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|
/*++
/* NAME
/* slmdb 3
/* SUMMARY
/* Simplified LMDB API
/* SYNOPSIS
/* #include <slmdb.h>
/*
/* int slmdb_init(slmdb, curr_limit, size_incr, hard_limit)
/* SLMDB *slmdb;
/* size_t curr_limit;
/* int size_incr;
/* size_t hard_limit;
/*
/* int slmdb_open(slmdb, path, open_flags, lmdb_flags, slmdb_flags)
/* SLMDB *slmdb;
/* const char *path;
/* int open_flags;
/* int lmdb_flags;
/* int slmdb_flags;
/*
/* int slmdb_close(slmdb)
/* SLMDB *slmdb;
/*
/* int slmdb_get(slmdb, mdb_key, mdb_value)
/* SLMDB *slmdb;
/* MDB_val *mdb_key;
/* MDB_val *mdb_value;
/*
/* int slmdb_put(slmdb, mdb_key, mdb_value, flags)
/* SLMDB *slmdb;
/* MDB_val *mdb_key;
/* MDB_val *mdb_value;
/* int flags;
/*
/* int slmdb_del(slmdb, mdb_key)
/* SLMDB *slmdb;
/* MDB_val *mdb_key;
/*
/* int slmdb_cursor_get(slmdb, mdb_key, mdb_value, op)
/* SLMDB *slmdb;
/* MDB_val *mdb_key;
/* MDB_val *mdb_value;
/* MDB_cursor_op op;
/* AUXILIARY FUNCTIONS
/* int slmdb_fd(slmdb)
/* SLMDB *slmdb;
/*
/* size_t slmdb_curr_limit(slmdb)
/* SLMDB *slmdb;
/*
/* int slmdb_control(slmdb, request, ...)
/* SLMDB *slmdb;
/* int request;
/* DESCRIPTION
/* This module simplifies the LMDB API by hiding recoverable
/* errors from the application. Details are given in the
/* section "ERROR RECOVERY".
/*
/* slmdb_init() performs mandatory initialization before opening
/* an LMDB database. The result value is an LMDB status code
/* (zero in case of success).
/*
/* slmdb_open() opens an LMDB database. The result value is
/* an LMDB status code (zero in case of success).
/*
/* slmdb_close() finalizes an optional bulk-mode transaction
/* and closes a successfully-opened LMDB database. The result
/* value is an LMDB status code (zero in case of success).
/*
/* slmdb_get() is an mdb_get() wrapper with automatic error
/* recovery. The result value is an LMDB status code (zero
/* in case of success).
/*
/* slmdb_put() is an mdb_put() wrapper with automatic error
/* recovery. The result value is an LMDB status code (zero
/* in case of success).
/*
/* slmdb_del() is an mdb_del() wrapper with automatic error
/* recovery. The result value is an LMDB status code (zero
/* in case of success).
/*
/* slmdb_cursor_get() is an mdb_cursor_get() wrapper with
/* automatic error recovery. The result value is an LMDB
/* status code (zero in case of success). This wrapper supports
/* only one cursor per database.
/*
/* slmdb_fd() returns the file descriptor for the specified
/* database. This may be used for file status queries or
/* application-controlled locking.
/*
/* slmdb_curr_limit() returns the current database size limit
/* for the specified database.
/*
/* slmdb_control() specifies optional features. The result is
/* an LMDB status code (zero in case of success).
/*
/* Arguments:
/* .IP slmdb
/* Pointer to caller-provided storage.
/* .IP curr_limit
/* The initial memory mapping size limit. This limit is
/* automatically increased when the database becomes full.
/* .IP size_incr
/* An integer factor by which the memory mapping size limit
/* is increased when the database becomes full.
/* .IP hard_limit
/* The upper bound for the memory mapping size limit.
/* .IP path
/* LMDB database pathname.
/* .IP open_flags
/* Flags that control file open operations. Do not specify
/* locking flags here.
