/* saxdb.c - srvx database manager
- * Copyright 2002-2004 srvx Development Team
+ * Copyright 2002-2004,2007-2008 srvx Development Team
*
- * This program is free software; you can redistribute it and/or modify
+ * This file is part of srvx.
+ *
+ * srvx is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation; either version 2 of the License, or
- * (at your option) any later version. Important limitations are
- * listed in the COPYING file that accompanies this software.
+ * (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
- * along with this program; if not, email srvx-maintainers@srvx.net.
+ * along with srvx; if not, write to the Free Software Foundation,
+ * Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA.
*/
#include "conf.h"
#include "saxdb.h"
#include "timeq.h"
-DECLARE_LIST(int_list, int);
-DEFINE_LIST(int_list, int);
+#if !defined(SAXDB_BUFFER_SIZE)
+# define SAXDB_BUFFER_SIZE (32 * 1024)
+#endif
+
+DEFINE_LIST(int_list, int)
struct saxdb {
char *name;
saxdb_reader_func_t *reader;
saxdb_writer_func_t *writer;
unsigned int write_interval;
- time_t last_write;
+ unsigned long last_write;
unsigned int last_write_duration;
struct saxdb *prev;
};
struct saxdb_context {
+ struct string_buffer obuf;
FILE *output;
unsigned int indent;
struct int_list complex;
jmp_buf jbuf;
- /* XXX: If jbuf is ever used, places that use saxdb_open_context() and
- * saxdb_close_context() must be modified to fill it in */
};
#define COMPLEX(CTX) ((CTX)->complex.used ? ((CTX)->complex.list[(CTX)->complex.used-1]) : 1)
assert(db);
assert(db->filename);
data = parse_database(db->filename);
- if (!data) return;
+ if (!data)
+ return;
if (db->writer == saxdb_mondo_writer) {
+ free_database(mondo_db);
mondo_db = data;
} else {
db->reader(data);
static int
saxdb_write_db(struct saxdb *db) {
- struct saxdb_context ctx;
+ struct saxdb_context *ctx;
+ FILE *output;
char tmp_fname[MAXLEN];
int res, res2;
- time_t start, finish;
+ unsigned long start, finish;
assert(db->filename);
sprintf(tmp_fname, "%s.new", db->filename);
- memset(&ctx, 0, sizeof(ctx));
- ctx.output = fopen(tmp_fname, "w+");
- int_list_init(&ctx.complex);
- if (!ctx.output) {
+ output = fopen(tmp_fname, "w+");
+ if (!output) {
log_module(MAIN_LOG, LOG_ERROR, "Unable to write to %s: %s", tmp_fname, strerror(errno));
- int_list_clean(&ctx.complex);
return 1;
}
+ ctx = saxdb_open_context(output);
start = time(NULL);
- if ((res = setjmp(ctx.jbuf)) || (res2 = db->writer(&ctx))) {
+ if ((res = setjmp(*saxdb_jmp_buf(ctx))) || (res2 = db->writer(ctx))) {
if (res) {
- log_module(MAIN_LOG, LOG_ERROR, "Exception %d caught while writing to %s", res, tmp_fname);
+ log_module(MAIN_LOG, LOG_ERROR, "Error writing to %s: %s", tmp_fname, strerror(res));
} else {
log_module(MAIN_LOG, LOG_ERROR, "Internal error %d while writing to %s", res2, tmp_fname);
}
- int_list_clean(&ctx.complex);
- fclose(ctx.output);
+ ctx->complex.used = 0; /* Squelch asserts about unbalanced output. */
+ saxdb_close_context(ctx, 1);
remove(tmp_fname);
return 2;
}
finish = time(NULL);
- assert(ctx.complex.used == 0);
- int_list_clean(&ctx.complex);
- fclose(ctx.output);
+ saxdb_close_context(ctx, 1);
if (rename(tmp_fname, db->filename) < 0) {
log_module(MAIN_LOG, LOG_ERROR, "Unable to rename %s to %s: %s", tmp_fname, db->filename, strerror(errno));
}
for (it = dict_first(saxdbs); it; it = iter_next(it)) {
