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/* * xlog.h * * PostgreSQL transaction log manager * * Portions Copyright (c) 1996-2016, PostgreSQL Global Development Group * Portions Copyright (c) 1994, Regents of the University of California * * src/include/access/xlog.h */ #ifndef XLOG_H #define XLOG_H #include "access/rmgr.h" #include "access/xlogdefs.h" #include "access/xloginsert.h" #include "access/xlogreader.h" #include "datatype/timestamp.h" #include "lib/stringinfo.h" #include "nodes/pg_list.h" #include "storage/fd.h" /* Sync methods */ #define SYNC_METHOD_FSYNC 0 #define SYNC_METHOD_FDATASYNC 1 #define SYNC_METHOD_OPEN 2 /* for O_SYNC */ #define SYNC_METHOD_FSYNC_WRITETHROUGH 3 #define SYNC_METHOD_OPEN_DSYNC 4 /* for O_DSYNC */ extern int sync_method; extern PGDLLIMPORT TimeLineID ThisTimeLineID; /* current TLI */ /* * Prior to 8.4, all activity during recovery was carried out by the startup * process. This local variable continues to be used in many parts of the * code to indicate actions taken by RecoveryManagers. Other processes that * potentially perform work during recovery should check RecoveryInProgress(). * See XLogCtl notes in xlog.c. */ extern bool InRecovery; /* * Like InRecovery, standbyState is only valid in the startup process. * In all other processes it will have the value STANDBY_DISABLED (so * InHotStandby will read as FALSE). * * In DISABLED state, we're performing crash recovery or hot standby was * disabled in postgresql.conf. * * In INITIALIZED state, we've run InitRecoveryTransactionEnvironment, but * we haven't yet processed a RUNNING_XACTS or shutdown-checkpoint WAL record * to initialize our master-transaction tracking system. * * When the transaction tracking is initialized, we enter the SNAPSHOT_PENDING * state. The tracked information might still be incomplete, so we can't allow * connections yet, but redo functions must update the in-memory state when * appropriate. * * In SNAPSHOT_READY mode, we have full knowledge of transactions that are * (or were) running in the master at the current WAL location. Snapshots * can be taken, and read-only queries can be run. */ typedef enum { STANDBY_DISABLED, STANDBY_INITIALIZED, STANDBY_SNAPSHOT_PENDING, STANDBY_SNAPSHOT_READY } HotStandbyState; extern HotStandbyState standbyState; #define InHotStandby (standbyState >= STANDBY_SNAPSHOT_PENDING) /* * Recovery target type. * Only set during a Point in Time recovery, not when standby_mode = on */ typedef enum { RECOVERY_TARGET_UNSET, RECOVERY_TARGET_XID, RECOVERY_TARGET_TIME, RECOVERY_TARGET_NAME, RECOVERY_TARGET_IMMEDIATE } RecoveryTargetType; extern XLogRecPtr ProcLastRecPtr; extern XLogRecPtr XactLastRecEnd; extern PGDLLIMPORT XLogRecPtr XactLastCommitEnd; extern bool reachedConsistency; /* these variables are GUC parameters related to XLOG */ extern int min_wal_size; extern int max_wal_size; extern int wal_keep_segments; extern int XLOGbuffers; extern int XLogArchiveTimeout; extern int wal_retrieve_retry_interval; extern char *XLogArchiveCommand; extern bool EnableHotStandby; extern bool fullPageWrites; extern bool wal_log_hints; extern bool wal_compression; extern bool log_checkpoints; extern int CheckPointSegments; /* Archive modes */ typedef enum ArchiveMode { ARCHIVE_MODE_OFF = 0, /* disabled */ ARCHIVE_MODE_ON, /* enabled while server is running normally */ ARCHIVE_MODE_ALWAYS /* enabled always (even during recovery) */ } ArchiveMode; extern int XLogArchiveMode; /* WAL levels */ typedef enum WalLevel { WAL_LEVEL_MINIMAL = 0, WAL_LEVEL_REPLICA, WAL_LEVEL_LOGICAL } WalLevel; /* Recovery states */ typedef enum RecoveryState { RECOVERY_STATE_CRASH = 0, /* crash recovery */ RECOVERY_STATE_ARCHIVE, /* archive recovery */ RECOVERY_STATE_DONE /* currently in production */ } RecoveryState; extern