/* .IP lmdb_flags
/* Flags that control the LMDB environment. If MDB_NOLOCK is
/* specified, then each slmdb_get() or slmdb_cursor_get() call
/* must be protected with a shared (or exclusive) external lock,
/* and each slmdb_put() or slmdb_del() call must be protected
/* with an exclusive external lock. A lock may be released
/* after the call returns. A writer may atomically downgrade
/* an exclusive lock to shared, but it must obtain an exclusive
/* lock before making another slmdb(3) write request.
/* .sp
/* Note: when a database is opened with MDB_NOLOCK, external
/* locks such as fcntl() do not protect slmdb(3) requests
/* within the same process against each other. If a program
/* cannot avoid making simultaneous slmdb(3) requests, then
/* it must synchronize these requests with in-process locks,
/* in addition to the per-process fcntl(2) locks.
/* .IP slmdb_flags
/* Bit-wise OR of zero or more of the following:
/* .RS
/* .IP SLMDB_FLAG_BULK
/* Open the database and create a "bulk" transaction that is
/* committed when the database is closed. If MDB_NOLOCK is
/* specified, then the entire transaction must be protected
/* with a persistent external lock. All slmdb_get(), slmdb_put()
/* and slmdb_del() requests will be directed to the "bulk"
/* transaction.
/* .RE
/* .IP mdb_key
/* Pointer to caller-provided lookup key storage.
/* .IP mdb_value
/* Pointer to caller-provided value storage.
/* .IP op
/* LMDB cursor operation.
/* .IP request
/* The start of a list of (name, value) pairs, terminated with
/* CA_SLMDB_CTL_END. The following text enumerates the symbolic
/* request names and the corresponding argument types.
/* .RS
/* .IP "CA_SLMDB_CTL_LONGJMP_FN(void (*)(void *, int))"
/* Call-back function pointer. The function is called to repeat
/* a failed bulk-mode transaction from the start. The arguments
/* are the application context and the setjmp() or sigsetjmp()
/* result value.
/* .IP "CA_SLMDB_CTL_NOTIFY_FN(void (*)(void *, int, ...))"
/* Call-back function pointer. The function is called to report
/* successful error recovery. The arguments are the application
/* context, the MDB error code, and additional arguments that
/* depend on the error code. Details are given in the section
/* "ERROR RECOVERY".
/* .IP "CA_SLMDB_CTL_ASSERT_FN(void (*)(void *, const char *))"
/* Call-back function pointer. The function is called to
/* report an LMDB internal assertion failure. The arguments
/* are the application context, and text that describes the
/* problem.
/* .IP "CA_SLMDB_CTL_CB_CONTEXT(void *)"
/* Application context that is passed in call-back function
/* calls.
/* .IP "CA_SLMDB_CTL_API_RETRY_LIMIT(int)"
/* How many times to recover from LMDB errors within the
/* execution of a single slmdb(3) API call before giving up.
/* .IP "CA_SLMDB_CTL_BULK_RETRY_LIMIT(int)"
/* How many times to recover from a bulk-mode transaction
/* before giving up.
/* .RE
/* ERROR RECOVERY
/* .ad
/* .fi
/* This module automatically repeats failed requests after
/* recoverable errors, up to the limits specified with
/* slmdb_control().
/*
/* Recoverable errors are reported through an optional
/* notification function specified with slmdb_control(). With
/* recoverable MDB_MAP_FULL and MDB_MAP_RESIZED errors, the
/* additional argument is a size_t value with the updated
/* current database size limit; with recoverable MDB_READERS_FULL
/* errors there is no additional argument.
/* BUGS
/* Recovery from MDB_MAP_FULL involves resizing the database
/* memory mapping. According to LMDB documentation this
/* requires that there is no concurrent activity in the same
/* database by other threads in the same memory address space.
/* SEE ALSO
/* lmdb(3) API manpage (currently, non-existent).
