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|
/*-
* See the file LICENSE for redistribution information.
*
* Copyright (c) 1996-2009 Oracle. All rights reserved.
*
* $Id$
*/
#include "db_config.h"
#include "db_int.h"
#include "dbinc/db_page.h"
#include "dbinc/fop.h"
#include "dbinc/btree.h"
#include "dbinc/hash.h"
#include "dbinc/log.h"
#include "dbinc/mp.h"
#include "dbinc/qam.h"
#include "dbinc/txn.h"
#ifndef lint
static const char copyright[] =
"Copyright (c) 1996-2009 Oracle. All rights reserved.\n";
#endif
static int __db_log_corrupt __P((ENV *, DB_LSN *));
static int __env_init_rec_42 __P((ENV *));
static int __env_init_rec_43 __P((ENV *));
static int __env_init_rec_46 __P((ENV *));
static int __env_init_rec_47 __P((ENV *));
static int __log_earliest __P((ENV *, DB_LOGC *, int32_t *, DB_LSN *));
#ifndef HAVE_BREW
static double __lsn_diff __P((DB_LSN *, DB_LSN *, DB_LSN *, u_int32_t, int));
#endif
/*
* __db_apprec --
* Perform recovery. If max_lsn is non-NULL, then we are trying
* to synchronize this system up with another system that has a max
* LSN of max_lsn, so we need to roll back sufficiently far for that
* to work. See __log_backup for details.
*
* PUBLIC: int __db_apprec __P((ENV *,
* PUBLIC: DB_THREAD_INFO *, DB_LSN *, DB_LSN *, int, u_int32_t));
*/
int
__db_apprec(env, ip, max_lsn, trunclsn, update, flags)
ENV *env;
DB_THREAD_INFO *ip;
DB_LSN *max_lsn, *trunclsn;
int update;
u_int32_t flags;
{
DBT data;
DB_ENV *dbenv;
DB_LOGC *logc;
DB_LSN ckp_lsn, first_lsn, last_lsn, lowlsn, lsn, stop_lsn, tlsn;
DB_TXNHEAD *txninfo;
DB_TXNREGION *region;
REGENV *renv;
REGINFO *infop;
__txn_ckp_args *ckp_args;
time_t now, tlow;
double nfiles;
u_int32_t hi_txn, log_size, txnid;
int32_t low;
int have_rec, progress, ret, t_ret;
char *p, *pass;
char t1[CTIME_BUFLEN], t2[CTIME_BUFLEN], time_buf[CTIME_BUFLEN];
COMPQUIET(nfiles, (double)0.001);
dbenv = env->dbenv;
logc = NULL;
ckp_args = NULL;
hi_txn = TXN_MAXIMUM;
txninfo = NULL;
pass = "initial";
ZERO_LSN(lsn);
/*
* XXX
* Get the log size. No locking required because we're single-threaded
* during recovery.
*/
log_size = ((LOG *)env->lg_handle->reginfo.primary)->log_size;
/*
* If we need to, update the env handle timestamp.
*/
if (update && REP_ON(env)) {
infop = env->reginfo;
renv = infop->primary;
(void)time(&renv->rep_timestamp);
}
/* Set in-recovery flags. */
F_SET(env->lg_handle, DBLOG_RECOVER);
region = env->tx_handle->reginfo.primary;
F_SET(region, TXN_IN_RECOVERY);
/* Allocate a cursor for the log. */
if ((ret = __log_cursor(env, &logc)) != 0)
goto err;
/*
* If the user is specifying recovery to a particular point in time
* or to a particular LSN, find the point to start recovery from.
*/
ZERO_LSN(lowlsn);
if (max_lsn != NULL) {
if ((ret = __log_backup(env, logc, max_lsn, &lowlsn,
CKPLSN_CMP)) != 0)
goto err;
} else if (dbenv->tx_timestamp != 0) {
if ((ret = __log_earliest(env, logc, &low, &lowlsn)) != 0)
goto err;
if ((int32_t)dbenv->tx_timestamp < low) {
t1[sizeof(t1) - 1] = '\0';
(void)strncpy(t1, __os_ctime(
&dbenv->tx_timestamp, time_buf), sizeof(t1) - 1);
if ((p = strchr(t1, '\n')) != NULL)
*p = '\0';
t2[sizeof(t2) - 1] = '\0';
tlow = (time_t)low;
(void)strncpy(t2, __os_ctime(
&tlow, time_buf), sizeof(t2) - 1);
if ((p = strchr(t2, '\n')) != NULL)
*p = '\0';
__db_errx(env,
"Invalid recovery timestamp %s; earliest time is %s",
t1, t2);
ret = EINVAL;
goto err;
}
}
/*
* Recovery is done in three passes:
* Pass #0:
* We need to find the position from which we will open files.