PGDLLIMPORT int wal_level; /* Is WAL archiving enabled (always or only while server is running normally)? */ #define XLogArchivingActive() \ (AssertMacro(XLogArchiveMode == ARCHIVE_MODE_OFF || wal_level >= WAL_LEVEL_REPLICA), XLogArchiveMode > ARCHIVE_MODE_OFF) /* Is WAL archiving enabled always (even during recovery)? */ #define XLogArchivingAlways() \ (AssertMacro(XLogArchiveMode == ARCHIVE_MODE_OFF || wal_level >= WAL_LEVEL_REPLICA), XLogArchiveMode == ARCHIVE_MODE_ALWAYS) #define XLogArchiveCommandSet() (XLogArchiveCommand[0] != '\0') /* * Is WAL-logging necessary for archival or log-shipping, or can we skip * WAL-logging if we fsync() the data before committing instead? */ #define XLogIsNeeded() (wal_level >= WAL_LEVEL_REPLICA) /* * Is a full-page image needed for hint bit updates? * * Normally, we don't WAL-log hint bit updates, but if checksums are enabled, * we have to protect them against torn page writes. When you only set * individual bits on a page, it's still consistent no matter what combination * of the bits make it to disk, but the checksum wouldn't match. Also WAL-log * them if forced by wal_log_hints=on. */ #define XLogHintBitIsNeeded() (DataChecksumsEnabled() || wal_log_hints) /* Do we need to WAL-log information required only for Hot Standby and logical replication? */ #define XLogStandbyInfoActive() (wal_level >= WAL_LEVEL_REPLICA) /* Do we need to WAL-log information required only for logical replication? */ #define XLogLogicalInfoActive() (wal_level >= WAL_LEVEL_LOGICAL) #ifdef WAL_DEBUG extern bool XLOG_DEBUG; #endif /* * OR-able request flag bits for checkpoints. The "cause" bits are used only * for logging purposes. Note: the flags must be defined so that it's * sensible to OR together request flags arising from different requestors. */ /* These directly affect the behavior of CreateCheckPoint and subsidiaries */ #define CHECKPOINT_IS_SHUTDOWN 0x0001 /* Checkpoint is for shutdown */ #define CHECKPOINT_END_OF_RECOVERY 0x0002 /* Like shutdown checkpoint, * but issued at end of WAL * recovery */ #define CHECKPOINT_IMMEDIATE 0x0004 /* Do it without delays */ #define CHECKPOINT_FORCE 0x0008 /* Force even if no activity */ #define CHECKPOINT_FLUSH_ALL 0x0010 /* Flush all pages, including those * belonging to unlogged tables */ /* These are important to RequestCheckpoint */ #define CHECKPOINT_WAIT 0x0020 /* Wait for completion */ /* These indicate the cause of a checkpoint request */ #define CHECKPOINT_CAUSE_XLOG 0x0040 /* XLOG consumption */ #define CHECKPOINT_CAUSE_TIME 0x0080 /* Elapsed time */ /* We set this to ensure that ckpt_flags is not 0 if a request has been made */ #define CHECKPOINT_REQUESTED 0x0100 /* Checkpoint request has been made */ /* Checkpoint statistics */ typedef struct CheckpointStatsData { TimestampTz ckpt_start_t; /* start of checkpoint */ TimestampTz ckpt_write_t; /* start of flushing buffers */ TimestampTz ckpt_sync_t; /* start of fsyncs */ TimestampTz ckpt_sync_end_t; /* end of fsyncs */ TimestampTz ckpt_end_t; /* end of checkpoint */ int ckpt_bufs_written; /* # of buffers written */ int ckpt_segs_added; /* # of new xlog segments created */ int ckpt_segs_removed; /* # of xlog segments deleted */ int ckpt_segs_recycled; /* # of xlog segments recycled */ int ckpt_sync_rels; /* # of relations synced */ uint64 ckpt_longest_sync; /* Longest sync for one relation */ uint64 ckpt_agg_sync_time; /* The sum of all the individual sync * times, which is not necessarily the * same as the total elapsed time for * the entire sync phase. */ } CheckpointStatsData; extern CheckpointStatsData CheckpointStats; struct XLogRecData; extern XLogRecPtr XLogInsertRecord(struct XLogRecData *rdata, XLogRecPtr fpw_lsn); extern void XLogFlush(XLogRecPtr RecPtr); extern bool