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|
/*-
* See the file LICENSE for redistribution information.
*
* Copyright (c) 1996-2006
* Oracle Corporation. All rights reserved.
*
* $Id: log_get.c,v 12.35 2006/09/07 20:05:32 bostic Exp $
*/
#include "db_config.h"
#include "db_int.h"
#include "dbinc/crypto.h"
#include "dbinc/db_page.h"
#include "dbinc/hmac.h"
#include "dbinc/log.h"
#include "dbinc/hash.h"
typedef enum { L_ALREADY, L_ACQUIRED, L_NONE } RLOCK;
static int __log_c_close_pp __P((DB_LOGC *, u_int32_t));
static int __log_c_get_pp __P((DB_LOGC *, DB_LSN *, DBT *, u_int32_t));
static int __log_c_get_int __P((DB_LOGC *, DB_LSN *, DBT *, u_int32_t));
static int __log_c_hdrchk __P((DB_LOGC *, DB_LSN *, HDR *, int *));
static int __log_c_incursor __P((DB_LOGC *, DB_LSN *, HDR *, u_int8_t **));
static int __log_c_inregion __P((DB_LOGC *,
DB_LSN *, RLOCK *, DB_LSN *, HDR *, u_int8_t **, int *));
static int __log_c_io __P((DB_LOGC *,
u_int32_t, u_int32_t, void *, size_t *, int *));
static int __log_c_ondisk __P((DB_LOGC *,
DB_LSN *, DB_LSN *, u_int32_t, HDR *, u_int8_t **, int *));
static int __log_c_set_maxrec __P((DB_LOGC *, char *));
static int __log_c_shortread __P((DB_LOGC *, DB_LSN *, int));
static int __log_c_version_pp __P((DB_LOGC *, u_int32_t *, u_int32_t));
/*
* __log_cursor_pp --
* DB_ENV->log_cursor
*
* PUBLIC: int __log_cursor_pp __P((DB_ENV *, DB_LOGC **, u_int32_t));
*/
int
__log_cursor_pp(dbenv, logcp, flags)
DB_ENV *dbenv;
DB_LOGC **logcp;
u_int32_t flags;
{
DB_THREAD_INFO *ip;
int ret;
PANIC_CHECK(dbenv);
ENV_REQUIRES_CONFIG(dbenv,
dbenv->lg_handle, "DB_ENV->log_cursor", DB_INIT_LOG);
/* Validate arguments. */
if ((ret = __db_fchk(dbenv, "DB_ENV->log_cursor", flags, 0)) != 0)
return (ret);
ENV_ENTER(dbenv, ip);
REPLICATION_WRAP(dbenv, (__log_cursor(dbenv, logcp)), ret);
ENV_LEAVE(dbenv, ip);
return (ret);
}
/*
* __log_cursor --
* Create a log cursor.
*
* PUBLIC: int __log_cursor __P((DB_ENV *, DB_LOGC **));
*/
int
__log_cursor(dbenv, logcp)
DB_ENV *dbenv;
DB_LOGC **logcp;
{
DB_LOGC *logc;
int ret;
*logcp = NULL;
/* Allocate memory for the cursor. */
if ((ret = __os_calloc(dbenv, 1, sizeof(DB_LOGC), &logc)) != 0)
return (ret);
logc->bp_size = LG_CURSOR_BUF_SIZE;
/*
* Set this to something positive.
*/
logc->bp_maxrec = MEGABYTE;
if ((ret = __os_malloc(dbenv, logc->bp_size, &logc->bp)) != 0) {
__os_free(dbenv, logc);
return (ret);
}
logc->dbenv = dbenv;
logc->close = __log_c_close_pp;
logc->get = __log_c_get_pp;
logc->version = __log_c_version_pp;
*logcp = logc;
return (0);
}
/*
* __log_c_close_pp --
* DB_LOGC->close pre/post processing.
*/
static int
__log_c_close_pp(logc, flags)
DB_LOGC *logc;
u_int32_t flags;
{
DB_THREAD_INFO *ip;
DB_ENV *dbenv;
int ret;
dbenv = logc->dbenv;
PANIC_CHECK(dbenv);
if ((ret = __db_fchk(dbenv, "DB_LOGC->close", flags, 0)) != 0)
return (ret);
ENV_ENTER(dbenv, ip);
REPLICATION_WRAP(dbenv, (__log_c_close(logc)), ret);
ENV_LEAVE(dbenv, ip);
return (ret);
}
/*
* __log_c_close --
* DB_LOGC->close.
*
* PUBLIC: int __log_c_close __P((DB_LOGC *));
*/
int
__log_c_close(logc)
DB_LOGC *logc;
{
DB_ENV *dbenv;
dbenv = logc->dbenv;
if (logc->c_fhp != NULL) {
(void)__os_closehandle(dbenv, logc->c_fhp);
logc->c_fhp = NULL;
}
if (logc->c_dbt.data != NULL)
__os_free(dbenv, logc->c_dbt.data);
__os_free(dbenv, logc->bp);
__os_free(dbenv, logc);
return (0);
}
/*
* __log_c_version_pp --
* DB_LOGC->version.
*/
static int
__log_c_version_pp(logc, versionp, flags)
DB_LOGC *logc;
u_int32_t *versionp;
u_int32_t flags;
{
DB_ENV *dbenv;
DB_THREAD_INFO *ip;
int ret;
dbenv = logc->dbenv;
PANIC_CHECK(dbenv);
if ((ret = __db_fchk(dbenv, "DB_LOGC->version", flags, 0)) != 0)
return (ret);
ENV_ENTER(dbenv, ip);
REPLICATION_WRAP(dbenv, (__log_c_version(logc, versionp)), ret);
ENV_LEAVE(dbenv, ip);
return (ret);
}
/*
* __log_c_version --
* DB_LOGC->version.