db = iter_data(it);
- if (!db->mondo_section) saxdb_write_db(db);
+ if (!db->mondo_section)
+ saxdb_write_db(db);
}
}
-#define saxdb_put_char(DEST, CH) fputc(CH, (DEST)->output)
-#define saxdb_put_string(DEST, CH) fputs(CH, (DEST)->output)
+static void
+saxdb_flush(struct saxdb_context *dest) {
+ ssize_t nbw;
+ size_t ofs;
+ int fd;
+
+ assert(dest->obuf.used <= dest->obuf.size);
+ fd = fileno(dest->output);
+ for (ofs = 0; ofs < dest->obuf.used; ofs += nbw) {
+ nbw = write(fd, dest->obuf.list + ofs, dest->obuf.used);
+ if (nbw < 0) {
+ longjmp(dest->jbuf, errno);
+ }
+ }
+ dest->obuf.used = 0;
+}
-static inline void
+static void
+saxdb_put_char(struct saxdb_context *dest, char ch) {
+ dest->obuf.list[dest->obuf.used] = ch;
+ if (++dest->obuf.used == dest->obuf.size)
+ saxdb_flush(dest);
+}
+
+static void
saxdb_put_nchars(struct saxdb_context *dest, const char *name, int len) {
- while (len--) {
- fputc(*name++, dest->output);
+ int frag;
+ int ofs;
+
+ for (ofs = 0; ofs < len; ofs += frag) {
+ frag = dest->obuf.size - dest->obuf.used;
+ if (frag > len - ofs)
+ frag = len - ofs;
+ memcpy(dest->obuf.list + dest->obuf.used, name + ofs, frag);
+ dest->obuf.used += frag;
+ if (dest->obuf.used == dest->obuf.size)
+ saxdb_flush(dest);
}
}
+#define saxdb_put_string(DEST, STR) do { \
+ saxdb_put_nchars((DEST), (STR), strlen(STR)); \
+ } while (0)
+
static void
saxdb_put_qstring(struct saxdb_context *dest, const char *str) {
- const char *esc;
+ size_t ofs;
+ size_t span;
assert(str);
saxdb_put_char(dest, '"');
- while ((esc = strpbrk(str, "\\\a\b\t\n\v\f\r\""))) {
- if (esc != str) saxdb_put_nchars(dest, str, esc-str);
- saxdb_put_char(dest, '\\');
- switch (*esc) {
- case '\a': saxdb_put_char(dest, 'a'); break;
- case '\b': saxdb_put_char(dest, 'b'); break;
- case '\t': saxdb_put_char(dest, 't'); break;
- case '\n': saxdb_put_char(dest, 'n'); break;
- case '\v': saxdb_put_char(dest, 'v'); break;
- case '\f': saxdb_put_char(dest, 'f'); break;
- case '\r': saxdb_put_char(dest, 'r'); break;
- case '\\': saxdb_put_char(dest, '\\'); break;
- case '"': saxdb_put_char(dest, '"'); break;
+ for (ofs = 0; str[ofs] != '\0'; ) {
+ char stop;
+ span = strcspn(str + ofs, "\\\a\b\t\n\v\f\r\"");
+ saxdb_put_nchars(dest, str + ofs, span);
+ ofs += span;
+ stop = str[ofs];
+ switch (stop) {
+ case '\0': continue;
+ case '\a': stop = 'a'; break;
+ case '\b': stop = 'b'; break;
+ case '\t': stop = 't'; break;
+ case '\n': stop = 'n'; break;
+ case '\v': stop = 'v'; break;
+ case '\f': stop = 'f'; break;
+ case '\r': stop = 'r'; break;
}
- str = esc + 1;
+ saxdb_put_char(dest, '\\');
+ saxdb_put_char(dest, stop);
+ ofs++;
}
- saxdb_put_string(dest, str);
saxdb_put_char(dest, '"');
}
}
}
#else
-#define saxdb_pre_object(DEST)
+#define saxdb_pre_object(DEST)
#endif
static inline void
saxdb_start_record(struct saxdb_context *dest, const char *name, int complex) {
saxdb_pre_object(dest);
saxdb_put_qstring(dest, name);
- saxdb_put_string(dest, " { ");
+ saxdb_put_string(dest, " {");
int_list_append(&dest->complex, complex);
if (complex) {
dest->indent++;
saxdb_put_char(dest, '\n');
+ } else {
+ saxdb_put_char(dest, ' ');
}
}
void
saxdb_write_int(struct saxdb_context *dest, const char *name, unsigned long value) {
- unsigned char buf[16];
+ char buf[16];
/* we could optimize this to take advantage of the fact that buf will never need escapes */