/* AUTHOR(S)
/* Howard Chu
/* Symas Corporation
/*
/* Wietse Venema
/* IBM T.J. Watson Research
/* P.O. Box 704
/* Yorktown Heights, NY 10598, USA
/*--*/
/*
* DO NOT include other Postfix-specific header files. This LMDB wrapper
* must be usable outside Postfix.
*/
#ifdef HAS_LMDB
/* System library. */
#include <sys/stat.h>
#include <errno.h>
#include <fcntl.h>
#include <string.h>
#include <unistd.h>
#include <limits.h>
#include <stdarg.h>
#include <string.h>
#include <stdlib.h>
/* Application-specific. */
#include <slmdb.h>
/*
* Minimum LMDB patchlevel.
*
* LMDB 0.9.11 allows Postfix daemons to log an LMDB error message instead of
* falling out of the sky without any explanation. Without such logging,
* Postfix with LMDB would be too hard to support.
*
* LMDB 0.9.10 fixes an information leak where LMDB wrote chunks of up to 4096
* bytes of uninitialized heap memory to a database. This was a security
* violation because it made information persistent that was not meant to be
* persisted, or it was sharing information that was not meant to be shared.
*
* LMDB 0.9.9 allows Postfix to use external (fcntl()-based) locks, instead of
* having to use world-writable LMDB lock files.
*
* LMDB 0.9.8 allows Postfix to update the database size limit on-the-fly, so
* that it can recover from an MDB_MAP_FULL error without having to close
* the database. It also allows an application to "pick up" a new database
* size limit on-the-fly, so that it can recover from an MDB_MAP_RESIZED
* error without having to close the database.
*
* The database size limit that remains is imposed by the hardware memory
* address space (31 or 47 bits, typically) or file system. The LMDB
* implementation is supposed to handle databases larger than physical
* memory. However, this is not necessarily guaranteed for (bulk)
* transactions larger than physical memory.
*/
#if MDB_VERSION_FULL < MDB_VERINT(0, 9, 11)
#error "This Postfix version requires LMDB version 0.9.11 or later"
#endif
/*
* Error recovery.
*
* The purpose of the slmdb(3) API is to hide LMDB quirks (recoverable
* MAP_FULL, MAP_RESIZED, or MDB_READERS_FULL errors). With these out of the
* way, applications can pretend that those quirks don't exist, and focus on
* their own job.
*
* - To recover from a single-transaction LMDB error, each wrapper function
* uses tail recursion instead of goto. Since LMDB errors are rare, code
* clarity is more important than speed.
*
* - To recover from a bulk-transaction LMDB error, the error-recovery code
* triggers a long jump back into the caller to some pre-arranged point (the
* closest thing that C has to exception handling). The application is then
* expected to repeat the bulk transaction from scratch.
*/
/*
* Our default retry attempt limits. We allow a few retries per slmdb(3) API
* call for non-bulk transactions. We allow a number of bulk-transaction
* retries that is proportional to the memory address space.
*/
#define SLMDB_DEF_API_RETRY_LIMIT 30 /* Retries per slmdb(3) API call */
#define SLMDB_DEF_BULK_RETRY_LIMIT \
(2 * sizeof(size_t) * CHAR_BIT) /* Retries per bulk-mode transaction */
/*
* We increment the recursion counter each time we try to recover from
* error, and reset the recursion counter when returning to the application
* from the slmdb(3) API.
*/
#define SLMDB_API_RETURN(slmdb, status) do { \
(slmdb)->api_retry_count = 0; \
return (status); \
} while (0)
/*
* With MDB_NOLOCK, the application uses an external lock for inter-process
* synchronization. Because the caller may release the external lock after
* an SLMDB API call, each SLMDB API function must use a short-lived
* transaction unless the transaction is a bulk-mode transaction.
*/
/* slmdb_cursor_close - close cursor and its read transaction */
static void slmdb_cursor_close(SLMDB *slmdb)
{
MDB_txn *txn;
/*
* Close the cursor and its read transaction. We can restore it later
* from the saved key information.
