.buf, ctx->errbuf); + } + if (grn_msg_send(ctx, (grn_obj *)msg, + (flags & GRN_CTX_MORE) ? GRN_CTX_MORE : GRN_CTX_TAIL)) { + edge->stat = EDGE_ABORT; + } + ctx->impl->output.buf = grn_msg_open(ctx, com, &edge->send_old); +} + +static void +g_handler(grn_ctx *ctx, grn_obj *msg) +{ + grn_edge *edge; + grn_com *com = ((grn_msg *)msg)->u.peer; + if (ctx->rc) { + if (com->has_sid) { + if ((edge = com->opaque)) { + MUTEX_LOCK_ENSURE(ctx, q_mutex); + if (edge->stat == EDGE_IDLE) { + grn_com_queue_enque(ctx, &ctx_old, (grn_com_queue_entry *)edge); + } + edge->stat = EDGE_ABORT; + MUTEX_UNLOCK(q_mutex); + } else { + grn_com_close(ctx, com); + } + } + grn_msg_close(ctx, msg); + } else { + int added; + edge = grn_edges_add(ctx, &((grn_msg *)msg)->edge_id, &added); + if (added) { + grn_ctx_init(&edge->ctx, 0); + GRN_COM_QUEUE_INIT(&edge->recv_new); + GRN_COM_QUEUE_INIT(&edge->send_old); + grn_ctx_use(&edge->ctx, (grn_obj *)com->ev->opaque); + grn_ctx_recv_handler_set(&edge->ctx, g_output, edge); + com->opaque = edge; + grn_obj_close(&edge->ctx, edge->ctx.impl->output.buf); + edge->ctx.impl->output.buf = + grn_msg_open(&edge->ctx, com, &edge->send_old); + edge->com = com; + edge->stat = EDGE_IDLE; + edge->flags = GRN_EDGE_WORKER; + } + if (edge->ctx.stat == GRN_CTX_QUIT || edge->stat == EDGE_ABORT) { + grn_msg_close(ctx, msg); + } else { + grn_com_queue_enque(ctx, &edge->recv_new, (grn_com_queue_entry *)msg); + g_dispatcher(ctx, edge); + } + } +} + +static int +g_server(char *path) +{ + int exit_code = EXIT_FAILURE; + grn_ctx ctx_, *ctx = &ctx_; + grn_ctx_init(ctx, 0); + GRN_COM_QUEUE_INIT(&ctx_new); + GRN_COM_QUEUE_INIT(&ctx_old); + check_rlimit_nofile(ctx); + exit_code = start_service(ctx, path, g_dispatcher, g_handler); + grn_ctx_fin(ctx); + return exit_code; +} + +enum { + ACTION_USAGE = 1, + ACTION_VERSION, + ACTION_SHOW_CONFIG, + ACTION_ERROR +}; + +#define ACTION_MASK (0x0f) +#define MODE_MASK (0xf0) +#define FLAG_MODE_ALONE (1 << 4) +#define FLAG_MODE_CLIENT (1 << 5) +#define FLAG_MODE_DAEMON (1 << 6) +#define FLAG_MODE_SERVER (1 << 7) +#define FLAG_NEW_DB (1 << 8) +#define FLAG_USE_WINDOWS_EVENT_LOG (1 << 9) + +static uint32_t +get_core_number(void) +{ +#ifdef WIN32 + SYSTEM_INFO sinfo; + GetSystemInfo(&sinfo); + return sinfo.dwNumberOfProcessors; +#else /* WIN32 */ +# ifdef _SC_NPROCESSORS_CONF + return sysconf(_SC_NPROCESSORS_CONF); +# else + int n_processors; + size_t length = sizeof(n_processors); + int mib[] = {CTL_HW, HW_NCPU}; + if (sysctl(mib, sizeof(mib) / sizeof(mib[0]), + &n_processors, &length, NULL, 0) == 0 && + length == sizeof(n_processors) && + 0 < n_processors) { + return n_processors; + } else { + return 1; + } +# endif /* _SC_NPROCESSORS_CONF */ +#endif /* WIN32 */ +} + +/* + * The length of each line, including an end-of-line, in config file should be + * shorter than (CONFIG_FILE_BUF_SIZE - 1) bytes. Too long lines are ignored. + * Note that both '\r' and '\n' are handled as end-of-lines. + * + * '#' and ';' are special symbols to start comments. A comment ends with an + * end-of-line. + * + * Format: name[=value] + * - Preceding/trailing white-spaces of each line are removed. + * - White-spaces aroung '=' are removed. + * - name does not allow white-spaces. + */ +#define CONFIG_FILE_BUF_SIZE 4096 +#define CONFIG_FILE_MAX_NAME_LENGTH 128 +#define CONFIG_FILE_MAX_VALUE_LENGTH 2048 + +typedef enum { + CONFIG_FILE_SUCCESS, + CONFIG_FILE_FORMAT_ERROR, + CONFIG_FILE_FOPEN_ERROR, + CONFIG_FILE_MALLOC_ERROR, + CONFIG_FILE_ATEXIT_ERROR +} config_file_status; + +/* + * The node type of a linked list for storing values. Note that a value is + * stored in the extra space of an object. + */ +typedef struct _config_file_entry { + struct _config_file_entry *next; +} config_file_entry; + +static config_file_entry *config_file_entry_head = NULL; + +static void +config_file_clear(void) { + while (config_file_entry_head) { + config_file_entry *next = config_file_entry_head->next; + free(config_file_entry_head); + config_file_entry_head = next; + } +} + +static config_file_status +config_file_register(const char *path, const grn_str_getopt_opt *opts, + int *flags, const char *name, size_t name_length, + const char *value, size_t value_length) +{ + char name_buf[CONFIG_FILE_MAX_NAME_LENGTH + 3]; + config_file_entry *entry = NULL; + char *args[4]; + + name_buf[0] = name_buf[1] = '-'; + grn_strcpy(name_buf + 2, CONFIG_FILE_MAX_NAME_LENGTH + 1, name); + + if (value) { + const size_t entry_size = sizeof(config_file_entry) + value_length + 1; + entry = (config_file_entry *)malloc(entry_size); + if (!entry) { + fprintf(stderr, "memory allocation failed: %u bytes\n", + (unsigned int)entry_size); + return CONFIG_FILE_MALLOC_ERROR; + } + grn_strcpy((char *)(entry + 1), value_length + 1, value); + entry->next = config_file_entry_head; + if (!config_file_entry_head) { + if (atexit(config_file_clear)) { + free(entry); + return CONFIG_FILE_ATEXIT_ERROR; + } + } + config_file_entry_head = entry; + } + + args[0] = (char *)path; + args[1] = name_buf; + args[2] = entry ? (char *)(entry + 1) : NULL; + args[3] = NULL; + grn_str_getopt(entry ? 3 : 2, args, opts, flags); + return CONFIG_FILE_SUCCESS; +} + +static config_file_status +config_file_parse(const char *path, const grn_str_getopt_opt *opts, + int *flags, char *buf) { + char *ptr, *name, *value; + size_t name_length, value_length; + + while (isspace((unsigned char)*buf)) { + buf++; + } + + ptr = buf; + while (*ptr && *ptr != '#' && *ptr != ';') { + ptr++; + } + + do { + *ptr-- = '\0'; + } while (ptr >= buf && isspace((unsigned char)*ptr)); + + if (!*buf) { + return CONFIG_FILE_SUCCESS; + } + + name = ptr = buf; + while (*ptr && !isspace((unsigned char)*ptr) && *ptr != '=') { + ptr++; + } + while (isspace((unsigned char)*ptr)) { + *ptr++ = '\0'; + } + + name_length = strlen(name); + if (name_length == 0) { + return CONFIG_FILE_SUCCESS; + } else if (name_length > CONFIG_FILE_MAX_NAME_LENGTH) { + fprintf(stderr, "too long name in config file: %u bytes\n", + (unsigned int)name_length); + return CONFIG_FILE_FORMAT_ERROR; + } + + if (*ptr == '=') { + *ptr++ = '\0'; + while (isspace((unsigned char)*ptr)) { + ptr++; + } + value = ptr; + } else if (*ptr) { + fprintf(stderr, "invalid name in config file\n"); + return CONFIG_FILE_FORMAT_ERROR; + } else { + value = NULL; + } + + value_length = value ? strlen(value) : 0; + if (value_length > CONFIG_FILE_MAX_VALUE_LENGTH) { + fprintf(stderr, "too long value in config file: %u bytes\n", + (unsigned int)value_length); + return CONFIG_FILE_FORMAT_ERROR; + } + + return config_file_register(path, opts, flags, + name, name_length, value, value_length); +} + +static config_file_status +config_file_load(const char *path, const grn_str_getopt_opt *opts, int *flags) +{ + config_file_status status = CONFIG_FILE_SUCCESS; + char buf[CONFIG_FILE_BUF_SIZE]; + size_t length = 0; + FILE * const file = fopen(path, "rb"); + if (!file) { + return CONFIG_FILE_FOPEN_ERROR; + } + + for ( ; ; ) { + int c = fgetc(file); + if (c == '\r' || c == '\n' || c == EOF) { + if (length < sizeof(buf) - 1) { + buf[length] = '\0'; + status = config_file_parse(path, opts, flags, buf); + if (status != CONFIG_FILE_SUCCESS) { + break; + } + } + length = 0; + } else if (c == '\0') { + fprintf(stderr, "prohibited '\\0' in config file: %s\n", path); + status = CONFIG_FILE_FORMAT_ERROR; + break; + } else { + if (length < sizeof(buf) - 1) { + buf[length] = (char)c; + } + length++; + } + + if (c == EOF) { + break; + } + } + + fclose(file); + return status; +} + +static const int default_http_port = DEFAULT_HTTP_PORT; +static const int default_gqtp_port = DEFAULT_GQTP_PORT; +static grn_encoding default_encoding = GRN_ENC_DEFAULT; +static uint32_t default_max_n_threads = DEFAULT_MAX_N_FLOATING_THREADS; +static const grn_log_level default_log_level = GRN_LOG_DEFAULT_LEVEL; +static const char * const default_protocol = "gqtp"; +static const char *default_hostname = "localhost"; +static const char * const default_dest = "localhost"; +static const char *default_log_path = ""; +static const char *default_query_log_path = ""; +static const char *default_config_path = ""; +static const char *default_document_root = ""; +static grn_command_version