*
* PUBLIC: int __log_c_version __P((DB_LOGC *, u_int32_t *));
*/
int
__log_c_version(logc, versionp)
DB_LOGC *logc;
u_int32_t *versionp;
{
DB_ENV *dbenv;
DB_LSN plsn;
DB_LOGC *plogc;
DBT hdrdbt;
LOGP *persist;
int ret, t_ret;
dbenv = logc->dbenv;
if (IS_ZERO_LSN(logc->c_lsn)) {
__db_errx(dbenv, "DB_LOGC->get: unset cursor");
return (EINVAL);
}
ret = 0;
/*
* Check if the persist info we have is for the same file
* as the current cursor position. If we already have the
* information, then we're done. If not, we open a new
* log cursor and get the header.
*
* Since most users walk forward through the log when
* using this feature (i.e. printlog) we're likely to
* have the information we need.
*/
if (logc->c_lsn.file != logc->p_lsn.file) {
if ((ret = __log_cursor(dbenv, &plogc)) != 0)
return (ret);
plsn.file = logc->c_lsn.file;
plsn.offset = 0;
plogc->c_lsn = plsn;
memset(&hdrdbt, 0, sizeof(DBT));
if ((ret = __log_c_get_int(plogc,
&plsn, &hdrdbt, DB_SET)) == 0) {
persist = (LOGP *)hdrdbt.data;
logc->p_lsn = logc->c_lsn;
logc->p_version = persist->version;
}
if ((t_ret = __log_c_close(plogc)) != 0 && ret == 0)
ret = t_ret;
}
/* Return the version. */
if (ret == 0)
*versionp = logc->p_version;
return (ret);
}
/*
* __log_c_get_pp --
* DB_LOGC->get pre/post processing.
*/
static int
__log_c_get_pp(logc, alsn, dbt, flags)
DB_LOGC *logc;
DB_LSN *alsn;
DBT *dbt;
u_int32_t flags;
{
DB_ENV *dbenv;
DB_THREAD_INFO *ip;
int ret;
dbenv = logc->dbenv;
PANIC_CHECK(dbenv);
/* Validate arguments. */
switch (flags) {
case DB_CURRENT:
case DB_FIRST:
case DB_LAST:
case DB_NEXT:
case DB_PREV:
break;
case DB_SET:
if (IS_ZERO_LSN(*alsn)) {
__db_errx(dbenv, "DB_LOGC->get: invalid LSN: %lu/%lu",
(u_long)alsn->file, (u_long)alsn->offset);
return (EINVAL);
}
break;
default:
return (__db_ferr(dbenv, "DB_LOGC->get", 1));
}
ENV_ENTER(dbenv, ip);
REPLICATION_WRAP(dbenv, (__log_c_get(logc, alsn, dbt, flags)), ret);
ENV_LEAVE(dbenv, ip);
return (ret);
}
/*
* __log_c_get --
* DB_LOGC->get.
*
* PUBLIC: int __log_c_get __P((DB_LOGC *, DB_LSN *, DBT *, u_int32_t));
*/
int
__log_c_get(logc, alsn, dbt, flags)
DB_LOGC *logc;
DB_LSN *alsn;
DBT *dbt;
u_int32_t flags;
{
DB_ENV *dbenv;
DB_LSN saved_lsn;
LOGP *persist;
int ret;
dbenv = logc->dbenv;
/*
* On error, we take care not to overwrite the caller's LSN. This
* is because callers looking for the end of the log loop using the
* DB_NEXT flag, and expect to take the last successful lsn out of
* the passed-in structure after DB_LOGC->get fails with DB_NOTFOUND.
*
* !!!
* This line is often flagged an uninitialized memory read during a
* Purify or similar tool run, as the application didn't initialize
* *alsn. If the application isn't setting the DB_SET flag, there is
* no reason it should have initialized *alsn, but we can't know that
* and we want to make sure we never overwrite whatever the application
* put in there.
*/
saved_lsn = *alsn;
/*
* If we get one of the log's header records as a result of doing a
* DB_FIRST, DB_NEXT, DB_LAST or DB_PREV, repeat the operation, log
* file header records aren't useful to applications.
*/
if ((ret = __log_c_get_int(logc, alsn, dbt, flags)) != 0) {
*alsn = saved_lsn;
return (ret);
}
if (alsn->offset == 0 && (flags == DB_FIRST ||
flags == DB_NEXT || flags == DB_LAST || flags == DB_PREV)) {
switch (flags) {
case DB_FIRST:
flags = DB_NEXT;
break;
case DB_LAST:
flags = DB_PREV;
break;
case DB_NEXT:
case DB_PREV:
default:
break;
}
/*
* If we're walking the log and we find a persist header
* then store so that we may use it later if needed.
*/
persist = (LOGP *)dbt->data;
logc->p_lsn = *alsn;
logc->p_version = persist->version;
if (F_ISSET(dbt, DB_DBT_MALLOC)) {
__os_free(dbenv, dbt->data);
dbt->data = NULL;
}
if ((ret = __log_c_get_int(logc, alsn, dbt, flags)) != 0) {
*alsn = saved_lsn;
return (ret);
}
}
return (0);
}
/*
* __log_c_get_int --
* Get a log record; internal version.