* We need to open files beginning with the earlier of the
* most recent checkpoint LSN and a checkpoint LSN before the
* recovery timestamp, if specified. We need to be before the
* most recent checkpoint LSN because we are going to collect
* information about which transactions were begun before we
* start rolling forward. Those that were should never be undone
* because queue cannot use LSNs to determine what operations can
* safely be aborted and it cannot rollback operations in
* transactions for which there may be records not processed
* during recovery. We need to consider earlier points in time
* in case we are recovering to a particular timestamp.
*
* Pass #1:
* Read forward through the log from the position found in pass 0
* opening and closing files, and recording transactions for which
* we've seen their first record (the transaction's prev_lsn is
* 0,0). At the end of this pass, we know all transactions for
* which we've seen begins and we have the "current" set of files
* open.
*
* Pass #2:
* Read backward through the log undoing any uncompleted TXNs.
* There are four cases:
* 1. If doing catastrophic recovery, we read to the
* beginning of the log
* 2. If we are doing normal reovery, then we have to roll
* back to the most recent checkpoint LSN.
* 3. If we are recovering to a point in time, then we have
* to roll back to the checkpoint whose ckp_lsn is earlier
* than the specified time. __log_earliest will figure
* this out for us.
* 4. If we are recovering back to a particular LSN, then
* we have to roll back to the checkpoint whose ckp_lsn
* is earlier than the max_lsn. __log_backup will figure
* that out for us.
* In case 2, "uncompleted TXNs" include all those who committed
* after the user's specified timestamp.
*
* Pass #3:
* Read forward through the log from the LSN found in pass #2,
* redoing any committed TXNs (which committed after any user-
* specified rollback point). During this pass, checkpoint
* file information is ignored, and file openings and closings
* are redone.
*
* ckp_lsn -- lsn of the last checkpoint or the first in the log.
* first_lsn -- the lsn where the forward passes begin.
* last_lsn -- the last lsn in the log, used for feedback
* lowlsn -- the lsn we are rolling back to, if we are recovering
* to a point in time.
* lsn -- temporary use lsn.
* stop_lsn -- the point at which forward roll should stop
*/
/*
* Find out the last lsn, so that we can estimate how far along we
* are in recovery. This will help us determine how much log there
* is between the first LSN that we're going to be working with and
* the last one. We assume that each of the three phases takes the
* same amount of time (a false assumption) and then use the %-age
* of the amount of log traversed to figure out how much of the
* pass we've accomplished.
*
* If we can't find any log records, we're kind of done.
*/
#ifdef UMRW
ZERO_LSN(last_lsn);
#endif
memset(&data, 0, sizeof(data));
if ((ret = __logc_get(logc, &last_lsn, &data, DB_LAST)) != 0) {
if (ret == DB_NOTFOUND)
ret = 0;
else
__db_errx(env, "Last log record not found");
goto err;
}
do {
/* txnid is after rectype, which is a u_int32. */
LOGCOPY_32(env, &txnid,
(u_int8_t *)data.data + sizeof(u_int32_t));
if (txnid != 0)
break;
} while ((ret = __logc_get(logc, &lsn, &data, DB_PREV)) == 0);
/*
* There are no transactions, so there is nothing to do unless
* we're recovering to an LSN. If we are, we need to proceed since
* we'll still need to do a vtruncate based on information we haven't
* yet collected.
*/
if (ret == DB_NOTFOUND)
ret = 0;
else if (ret != 0)
goto err;
hi_txn = txnid;
/*
* Pass #0
* Find the LSN from which we begin OPENFILES.
*
* If this is a catastrophic recovery, or if no checkpoint exists
* in the log, the LSN is the first LSN in the log.
*
* Otherwise, it is the minimum of (1) the LSN in the last checkpoint
* and (2) the LSN in the checkpoint before any specified recovery
* timestamp or max_lsn.
*/
/*
* Get the first LSN in the log; it's an initial default
* even if this is not a catastrophic recovery.
*/
if ((ret = __logc_get(logc, &ckp_lsn, &data, DB_FIRST)) != 0) {
if (ret == DB_NOTFOUND)
ret = 0;
else
__db_errx(env, "First log record not found");
goto err;
}
first_lsn = ckp_lsn;
have_rec = 1;
if (!LF_ISSET(DB_RECOVER_FATAL)) {
if ((ret = __txn_getckp(env, &ckp_lsn)) == 0 &&
(ret = __logc_get(logc, &ckp_lsn, &data, DB_SET)) == 0) {
/* We have a recent checkpoint. This is LSN (1). */
if ((ret = __txn_ckp_read(env,
data.data, &ckp_args)) != 0) {
__db_errx(env,
"Invalid checkpoint record at [%ld][%ld]",
(u_long)ckp_lsn.file,
(u_long)ckp_lsn.offset);
goto err;
}
first_lsn = ckp_args->ckp_lsn;
__os_free(env, ckp_args);
have_rec = 0;
}
/*
* If LSN (2) exists, use it if it's before LSN (1).