*/
txn = mdb_cursor_txn(slmdb->cursor);
mdb_cursor_close(slmdb->cursor);
slmdb->cursor = 0;
mdb_txn_abort(txn);
}
/* slmdb_saved_key_init - initialize saved key info */
static void slmdb_saved_key_init(SLMDB *slmdb)
{
slmdb->saved_key.mv_data = 0;
slmdb->saved_key.mv_size = 0;
slmdb->saved_key_size = 0;
}
/* slmdb_saved_key_free - destroy saved key info */
static void slmdb_saved_key_free(SLMDB *slmdb)
{
free(slmdb->saved_key.mv_data);
slmdb_saved_key_init(slmdb);
}
#define HAVE_SLMDB_SAVED_KEY(s) ((s)->saved_key.mv_data != 0)
/* slmdb_saved_key_assign - copy the saved key */
static int slmdb_saved_key_assign(SLMDB *slmdb, MDB_val *key_val)
{
/*
* Extend the buffer to fit the key, so that we can avoid malloc()
* overhead most of the time.
*/
if (slmdb->saved_key_size < key_val->mv_size) {
if (slmdb->saved_key.mv_data == 0)
slmdb->saved_key.mv_data = malloc(key_val->mv_size);
else
slmdb->saved_key.mv_data =
realloc(slmdb->saved_key.mv_data, key_val->mv_size);
if (slmdb->saved_key.mv_data == 0) {
slmdb_saved_key_init(slmdb);
return (ENOMEM);
} else {
slmdb->saved_key_size = key_val->mv_size;
}
}
/*
* Copy the key under the cursor.
*/
memcpy(slmdb->saved_key.mv_data, key_val->mv_data, key_val->mv_size);
slmdb->saved_key.mv_size = key_val->mv_size;
return (0);
}
/* slmdb_prepare - LMDB-specific (re)initialization before actual access */
static int slmdb_prepare(SLMDB *slmdb)
{
int status = 0;
/*
* This is called before accessing the database, or after recovery from
* an LMDB error. Note: this code cannot recover from errors itself.
* slmdb->txn is either the database open() transaction or a
* freshly-created bulk-mode transaction.
*
* - With O_TRUNC we make a "drop" request before updating the database.
*
* - With a bulk-mode transaction we commit when the database is closed.
*/
if (slmdb->open_flags & O_TRUNC) {
if ((status = mdb_drop(slmdb->txn, slmdb->dbi, 0)) != 0) {
mdb_txn_abort(slmdb->txn);
slmdb->txn = 0;
return (status);
}
if ((slmdb->slmdb_flags & SLMDB_FLAG_BULK) == 0) {
status = mdb_txn_commit(slmdb->txn);
slmdb->txn = 0;
if (status != 0)
return (status);
}
} else if ((slmdb->lmdb_flags & MDB_RDONLY) != 0
|| (slmdb->slmdb_flags & SLMDB_FLAG_BULK) == 0) {
mdb_txn_abort(slmdb->txn);
slmdb->txn = 0;
}
slmdb->api_retry_count = 0;
return (status);
}
/* slmdb_recover - recover from LMDB errors */
static int slmdb_recover(SLMDB *slmdb, int status)
{
MDB_envinfo info;
/*
* This may be needed in non-MDB_NOLOCK mode. Recovery is rare enough
* that we don't care about a few wasted cycles.
*/
if (slmdb->cursor != 0)
slmdb_cursor_close(slmdb);
/*
* Recover bulk transactions only if they can be restarted. Limit the
* number of recovery attempts per slmdb(3) API request.
*/
if ((slmdb->txn != 0 && slmdb->longjmp_fn == 0)
|| ((slmdb->api_retry_count += 1) >= slmdb->api_retry_limit))
return (status);
/*
* If we can recover from the error, we clear the error condition and the
* caller should retry the failed operation immediately. Otherwise, the
* caller should terminate with a fatal run-time error and the program
* should be re-run later.