*/
static int
__log_c_get_int(logc, alsn, dbt, flags)
DB_LOGC *logc;
DB_LSN *alsn;
DBT *dbt;
u_int32_t flags;
{
DB_CIPHER *db_cipher;
DB_ENV *dbenv;
DB_LOG *dblp;
DB_LSN last_lsn, nlsn;
HDR hdr;
LOG *lp;
RLOCK rlock;
logfile_validity status;
u_int32_t cnt;
u_int8_t *rp;
int eof, is_hmac, need_cksum, ret;
dbenv = logc->dbenv;
db_cipher = dbenv->crypto_handle;
dblp = dbenv->lg_handle;
lp = dblp->reginfo.primary;
is_hmac = 0;
/*
* We don't acquire the log region lock until we need it, and we
* release it as soon as we're done.
*/
rlock = F_ISSET(logc, DB_LOG_LOCKED) ? L_ALREADY : L_NONE;
nlsn = logc->c_lsn;
switch (flags) {
case DB_NEXT: /* Next log record. */
if (!IS_ZERO_LSN(nlsn)) {
/* Increment the cursor by the cursor record size. */
nlsn.offset += logc->c_len;
break;
}
flags = DB_FIRST;
/* FALLTHROUGH */
case DB_FIRST: /* First log record. */
/* Find the first log file. */
if ((ret = __log_find(dblp, 1, &cnt, &status)) != 0)
goto err;
/*
* DB_LV_INCOMPLETE:
* Theoretically, the log file we want could be created
* but not yet written, the "first" log record must be
* in the log buffer.
* DB_LV_NORMAL:
* DB_LV_OLD_READABLE:
* We found a log file we can read.
* DB_LV_NONEXISTENT:
* No log files exist, the "first" log record must be in
* the log buffer.
* DB_LV_OLD_UNREADABLE:
* No readable log files exist, we're at the cross-over
* point between two versions. The "first" log record
* must be in the log buffer.
*/
switch (status) {
case DB_LV_INCOMPLETE:
DB_ASSERT(dbenv, lp->lsn.file == cnt);
/* FALLTHROUGH */
case DB_LV_NORMAL:
case DB_LV_OLD_READABLE:
nlsn.file = cnt;
break;
case DB_LV_NONEXISTENT:
nlsn.file = 1;
DB_ASSERT(dbenv, lp->lsn.file == nlsn.file);
break;
case DB_LV_OLD_UNREADABLE:
nlsn.file = cnt + 1;
DB_ASSERT(dbenv, lp->lsn.file == nlsn.file);
break;
}
nlsn.offset = 0;
break;
case DB_CURRENT: /* Current log record. */
break;
case DB_PREV: /* Previous log record. */
if (!IS_ZERO_LSN(nlsn)) {
/* If at start-of-file, move to the previous file. */
if (nlsn.offset == 0) {
if (nlsn.file == 1) {
ret = DB_NOTFOUND;
goto err;
}
if ((!lp->db_log_inmemory &&
(__log_valid(dblp, nlsn.file - 1, 0, NULL,
0, &status, NULL) != 0 ||
(status != DB_LV_NORMAL &&
status != DB_LV_OLD_READABLE)))) {
ret = DB_NOTFOUND;
goto err;
}
--nlsn.file;
}
nlsn.offset = logc->c_prev;
break;
}
/* FALLTHROUGH */
case DB_LAST: /* Last log record. */
if (rlock == L_NONE) {
rlock = L_ACQUIRED;
LOG_SYSTEM_LOCK(dbenv);
}
nlsn.file = lp->lsn.file;
nlsn.offset = lp->lsn.offset - lp->len;
break;
case DB_SET: /* Set log record. */
nlsn = *alsn;
break;
default:
ret = __db_unknown_path(dbenv, "__log_c_get_int");
goto err;
}
if (0) { /* Move to the next file. */
next_file: ++nlsn.file;
nlsn.offset = 0;
}
/*
* The above switch statement should have set nlsn to the lsn of
* the requested record.
*/
if (CRYPTO_ON(dbenv)) {
hdr.size = HDR_CRYPTO_SZ;
is_hmac = 1;
} else {
hdr.size = HDR_NORMAL_SZ;
is_hmac = 0;
}
/*
* Check to see if the record is in the cursor's buffer -- if so,
* we'll need to checksum it.
*/
if ((ret = __log_c_incursor(logc, &nlsn, &hdr, &rp)) != 0)
goto err;
if (rp != NULL)
goto cksum;
/*
* Look to see if we're moving backward in the log with the last record
* coming from the disk -- it means the record can't be in the region's
* buffer. Else, check the region's buffer.
*
* If the record isn't in the region's buffer, then either logs are
* in-memory, and we're done, or we're going to have to read the
* record from disk. We want to make a point of not reading past the
* end of the logical log (after recovery, there may be data after the
* end of the logical log, not to mention the log file may have been
* pre-allocated). So, zero out last_lsn, and initialize it inside
* __log_c_inregion -- if it's still zero when we check it in
* __log_c_ondisk, that's OK, it just means the logical end of the log
* isn't an issue for this request.
*/
ZERO_LSN(last_lsn);
if (!F_ISSET(logc, DB_LOG_DISK) ||
LOG_COMPARE(&nlsn, &logc->c_lsn) > 0) {
F_CLR(logc, DB_LOG_DISK);
if ((ret = __log_c_inregion(logc,
&nlsn, &rlock, &last_lsn, &hdr, &rp, &need_cksum)) != 0)
goto err;
if (rp != NULL) {
/*
* If we read the entire record from the in-memory log
* buffer, we don't need to checksum it, nor do we need
* to worry about vtruncate issues.