default_default_command_version = + GRN_COMMAND_VERSION_DEFAULT; +static int64_t default_default_match_escalation_threshold = 0; +static const char * const default_bind_address = "0.0.0.0"; +static double default_default_request_timeout = 0.0; + +static void +init_default_hostname(void) +{ + static char hostname[HOST_NAME_MAX + 1]; + struct addrinfo hints, *result; + + hostname[HOST_NAME_MAX] = '\0'; + if (gethostname(hostname, HOST_NAME_MAX) == -1) + return; + + memset(&hints, 0, sizeof(hints)); + hints.ai_family = AF_UNSPEC; + hints.ai_socktype = SOCK_STREAM; + hints.ai_addr = NULL; + hints.ai_canonname = NULL; + hints.ai_next = NULL; + if (getaddrinfo(hostname, NULL, &hints, &result) != 0) + return; + freeaddrinfo(result); + + default_hostname = hostname; +} + +static void +init_default_settings(void) +{ + output = stdout; + + default_encoding = grn_encoding_parse(GRN_DEFAULT_ENCODING); + + { + const uint32_t n_cores = get_core_number(); + if (n_cores != 0) { + default_max_n_threads = n_cores; + } + } + + init_default_hostname(); + + default_log_path = grn_default_logger_get_path(); + default_query_log_path = grn_default_query_logger_get_path(); + + default_config_path = getenv("GRN_CONFIG_PATH"); + if (!default_config_path) { + default_config_path = GRN_CONFIG_PATH; + if (!default_config_path) { + default_config_path = ""; + } + } + +#ifdef WIN32 + { + static char windows_default_document_root[PATH_MAX]; + size_t document_root_length = strlen(grn_windows_base_dir()) + 1 + + strlen(GRN_DEFAULT_RELATIVE_DOCUMENT_ROOT) + 1; + if (document_root_length >= PATH_MAX) { + fprintf(stderr, "can't use default root: too long path\n"); + } else { + grn_strcpy(windows_default_document_root, PATH_MAX, + grn_windows_base_dir()); + grn_strcat(windows_default_document_root, PATH_MAX, + "/"); + grn_strcat(windows_default_document_root, PATH_MAX, + GRN_DEFAULT_RELATIVE_DOCUMENT_ROOT); + default_document_root = windows_default_document_root; + } + } +#else + default_document_root = GRN_DEFAULT_DOCUMENT_ROOT; +#endif + + default_default_command_version = grn_get_default_command_version(); + default_default_match_escalation_threshold = + grn_get_default_match_escalation_threshold(); + default_default_request_timeout = grn_get_default_request_timeout(); +} + +static void +show_config(FILE *out, const grn_str_getopt_opt *opts, int flags) +{ + const grn_str_getopt_opt *o; + + for (o = opts; o->opt || o->longopt; o++) { + switch (o->op) { + case GETOPT_OP_NONE: + if (o->arg && *o->arg) { + if (o->longopt && strcmp(o->longopt, "config-path")) { + fprintf(out, "%s=%s\n", o->longopt, *o->arg); + } + } + break; + case GETOPT_OP_ON: + if (flags & o->flag) { + goto no_arg; + } + break; + case GETOPT_OP_OFF: + if (!(flags & o->flag)) { + goto no_arg; + } + break; + case GETOPT_OP_UPDATE: + if (flags == o->flag) { + no_arg: + if (o->longopt) { + fprintf(out, "%s\n", o->longopt); + } + } + break; + } + } +} + +static void +show_version(void) +{ + printf("%s %s [", + grn_get_package_label(), + grn_get_version()); + + /* FIXME: Should we detect host information dynamically on Windows? */ +#ifdef HOST_OS + printf("%s,", HOST_OS); +#endif +#ifdef HOST_CPU + printf("%s,", HOST_CPU); +#endif + printf("%s", GRN_DEFAULT_ENCODING); + + printf(",match-escalation-threshold=%" GRN_FMT_LLD, + grn_get_default_match_escalation_threshold()); + +#ifndef NO_NFKC + printf(",nfkc"); +#endif +#ifdef GRN_WITH_MECAB + printf(",mecab"); +#endif +#ifdef GRN_WITH_MESSAGE_PACK + printf(",msgpack"); +#endif +#ifdef GRN_WITH_MRUBY + printf(",mruby"); +#endif +#ifdef GRN_WITH_ONIGMO + printf(",onigmo"); +#endif +#ifdef GRN_WITH_ZLIB + printf(",zlib"); +#endif +#ifdef GRN_WITH_LZ4 + printf(",lz4"); +#endif +#ifdef GRN_WITH_ZSTD + printf(",zstd"); +#endif +#ifdef USE_KQUEUE + printf(",kqueue"); +#endif +#ifdef USE_EPOLL + printf(",epoll"); +#endif +#ifdef USE_POLL + printf(",poll"); +#endif + printf("]\n"); + +#ifdef CONFIGURE_OPTIONS + printf("\n"); + printf("configure options: <%s>\n", CONFIGURE_OPTIONS); +#endif +} + +static void +show_usage(FILE *output) +{ + uint32_t default_cache_limit = GRN_CACHE_DEFAULT_MAX_N_ENTRIES; + + fprintf(output, + "Usage: groonga [options...] [dest]\n" + "\n" + "Mode options: (default: standalone)\n" + " By default, groonga runs in standalone mode.