* (If LSN (1) doesn't exist, first_lsn is the
* beginning of the log, so will "win" this check.)
*
* XXX
* In the recovery-to-a-timestamp case, lowlsn is chosen by
* __log_earliest, and is the checkpoint LSN of the
* *earliest* checkpoint in the unreclaimed log. I
* (krinsky) believe that we could optimize this by looking
* instead for the LSN of the *latest* checkpoint before
* the timestamp of interest, but I'm not sure that this
* is worth doing right now. (We have to look for lowlsn
* and low anyway, to make sure the requested timestamp is
* somewhere in the logs we have, and all that's required
* is that we pick *some* checkpoint after the beginning of
* the logs and before the timestamp.
*/
if ((dbenv->tx_timestamp != 0 || max_lsn != NULL) &&
LOG_COMPARE(&lowlsn, &first_lsn) < 0) {
DB_ASSERT(env, have_rec == 0);
first_lsn = lowlsn;
}
}
/* Get the record at first_lsn if we don't have it already. */
if (!have_rec &&
(ret = __logc_get(logc, &first_lsn, &data, DB_SET)) != 0) {
__db_errx(env, "Checkpoint LSN record [%ld][%ld] not found",
(u_long)first_lsn.file, (u_long)first_lsn.offset);
goto err;
}
#ifndef HAVE_BREW
if (dbenv->db_feedback != NULL) {
if (last_lsn.file == first_lsn.file)
nfiles = (double)
(last_lsn.offset - first_lsn.offset) / log_size;
else
nfiles = (double)(last_lsn.file - first_lsn.file) +
(double)((log_size - first_lsn.offset) +
last_lsn.offset) / log_size;
/* We are going to divide by nfiles; make sure it isn't 0. */
if (nfiles < 0.001)
nfiles = 0.001;
}
#endif
/* Find a low txnid. */
ret = 0;
if (hi_txn != 0) do {
/* txnid is after rectype, which is a u_int32. */
LOGCOPY_32(env, &txnid,
(u_int8_t *)data.data + sizeof(u_int32_t));
if (txnid != 0)
break;
} while ((ret = __logc_get(logc, &lsn, &data, DB_NEXT)) == 0);
/*
* There are no transactions and we're not recovering to an LSN (see
* above), so there is nothing to do.
*/
if (ret == DB_NOTFOUND) {
if (LOG_COMPARE(&lsn, &last_lsn) != 0)
ret = __db_log_corrupt(env, &lsn);
else
ret = 0;
}
/* Reset to the first lsn. */
if (ret != 0 ||
(ret = __logc_get(logc, &first_lsn, &data, DB_SET)) != 0)
goto err;
/* Initialize the transaction list. */
if ((ret = __db_txnlist_init(env, ip,
txnid, hi_txn, max_lsn, &txninfo)) != 0)
goto err;
/*
* Pass #1
* Run forward through the log starting at the first relevant lsn.
*/
if ((ret = __env_openfiles(env, logc,
txninfo, &data, &first_lsn, &last_lsn, nfiles, 1)) != 0)
goto err;
/* If there were no transactions, then we can bail out early. */
if (hi_txn == 0 && max_lsn == NULL)
goto done;
/*
* Pass #2.
*
* We used first_lsn to tell us how far back we need to recover,
* use it here.
*/
if (FLD_ISSET(dbenv->verbose, DB_VERB_RECOVERY))
__db_msg(env, "Recovery starting from [%lu][%lu]",
(u_long)first_lsn.file, (u_long)first_lsn.offset);
pass = "backward";
for (ret = __logc_get(logc, &lsn, &data, DB_LAST);
ret == 0 && LOG_COMPARE(&lsn, &first_lsn) >= 0;
ret = __logc_get(logc, &lsn, &data, DB_PREV)) {
#ifdef HAVE_BREW
COMPQUIET(progress, 0);
#else
if (dbenv->db_feedback != NULL) {
progress = 34 + (int)(33 * (__lsn_diff(&first_lsn,
&last_lsn, &lsn, log_size, 0) / nfiles));
dbenv->db_feedback(dbenv, DB_RECOVER, progress);
}
#endif
tlsn = lsn;
ret = __db_dispatch(env, &env->recover_dtab,
&data, &tlsn, DB_TXN_BACKWARD_ROLL, txninfo);
if (ret != 0) {
if (ret != DB_TXN_CKP)
goto msgerr;
else
ret = 0;
}
}
if (ret == DB_NOTFOUND) {
if (LOG_COMPARE(&lsn, &first_lsn) > 0)
ret = __db_log_corrupt(env, &lsn);
else
ret = 0;
}
if (ret != 0)
goto err;
/*
* Pass #3. If we are recovering to a timestamp or to an LSN,
* we need to make sure that we don't roll-forward beyond that
* point because there may be non-transactional operations (e.g.,
* closes that would fail). The last_lsn variable is used for
* feedback calculations, but use it to set an initial stopping
* point for the forward pass, and then reset appropriately to
* derive a real stop_lsn that tells how far the forward pass
* should go.