*/
if (need_cksum)
goto cksum;
goto from_memory;
}
if (lp->db_log_inmemory)
goto nohdr;
}
/*
* We have to read from an on-disk file to retrieve the record.
* If we ever can't retrieve the record at offset 0, we're done,
* return EOF/DB_NOTFOUND.
*
* Discard the region lock if we're still holding it, the on-disk
* reading routines don't need it.
*/
if (rlock == L_ACQUIRED) {
rlock = L_NONE;
LOG_SYSTEM_UNLOCK(dbenv);
}
if ((ret = __log_c_ondisk(
logc, &nlsn, &last_lsn, flags, &hdr, &rp, &eof)) != 0)
goto err;
if (eof) {
/*
* Only DB_NEXT automatically moves to the next file, and
* it only happens once.
*/
if (flags != DB_NEXT || nlsn.offset == 0)
return (DB_NOTFOUND);
goto next_file;
}
F_SET(logc, DB_LOG_DISK);
cksum: /*
* Discard the region lock if we're still holding it. (The path to
* get here is we acquired the region lock because of the caller's
* flag argument, but we found the record in the in-memory or cursor
* buffers. Improbable, but it's easy to avoid.)
*/
if (rlock == L_ACQUIRED) {
rlock = L_NONE;
LOG_SYSTEM_UNLOCK(dbenv);
}
/*
* Checksum: there are two types of errors -- a configuration error
* or a checksum mismatch. The former is always bad. The latter is
* OK if we're searching for the end of the log, and very, very bad
* if we're reading random log records.
*/
if ((ret = __db_check_chksum(dbenv, &hdr, db_cipher,
hdr.chksum, rp + hdr.size, hdr.len - hdr.size, is_hmac)) != 0) {
if (F_ISSET(logc, DB_LOG_SILENT_ERR)) {
if (ret == 0 || ret == -1)
ret = EIO;
} else if (ret == -1) {
__db_errx(dbenv,
"DB_LOGC->get: log record LSN %lu/%lu: checksum mismatch",
(u_long)nlsn.file, (u_long)nlsn.offset);
__db_errx(dbenv,
"DB_LOGC->get: catastrophic recovery may be required");
ret = __db_panic(dbenv, DB_RUNRECOVERY);
}
goto err;
}
/*
* If we got a 0-length record, that means we're in the midst of
* some bytes that got 0'd as the result of a vtruncate. We're
* going to have to retry.
*/
if (hdr.len == 0) {
nohdr: switch (flags) {
case DB_FIRST:
case DB_NEXT:
/* Zero'd records always indicate the end of a file. */
goto next_file;
case DB_LAST:
case DB_PREV:
/*
* We should never get here. If we recover a log
* file with 0's at the end, we'll treat the 0'd
* headers as the end of log and ignore them. If
* we're reading backwards from another file, then
* the first record in that new file should have its
* prev field set correctly.
*/
__db_errx(dbenv,
"Encountered zero length records while traversing backwards");
ret = __db_panic(dbenv, DB_RUNRECOVERY);
goto err;
case DB_SET:
default:
/* Return the 0-length record. */
break;
}
}
from_memory:
/*
* Discard the region lock if we're still holding it. (The path to
* get here is we acquired the region lock because of the caller's
* flag argument, but we found the record in the in-memory or cursor
* buffers. Improbable, but it's easy to avoid.)
*/
if (rlock == L_ACQUIRED) {
rlock = L_NONE;
LOG_SYSTEM_UNLOCK(dbenv);
}
/* Copy the record into the user's DBT. */
if ((ret = __db_retcopy(dbenv, dbt, rp + hdr.size,
(u_int32_t)(hdr.len - hdr.size),
&logc->c_dbt.data, &logc->c_dbt.ulen)) != 0)
goto err;
if (CRYPTO_ON(dbenv)) {
if ((ret = db_cipher->decrypt(dbenv, db_cipher->data,
hdr.iv, dbt->data, hdr.len - hdr.size)) != 0) {
ret = EAGAIN;
goto err;
}
/*
* Return the original log record size to the user,
* even though we've allocated more than that, possibly.
* The log record is decrypted in the user dbt, not in
* the buffer, so we must do this here after decryption,
* not adjust the len passed to the __db_retcopy call.
*/
dbt->size = hdr.orig_size;
}
/* Update the cursor and the returned LSN. */
*alsn = nlsn;
logc->c_lsn = nlsn;
logc->c_len = hdr.len;
logc->c_prev = hdr.prev;
err: if (rlock == L_ACQUIRED)
LOG_SYSTEM_UNLOCK(dbenv);
return (ret);
}
/*
* __log_c_incursor --
* Check to see if the requested record is in the cursor's buffer.
*/
static int
__log_c_incursor(logc, lsn, hdr, pp)
DB_LOGC *logc;
DB_LSN *lsn;
HDR *hdr;
u_int8_t **pp;
{
u_int8_t *p;
int eof;
*pp = NULL;
/*
* Test to see if the requested LSN could be part of the cursor's
* buffer.
*
* The record must be part of the same file as the cursor's buffer.
* The record must start at a byte offset equal to or greater than
* the cursor buffer.
* The record must not start at a byte offset after the cursor
* buffer's end.
*/
if (logc->bp_lsn.file != lsn->file)
return (0);
if (logc->bp_lsn.offset > lsn->offset)
return (0);
if (logc->bp_lsn.offset + logc->bp_rlen <= lsn->offset + hdr->size)
return (0);
/*
* Read the record's header and check if the record is entirely held
* in the buffer. If the record is not entirely held, get it again.