*
* slmdb->txn must be either null (non-bulk transaction error), or an
* aborted bulk-mode transaction.
*/
switch (status) {
/*
* As of LMDB 0.9.8 when a non-bulk update runs into a "map full"
* error, we can resize the environment's memory map and clear the
* error condition. The caller should retry immediately.
*/
case MDB_MAP_FULL:
/* Can we increase the memory map? Give up if we can't. */
if (slmdb->curr_limit < slmdb->hard_limit / slmdb->size_incr) {
slmdb->curr_limit = slmdb->curr_limit * slmdb->size_incr;
} else if (slmdb->curr_limit < slmdb->hard_limit) {
slmdb->curr_limit = slmdb->hard_limit;
} else {
/* Sorry, we are already maxed out. */
break;
}
if (slmdb->notify_fn)
slmdb->notify_fn(slmdb->cb_context, MDB_MAP_FULL,
slmdb->curr_limit);
status = mdb_env_set_mapsize(slmdb->env, slmdb->curr_limit);
break;
/*
* When a writer resizes the database, read-only applications must
* increase their LMDB memory map size limit, too. Otherwise, they
* won't be able to read a table after it grows.
*
* As of LMDB 0.9.8 we can import the new memory map size limit into the
* database environment by calling mdb_env_set_mapsize() with a zero
* size argument. Then we extract the map size limit for later use.
* The caller should retry immediately.
*/
case MDB_MAP_RESIZED:
if ((status = mdb_env_set_mapsize(slmdb->env, 0)) == 0) {
/* Do not panic. Maps may shrink after bulk update. */
mdb_env_info(slmdb->env, &info);
slmdb->curr_limit = info.me_mapsize;
if (slmdb->notify_fn)
slmdb->notify_fn(slmdb->cb_context, MDB_MAP_RESIZED,
slmdb->curr_limit);
}
break;
/*
* What is it with these built-in hard limits that cause systems to
* stop when demand is at its highest? When the system is under
* stress it should slow down and keep making progress.
*/
case MDB_READERS_FULL:
if (slmdb->notify_fn)
slmdb->notify_fn(slmdb->cb_context, MDB_READERS_FULL);
sleep(1);
status = 0;
break;
/*
* We can't solve this problem. The application should terminate with
* a fatal run-time error and the program should be re-run later.
*/
default:
break;
}
/*
* If a bulk-transaction error is recoverable, build a new bulk
* transaction from scratch, by making a long jump back into the caller
* at some pre-arranged point. In MDB_NOLOCK mode, there is no need to
* upgrade the lock to "exclusive", because the failed write transaction
* has no side effects.
*/
if (slmdb->txn != 0 && status == 0 && slmdb->longjmp_fn != 0
&& (slmdb->bulk_retry_count += 1) <= slmdb->bulk_retry_limit) {
if ((status = mdb_txn_begin(slmdb->env, (MDB_txn *) 0,
slmdb->lmdb_flags & MDB_RDONLY,
&slmdb->txn)) == 0
&& (status = slmdb_prepare(slmdb)) == 0)
slmdb->longjmp_fn(slmdb->cb_context, 1);
}
return (status);
}
/* slmdb_txn_begin - mdb_txn_begin() wrapper with LMDB error recovery */
static int slmdb_txn_begin(SLMDB *slmdb, int rdonly, MDB_txn **txn)
{
int status;
if ((status = mdb_txn_begin(slmdb->env, (MDB_txn *) 0, rdonly, txn)) != 0
&& (status = slmdb_recover(slmdb, status)) == 0)
status = slmdb_txn_begin(slmdb, rdonly, txn);
return (status);
}
/* slmdb_get - mdb_get() wrapper with LMDB error recovery */
int slmdb_get(SLMDB *slmdb, MDB_val *mdb_key, MDB_val *mdb_value)
{
MDB_txn *txn;
int status;
/*
* Start a read transaction if there's no bulk-mode txn.