*/
pass = "forward";
stop_lsn = last_lsn;
if (max_lsn != NULL || dbenv->tx_timestamp != 0)
stop_lsn = ((DB_TXNHEAD *)txninfo)->maxlsn;
for (ret = __logc_get(logc, &lsn, &data, DB_NEXT);
ret == 0; ret = __logc_get(logc, &lsn, &data, DB_NEXT)) {
#ifndef HAVE_BREW
if (dbenv->db_feedback != NULL) {
progress = 67 + (int)(33 * (__lsn_diff(&first_lsn,
&last_lsn, &lsn, log_size, 1) / nfiles));
dbenv->db_feedback(dbenv, DB_RECOVER, progress);
}
#endif
tlsn = lsn;
ret = __db_dispatch(env, &env->recover_dtab,
&data, &tlsn, DB_TXN_FORWARD_ROLL, txninfo);
if (ret != 0) {
if (ret != DB_TXN_CKP)
goto msgerr;
else
ret = 0;
}
/*
* If we are recovering to a timestamp or an LSN,
* we need to make sure that we don't try to roll
* forward beyond the soon-to-be end of log.
*/
if (LOG_COMPARE(&lsn, &stop_lsn) >= 0)
break;
}
if (ret == DB_NOTFOUND)
ret = __db_log_corrupt(env, &lsn);
if (ret != 0)
goto err;
if (max_lsn == NULL)
region->last_txnid = ((DB_TXNHEAD *)txninfo)->maxid;
if (dbenv->tx_timestamp != 0) {
/* We are going to truncate, so we'd best close the cursor. */
if (logc != NULL) {
if ((ret = __logc_close(logc)) != 0)
goto err;
logc = NULL;
}
/*
* Flush everything to disk, we are losing the log. It's
* recovery, ignore any application max-write configuration.
*/
if ((ret = __memp_sync_int(env, NULL, 0,
DB_SYNC_CACHE | DB_SYNC_SUPPRESS_WRITE, NULL, NULL)) != 0)
goto err;
region->last_ckp = ((DB_TXNHEAD *)txninfo)->ckplsn;
if ((ret = __log_vtruncate(env,
&((DB_TXNHEAD *)txninfo)->maxlsn,
&((DB_TXNHEAD *)txninfo)->ckplsn, trunclsn)) != 0)
goto err;
}
done:
/* Take a checkpoint here to force any dirty data pages to disk. */
if ((ret = __txn_checkpoint(env, 0, 0,
DB_CKP_INTERNAL | DB_FORCE)) != 0) {
/*
* If there was no space for the checkpoint we can
* still bring the environment up. No updates will
* be able to commit either, but the environment can
* be used read only.
*/
if (max_lsn == NULL && ret == ENOSPC)
ret = 0;
else
goto err;
}
if (region->stat.st_nrestores == 0) {
/* Close all the db files that are open. */
if ((ret = __dbreg_close_files(env, 0)) != 0)
goto err;
} else {
if ((ret = __dbreg_mark_restored(env)) != 0)
goto err;
F_SET(env->lg_handle, DBLOG_OPENFILES);
}
if (max_lsn != NULL) {
if (!IS_ZERO_LSN(((DB_TXNHEAD *)txninfo)->ckplsn))
region->last_ckp = ((DB_TXNHEAD *)txninfo)->ckplsn;
else if ((ret =
__txn_findlastckp(env, ®ion->last_ckp, max_lsn)) != 0)
goto err;
/* We are going to truncate, so we'd best close the cursor. */
if (logc != NULL && (ret = __logc_close(logc)) != 0)
goto err;
logc = NULL;
if ((ret = __log_vtruncate(env,
max_lsn, &((DB_TXNHEAD *)txninfo)->ckplsn, trunclsn)) != 0)
goto err;
/*
* Now we need to open files that should be open in order for
* client processing to continue. However, since we've
* truncated the log, we need to recompute from where the
* openfiles pass should begin.