* (The only advantage in having part of the record locally is that
* we might avoid a system call because we already have the HDR in
* memory.)
*
* If the header check fails for any reason, it must be because the
* LSN is bogus. Fail hard.
*/
p = logc->bp + (lsn->offset - logc->bp_lsn.offset);
memcpy(hdr, p, hdr->size);
if (__log_c_hdrchk(logc, lsn, hdr, &eof))
return (DB_NOTFOUND);
if (eof || logc->bp_lsn.offset + logc->bp_rlen < lsn->offset + hdr->len)
return (0);
*pp = p; /* Success. */
return (0);
}
/*
* __log_c_inregion --
* Check to see if the requested record is in the region's buffer.
*/
static int
__log_c_inregion(logc, lsn, rlockp, last_lsn, hdr, pp, need_cksump)
DB_LOGC *logc;
DB_LSN *lsn, *last_lsn;
RLOCK *rlockp;
HDR *hdr;
u_int8_t **pp;
int *need_cksump;
{
DB_ENV *dbenv;
DB_LOG *dblp;
LOG *lp;
size_t b_region, len, nr;
u_int32_t b_disk;
int eof, ret;
u_int8_t *p;
dbenv = logc->dbenv;
dblp = dbenv->lg_handle;
lp = dbenv->lg_handle->reginfo.primary;
ret = 0;
b_region = 0;
*pp = NULL;
*need_cksump = 0;
/* If we haven't yet acquired the log region lock, do so. */
if (*rlockp == L_NONE) {
*rlockp = L_ACQUIRED;
LOG_SYSTEM_LOCK(dbenv);
}
/*
* The routines to read from disk must avoid reading past the logical
* end of the log, so pass that information back to it.
*
* Since they're reading directly from the disk, they must also avoid
* reading past the offset we've written out. If the log was
* truncated, it's possible that there are zeroes or garbage on
* disk after this offset, and the logical end of the log can
* come later than this point if the log buffer isn't empty.
*/
*last_lsn = lp->lsn;
if (!lp->db_log_inmemory && last_lsn->offset > lp->w_off)
last_lsn->offset = lp->w_off;
/*
* Test to see if the requested LSN could be part of the region's
* buffer.
*
* During recovery, we read the log files getting the information to
* initialize the region. In that case, the region's lsn field will
* not yet have been filled in, use only the disk.
*
* The record must not start at a byte offset after the region buffer's
* end, since that means the request is for a record after the end of
* the log. Do this test even if the region's buffer is empty -- after
* recovery, the log files may continue past the declared end-of-log,
* and the disk reading routine will incorrectly attempt to read the
* remainder of the log.
*
* Otherwise, test to see if the region's buffer actually has what we
* want:
*
* The buffer must have some useful content.
* The record must be in the same file as the region's buffer and must
* start at a byte offset equal to or greater than the region's buffer.
*/
if (IS_ZERO_LSN(lp->lsn))
return (0);
if (LOG_COMPARE(lsn, &lp->lsn) >= 0)
return (DB_NOTFOUND);
else if (lp->db_log_inmemory) {
if ((ret = __log_inmem_lsnoff(dblp, lsn, &b_region)) != 0)
return (ret);
} else if (lp->b_off == 0 || LOG_COMPARE(lsn, &lp->f_lsn) < 0)
return (0);
/*
* The current contents of the cursor's buffer will be useless for a
* future call, we're about to overwrite it -- trash it rather than
* try and make it look correct.
*/
logc->bp_rlen = 0;
/*
* If the requested LSN is greater than the region buffer's first
* byte, we know the entire record is in the buffer on a good LSN.
*
* If we're given a bad LSN, the "entire" record might not be in
* our buffer in order to fail at the chksum. __log_c_hdrchk made
* sure our dest buffer fits, via bp_maxrec, but we also need to
* make sure we don't run off the end of this buffer, the src.
*
* There is one case where the header check can fail: on a scan through
* in-memory logs, when we reach the end of a file we can read an empty
* header. In that case, it's safe to return zero, here: it will be
* caught in our caller. Otherwise, the LSN is bogus. Fail hard.
*/
if (lp->db_log_inmemory || LOG_COMPARE(lsn, &lp->f_lsn) > 0) {
if (!lp->db_log_inmemory)
b_region = lsn->offset - lp->w_off;
__log_inmem_copyout(dblp, b_region, hdr, hdr->size);
if (__log_c_hdrchk(logc, lsn, hdr, &eof) != 0)
return (DB_NOTFOUND);
if (eof)
return (0);
if (lp->db_log_inmemory) {
if (RINGBUF_LEN(lp, b_region, lp->b_off) < hdr->len)
return (DB_NOTFOUND);
} else if (lsn->offset + hdr->len > lp->w_off + lp->buffer_size)
return (DB_NOTFOUND);
if (logc->bp_size <= hdr->len) {
len = (size_t)DB_ALIGN((uintmax_t)hdr->len * 2, 128);
if ((ret =
__os_realloc(logc->dbenv, len, &logc->bp)) != 0)
return (ret);
logc->bp_size = (u_int32_t)len;
}
__log_inmem_copyout(dblp, b_region, logc->bp, hdr->len);
*pp = logc->bp;
return (0);
}
DB_ASSERT(dbenv, !lp->db_log_inmemory);
/*
* There's a partial record, that is, the requested record starts
* in a log file and finishes in the region buffer. We have to
* find out how many bytes of the record are in the region buffer
* so we can copy them out into the cursor buffer. First, check
* to see if the requested record is the only record in the region
* buffer, in which case we should copy the entire region buffer.