*/
if (slmdb->txn)
txn = slmdb->txn;
else if ((status = slmdb_txn_begin(slmdb, MDB_RDONLY, &txn)) != 0)
SLMDB_API_RETURN(slmdb, status);
/*
* Do the lookup.
*/
if ((status = mdb_get(txn, slmdb->dbi, mdb_key, mdb_value)) != 0
&& status != MDB_NOTFOUND) {
mdb_txn_abort(txn);
if ((status = slmdb_recover(slmdb, status)) == 0)
status = slmdb_get(slmdb, mdb_key, mdb_value);
SLMDB_API_RETURN(slmdb, status);
}
/*
* Close the read txn if it's not the bulk-mode txn.
*/
if (slmdb->txn == 0)
mdb_txn_abort(txn);
SLMDB_API_RETURN(slmdb, status);
}
/* slmdb_put - mdb_put() wrapper with LMDB error recovery */
int slmdb_put(SLMDB *slmdb, MDB_val *mdb_key,
MDB_val *mdb_value, int flags)
{
MDB_txn *txn;
int status;
/*
* Start a write transaction if there's no bulk-mode txn.
*/
if (slmdb->txn)
txn = slmdb->txn;
else if ((status = slmdb_txn_begin(slmdb, 0, &txn)) != 0)
SLMDB_API_RETURN(slmdb, status);
/*
* Do the update.
*/
if ((status = mdb_put(txn, slmdb->dbi, mdb_key, mdb_value, flags)) != 0) {
if (status != MDB_KEYEXIST) {
mdb_txn_abort(txn);
if ((status = slmdb_recover(slmdb, status)) == 0)
status = slmdb_put(slmdb, mdb_key, mdb_value, flags);
SLMDB_API_RETURN(slmdb, status);
} else {
/* Abort non-bulk transaction only. */
if (slmdb->txn == 0)
mdb_txn_abort(txn);
}
}
/*
* Commit the transaction if it's not the bulk-mode txn.
*/
if (status == 0 && slmdb->txn == 0 && (status = mdb_txn_commit(txn)) != 0
&& (status = slmdb_recover(slmdb, status)) == 0)
status = slmdb_put(slmdb, mdb_key, mdb_value, flags);
SLMDB_API_RETURN(slmdb, status);
}
/* slmdb_del - mdb_del() wrapper with LMDB error recovery */
int slmdb_del(SLMDB *slmdb, MDB_val *mdb_key)
{
MDB_txn *txn;
int status;
/*
* Start a write transaction if there's no bulk-mode txn.
*/
if (slmdb->txn)
txn = slmdb->txn;
else if ((status = slmdb_txn_begin(slmdb, 0, &txn)) != 0)
SLMDB_API_RETURN(slmdb, status);
/*
* Do the update.
*/
if ((status = mdb_del(txn, slmdb->dbi, mdb_key, (MDB_val *) 0)) != 0) {
mdb_txn_abort(txn);
if (status != MDB_NOTFOUND) {
if ((status = slmdb_recover(slmdb, status)) == 0)
status = slmdb_del(slmdb, mdb_key);
SLMDB_API_RETURN(slmdb, status);
}
}
/*
* Commit the transaction if it's not the bulk-mode txn.
*/
if (status == 0 && slmdb->txn == 0 && (status = mdb_txn_commit(txn)) != 0
&& (status = slmdb_recover(slmdb, status)) == 0)
status = slmdb_del(slmdb, mdb_key);
SLMDB_API_RETURN(slmdb, status);
}
/* slmdb_cursor_get - mdb_cursor_get() wrapper with LMDB error recovery */
int slmdb_cursor_get(SLMDB *slmdb, MDB_val *mdb_key,
MDB_val *mdb_value, MDB_cursor_op op)
{
MDB_txn *txn;
int status = 0;
/*
* Open a read transaction and cursor if needed.