*/
if ((ret = __log_cursor(env, &logc)) != 0)
goto err;
if ((ret =
__logc_get(logc, &first_lsn, &data, DB_FIRST)) != 0) {
if (ret == DB_NOTFOUND)
ret = 0;
else
__db_errx(env, "First log record not found");
goto err;
}
if ((ret = __txn_getckp(env, &first_lsn)) == 0 &&
(ret = __logc_get(logc, &first_lsn, &data, DB_SET)) == 0) {
/* We have a recent checkpoint. This is LSN (1). */
if ((ret = __txn_ckp_read(env,
data.data, &ckp_args)) != 0) {
__db_errx(env,
"Invalid checkpoint record at [%ld][%ld]",
(u_long)first_lsn.file,
(u_long)first_lsn.offset);
goto err;
}
first_lsn = ckp_args->ckp_lsn;
__os_free(env, ckp_args);
}
if ((ret = __logc_get(logc, &first_lsn, &data, DB_SET)) != 0)
goto err;
if ((ret = __env_openfiles(env, logc,
txninfo, &data, &first_lsn, max_lsn, nfiles, 1)) != 0)
goto err;
} else if (region->stat.st_nrestores == 0) {
/*
* If there are no prepared transactions that need resolution,
* we need to reset the transaction ID space and log this fact.
*/
if ((ret = __txn_reset(env)) != 0)
goto err;
} else {
if ((ret = __txn_recycle_id(env)) != 0)
goto err;
}
/*
* We must be sure to zero the tail of the log. Otherwise a partial
* record may be at the end of the log and it may never be fully
* overwritten.
*/
if (max_lsn == NULL && dbenv->tx_timestamp == 0) {
/* We are going to truncate, so we'd best close the cursor. */
if (logc != NULL && (ret = __logc_close(logc)) != 0)
goto err;
logc = NULL;
/* Truncate from beyond the last record in the log. */
if ((ret =
__log_current_lsn(env, &last_lsn, NULL, NULL)) != 0)
goto err;
if ((ret = __log_vtruncate(env,
&last_lsn, ®ion->last_ckp, NULL)) != 0)
goto err;
}
if (FLD_ISSET(dbenv->verbose, DB_VERB_RECOVERY)) {
(void)time(&now);
__db_msg(env,
"Recovery complete at %.24s", __os_ctime(&now, time_buf));
__db_msg(env, "%s %lx %s [%lu][%lu]",
"Maximum transaction ID",
(u_long)(txninfo == NULL ?
TXN_MINIMUM : ((DB_TXNHEAD *)txninfo)->maxid),
"Recovery checkpoint",
(u_long)region->last_ckp.file,
(u_long)region->last_ckp.offset);
}
if (0) {
msgerr: __db_errx(env,
"Recovery function for LSN %lu %lu failed on %s pass",
(u_long)lsn.file, (u_long)lsn.offset, pass);
}
err: if (logc != NULL && (t_ret = __logc_close(logc)) != 0 && ret == 0)
ret = t_ret;
if (txninfo != NULL)
__db_txnlist_end(env, txninfo);
dbenv->tx_timestamp = 0;
F_CLR(env->lg_handle, DBLOG_RECOVER);
F_CLR(region, TXN_IN_RECOVERY);
return (ret);
}
#ifndef HAVE_BREW
/*
* Figure out how many logfiles we have processed. If we are moving
* forward (is_forward != 0), then we're computing current - low. If
* we are moving backward, we are computing high - current. max is
* the number of bytes per logfile.
*/
static double
__lsn_diff(low, high, current, max, is_forward)
DB_LSN *low, *high, *current;
u_int32_t max;
int is_forward;
{
double nf;
/*
* There are three cases in each direction. If you are in the
* same file, then all you need worry about is the difference in
* offsets. If you are in different files, then either your offsets
* put you either more or less than the integral difference in the
* number of files -- we need to handle both of these.
*/
if (is_forward) {
if (current->file == low->file)
nf = (double)(current->offset - low->offset) / max;
else if (current->offset < low->offset)
nf = (double)((current->file - low->file) - 1) +
(double)((max - low->offset) + current->offset) /
max;
else
nf = (double)(current->file - low->file) +
(double)(current->offset - low->offset) / max;
} else {
if (current->file == high->file)
nf = (double)(high->offset - current->offset) / max;
else if (current->offset > high->offset)
nf = (double)((high->file - current->file) - 1) +
(double)
((max - current->offset) + high->offset) / max;
else
nf = (double)(high->file - current->file) +
(double)(high->offset - current->offset) / max;
}
return (nf);
}
#endif
/*
* __log_backup --
*
* This is used to find the earliest log record to process when a client
* is trying to sync up with a master whose max LSN is less than this
* client's max lsn; we want to roll back everything after that.
* Also used in the verify phase to walk back via checkpoints.
*
* Find the latest checkpoint whose ckp_lsn is less than the max lsn.