*
* Else, walk back through the region's buffer to find the first LSN
* after the record that crosses the buffer boundary -- we can detect
* that LSN, because its "prev" field will reference the record we
* want. The bytes we need to copy from the region buffer are the
* bytes up to the record we find. The bytes we'll need to allocate
* to hold the log record are the bytes between the two offsets.
*/
b_disk = lp->w_off - lsn->offset;
if (lp->b_off <= lp->len)
b_region = (u_int32_t)lp->b_off;
else
for (p = dblp->bufp + (lp->b_off - lp->len);;) {
memcpy(hdr, p, hdr->size);
if (hdr->prev == lsn->offset) {
b_region = (u_int32_t)(p - dblp->bufp);
break;
}
p = dblp->bufp + (hdr->prev - lp->w_off);
}
/*
* If we don't have enough room for the record, we have to allocate
* space. We have to do it while holding the region lock, which is
* truly annoying, but there's no way around it. This call is why
* we allocate cursor buffer space when allocating the cursor instead
* of waiting.
*/
if (logc->bp_size <= b_region + b_disk) {
len = (size_t)DB_ALIGN((uintmax_t)(b_region + b_disk) * 2, 128);
if ((ret = __os_realloc(logc->dbenv, len, &logc->bp)) != 0)
return (ret);
logc->bp_size = (u_int32_t)len;
}
/* Copy the region's bytes to the end of the cursor's buffer. */
p = (logc->bp + logc->bp_size) - b_region;
memcpy(p, dblp->bufp, b_region);
/* Release the region lock. */
if (*rlockp == L_ACQUIRED) {
*rlockp = L_NONE;
LOG_SYSTEM_UNLOCK(dbenv);
}
/*
* Read the rest of the information from disk. Neither short reads
* or EOF are acceptable, the bytes we want had better be there.
*/
if (b_disk != 0) {
p -= b_disk;
nr = b_disk;
if ((ret = __log_c_io(
logc, lsn->file, lsn->offset, p, &nr, NULL)) != 0)
return (ret);
if (nr < b_disk)
return (__log_c_shortread(logc, lsn, 0));
/* We read bytes from the disk, we'll need to checksum them. */
*need_cksump = 1;
}
/* Copy the header information into the caller's structure. */
memcpy(hdr, p, hdr->size);
*pp = p;
return (0);
}
/*
* __log_c_ondisk --
* Read a record off disk.
*/
static int
__log_c_ondisk(logc, lsn, last_lsn, flags, hdr, pp, eofp)
DB_LOGC *logc;
DB_LSN *lsn, *last_lsn;
u_int32_t flags;
int *eofp;
HDR *hdr;
u_int8_t **pp;
{
DB_ENV *dbenv;
size_t len, nr;
u_int32_t offset;
int ret;
dbenv = logc->dbenv;
*eofp = 0;
nr = hdr->size;
if ((ret =
__log_c_io(logc, lsn->file, lsn->offset, hdr, &nr, eofp)) != 0)
return (ret);
if (*eofp)
return (0);
/*
* If the read was successful, but we can't read a full header, assume
* we've hit EOF. We can't check that the header has been partially
* zeroed out, but it's unlikely that this is caused by a write failure
* since the header is written as a single write call and it's less
* than sector.
*/
if (nr < hdr->size) {
*eofp = 1;
return (0);
}
/* Check the HDR. */
if ((ret = __log_c_hdrchk(logc, lsn, hdr, eofp)) != 0)
return (ret);
if (*eofp)
return (0);
/*
* Regardless of how we return, the previous contents of the cursor's
* buffer are useless -- trash it.
*/
logc->bp_rlen = 0;
/*
* Otherwise, we now (finally!) know how big the record is. (Maybe
* we should have just stuck the length of the record into the LSN!?)
* Make sure we have enough space.
*/
if (logc->bp_size <= hdr->len) {
len = (size_t)DB_ALIGN((uintmax_t)hdr->len * 2, 128);
if ((ret = __os_realloc(dbenv, len, &logc->bp)) != 0)
return (ret);
logc->bp_size = (u_int32_t)len;
}
/*
* If we're moving forward in the log file, read this record in at the
* beginning of the buffer. Otherwise, read this record in at the end
* of the buffer, making sure we don't try and read before the start
* of the file. (We prefer positioning at the end because transaction
* aborts use DB_SET to move backward through the log and we might get
* lucky.)
*
* Read a buffer's worth, without reading past the logical EOF. The
* last_lsn may be a zero LSN, but that's OK, the test works anyway.
*/
if (flags == DB_FIRST || flags == DB_NEXT)
offset = lsn->offset;
else if (lsn->offset + hdr->len < logc->bp_size)
offset = 0;
else
offset = (lsn->offset + hdr->len) - logc->bp_size;
nr = logc->bp_size;
if (lsn->file == last_lsn->file && offset + nr >= last_lsn->offset)
nr = last_lsn->offset - offset;
if ((ret =
__log_c_io(logc, lsn->file, offset, logc->bp, &nr, eofp)) != 0)
return (ret);
/*
* We should have at least gotten the bytes up-to-and-including the
* record we're reading.
*/
if (nr < (lsn->offset + hdr->len) - offset)
return (__log_c_shortread(logc, lsn, 1));
/*
* Set up the return information.
*
* !!!
* No need to set the bp_lsn.file field, __log_c_io set it for us.
