fis-gtm/sr_port/jnl_write_epoch_rec.c

172 lines
6.5 KiB
C

/****************************************************************
* *
* Copyright 2001, 2012 Fidelity Information Services, Inc *
* *
* This source code contains the intellectual property *
* of its copyright holder(s), and is made available *
* under a license. If you do not know the terms of *
* the license, please stop and do not read further. *
* *
****************************************************************/
#include "mdef.h"
#if defined(UNIX)
#include "gtm_fcntl.h"
#include "gtm_unistd.h"
#include "eintr_wrappers.h"
#elif defined(VMS)
#include <descrip.h> /* Required for gtmsource.h */
#include <rms.h>
#include <iodef.h>
#include <efndef.h>
#include "iosb_disk.h"
#endif
#include "gtm_inet.h"
#include "gtm_time.h"
#include "gdsroot.h"
#include "gtm_facility.h"
#include "fileinfo.h"
#include "gdsbt.h"
#include "gdsblk.h"
#include "gdsfhead.h"
#include "filestruct.h"
#include "jnl.h"
#include "jnl_write.h"
#include "repl_msg.h"
#include "gtmsource.h"
#include "gtmio.h"
#include "iosp.h"
#include "jnl_get_checksum.h"
GBLREF jnl_gbls_t jgbl;
GBLREF jnlpool_ctl_ptr_t jnlpool_ctl;
GBLREF seq_num seq_num_zero;
#ifdef UNIX
GBLREF int4 strm_index;
#endif
error_def (ERR_PREMATEOF);
void jnl_write_epoch_rec(sgmnt_addrs *csa)
{
struct_jrec_epoch epoch_record;
jnl_buffer_ptr_t jb;
jnl_private_control *jpc;
jnl_file_header *header;
unsigned char hdr_base[REAL_JNL_HDR_LEN + MAX_IO_BLOCK_SIZE];
sgmnt_data_ptr_t csd;
#if defined(VMS)
io_status_block_disk iosb;
#endif
uint4 jnl_fs_block_size, read_write_size;
int idx;
assert(csa->now_crit);
jpc = csa->jnl;
jb = jpc->jnl_buff;
assert((csa->ti->early_tn == csa->ti->curr_tn) || (csa->ti->early_tn == csa->ti->curr_tn + 1));
assert(0 != jpc->pini_addr);
csd = csa->hdr;
epoch_record.prefix.jrec_type = JRT_EPOCH;
epoch_record.prefix.forwptr = epoch_record.suffix.backptr = EPOCH_RECLEN;
epoch_record.blks_to_upgrd = csd->blks_to_upgrd;
epoch_record.total_blks = csd->trans_hist.total_blks;
epoch_record.free_blocks = csd->trans_hist.free_blocks;
epoch_record.fully_upgraded = csd->fully_upgraded;
epoch_record.suffix.suffix_code = JNL_REC_SUFFIX_CODE;
/* in case jpc->pini_addr turns out to be zero (not clear how), we use the pini_addr field of the
* first PINI journal record in the journal file which is nothing but JNL_HDR_LEN.
*/
epoch_record.prefix.pini_addr = (0 == jpc->pini_addr) ? JNL_HDR_LEN : jpc->pini_addr;
jb->epoch_tn = epoch_record.prefix.tn = csa->ti->curr_tn;
/* At this point jgbl.gbl_jrec_time should be set by the caller */
assert(jgbl.gbl_jrec_time);
epoch_record.prefix.time = jgbl.gbl_jrec_time;
/* we need to write epochs if jgbl.forw_phase_recovery so future recovers will have a closer turnaround point */
jb->next_epoch_time = epoch_record.prefix.time + jb->epoch_interval;
epoch_record.prefix.checksum = INIT_CHECKSUM_SEED;
ASSERT_JNL_SEQNO_FILEHDR_JNLPOOL(csd, jnlpool_ctl); /* debug-only sanity check between seqno of filehdr and jnlpool */
if (jgbl.forw_phase_recovery)
{ /* Set jnl-seqno of epoch record from the current seqno that rollback is playing. Note that in case of -recover
* we dont actually care what seqnos get assigned to the epoch record so we go ahead and set it to the same
* fields even though those might be 0 or not.