XLogBackgroundFlush(void); extern bool XLogNeedsFlush(XLogRecPtr RecPtr); extern int XLogFileInit(XLogSegNo segno, bool *use_existent, bool use_lock); extern int XLogFileOpen(XLogSegNo segno); extern void CheckXLogRemoved(XLogSegNo segno, TimeLineID tli); extern XLogSegNo XLogGetLastRemovedSegno(void); extern void XLogSetAsyncXactLSN(XLogRecPtr record); extern void XLogSetReplicationSlotMinimumLSN(XLogRecPtr lsn); extern void xlog_redo(XLogReaderState *record); extern void xlog_desc(StringInfo buf, XLogReaderState *record); extern const char *xlog_identify(uint8 info); extern void issue_xlog_fsync(int fd, XLogSegNo segno); extern bool RecoveryInProgress(void); extern RecoveryState GetRecoveryState(void); extern bool HotStandbyActive(void); extern bool HotStandbyActiveInReplay(void); extern bool XLogInsertAllowed(void); extern void GetXLogReceiptTime(TimestampTz *rtime, bool *fromStream); extern XLogRecPtr GetXLogReplayRecPtr(TimeLineID *replayTLI); extern XLogRecPtr GetXLogInsertRecPtr(void); extern XLogRecPtr GetXLogWriteRecPtr(void); extern bool RecoveryIsPaused(void); extern void SetRecoveryPause(bool recoveryPause); extern TimestampTz GetLatestXTime(void); extern TimestampTz GetCurrentChunkReplayStartTime(void); extern char *XLogFileNameP(TimeLineID tli, XLogSegNo segno); extern void UpdateControlFile(void); extern uint64 GetSystemIdentifier(void); extern bool DataChecksumsEnabled(void); extern XLogRecPtr GetFakeLSNForUnloggedRel(void); extern Size XLOGShmemSize(void); extern void XLOGShmemInit(void); extern void BootStrapXLOG(void); extern void StartupXLOG(void); extern void ShutdownXLOG(int code, Datum arg); extern void InitXLOGAccess(void); extern void CreateCheckPoint(int flags); extern bool CreateRestartPoint(int flags); extern void XLogPutNextOid(Oid nextOid); extern XLogRecPtr XLogRestorePoint(const char *rpName); extern void UpdateFullPageWrites(void); extern void GetFullPageWriteInfo(XLogRecPtr *RedoRecPtr_p, bool *doPageWrites_p); extern XLogRecPtr GetRedoRecPtr(void); extern XLogRecPtr GetInsertRecPtr(void); extern XLogRecPtr GetFlushRecPtr(void); extern void GetNextXidAndEpoch(TransactionId *xid, uint32 *epoch); extern void RemovePromoteSignalFiles(void); extern bool CheckPromoteSignal(void); extern void WakeupRecovery(void); extern void SetWalWriterSleeping(bool sleeping); extern void XLogRequestWalReceiverReply(void); extern void assign_max_wal_size(int newval, void *extra); extern void assign_checkpoint_completion_target(double newval, void *extra); /* * Routines to start, stop, and get status of a base backup. */ /* * Session-level status of base backups * * This is used in parallel with the shared memory status to control parallel * execution of base backup functions for a given session, be it a backend * dedicated to replication or a normal backend connected to a database. The * update of the session-level status happens at the same time as the shared * memory counters to keep a consistent global and local state of the backups * running. */ typedef enum SessionBackupState { SESSION_BACKUP_NONE, SESSION_BACKUP_EXCLUSIVE, SESSION_BACKUP_NON_EXCLUSIVE } SessionBackupState; extern XLogRecPtr do_pg_start_backup(const char *backupidstr, bool fast, TimeLineID *starttli_p, StringInfo labelfile, DIR *tblspcdir, List **tablespaces, StringInfo tblspcmapfile, bool infotbssize, bool needtblspcmapfile); extern XLogRecPtr do_pg_stop_backup(char *labelfile, bool waitforarchive, TimeLineID *stoptli_p); extern void do_pg_abort_backup(void); extern SessionBackupState get_backup_status(void); /* File path names (all relative to $PGDATA) */ #define BACKUP_LABEL_FILE "backup_label" #define BACKUP_LABEL_OLD "backup_label.old" #define TABLESPACE_MAP "tablespace_map" #define TABLESPACE_MAP_OLD "tablespace_map.old" #endif /* XLOG_H */