*/
logc->bp_rlen = (u_int32_t)nr;
logc->bp_lsn.offset = offset;
*pp = logc->bp + (lsn->offset - offset);
return (0);
}
/*
* __log_c_hdrchk --
*
* Check for corrupted HDRs before we use them to allocate memory or find
* records.
*
* If the log files were pre-allocated, a zero-filled HDR structure is the
* logical file end. However, we can see buffers filled with 0's during
* recovery, too (because multiple log buffers were written asynchronously,
* and one made it to disk before a different one that logically precedes
* it in the log file.
*
* Check for impossibly large records. The malloc should fail later, but we
* have customers that run mallocs that treat all allocation failures as fatal
* errors.
*
* Note that none of this is necessarily something awful happening. We let
* the application hand us any LSN they want, and it could be a pointer into
* the middle of a log record, there's no way to tell.
*/
static int
__log_c_hdrchk(logc, lsn, hdr, eofp)
DB_LOGC *logc;
DB_LSN *lsn;
HDR *hdr;
int *eofp;
{
DB_ENV *dbenv;
int ret;
dbenv = logc->dbenv;
/*
* Check EOF before we do any other processing.
*/
if (eofp != NULL) {
if (hdr->prev == 0 && hdr->chksum[0] == 0 && hdr->len == 0) {
*eofp = 1;
return (0);
}
*eofp = 0;
}
/*
* Sanity check the log record's size.
* We must check it after "virtual" EOF above.
*/
if (hdr->len <= hdr->size)
goto err;
/*
* If the cursor's max-record value isn't yet set, it means we aren't
* reading these records from a log file and no check is necessary.
*/
if (logc->bp_maxrec != 0 && hdr->len > logc->bp_maxrec) {
/*
* If we fail the check, there's the pathological case that
* we're reading the last file, it's growing, and our initial
* check information was wrong. Get it again, to be sure.
*/
if ((ret = __log_c_set_maxrec(logc, NULL)) != 0) {
__db_err(dbenv, ret, "DB_LOGC->get");
return (ret);
}
if (logc->bp_maxrec != 0 && hdr->len > logc->bp_maxrec)
goto err;
}
return (0);
err: if (!F_ISSET(logc, DB_LOG_SILENT_ERR))
__db_errx(dbenv,
"DB_LOGC->get: LSN %lu/%lu: invalid log record header",
(u_long)lsn->file, (u_long)lsn->offset);
return (EIO);
}
/*
* __log_c_io --
* Read records from a log file.
*/
static int
__log_c_io(logc, fnum, offset, p, nrp, eofp)
DB_LOGC *logc;
u_int32_t fnum, offset;
void *p;
size_t *nrp;
int *eofp;
{
DB_ENV *dbenv;
DB_LOG *dblp;
LOG *lp;
int ret;
char *np;
dbenv = logc->dbenv;
dblp = dbenv->lg_handle;
lp = dblp->reginfo.primary;
/*
* If we've switched files, discard the current file handle and acquire
* a new one.
*/
if (logc->c_fhp != NULL && logc->bp_lsn.file != fnum) {
ret = __os_closehandle(dbenv, logc->c_fhp);
logc->c_fhp = NULL;
logc->bp_lsn.file = 0;
if (ret != 0)
return (ret);
}
if (logc->c_fhp == NULL) {
if ((ret = __log_name(dblp, fnum,
&np, &logc->c_fhp, DB_OSO_RDONLY | DB_OSO_SEQ)) != 0) {
/*
* If we're allowed to return EOF, assume that's the
* problem, set the EOF status flag and return 0.
*/
if (eofp != NULL) {
*eofp = 1;
ret = 0;
} else if (!F_ISSET(logc, DB_LOG_SILENT_ERR))
__db_err(dbenv, ret, "DB_LOGC->get: %s", np);
__os_free(dbenv, np);
return (ret);
}
if ((ret = __log_c_set_maxrec(logc, np)) != 0) {
__db_err(dbenv, ret, "DB_LOGC->get: %s", np);
__os_free(dbenv, np);
return (ret);
}
__os_free(dbenv, np);
logc->bp_lsn.file = fnum;
}
++lp->stat.st_rcount;
/* Seek to the record's offset and read the data. */
if ((ret = __os_io(dbenv, DB_IO_READ,
logc->c_fhp, 0, 0, offset, (u_int32_t)*nrp, p, nrp)) != 0) {
if (!F_ISSET(logc, DB_LOG_SILENT_ERR))
__db_err(dbenv, ret,
"DB_LOGC->get: LSN: %lu/%lu: read",
(u_long)fnum, (u_long)offset);
return (ret);
}
return (0);
}
/*
* __log_c_shortread --
* Read was short -- return a consistent error message and error.
*/
static int
__log_c_shortread(logc, lsn, check_silent)
DB_LOGC *logc;
DB_LSN *lsn;
int check_silent;
{
if (!check_silent || !F_ISSET(logc, DB_LOG_SILENT_ERR))
__db_errx(logc->dbenv, "DB_LOGC->get: LSN: %lu/%lu: short read",
(u_long)lsn->file, (u_long)lsn->offset);
return (EIO);
}
/*
* __log_c_set_maxrec --
* Bound the maximum log record size in a log file.