*/
if (slmdb->cursor == 0) {
if ((status = slmdb_txn_begin(slmdb, MDB_RDONLY, &txn)) != 0)
SLMDB_API_RETURN(slmdb, status);
if ((status = mdb_cursor_open(txn, slmdb->dbi, &slmdb->cursor)) != 0) {
mdb_txn_abort(txn);
if ((status = slmdb_recover(slmdb, status)) == 0)
status = slmdb_cursor_get(slmdb, mdb_key, mdb_value, op);
SLMDB_API_RETURN(slmdb, status);
}
/*
* Restore the cursor position from the saved key information.
*/
if (HAVE_SLMDB_SAVED_KEY(slmdb) && op != MDB_FIRST)
status = mdb_cursor_get(slmdb->cursor, &slmdb->saved_key,
(MDB_val *) 0, MDB_SET);
}
/*
* Database lookup.
*/
if (status == 0)
status = mdb_cursor_get(slmdb->cursor, mdb_key, mdb_value, op);
/*
* Save the cursor position if successful. This can fail only with
* ENOMEM.
*
* Close the cursor read transaction if in MDB_NOLOCK mode, because the
* caller may release the external lock after we return.
*/
if (status == 0) {
status = slmdb_saved_key_assign(slmdb, mdb_key);
if (slmdb->lmdb_flags & MDB_NOLOCK)
slmdb_cursor_close(slmdb);
}
/*
* Handle end-of-database or other error.
*/
else {
/* Do not hand-optimize out the slmdb_cursor_close() calls below. */
if (status == MDB_NOTFOUND) {
slmdb_cursor_close(slmdb);
if (HAVE_SLMDB_SAVED_KEY(slmdb))
slmdb_saved_key_free(slmdb);
} else {
slmdb_cursor_close(slmdb);
if ((status = slmdb_recover(slmdb, status)) == 0)
status = slmdb_cursor_get(slmdb, mdb_key, mdb_value, op);
SLMDB_API_RETURN(slmdb, status);
/* Do not hand-optimize out the above return statement. */
}
}
SLMDB_API_RETURN(slmdb, status);
}
/* slmdb_assert_cb - report LMDB assertion failure */
static void slmdb_assert_cb(MDB_env *env, const char *text)
{
SLMDB *slmdb = (SLMDB *) mdb_env_get_userctx(env);
if (slmdb->assert_fn)
slmdb->assert_fn(slmdb->cb_context, text);
}
/* slmdb_control - control optional settings */
int slmdb_control(SLMDB *slmdb, int first,...)
{
va_list ap;
int status = 0;
int reqno;
int rc;
va_start(ap, first);
for (reqno = first; status == 0 && reqno != SLMDB_CTL_END; reqno = va_arg(ap, int)) {
switch (reqno) {
case SLMDB_CTL_LONGJMP_FN:
slmdb->longjmp_fn = va_arg(ap, SLMDB_LONGJMP_FN);
break;
case SLMDB_CTL_NOTIFY_FN:
slmdb->notify_fn = va_arg(ap, SLMDB_NOTIFY_FN);
break;
case SLMDB_CTL_ASSERT_FN:
slmdb->assert_fn = va_arg(ap, SLMDB_ASSERT_FN);
if ((rc = mdb_env_set_userctx(slmdb->env, (void *) slmdb)) != 0
|| (rc = mdb_env_set_assert(slmdb->env, slmdb_assert_cb)) != 0)
status = rc;
break;
case SLMDB_CTL_CB_CONTEXT:
slmdb->cb_context = va_arg(ap, void *);
break;
case SLMDB_CTL_API_RETRY_LIMIT:
slmdb->api_retry_limit = va_arg(ap, int);
break;
case SLMDB_CTL_BULK_RETRY_LIMIT:
slmdb->bulk_retry_limit = va_arg(ap, int);
break;
default:
status = errno = EINVAL;
break;
}
}
va_end(ap);
return (status);
}
/* slmdb_close - wrapper with LMDB error recovery */
int slmdb_close(SLMDB *slmdb)
{
int status = 0;
/*
* Finish an open bulk transaction. If slmdb_recover() returns after a
* bulk-transaction error, then it was unable to recover.