*/
epoch_record.jnl_seqno = jgbl.mur_jrec_seqno;
for (idx = 0; idx < MAX_SUPPL_STRMS; idx++)
epoch_record.strm_seqno[idx] = csd->strm_reg_seqno[idx];
/* If MUPIP JOURNAL -ROLLBACK, might need to do additional processing. See macro definition for comments */
MUR_ADJUST_STRM_REG_SEQNO_IF_NEEDED(csd, epoch_record.strm_seqno);
# ifdef DEBUG
if (jgbl.mur_rollback)
{ /* Assert that the unified jnl_seqno is always >= the individual stream seqnos. While this is not
* guaranteed to be true if users play with the seqnos in the db file header, it is mostly true
* and hence a good indicator to have particularly since it catches code issues right away.
*/
for (idx = 0; idx < MAX_SUPPL_STRMS; idx++)
assert(epoch_record.strm_seqno[idx] <= epoch_record.jnl_seqno);
}
# endif
} else if (REPL_ALLOWED(csd))
{
epoch_record.jnl_seqno = csd->reg_seqno; /* Note we cannot use jnlpool_ctl->jnl_seqno since
* we might not presently hold the journal pool lock */
for (idx = 0; idx < MAX_SUPPL_STRMS; idx++)
epoch_record.strm_seqno[idx] = csd->strm_reg_seqno[idx];
} else
{
epoch_record.jnl_seqno = seq_num_zero;
for (idx = 0; idx < MAX_SUPPL_STRMS; idx++)
epoch_record.strm_seqno[idx] = 0;
}
if (jb->end_of_data)
{
jnl_fs_block_size = jb->fs_block_size;
header = (jnl_file_header *)(ROUND_UP2((uintszofptr_t)hdr_base, jnl_fs_block_size));
read_write_size = ROUND_UP2(REAL_JNL_HDR_LEN, jnl_fs_block_size);
assert((unsigned char *)header + read_write_size <= ARRAYTOP(hdr_base));
DO_FILE_READ(jpc->channel, 0, header, read_write_size, jpc->status, jpc->status2);
assert(SS_NORMAL != jpc->status || SS_NORMAL == jpc->status2);
if (SS_NORMAL == jpc->status)
{
header->end_of_data = jb->end_of_data;
csa->hdr->jnl_eovtn = header->eov_tn;
header->eov_tn = jb->eov_tn;
header->eov_timestamp = jb->eov_timestamp;
header->end_seqno = jb->end_seqno;
# ifdef UNIX
/* Keep header->strm_end_seqno[] uptodate as well if applicable */
if (INVALID_SUPPL_STRM != strm_index)
{
for (idx = 0; idx < MAX_SUPPL_STRMS; idx++)
header->strm_end_seqno[idx] = jb->strm_end_seqno[idx];
}
# endif
DO_FILE_WRITE(jpc->channel, 0, header, read_write_size, jpc->status, jpc->status2);
/* for abnormal status do not do anything. journal file header will have previous end_of_data */
}
}
jb->end_of_data = jb->freeaddr;
jb->eov_tn = csa->ti->curr_tn;
jb->eov_timestamp = jgbl.gbl_jrec_time;
jb->end_seqno = epoch_record.jnl_seqno;
# ifdef UNIX
/* Keep header->strm_end_seqno[] uptodate as well if applicable */
if (INVALID_SUPPL_STRM != strm_index)
{
/* ROLLBACK turns off replication in mur_close_files and so we should never come here with csd->repl_state
* indicating replication is allowed (for ROLLBACK). The only exception is if we are done with ROLLBACK,
* but invoked gds_rundown (from mur_close_files) in which case repl_state will be turned back ON by
* mur_close_files (process_exiting = TRUE). Assert accordingly
*/
assert(!jgbl.mur_rollback || !REPL_ALLOWED(csd) || process_exiting);
assert(jgbl.mur_rollback || REPL_ALLOWED(csd));
for (idx = 0; idx < MAX_SUPPL_STRMS; idx++)
jb->strm_end_seqno[idx] = csd->strm_reg_seqno[idx];
}
# endif
jnl_write(jpc, JRT_EPOCH, (jnl_record *)&epoch_record, NULL, NULL);
}