*/
static int
__log_c_set_maxrec(logc, np)
DB_LOGC *logc;
char *np;
{
DB_ENV *dbenv;
DB_LOG *dblp;
LOG *lp;
u_int32_t mbytes, bytes;
int ret;
dbenv = logc->dbenv;
dblp = dbenv->lg_handle;
/*
* We don't want to try and allocate huge chunks of memory because
* applications with error-checking malloc's often consider that a
* hard failure. If we're about to look at a corrupted record with
* a bizarre size, we need to know before trying to allocate space
* to hold it. We could read the persistent data at the beginning
* of the file but that's hard -- we may have to decrypt it, checksum
* it and so on. Stat the file instead.
*/
if (logc->c_fhp != NULL) {
if ((ret = __os_ioinfo(dbenv, np, logc->c_fhp,
&mbytes, &bytes, NULL)) != 0)
return (ret);
if (logc->bp_maxrec < (mbytes * MEGABYTE + bytes))
logc->bp_maxrec = mbytes * MEGABYTE + bytes;
}
/*
* If reading from the log file currently being written, we could get
* an incorrect size, that is, if the cursor was opened on the file
* when it had only a few hundred bytes, and then the cursor used to
* move forward in the file, after more log records were written, the
* original stat value would be wrong. Use the maximum of the current
* log file size and the size of the buffer -- that should represent
* the max of any log record currently in the file.
*
* The log buffer size is set when the environment is opened and never
* changed, we don't need a lock on it.
*/
lp = dblp->reginfo.primary;
if (logc->bp_maxrec < lp->buffer_size)
logc->bp_maxrec = lp->buffer_size;
return (0);
}
#ifdef HAVE_REPLICATION
/*
* __log_rep_split --
* - Split a log buffer into individual records.
*
* This is used by a replication client to process a bulk log message from the
* master and convert it into individual __rep_apply requests.
*
* PUBLIC: int __log_rep_split __P((DB_ENV *, REP_CONTROL *, DBT *, DB_LSN *,
* PUBLIC: DB_LSN *));
*/
int
__log_rep_split(dbenv, rp, rec, ret_lsnp, last_lsnp)
DB_ENV *dbenv;
REP_CONTROL *rp;
DBT *rec;
DB_LSN *ret_lsnp;
DB_LSN *last_lsnp;
{
DB_LSN save_lsn, tmp_lsn;
DBT logrec;
REP_CONTROL tmprp;
u_int32_t len;
int is_dup, is_perm, ret, save_ret;
u_int8_t *p, *ep;
#ifdef DIAGNOSTIC
DB_MSGBUF mb;
#endif
memset(&logrec, 0, sizeof(logrec));
memset(&save_lsn, 0, sizeof(save_lsn));
memset(&tmp_lsn, 0, sizeof(tmp_lsn));
/*
* We're going to be modifying the rp LSN contents so make
* our own private copy to play with.
*/
memcpy(&tmprp, rp, sizeof(tmprp));
/*
* We send the bulk buffer on a PERM record, so often we will have
* DB_LOG_PERM set. However, we only want to mark the last LSN
* we have as a PERM record. So clear it here, and when we're on
* the last record below, set it.
*/
is_perm = F_ISSET(rp, REPCTL_PERM);
F_CLR(&tmprp, REPCTL_PERM);
ret = save_ret = 0;
for (ep = (u_int8_t *)rec->data + rec->size, p = (u_int8_t *)rec->data;
p < ep; ) {
/*
* First thing in the buffer is the length. Then the LSN
* of this record, then the record itself.
*/
/*
* XXX
* If/when we add architecture neutral log files we may want
* to send/receive these lengths in network byte order.
*/
memcpy(&len, p, sizeof(len));
p += sizeof(len);
memcpy(&tmprp.lsn, p, sizeof(DB_LSN));
p += sizeof(DB_LSN);
logrec.data = p;
logrec.size = len;
RPRINT(dbenv, (dbenv, &mb,
"log_rep_split: Processing LSN [%lu][%lu]",
(u_long)tmprp.lsn.file, (u_long)tmprp.lsn.offset));
RPRINT(dbenv, (dbenv, &mb,
"log_rep_split: p %#lx ep %#lx logrec data %#lx, size %lu (%#lx)",
P_TO_ULONG(p), P_TO_ULONG(ep), P_TO_ULONG(logrec.data),
(u_long)logrec.size, (u_long)logrec.size));
is_dup = 0;
p += len;
if (p >= ep && is_perm)
F_SET(&tmprp, REPCTL_PERM);
ret = __rep_apply(dbenv,
&tmprp, &logrec, &tmp_lsn, &is_dup, last_lsnp);
RPRINT(dbenv, (dbenv, &mb,
"log_split: rep_apply ret %d, tmp_lsn [%lu][%lu]",
ret, (u_long)tmp_lsn.file, (u_long)tmp_lsn.offset));
#if 0
/*
* This buffer may be old and we've already gotten these
* records. Short-circuit processing this buffer.
*/
if (is_dup)
goto out;
#endif
switch (ret) {
/*
* If we received the pieces we need for running recovery,
* short-circuit because recovery will truncate the log to
* the LSN we want anyway.
*/
case DB_REP_LOGREADY:
goto out;
/*
* If we just handled a special record, retain that information.
*/
case DB_REP_ISPERM:
case DB_REP_NOTPERM:
save_ret = ret;
save_lsn = tmp_lsn;
ret = 0;
break;
/*
* Normal processing, do nothing, just continue.
*/
case 0:
break;
/*
* If we get an error, then stop immediately.
*/
default:
goto out;
}
}
out:
/*
* If we finish processing successfully, set our return values
* based on what we saw.
*/
if (ret == 0) {
ret = save_ret;
*ret_lsnp = save_lsn;
}
return (ret);
}
#endif
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