* PUBLIC: int __log_backup __P((ENV *, DB_LOGC *, DB_LSN *,
* PUBLIC: DB_LSN *, u_int32_t));
*/
int
__log_backup(env, logc, max_lsn, start_lsn, cmp)
ENV *env;
DB_LOGC *logc;
DB_LSN *max_lsn, *start_lsn;
u_int32_t cmp;
{
DBT data;
DB_LSN cmp_lsn, lsn;
__txn_ckp_args *ckp_args;
int lcmp, ret;
memset(&data, 0, sizeof(data));
ckp_args = NULL;
if (cmp != CKPLSN_CMP && cmp != LASTCKP_CMP)
return (EINVAL);
if ((ret = __txn_getckp(env, &lsn)) != 0)
goto err;
/*
* Cmp tells us whether to check the ckp_lsn or the last_ckp
* fields in the checkpoint record.
*/
while ((ret = __logc_get(logc, &lsn, &data, DB_SET)) == 0) {
if ((ret = __txn_ckp_read(
env, data.data, &ckp_args)) != 0)
return (ret);
if (cmp == CKPLSN_CMP) {
/*
* Follow checkpoints through the log until
* we find one with a ckp_lsn less than
* or equal max_lsn.
*/
cmp_lsn = ckp_args->ckp_lsn;
lcmp = (LOG_COMPARE(&cmp_lsn, max_lsn) <= 0);
} else {
/*
* When we're walking back through the checkpoints
* we want the LSN of this checkpoint strictly less
* than the max_lsn (also a ckp LSN).
*/
cmp_lsn = lsn;
lcmp = (LOG_COMPARE(&cmp_lsn, max_lsn) < 0);
}
if (lcmp) {
*start_lsn = cmp_lsn;
break;
}
lsn = ckp_args->last_ckp;
/*
* If there are no more checkpoints behind us, we're
* done. Break with DB_NOTFOUND.
*/
if (IS_ZERO_LSN(lsn)) {
ret = DB_NOTFOUND;
break;
}
__os_free(env, ckp_args);
ckp_args = NULL;
}
if (ckp_args != NULL)
__os_free(env, ckp_args);
/*
* For CKPLSN_CMP if we walked back through all the checkpoints,
* set the cursor on the first log record. For LASTCKP_CMP
* we want to return 0,0 in start_lsn.
*/
err: if (IS_ZERO_LSN(*start_lsn) && cmp == CKPLSN_CMP &&
(ret == 0 || ret == DB_NOTFOUND))
ret = __logc_get(logc, start_lsn, &data, DB_FIRST);
return (ret);
}
/*
* __log_earliest --
*
* Return the earliest recovery point for the log files present. The
* earliest recovery time is the time stamp of the first checkpoint record
* whose checkpoint LSN is greater than the first LSN we process.
*/
static int
__log_earliest(env, logc, lowtime, lowlsn)
ENV *env;
DB_LOGC *logc;
int32_t *lowtime;
DB_LSN *lowlsn;
{
__txn_ckp_args *ckpargs;
DB_LSN first_lsn, lsn;
DBT data;
u_int32_t rectype;
int cmp, ret;
memset(&data, 0, sizeof(data));
/*
* Read forward through the log looking for the first checkpoint
* record whose ckp_lsn is greater than first_lsn.
*/
for (ret = __logc_get(logc, &first_lsn, &data, DB_FIRST);
ret == 0; ret = __logc_get(logc, &lsn, &data, DB_NEXT)) {
LOGCOPY_32(env, &rectype, data.data);
if (rectype != DB___txn_ckp)
continue;
if ((ret =
__txn_ckp_read(env, data.data, &ckpargs)) == 0) {
cmp = LOG_COMPARE(&ckpargs->ckp_lsn, &first_lsn);
*lowlsn = ckpargs->ckp_lsn;
*lowtime = ckpargs->timestamp;
__os_free(env, ckpargs);
if (cmp >= 0)
break;
}
}
return (ret);
}
/*
* __env_openfiles --
* Perform the pass of recovery that opens files. This is used
* both during regular recovery and an initial call to txn_recover (since
* we need files open in order to abort prepared, but not yet committed
* transactions).
*
* See the comments in db_apprec for a detailed description of the
* various recovery passes.
*
* If we are not doing feedback processing (i.e., we are doing txn_recover
* processing and in_recovery is zero), then last_lsn can be NULL.
