/* * xlog.h * * PostgreSQL transaction log manager * * Portions Copyright (c) 1996-2007, PostgreSQL Global Development Group * Portions Copyright (c) 1994, Regents of the University of California * * $PostgreSQL: pgsql/src/include/access/xlog.h,v 1.84 2007/09/26 22:36:30 tgl Exp $ */ #ifndef XLOG_H #define XLOG_H #include "access/rmgr.h" #include "access/xlogdefs.h" #include "lib/stringinfo.h" #include "storage/buf.h" #include "utils/pg_crc.h" #include "utils/timestamp.h" /* * The overall layout of an XLOG record is: * Fixed-size header (XLogRecord struct) * rmgr-specific data * BkpBlock * backup block data * BkpBlock * backup block data * ... * * where there can be zero to three backup blocks (as signaled by xl_info flag * bits). XLogRecord structs always start on MAXALIGN boundaries in the WAL * files, and we round up SizeOfXLogRecord so that the rmgr data is also * guaranteed to begin on a MAXALIGN boundary. However, no padding is added * to align BkpBlock structs or backup block data. * * NOTE: xl_len counts only the rmgr data, not the XLogRecord header, * and also not any backup blocks. xl_tot_len counts everything. Neither * length field is rounded up to an alignment boundary. */ typedef struct XLogRecord { pg_crc32 xl_crc; /* CRC for this record */ XLogRecPtr xl_prev; /* ptr to previous record in log */ TransactionId xl_xid; /* xact id */ uint32 xl_tot_len; /* total len of entire record */ uint32 xl_len; /* total len of rmgr data */ uint8 xl_info; /* flag bits, see below */ RmgrId xl_rmid; /* resource manager for this record */ /* Depending on MAXALIGN, there are either 2 or 6 wasted bytes here */ /* ACTUAL LOG DATA FOLLOWS AT END OF STRUCT */ } XLogRecord; #define SizeOfXLogRecord MAXALIGN(sizeof(XLogRecord)) #define XLogRecGetData(record) ((char*) (record) + SizeOfXLogRecord) /* * XLOG uses only low 4 bits of xl_info. High 4 bits may be used by rmgr. */ #define XLR_INFO_MASK 0x0F /* * If we backed up any disk blocks with the XLOG record, we use flag bits in * xl_info to signal it. We support backup of up to 3 disk blocks per XLOG * record. */ #define XLR_BKP_BLOCK_MASK 0x0E /* all info bits used for bkp blocks */ #define XLR_MAX_BKP_BLOCKS 3 #define XLR_SET_BKP_BLOCK(iblk) (0x08 >> (iblk)) #define XLR_BKP_BLOCK_1 XLR_SET_BKP_BLOCK(0) /* 0x08 */ #define XLR_BKP_BLOCK_2 XLR_SET_BKP_BLOCK(1) /* 0x04 */ #define XLR_BKP_BLOCK_3 XLR_SET_BKP_BLOCK(2) /* 0x02 */ /* * Bit 0 of xl_info is set if the backed-up blocks could safely be removed * from a compressed version of XLOG (that is, they are backed up only to * prevent partial-page-write problems, and not to ensure consistency of PITR * recovery). The compression algorithm would need to extract data from the * blocks to create an equivalent non-full-page XLOG record. */ #define XLR_BKP_REMOVABLE 0x01 /* Sync methods */ #define SYNC_METHOD_FSYNC 0 #define SYNC_METHOD_FDATASYNC 1 #define SYNC_METHOD_OPEN 2 /* for O_SYNC and O_DSYNC */ #define SYNC_METHOD_FSYNC_WRITETHROUGH 3 extern int sync_method; /* * The rmgr data to be written by XLogInsert() is defined by a chain of * one or more XLogRecData structs. (Multiple structs would be used when * parts of the source data aren't physically adjacent in memory, or when * multiple associated buffers need to be specified.) * * If buffer is valid then XLOG will check if buffer must be backed up * (ie, whether this is first change of that page since last checkpoint). * If so, the whole page contents are attached to the XLOG record, and XLOG * sets XLR_BKP_BLOCK_X bit in xl_info. Note that the buffer must be pinned * and exclusive-locked by the caller, so that it won't change under us. * NB: when the buffer is backed up, we DO NOT insert the data pointed to by * this XLogRecData struct into the XLOG record, since we assume it's present * in the buffer. Therefore, rmgr redo routines MUST pay attention to * XLR_BKP_BLOCK_X to know what is actually stored in the XLOG record. * The i'th XLR_BKP_BLOCK bit corresponds to the i'th distinct buffer * value (ignoring InvalidBuffer) appearing in the rdata chain. * * When buffer is valid, caller must set buffer_std to indicate whether the * page uses standard pd_lower/pd_upper header fields. If this is true, then * XLOG is allowed to omit the free space between pd_lower and pd_upper from * the backed-up page image. Note that even when buffer_std is false, the * page MUST have an LSN field as its first eight bytes! * * Note: data can be NULL to indicate no rmgr data associated with this chain * entry. This can be sensible (ie, not a wasted entry) if buffer is valid. * The implication is that the buffer has been changed by the operation being * logged, and so may need to be backed up, but the change can be redone using * only information already present elsewhere in the XLOG entry. */ typedef struct XLogRecData { char *data; /* start of rmgr data to include */ uint32 len; /* length of rmgr data to include */ Buffer buffer; /* buffer associated with data, if any */ bool buffer_std; /* buffer has standard pd_lower/pd_upper */ struct XLogRecData *next; /* next struct in chain, or NULL */ } XLogRecData; extern TimeLineID ThisTimeLineID; /* current TLI */ extern bool InRecovery; extern XLogRecPtr XactLastRecEnd; /* these variables are GUC parameters related to XLOG */ extern int CheckPointSegments; extern int XLOGbuffers; extern bool XLogArchiveMode; extern char *XLogArchiveCommand; extern int XLogArchiveTimeout; extern char *XLOG_sync_method; extern const char XLOG_sync_method_default[]; extern bool log_checkpoints; #define XLogArchivingActive() (XLogArchiveMode) #define XLogArchiveCommandSet() (XLogArchiveCommand[0] != '\0') #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_IMMEDIATE 0x0002 /* Do it without delays */ #define CHECKPOINT_FORCE 0x0004 /* Force even if no activity */ /* These are important to RequestCheckpoint */ #define CHECKPOINT_WAIT 0x0008 /* Wait for completion */ /* These indicate the cause of a checkpoint request */ #define CHECKPOINT_CAUSE_XLOG 0x0010 /* XLOG consumption */ #define CHECKPOINT_CAUSE_TIME 0x0020 /* Elapsed time */ /* 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 */ } CheckpointStatsData; extern CheckpointStatsData CheckpointStats; extern XLogRecPtr XLogInsert(RmgrId rmid, uint8 info, XLogRecData *rdata); extern void XLogFlush(XLogRecPtr RecPtr); extern void XLogBackgroundFlush(void); extern void XLogAsyncCommitFlush(void); extern bool XLogNeedsFlush(XLogRecPtr RecPtr); extern void XLogSetAsyncCommitLSN(XLogRecPtr record); extern void xlog_redo(XLogRecPtr lsn, XLogRecord *record); extern void xlog_desc(StringInfo buf, uint8 xl_info, char *rec); extern void UpdateControlFile(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 void XLogPutNextOid(Oid nextOid); extern XLogRecPtr GetRedoRecPtr(void); extern XLogRecPtr GetInsertRecPtr(void); extern void GetNextXidAndEpoch(TransactionId *xid, uint32 *epoch); #endif /* XLOG_H */