\n" + " -c: run in client mode\n" + " -s: run in server mode\n" + " -d: run in daemon mode\n" + "\n" + "Database creation options:\n" + " -n: create new database (except client mode)\n" + " -e, --encoding <encoding>:\n" + " specify encoding for new database\n" + " [none|euc|utf8|sjis|latin1|koi8r] (default: %s)\n" + "\n" + "Standalone/client options:\n" + " --file <path>: read commands from specified file\n" + " --input-fd <FD>: read commands from specified file descriptor\n" + " --file has a prioriry over --input-fd\n" + " --output-fd <FD>: output response to specified file descriptor\n" + " -p, --port <port number>: specify server port number (client mode only)\n" + " (default: %d)\n" + "\n" + "Server/daemon options:\n" + " --bind-address <ip/hostname>:\n" + " specify server address to bind\n" + " (default: %s)\n" + " -p, --port <port number>: specify server port number\n" + " (HTTP default: %d, GQTP default: %d)\n" + " -i, --server-id <ip/hostname>:\n" + " specify server ID address (default: %s)\n" + " --protocol <protocol>: specify server protocol to listen\n" + " [gqtp|http|memcached] (default: %s)\n" + " --document-root <path>: specify document root path (http only)\n" + " (default: %s)\n" + " --cache-limit <limit>: specify max number of cache data (default: %u)\n" + " -t, --max-threads <max threads>:\n" + " specify max number of threads (default: %u)\n" + " --pid-path <path>: specify file to write process ID to\n" + " (daemon mode only)\n" + " --default-request-timeout <timeout>:\n" + " specify the default request timeout in seconds\n" + " (default: %f)\n" + " --cache-base-path <path>: specify the cache base path\n" + " You can make cache persistent by this option\n" + " You must specify path on memory file system\n" + " (default: none; disabled)\n" + "\n" + "Memcached options:\n" + " --memcached-column <column>:\n" + " specify column to access by memcached protocol\n" + " The column must be text type column and\n" + " its table must be not NO_KEY table\n" + "\n" + "Logging options:\n" + " -l, --log-level <log level>:\n" + " specify log level\n" + " [none|emergency|alert|critical|\n" + " error|warning|notice|info|debug|dump]\n" + " (default: %s)\n" + " --log-path <path>: specify log path\n" + " (default: %s)\n" + " --log-rotate-threshold-size <threshold>:\n" + " specify threshold for log rotate\n" + " Log file is rotated when\n" + " log file size is larger than or\n" + " equals to the threshold\n" + " (default: 0; disabled)\n" +#ifdef WIN32 + " --use-windows-event-log:\n" + " report logs as Windows events\n" +#endif /* WIN32 */ + " --query-log-path <path>:\n" + " specify query log path\n" + " (default: %s)\n" + " --query-log-rotate-threshold-size <threshold>:\n" + " specify threshold for query log rotate\n" + " Query log file is rotated when\n" + " query log file size is larger than or\n" + " equals to the threshold\n" + " (default: 0; disabled)\n" + "\n" + "Common options:\n" + " --working-directory <path>:\n" + " specify working directory path\n" + " (none)\n" + " --config-path <path>:\n" + " specify config file path\n" + " (default: %s)\n" + " --default-command-version <version>:\n" + " specify default command version (default: %d)\n" + " --default-match-escalation-threshold <threshold>:\n" + " specify default match escalation threshold" + " (default: %" GRN_FMT_LLD ")\n" + "\n" + " --show-config: show config\n" + " -h, --help: show usage\n" + " --version: show groonga version\n" + "\n" + "dest:\n" + " <db pathname> [<commands>]: in standalone mode\n" + " <db pathname>: in server/daemon mode\n" + " <dest hostname> [<commands>]: in client mode (default: %s)\n", + grn_encoding_to_string(default_encoding), + default_gqtp_port, default_bind_address, + default_http_port, default_gqtp_port, default_hostname, default_protocol, + default_document_root, default_cache_limit, default_max_n_threads, + default_default_request_timeout, + grn_log_level_to_string(default_log_level), + default_log_path, default_query_log_path, + default_config_path, default_default_command_version, + (long