snprintf(buf, sizeof(buf), "%lu", value);
saxdb_write_string(dest, name, buf);
}
+void
+saxdb_write_sint(struct saxdb_context *dest, const char *name, long value) {
+ char buf[16];
+ /* we could optimize this to take advantage of the fact that buf will never need escapes */
+ snprintf(buf, sizeof(buf), "%ld", value);
+ saxdb_write_string(dest, name, buf);
+}
+
static void
saxdb_free(void *data) {
struct saxdb *db = data;
stop.tv_sec -= 1;
stop.tv_usec += 1000000;
}
- reply("MSG_DB_WROTE_DB", db->name, stop.tv_sec, stop.tv_usec);
+ reply("MSG_DB_WROTE_DB", db->name, (unsigned long)stop.tv_sec, (unsigned long)stop.tv_usec);
written++;
}
}
stop.tv_sec -= 1;
stop.tv_usec += 1000000;
}
- reply("MSG_DB_WROTE_ALL", stop.tv_sec, stop.tv_usec);
+ reply("MSG_DB_WROTE_ALL", (unsigned long)stop.tv_sec, (unsigned long)stop.tv_usec);
return 1;
}
tbl.contents[0][4] = "Last Duration";
for (ii=1, it=dict_first(saxdbs); it; it=iter_next(it), ++ii) {
struct saxdb *db = iter_data(it);
+ if (db->mondo_section) {
+ --ii;
+ continue;
+ }
char *buf = malloc(INTERVALLEN*3);
tbl.contents[ii] = calloc(tbl.width, sizeof(tbl.contents[ii][0]));
tbl.contents[ii][0] = db->name;
tbl.contents[ii][1] = db->mondo_section ? db->mondo_section : db->filename;
if (db->write_interval) {
- intervalString(buf, db->write_interval);
+ intervalString(buf, db->write_interval, user->handle_info);
} else {
strcpy(buf, "Never");
}
tbl.contents[ii][2] = buf;
if (db->last_write) {
- intervalString(buf+INTERVALLEN, now - db->last_write);
- intervalString(buf+INTERVALLEN*2, db->last_write_duration);
+ intervalString(buf+INTERVALLEN, now - db->last_write, user->handle_info);
+ intervalString(buf+INTERVALLEN*2, db->last_write_duration, user->handle_info);
} else {
strcpy(buf+INTERVALLEN, "Never");
strcpy(buf+INTERVALLEN*2, "Never");
tbl.contents[ii][3] = buf+INTERVALLEN;
tbl.contents[ii][4] = buf+INTERVALLEN*2;
}
+ tbl.length = ii;
table_send(cmd->parent->bot, user->nick, 0, 0, tbl);
free(tbl.contents[0]);
for (ii=1; ii<tbl.length; ++ii) {
int
write_database(FILE *out, struct dict *db) {
- struct saxdb_context ctx;
+ struct saxdb_context *ctx;
int res;
- ctx.output = out;
- ctx.indent = 0;
- int_list_init(&ctx.complex);
- if (!(res = setjmp(ctx.jbuf))) {
- write_database_helper(&ctx, db);
+ ctx = saxdb_open_context(out);
+ if (!(res = setjmp(*saxdb_jmp_buf(ctx)))) {
+ write_database_helper(ctx, db);
} else {
log_module(MAIN_LOG, LOG_ERROR, "Exception %d caught while writing to stream", res);
- int_list_clean(&ctx.complex);
+ ctx->complex.used = 0; /* Squelch asserts about unbalanced output. */
+ saxdb_close_context(ctx, 0);
return 1;
}
- assert(ctx.complex.used == 0);
- int_list_clean(&ctx.complex);
+ saxdb_close_context(ctx, 0);
return 0;
}
assert(file);
ctx = calloc(1, sizeof(*ctx));
ctx->output = file;
+ ctx->obuf.size = SAXDB_BUFFER_SIZE;
+ ctx->obuf.list = calloc(1, ctx->obuf.size);
int_list_init(&ctx->complex);
return ctx;
}
+jmp_buf *
+saxdb_jmp_buf(struct saxdb_context *ctx) {
+ return &ctx->jbuf;
+}
+
+
void
-saxdb_close_context(struct saxdb_context *ctx) {
+saxdb_close_context(struct saxdb_context *ctx, int close_file) {
assert(ctx->complex.used == 0);
+ saxdb_flush(ctx);
int_list_clean(&ctx->complex);
+ free(ctx->obuf.list);
+ if (close_file)
+ fclose(ctx->output);
+ else
+ fflush(ctx->output);
free(ctx);
}