*/
if (slmdb->txn != 0
&& (status = mdb_txn_commit(slmdb->txn)) != 0)
status = slmdb_recover(slmdb, status);
/*
* Clean up after an unfinished sequence() operation.
*/
if (slmdb->cursor != 0)
slmdb_cursor_close(slmdb);
mdb_env_close(slmdb->env);
/*
* Clean up the saved key information.
*/
if (HAVE_SLMDB_SAVED_KEY(slmdb))
slmdb_saved_key_free(slmdb);
SLMDB_API_RETURN(slmdb, status);
}
/* slmdb_init - mandatory initialization */
int slmdb_init(SLMDB *slmdb, size_t curr_limit, int size_incr,
size_t hard_limit)
{
/*
* This is a separate operation to keep the slmdb_open() API simple.
* Don't allocate resources here. Just store control information,
*/
slmdb->curr_limit = curr_limit;
slmdb->size_incr = size_incr;
slmdb->hard_limit = hard_limit;
return (MDB_SUCCESS);
}
/* slmdb_open - open wrapped LMDB database */
int slmdb_open(SLMDB *slmdb, const char *path, int open_flags,
int lmdb_flags, int slmdb_flags)
{
struct stat st;
MDB_env *env;
MDB_txn *txn;
MDB_dbi dbi;
int db_fd;
int status;
/*
* Create LMDB environment.
*/
if ((status = mdb_env_create(&env)) != 0)
return (status);
/*
* Make sure that the memory map has room to store and commit an initial
* "drop" transaction as well as fixed database metadata. We have no way
* to recover from errors before the first application-level I/O request.
*/
#define SLMDB_FUDGE 10240
if (slmdb->curr_limit < SLMDB_FUDGE)
slmdb->curr_limit = SLMDB_FUDGE;
if (stat(path, &st) == 0
&& st.st_size > slmdb->curr_limit - SLMDB_FUDGE) {
if (st.st_size > slmdb->hard_limit)
slmdb->hard_limit = st.st_size;
if (st.st_size < slmdb->hard_limit - SLMDB_FUDGE)
slmdb->curr_limit = st.st_size + SLMDB_FUDGE;
else
slmdb->curr_limit = slmdb->hard_limit;
}
/*
* mdb_open() requires a txn, but since the default DB always exists in
* an LMDB environment, we usually don't need to do anything else with
* the txn. It is currently used for truncate and for bulk transactions.
*/
if ((status = mdb_env_set_mapsize(env, slmdb->curr_limit)) != 0
|| (status = mdb_env_open(env, path, lmdb_flags, 0644)) != 0
|| (status = mdb_txn_begin(env, (MDB_txn *) 0,
lmdb_flags & MDB_RDONLY, &txn)) != 0
|| (status = mdb_open(txn, (const char *) 0, 0, &dbi)) != 0
|| (status = mdb_env_get_fd(env, &db_fd)) != 0) {
mdb_env_close(env);
return (status);
}
/*
* Bundle up.
*/
slmdb->open_flags = open_flags;
slmdb->lmdb_flags = lmdb_flags;
slmdb->slmdb_flags = slmdb_flags;
slmdb->env = env;
slmdb->dbi = dbi;
slmdb->db_fd = db_fd;
slmdb->cursor = 0;
slmdb_saved_key_init(slmdb);
slmdb->api_retry_count = 0;
slmdb->bulk_retry_count = 0;
slmdb->api_retry_limit = SLMDB_DEF_API_RETRY_LIMIT;
slmdb->bulk_retry_limit = SLMDB_DEF_BULK_RETRY_LIMIT;
slmdb->longjmp_fn = 0;
slmdb->notify_fn = 0;
slmdb->assert_fn = 0;
slmdb->cb_context = 0;
slmdb->txn = txn;
if ((status = slmdb_prepare(slmdb)) != 0)
mdb_env_close(env);
return (status);
}
#endif
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