long int)default_default_match_escalation_threshold, + default_dest); +} + +int +main(int argc, char **argv) +{ + const char *port_arg = NULL; + const char *encoding_arg = NULL; + const char *max_n_threads_arg = NULL; + const char *log_level_arg = NULL; + const char *bind_address_arg = NULL; + const char *hostname_arg = NULL; + const char *protocol_arg = NULL; + const char *log_path_arg = GRN_LOG_PATH; + const char *log_rotate_threshold_size_arg = NULL; + const char *query_log_path_arg = NULL; + const char *query_log_rotate_threshold_size_arg = NULL; + const char *cache_limit_arg = NULL; + const char *document_root_arg = NULL; + const char *default_command_version_arg = NULL; + const char *default_match_escalation_threshold_arg = NULL; + const char *input_fd_arg = NULL; + const char *output_fd_arg = NULL; + const char *working_directory_arg = NULL; + const char *config_path = NULL; + const char *default_request_timeout_arg = NULL; + const char *cache_base_path = NULL; + int exit_code = EXIT_SUCCESS; + int i; + int flags = 0; + uint32_t cache_limit = 0; + grn_command_version default_command_version; + int64_t default_match_escalation_threshold = 0; + double default_request_timeout = 0.0; + grn_bool need_line_editor = GRN_FALSE; + static grn_str_getopt_opt opts[] = { + {'p', "port", NULL, 0, GETOPT_OP_NONE}, + {'e', "encoding", NULL, 0, GETOPT_OP_NONE}, + {'t', "max-threads", NULL, 0, GETOPT_OP_NONE}, + {'h', "help", NULL, ACTION_USAGE, GETOPT_OP_UPDATE}, + {'c', NULL, NULL, FLAG_MODE_CLIENT, GETOPT_OP_ON}, + {'d', NULL, NULL, FLAG_MODE_DAEMON, GETOPT_OP_ON}, + {'s', NULL, NULL, FLAG_MODE_SERVER, GETOPT_OP_ON}, + {'l', "log-level", NULL, 0, GETOPT_OP_NONE}, + {'i', "server-id", NULL, 0, GETOPT_OP_NONE}, + {'n', NULL, NULL, FLAG_NEW_DB, GETOPT_OP_ON}, + {'\0', "protocol", NULL, 0, GETOPT_OP_NONE}, + {'\0', "version", NULL, ACTION_VERSION, GETOPT_OP_UPDATE}, + {'\0', "log-path", NULL, 0, GETOPT_OP_NONE}, + {'\0', "log-rotate-threshold-size", NULL, 0, GETOPT_OP_NONE}, + {'\0', "query-log-path", NULL, 0, GETOPT_OP_NONE}, + {'\0', "query-log-rotate-threshold-size", NULL, 0, GETOPT_OP_NONE}, + {'\0', "pid-path", NULL, 0, GETOPT_OP_NONE}, + {'\0', "config-path", NULL, 0, GETOPT_OP_NONE}, + {'\0', "show-config", NULL, ACTION_SHOW_CONFIG, GETOPT_OP_UPDATE}, + {'\0', "cache-limit", NULL, 0, GETOPT_OP_NONE}, + {'\0', "file", NULL, 0, GETOPT_OP_NONE}, + {'\0', "document-root", NULL, 0, GETOPT_OP_NONE}, + {'\0', "default-command-version", NULL, 0, GETOPT_OP_NONE}, + {'\0', "default-match-escalation-threshold", NULL, 0, GETOPT_OP_NONE}, + {'\0', "bind-address", NULL, 0, GETOPT_OP_NONE}, + {'\0', "input-fd", NULL, 0, GETOPT_OP_NONE}, + {'\0', "output-fd", NULL, 0, GETOPT_OP_NONE}, + {'\0', "working-directory", NULL, 0, GETOPT_OP_NONE}, + {'\0', "use-windows-event-log", NULL, + FLAG_USE_WINDOWS_EVENT_LOG, GETOPT_OP_ON}, + {'\0', "memcached-column", NULL, 0, GETOPT_OP_NONE}, + {'\0', "default-request-timeout", NULL, 0, GETOPT_OP_NONE}, + {'\0', "cache-base-path", NULL, 0, GETOPT_OP_NONE}, + {'\0', NULL, NULL, 0, 0} + }; + opts[0].arg = &port_arg; + opts[1].arg = &encoding_arg; + opts[2].arg = &max_n_threads_arg; + opts[7].arg = &log_level_arg; + opts[8].arg = &hostname_arg; + opts[10].arg = &protocol_arg; + opts[12].arg = &log_path_arg; + opts[13].arg = &log_rotate_threshold_size_arg; + opts[14].arg = &query_log_path_arg; + opts[15].arg = &query_log_rotate_threshold_size_arg; + opts[16].arg = &pid_file_path; + opts[17].arg = &config_path; + opts[19].arg = &cache_limit_arg; + opts[20].arg = &input_path; + opts[21].arg = &document_root_arg; + opts[22].arg = &default_command_version_arg; + opts[23].arg = &default_match_escalation_threshold_arg; + opts[24].arg = &bind_address_arg; + opts[25].arg = &input_fd_arg; + opts[26].arg = &output_fd_arg; + opts[27].arg = &working_directory_arg; + opts[29].arg = &memcached_column_name; + opts[30].arg = &default_request_timeout_arg; + opts[31].arg = &cache_base_path; + + reset_ready_notify_pipe(); + + init_default_settings(); + + /* only for parsing --config-path. */ + i = grn_str_getopt(argc, argv, opts, &flags); + if (i < 0) { + show_usage(stderr); + return EXIT_FAILURE; + } + + if (config_path) { + const config_file_status status = config_file_load(config_path, opts, &flags); + if (status == CONFIG_FILE_FOPEN_ERROR) { + fprintf(stderr, "%s: can't open config file: %s (%s)\n", + argv[0], config_path, strerror(errno)); + return EXIT_FAILURE; + } else if (status != CONFIG_FILE_SUCCESS) { + fprintf(stderr, "%s: failed to parse config file: %s (%s)\n", + argv[0], config_path, + (status == CONFIG_FILE_FORMAT_ERROR) ? "Invalid format" : strerror(errno)); + return EXIT_FAILURE; + } + } else if (*default_config_path) { + const config_file_status status = + config_file_load(default_config_path, opts, &flags); + if (status != CONFIG_FILE_SUCCESS && status != CONFIG_FILE_FOPEN_ERROR) { + fprintf(stderr, "%s: failed to parse config file: %s (%s)\n", + argv[0], default_config_path, + (status == CONFIG_FILE_FORMAT_ERROR) ? "Invalid format" : strerror(errno)); + return EXIT_FAILURE; + } + } + + if (working_directory_arg) { + if (chdir(working_directory_arg) == -1) { + fprintf(stderr, "%s: failed to change directory: %s: %s\n", + argv[0], working_directory_arg, strerror(errno)); + return EXIT_FAILURE; + } + } + + if (cache_base_path) { + grn_set_default_cache_base_path(cache_base_path); + } + + /* ignore mode option in config file */ + flags = (flags == ACTION_ERROR) ? 0 : (flags & ~ACTION_MASK); + + i = grn_str_getopt(argc, argv, opts, &flags); + if (i < 0) { flags = ACTION_ERROR; } + switch (flags & ACTION_MASK) { + case ACTION_VERSION : + show_version(); + return EXIT_SUCCESS; + case ACTION_USAGE : + show_usage(output); + return EXIT_SUCCESS; + case ACTION_SHOW_CONFIG : + show_config(output, opts, flags & ~ACTION_MASK); + return EXIT_SUCCESS; + case ACTION_ERROR : + show_usage(stderr); + return EXIT_FAILURE; + } + + if ((flags & MODE_MASK) == 0) { + flags |= FLAG_MODE_ALONE; + } + + if (port_arg) { + const char * const end = port_arg + strlen(port_arg); + const char *rest = NULL; + const int value = grn_atoi(port_arg, end, &rest); + if (rest != end || value <= 0 || value > 65535) { + fprintf(stderr, "invalid port number: <%s>\n", port_arg); + return EXIT_FAILURE; + } + port = value; + } else { + if (protocol_arg) { + if (*protocol_arg == 'h' || *protocol_arg == 'H') { + port = default_http_port; + } + } + } + + if (encoding_arg) { + switch (*encoding_arg) { + case 'n' : + case 'N' : + encoding = GRN_ENC_NONE; + break; + case 'e' : + case 'E' : + encoding = GRN_ENC_EUC_JP; + break; + case 'u' : + case 'U' : + encoding = GRN_ENC_UTF8; + break; + case 's' : + case 'S' : + encoding = GRN_ENC_SJIS; + break; + case 'l' : + case 'L' : + encoding = GRN_ENC_LATIN1; + break; + case 'k' : + case 'K' : + encoding = GRN_ENC_KOI8R; + break; + default: + encoding = GRN_ENC_DEFAULT; + break; + } + } else { + encoding = GRN_ENC_DEFAULT; + } + + if (!grn_document_root) { + grn_document_root = default_document_root; + } + + if (protocol_arg) { + switch (*protocol_arg) { + case 'g' : + case 'G' : + do_client = g_client; + do_server = g_server; + break; + case 'h' : + case 'H' : + do_client = g_client; + do_server = h_server; + break; + case 'm' : + case 'M' : + is_memcached_mode = GRN_TRUE; + do_client = g_client; + do_server = g_server; + break; + default : + do_client = g_client; + do_server = g_server; + break; + } + } else { + do_client = g_client; + do_server = g_server; + } + +#ifdef WIN32 + if (flags & FLAG_USE_WINDOWS_EVENT_LOG) { + use_windows_event_log = GRN_TRUE; + } +#endif /* WIN32 */ + + if (use_windows_event_log) { + grn_windows_event_logger_set(NULL, windows_event_source_name); + } + + if (log_path_arg) { + grn_default_logger_set_path(log_path_arg); + } + + if (log_rotate_threshold_size_arg) { + const char * const end = + log_rotate_threshold_size_arg + + strlen(log_rotate_threshold_size_arg); + const char *rest = NULL; + const uint64_t value = grn_atoull(log_rotate_threshold_size_arg, end, &rest); + if (end != rest) { + fprintf(stderr, "invalid log rotate threshold size: <%s>\n", + log_rotate_threshold_size_arg); + return EXIT_FAILURE; + } + grn_default_logger_set_rotate_threshold_size(value); + } + + if (query_log_path_arg) { + grn_default_query_logger_set_path(query_log_path_arg); + } + + if (query_log_rotate_threshold_size_arg) { + const char * const end = + query_log_rotate_threshold_size_arg + + strlen(query_log_rotate_threshold_size_arg); + const char *rest = NULL; + const uint64_t value = + grn_atoull(query_log_rotate_threshold_size_arg, end, &rest); + if (end != rest) { + fprintf(stderr, "invalid query log rotate threshold size: <%s>\n", + query_log_rotate_threshold_size_arg); + return EXIT_FAILURE; + } + grn_default_query_logger_set_rotate_threshold_size(value); + } + + { + grn_log_level log_level; + + if (log_level_arg) { + grn_bool parsed; + + parsed = grn_log_level_parse(log_level_arg, &log_level); + if (!parsed) { + const char * const end = log_level_arg + strlen(log_level_arg); + const char *rest = NULL; + const int value = grn_atoi(log_level_arg, end, &rest); + if (end != rest || value < GRN_LOG_NONE || value > GRN_LOG_DUMP) { + fprintf(stderr, "invalid log level: <%s>\n", log_level_arg); + return EXIT_FAILURE; + } + log_level = value; + } + } else { + log_level = default_log_level; + } + + grn_default_logger_set_max_level(log_level); + } + + if (max_n_threads_arg) { + const char * const end = max_n_threads_arg + strlen(max_n_threads_arg); + const char *rest = NULL; + const uint32_t value = grn_atoui(max_n_threads_arg, end, &rest); + if (end != rest || value < 1 || value > 100) { + fprintf(stderr, "invalid max number of threads: <%s>\n", + max_n_threads_arg); + return EXIT_FAILURE; + } + max_n_floating_threads = value; + } else { + if (flags & FLAG_MODE_ALONE) { + max_n_floating_threads = 1; + } else { + max_n_floating_threads = default_max_n_threads; + } + } + + grn_thread_set_get_limit_func(groonga_get_thread_limit, NULL); + grn_thread_set_set_limit_func(groonga_set_thread_limit, NULL); + + if (output_fd_arg) { + const char * const end = output_fd_arg + strlen(output_fd_arg); + const char *rest = NULL; + const int output_fd = grn_atoi(output_fd_arg, end, &rest); + if (rest != end || output_fd == 0) { + fprintf(stderr, "invalid output FD: <%s>\n", output_fd_arg); + return EXIT_FAILURE; + } + output = fdopen(output_fd, "w"); + if (!output) { + fprintf(stderr, "can't open output FD: %d (%s)\n", + output_fd, strerror(errno)); + return EXIT_FAILURE; + } + } + + + if (bind_address_arg) { + const size_t bind_address_length = strlen(bind_address_arg); + if (bind_address_length > HOST_NAME_MAX) { + fprintf(stderr, "too long bind address: %s (%u bytes):" + " must not be longer than %u bytes\n", + bind_address_arg, (unsigned int)bind_address_length, HOST_NAME_MAX); + return EXIT_FAILURE; + } + grn_strcpy(bind_address, HOST_NAME_MAX + 1, bind_address_arg); + } else { + grn_strcpy(bind_address, HOST_NAME_MAX + 1, default_bind_address); + } + + if (hostname_arg) { + const size_t hostname_length = strlen(hostname_arg); + if (hostname_length > HOST_NAME_MAX) { + fprintf(stderr, "too long hostname: %s (%u bytes):" + " must not be longer than %u bytes\n", + hostname_arg, (unsigned int)hostname_length, HOST_NAME_MAX); + return EXIT_FAILURE; + } + grn_strcpy(hostname, HOST_NAME_MAX + 1, hostname_arg); + } else { + grn_strcpy(hostname, HOST_NAME_MAX + 1, default_hostname); + } + + if (document_root_arg) { + grn_document_root = document_root_arg; + } + + if (default_command_version_arg) { + const char * const end = default_command_version_arg + + strlen(default_command_version_arg); + const char *rest = NULL; + const int value = grn_atoi(default_command_version_arg, end, &rest); + if (end != rest || value < GRN_COMMAND_VERSION_MIN || + value > GRN_COMMAND_VERSION_MAX) { + fprintf(stderr, "invalid command version: <%s>\n", + default_command_version_arg); + return EXIT_FAILURE; + } + default_command_version = value; + } else { + default_command_version = default_default_command_version; + } + + if (default_match_escalation_threshold_arg) { + const char * const