*
* PUBLIC: int __env_openfiles __P((ENV *,
* PUBLIC: DB_LOGC *, void *, DBT *, DB_LSN *, DB_LSN *, double, int));
*/
int
__env_openfiles(env, logc, txninfo,
data, open_lsn, last_lsn, nfiles, in_recovery)
ENV *env;
DB_LOGC *logc;
void *txninfo;
DBT *data;
DB_LSN *open_lsn, *last_lsn;
double nfiles;
int in_recovery;
{
DB_ENV *dbenv;
DB_LSN lsn, tlsn;
u_int32_t log_size;
int progress, ret;
dbenv = env->dbenv;
/*
* XXX
* Get the log size. No locking required because we're single-threaded
* during recovery.
*/
log_size = ((LOG *)env->lg_handle->reginfo.primary)->log_size;
lsn = *open_lsn;
for (;;) {
#ifdef HAVE_BREW
COMPQUIET(nfiles, (double)0.001);
COMPQUIET(progress, 0);
#else
if (in_recovery && dbenv->db_feedback != NULL) {
DB_ASSERT(env, last_lsn != NULL);
progress = (int)(33 * (__lsn_diff(open_lsn,
last_lsn, &lsn, log_size, 1) / nfiles));
dbenv->db_feedback(dbenv, DB_RECOVER, progress);
}
#endif
tlsn = lsn;
ret = __db_dispatch(env, &env->recover_dtab, data, &tlsn,
in_recovery ? DB_TXN_OPENFILES : DB_TXN_POPENFILES,
txninfo);
if (ret != 0 && ret != DB_TXN_CKP) {
__db_errx(env,
"Recovery function for LSN %lu %lu failed",
(u_long)lsn.file, (u_long)lsn.offset);
break;
}
if ((ret = __logc_get(logc, &lsn, data, DB_NEXT)) != 0) {
if (ret == DB_NOTFOUND) {
if (last_lsn != NULL &&
LOG_COMPARE(&lsn, last_lsn) != 0)
ret = __db_log_corrupt(env, &lsn);
else
ret = 0;
}
break;
}
}
return (ret);
}
static int
__db_log_corrupt(env, lsnp)
ENV *env;
DB_LSN *lsnp;
{
__db_errx(env, "Log file corrupt at LSN: [%lu][%lu]",
(u_long)lsnp->file, (u_long)lsnp->offset);
return (EINVAL);
}
/*
* __env_init_rec --
*
* PUBLIC: int __env_init_rec __P((ENV *, u_int32_t));
*/
int
__env_init_rec(env, version)
ENV *env;
u_int32_t version;
{
int ret;
/*
* We need to prime the recovery table with the current recovery
* functions. Then we overwrite only specific entries based on
* each previous version we support.
*/
if ((ret = __bam_init_recover(env, &env->recover_dtab)) != 0)
goto err;
if ((ret = __crdel_init_recover(env, &env->recover_dtab)) != 0)
goto err;
if ((ret = __db_init_recover(env, &env->recover_dtab)) != 0)
goto err;
if ((ret = __dbreg_init_recover(env, &env->recover_dtab)) != 0)
goto err;
if ((ret = __fop_init_recover(env, &env->recover_dtab)) != 0)
goto err;
if ((ret = __ham_init_recover(env, &env->recover_dtab)) != 0)
goto err;
if ((ret = __qam_init_recover(env, &env->recover_dtab)) != 0)
goto err;
if ((ret = __txn_init_recover(env, &env->recover_dtab)) != 0)
goto err;
switch (version) {
case DB_LOGVERSION:
ret = 0;
break;
case DB_LOGVERSION_48:
if ((ret = __db_add_recovery_int(env, &env->recover_dtab,
__db_pg_sort_44_recover, DB___db_pg_sort_44)) != 0)
goto err;
break;
case DB_LOGVERSION_47:
ret = __env_init_rec_47(env);
break;
/*
* There are no log record/recovery differences between 4.4 and 4.5.
* The log version changed due to checksum. There are no log recovery
* differences between 4.5 and 4.6. The name of the rep_gen in
* txn_checkpoint changed (to spare, since we don't use it anymore).
