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/***
This file is part of PulseAudio.
Copyright 2009 Lennart Poettering
PulseAudio is free software; you can redistribute it and/or modify
it under the terms of the GNU Lesser General Public License as
published by the Free Software Foundation; either version 2.1 of the
License, or (at your option) any later version.
PulseAudio 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 PulseAudio; if not, see <http://www.gnu.org/licenses/>.
***/
#ifdef HAVE_CONFIG_H
#include <config.h>
#endif
#include <errno.h>
#include <gdbm.h>
#include <pulse/xmalloc.h>
#include <pulsecore/core-util.h>
#include <pulsecore/log.h>
#include "database.h"
#define MAKE_GDBM_FILE(x) ((GDBM_FILE) (x))
static inline datum* datum_to_gdbm(datum *to, const pa_datum *from) {
pa_assert(from);
pa_assert(to);
to->dptr = from->data;
to->dsize = from->size;
return to;
}
static inline pa_datum* datum_from_gdbm(pa_datum *to, const datum *from) {
pa_assert(from);
pa_assert(to);
to->data = from->dptr;
to->size = from->dsize;
return to;
}
void pa_datum_free(pa_datum *d) {
pa_assert(d);
free(d->data); /* gdbm uses raw malloc/free hence we should do that here, too */
pa_zero(d);
}
const char* pa_database_get_filename_suffix(void) {
return ".gdbm";
}
pa_database* pa_database_open_internal(const char *path, bool for_write) {
GDBM_FILE f;
int gdbm_cache_size;
pa_assert(path);
errno = 0;
/* We need to set the block size explicitly here, since otherwise
* gdbm takes the native block size of the underlying file system
* which might be incredibly large. */
f = gdbm_open((char*) path, 1024, GDBM_NOLOCK | (for_write ? GDBM_WRCREAT : GDBM_READER), 0644, NULL);
if (f)
pa_log_debug("Opened GDBM database '%s'", path);
if (!f) {
if (errno == 0)
errno = EIO;
return NULL;
}
/* By default the cache of gdbm is rather large, let's reduce it a bit to save memory */
gdbm_cache_size = 10;
gdbm_setopt(f, GDBM_CACHESIZE, &gdbm_cache_size, sizeof(gdbm_cache_size));
return (pa_database*) f;
}
void pa_database_close(pa_database *db) {
pa_assert(db);
gdbm_close(MAKE_GDBM_FILE(db));
}
pa_datum* pa_database_get(pa_database *db, const pa_datum *key, pa_datum* data) {
datum gdbm_key, gdbm_data;
pa_assert(db);
pa_assert(key);
pa_assert(data);
gdbm_data = gdbm_fetch(MAKE_GDBM_FILE(db), *datum_to_gdbm(&gdbm_key, key));
return gdbm_data.dptr ?
datum_from_gdbm(data, &gdbm_data) :
NULL;
}
int pa_database_set(pa_database *db, const pa_datum *key, const pa_datum* data, bool overwrite) {
datum gdbm_key, gdbm_data;
pa_assert(db);
pa_assert(key);
pa_assert(data);
return gdbm_store(MAKE_GDBM_FILE(db),
*datum_to_gdbm(&gdbm_key, key),
*datum_to_gdbm(&gdbm_data, data),
overwrite ? GDBM_REPLACE : GDBM_INSERT) != 0 ? -1 : 0;
}
int pa_database_unset(pa_database *db, const pa_datum *key) {
datum gdbm_key;
pa_assert(db);
pa_assert(key);
return gdbm_delete(MAKE_GDBM_FILE(db), *datum_to_gdbm(&gdbm_key, key)) != 0 ? -1 : 0;
}
int pa_database_clear(pa_database *db) {
datum gdbm_key;
pa_assert(db);
gdbm_key = gdbm_firstkey(MAKE_GDBM_FILE(db));
while (gdbm_key.dptr) {
datum next;
next = gdbm_nextkey(MAKE_GDBM_FILE(db), gdbm_key);
gdbm_delete(MAKE_GDBM_FILE(db), gdbm_key);
free(gdbm_key.dptr);
gdbm_key = next;
}
return gdbm_reorganize(MAKE_GDBM_FILE(db)) == 0 ? 0 : -1;
}
signed pa_database_size(pa_database *db) {
datum gdbm_key;
unsigned n = 0;
pa_assert(db);
/* This sucks */
gdbm_key = gdbm_firstkey(MAKE_GDBM_FILE(db));
while (gdbm_key.dptr) {
datum next;
n++;
next = gdbm_nextkey(MAKE_GDBM_FILE(db), gdbm_key);
free(gdbm_key.dptr);
gdbm_key = next;
}
return (signed) n;
}
pa_datum* pa_database_first(pa_database *db, pa_datum *key, pa_datum *data) {
datum gdbm_key, gdbm_data;
pa_assert(db);
pa_assert(key);
gdbm_key = gdbm_firstkey(MAKE_GDBM_FILE(db));
if (!gdbm_key.dptr)
return NULL;
if (data) {
gdbm_data = gdbm_fetch(MAKE_GDBM_FILE(db), gdbm_key);
if (!gdbm_data.dptr) {
free(gdbm_key.dptr);
return NULL;
}
datum_from_gdbm(data, &gdbm_data);
}
datum_from_gdbm(key, &gdbm_key);
return key;
}
pa_datum* pa_database_next(pa_database *db, const pa_datum *key, pa_datum *next, pa_datum *data) {
datum gdbm_key, gdbm_data;
pa_assert(db);
pa_assert(key);
pa_assert(next);
if (!key)
return pa_database_first(db, next, data);
gdbm_key = gdbm_nextkey(MAKE_GDBM_FILE(db), *datum_to_gdbm(&gdbm_key, key));
if (!gdbm_key.dptr)
return NULL;
if (data) {
gdbm_data = gdbm_fetch(MAKE_GDBM_FILE(db), gdbm_key);
if (!gdbm_data.dptr) {
free(gdbm_key.dptr);
return NULL;
}
datum_from_gdbm(data, &gdbm_data);
}
datum_from_gdbm(next, &gdbm_key);
return next;
}
int pa_database_sync(pa_database *db) {
pa_assert(db);
gdbm_sync(MAKE_GDBM_FILE(db));
return 0;
}
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