end = default_match_escalation_threshold_arg + + strlen(default_match_escalation_threshold_arg); + const char *rest = NULL; + const int64_t value = grn_atoll(default_match_escalation_threshold_arg, end, &rest); + if (end != rest) { + fprintf(stderr, "invalid match escalation threshold: <%s>\n", + default_match_escalation_threshold_arg); + return EXIT_FAILURE; + } + default_match_escalation_threshold = value; + } else { + default_match_escalation_threshold = default_default_match_escalation_threshold; + } + + if (cache_limit_arg) { + const char * const end = cache_limit_arg + strlen(cache_limit_arg); + const char *rest = NULL; + const uint32_t value = grn_atoui(cache_limit_arg, end, &rest); + if (end != rest) { + fprintf(stderr, "invalid --cache-limit value: <%s>\n", cache_limit_arg); + return EXIT_FAILURE; + } + cache_limit = value; + } + + if (default_request_timeout_arg) { + const char * const end = + default_request_timeout_arg + strlen(default_request_timeout_arg); + char *rest = NULL; + double value; + value = strtod(default_request_timeout_arg, &rest); + if (end != rest) { + fprintf(stderr, "invalid default request timeout: <%s>\n", + default_request_timeout_arg); + return EXIT_FAILURE; + } + default_request_timeout = value; + } else { + default_request_timeout = default_default_request_timeout; + } + + grn_gctx.errbuf[0] = '\0'; + if (grn_init()) { + fprintf(stderr, "failed to initialize Groonga: %s\n", grn_gctx.errbuf); + return EXIT_FAILURE; + } + + grn_set_default_encoding(encoding); + + if (default_command_version_arg) { + grn_set_default_command_version(default_command_version); + } + + if (default_match_escalation_threshold_arg) { + grn_set_default_match_escalation_threshold(default_match_escalation_threshold); + } + + if (default_request_timeout_arg) { + grn_set_default_request_timeout(default_request_timeout); + } + + grn_set_segv_handler(); + grn_set_int_handler(); + grn_set_term_handler(); + + if (cache_limit_arg) { + grn_cache *cache; + cache = grn_cache_current_get(&grn_gctx); + grn_cache_set_max_n_entries(&grn_gctx, cache, cache_limit); + } + + MUTEX_INIT(q_mutex); + COND_INIT(q_cond); + + if (input_path) { + input_reader = grn_file_reader_open(&grn_gctx, input_path); + if (!input_reader) { + fprintf(stderr, "can't open input file: %s (%s)\n", + input_path, strerror(errno)); + return EXIT_FAILURE; + } + batchmode = GRN_TRUE; + } else { + if (input_fd_arg) { + const char * const end = input_fd_arg + strlen(input_fd_arg); + const char *rest = NULL; + const int input_fd = grn_atoi(input_fd_arg, end, &rest); + if (rest != end || input_fd == 0) { + fprintf(stderr, "invalid input FD: <%s>\n", input_fd_arg); + return EXIT_FAILURE; + } + if (dup2(input_fd, STDIN_FILENO) == -1) { + fprintf(stderr, "can't open input FD: %d (%s)\n", + input_fd, strerror(errno)); + return EXIT_FAILURE; + } + input_reader = grn_file_reader_open(&grn_gctx, "-"); + if (!input_reader) { + fprintf(stderr, "%s", grn_gctx.errbuf); + return EXIT_FAILURE; + } + batchmode = GRN_TRUE; + } else { + input_reader = grn_file_reader_open(&grn_gctx, "-"); + if (!input_reader) { + fprintf(stderr, "%s", grn_gctx.errbuf); + return EXIT_FAILURE; + } + if (argc - i > 1) { + batchmode = GRN_TRUE; + } else { + batchmode = !grn_isatty(0); + } + } + } + + if ((flags & (FLAG_MODE_ALONE | FLAG_MODE_CLIENT)) && + !batchmode) { + need_line_editor = GRN_TRUE; + } + +#ifdef GRN_WITH_LIBEDIT + if (need_line_editor) { + line_editor_init(argc, argv); + } +#endif + + newdb = (flags & FLAG_NEW_DB); + is_daemon_mode = (flags & FLAG_MODE_DAEMON); + if (flags & FLAG_MODE_CLIENT) { + exit_code = do_client(argc - i, argv + i); + } else if (is_daemon_mode || (flags & FLAG_MODE_SERVER)) { + exit_code = do_server(argc > i ? argv[i] : NULL); + } else { + exit_code = do_alone(argc - i, argv + i); + } + + COND_FIN(q_cond); + MUTEX_FIN(q_mutex); + + if (input_reader) { + grn_file_reader_close(&grn_gctx, input_reader); + } +#ifdef GRN_WITH_LIBEDIT + if (need_line_editor) { + line_editor_fin(); + } +#endif + if (output != stdout) { + fclose(output); + } + grn_fin(); + return exit_code; +} |