*/
case DB_LOGVERSION_46:
case DB_LOGVERSION_45:
case DB_LOGVERSION_44:
ret = __env_init_rec_46(env);
break;
case DB_LOGVERSION_43:
ret = __env_init_rec_43(env);
break;
case DB_LOGVERSION_42:
ret = __env_init_rec_42(env);
break;
default:
__db_errx(env, "Unknown version %lu", (u_long)version);
ret = EINVAL;
break;
}
err: return (ret);
}
static int
__env_init_rec_42(env)
ENV *env;
{
int ret;
if ((ret = __db_add_recovery_int(env, &env->recover_dtab,
__bam_split_42_recover, DB___bam_split_42)) != 0)
goto err;
if ((ret = __db_add_recovery_int(env, &env->recover_dtab,
__db_relink_42_recover, DB___db_relink_42)) != 0)
goto err;
if ((ret = __db_add_recovery_int(env, &env->recover_dtab,
__db_pg_alloc_42_recover, DB___db_pg_alloc_42)) != 0)
goto err;
if ((ret = __db_add_recovery_int(env, &env->recover_dtab,
__db_pg_free_42_recover, DB___db_pg_free_42)) != 0)
goto err;
if ((ret = __db_add_recovery_int(env, &env->recover_dtab,
__db_pg_freedata_42_recover, DB___db_pg_freedata_42)) != 0)
goto err;
if ((ret = __db_add_recovery_int(env, &env->recover_dtab,
__ham_metagroup_42_recover, DB___ham_metagroup_42)) != 0)
goto err;
if ((ret = __db_add_recovery_int(env, &env->recover_dtab,
__ham_groupalloc_42_recover, DB___ham_groupalloc_42)) != 0)
goto err;
if ((ret = __db_add_recovery_int(env, &env->recover_dtab,
__txn_ckp_42_recover, DB___txn_ckp_42)) != 0)
goto err;
if ((ret = __db_add_recovery_int(env, &env->recover_dtab,
__txn_regop_42_recover, DB___txn_regop_42)) != 0)
goto err;
if ((ret = __db_add_recovery_int(env, &env->recover_dtab,
__fop_create_42_recover, DB___fop_create_42)) != 0)
goto err;
if ((ret = __db_add_recovery_int(env, &env->recover_dtab,
__fop_write_42_recover, DB___fop_write_42)) != 0)
goto err;
if ((ret = __db_add_recovery_int(env, &env->recover_dtab,
__fop_rename_42_recover, DB___fop_rename_42)) != 0)
goto err;
err:
return (ret);
}
static int
__env_init_rec_43(env)
ENV *env;
{
int ret;
if ((ret = __db_add_recovery_int(env, &env->recover_dtab,
__bam_split_42_recover, DB___bam_split_42)) != 0)
goto err;
if ((ret = __db_add_recovery_int(env, &env->recover_dtab,
__bam_relink_43_recover, DB___bam_relink_43)) != 0)
goto err;
/*
* We want to use the 4.2-based txn_regop record.
*/
if ((ret = __db_add_recovery_int(env, &env->recover_dtab,
__txn_regop_42_recover, DB___txn_regop_42)) != 0)
goto err;
if ((ret = __db_add_recovery_int(env, &env->recover_dtab,
__fop_create_42_recover, DB___fop_create_42)) != 0)
goto err;
if ((ret = __db_add_recovery_int(env, &env->recover_dtab,
__fop_write_42_recover, DB___fop_write_42)) != 0)
goto err;
if ((ret = __db_add_recovery_int(env, &env->recover_dtab,
__fop_rename_42_recover, DB___fop_rename_42)) != 0)
goto err;
err:
return (ret);
}
static int
__env_init_rec_46(env)
ENV *env;
{
int ret;
if ((ret = __db_add_recovery_int(env, &env->recover_dtab,
__bam_split_42_recover, DB___bam_split_42)) != 0)
goto err;
if ((ret = __db_add_recovery_int(env, &env->recover_dtab,
__bam_merge_44_recover, DB___bam_merge_44)) != 0)
goto err;
if ((ret = __db_add_recovery_int(env, &env->recover_dtab,
__fop_create_42_recover, DB___fop_create_42)) != 0)
goto err;
if ((ret = __db_add_recovery_int(env, &env->recover_dtab,
__fop_write_42_recover, DB___fop_write_42)) != 0)
goto err;
if ((ret = __db_add_recovery_int(env, &env->recover_dtab,
__fop_rename_42_recover, DB___fop_rename_42)) != 0)
goto err;
err: return (ret);
}
static int
__env_init_rec_47(env)
ENV *env;
{
int ret;
if ((ret = __db_add_recovery_int(env, &env->recover_dtab,
__bam_split_42_recover, DB___bam_split_42)) != 0)
goto err;
if ((ret = __db_add_recovery_int(env, &env->recover_dtab,
__db_pg_sort_44_recover, DB___db_pg_sort_44)) != 0)
goto err;
if ((ret = __db_add_recovery_int(env, &env->recover_dtab,
__fop_create_42_recover, DB___fop_create_42)) != 0)
goto err;
if ((ret = __db_add_recovery_int(env, &env->recover_dtab,
__fop_write_42_recover, DB___fop_write_42)) != 0)
goto err;
if ((ret = __db_add_recovery_int(env, &env->recover_dtab,
__fop_rename_42_recover, DB___fop_rename_42)) != 0)
goto err;
if ((ret = __db_add_recovery_int(env, &env->recover_dtab,
__fop_rename_noundo_46_recover, DB___fop_rename_noundo_46)) != 0)
goto err;
err:
return (ret);
}
|