Current Path : /compat/linux/proc/self/root/usr/local/include/postgresql/server/access/ |
FreeBSD hs32.drive.ne.jp 9.1-RELEASE FreeBSD 9.1-RELEASE #1: Wed Jan 14 12:18:08 JST 2015 root@hs32.drive.ne.jp:/sys/amd64/compile/hs32 amd64 |
Current File : //compat/linux/proc/self/root/usr/local/include/postgresql/server/access/xlog_internal.h |
/* * xlog_internal.h * * PostgreSQL transaction log internal declarations * * NOTE: this file is intended to contain declarations useful for * manipulating the XLOG files directly, but it is not supposed to be * needed by rmgr routines (redo support for individual record types). * So the XLogRecord typedef and associated stuff appear in xlog.h. * * Portions Copyright (c) 1996-2008, PostgreSQL Global Development Group * Portions Copyright (c) 1994, Regents of the University of California * * $PostgreSQL: pgsql/src/include/access/xlog_internal.h,v 1.22 2008/01/01 19:45:56 momjian Exp $ */ #ifndef XLOG_INTERNAL_H #define XLOG_INTERNAL_H #include <time.h> #include "access/xlog.h" #include "fmgr.h" #include "storage/block.h" #include "storage/relfilenode.h" /* * Header info for a backup block appended to an XLOG record. * * As a trivial form of data compression, the XLOG code is aware that * PG data pages usually contain an unused "hole" in the middle, which * contains only zero bytes. If hole_length > 0 then we have removed * such a "hole" from the stored data (and it's not counted in the * XLOG record's CRC, either). Hence, the amount of block data actually * present following the BkpBlock struct is BLCKSZ - hole_length bytes. * * Note that we don't attempt to align either the BkpBlock struct or the * block's data. So, the struct must be copied to aligned local storage * before use. */ typedef struct BkpBlock { RelFileNode node; /* relation containing block */ BlockNumber block; /* block number */ uint16 hole_offset; /* number of bytes before "hole" */ uint16 hole_length; /* number of bytes in "hole" */ /* ACTUAL BLOCK DATA FOLLOWS AT END OF STRUCT */ } BkpBlock; /* * When there is not enough space on current page for whole record, we * continue on the next page with continuation record. (However, the * XLogRecord header will never be split across pages; if there's less than * SizeOfXLogRecord space left at the end of a page, we just waste it.) * * Note that xl_rem_len includes backup-block data; that is, it tracks * xl_tot_len not xl_len in the initial header. Also note that the * continuation data isn't necessarily aligned. */ typedef struct XLogContRecord { uint32 xl_rem_len; /* total len of remaining data for record */ /* ACTUAL LOG DATA FOLLOWS AT END OF STRUCT */ } XLogContRecord; #define SizeOfXLogContRecord sizeof(XLogContRecord) /* * Each page of XLOG file has a header like this: */ #define XLOG_PAGE_MAGIC 0xD062 /* can be used as WAL version indicator */ typedef struct XLogPageHeaderData { uint16 xlp_magic; /* magic value for correctness checks */ uint16 xlp_info; /* flag bits, see below */ TimeLineID xlp_tli; /* TimeLineID of first record on page */ XLogRecPtr xlp_pageaddr; /* XLOG address of this page */ } XLogPageHeaderData; #define SizeOfXLogShortPHD MAXALIGN(sizeof(XLogPageHeaderData)) typedef XLogPageHeaderData *XLogPageHeader; /* * When the XLP_LONG_HEADER flag is set, we store additional fields in the * page header. (This is ordinarily done just in the first page of an * XLOG file.) The additional fields serve to identify the file accurately. */ typedef struct XLogLongPageHeaderData { XLogPageHeaderData std; /* standard header fields */ uint64 xlp_sysid; /* system identifier from pg_control */ uint32 xlp_seg_size; /* just as a cross-check */ uint32 xlp_xlog_blcksz; /* just as a cross-check */ } XLogLongPageHeaderData; #define SizeOfXLogLongPHD MAXALIGN(sizeof(XLogLongPageHeaderData)) typedef XLogLongPageHeaderData *XLogLongPageHeader; /* When record crosses page boundary, set this flag in new page's header */ #define XLP_FIRST_IS_CONTRECORD 0x0001 /* This flag indicates a "long" page header */ #define XLP_LONG_HEADER 0x0002 /* All defined flag bits in xlp_info (used for validity checking of header) */ #define XLP_ALL_FLAGS 0x0003 #define XLogPageHeaderSize(hdr) \ (((hdr)->xlp_info & XLP_LONG_HEADER) ? SizeOfXLogLongPHD : SizeOfXLogShortPHD) /* * We break each logical log file (xlogid value) into segment files of the * size indicated by XLOG_SEG_SIZE. One possible segment at the end of each * log file is wasted, to ensure that we don't have problems representing * last-byte-position-plus-1. */ #define XLogSegSize ((uint32) XLOG_SEG_SIZE) #define XLogSegsPerFile (((uint32) 0xffffffff) / XLogSegSize) #define XLogFileSize (XLogSegsPerFile * XLogSegSize) /* * Macros for manipulating XLOG pointers */ /* Increment an xlogid/segment pair */ #define NextLogSeg(logId, logSeg) \ do { \ if ((logSeg) >= XLogSegsPerFile-1) \ { \ (logId)++; \ (logSeg) = 0; \ } \ else \ (logSeg)++; \ } while (0) /* Decrement an xlogid/segment pair (assume it's not 0,0) */ #define PrevLogSeg(logId, logSeg) \ do { \ if (logSeg) \ (logSeg)--; \ else \ { \ (logId)--; \ (logSeg) = XLogSegsPerFile-1; \ } \ } while (0) /* * Compute ID and segment from an XLogRecPtr. * * For XLByteToSeg, do the computation at face value. For XLByteToPrevSeg, * a boundary byte is taken to be in the previous segment. This is suitable * for deciding which segment to write given a pointer to a record end, * for example. (We can assume xrecoff is not zero, since no valid recptr * can have that.) */ #define XLByteToSeg(xlrp, logId, logSeg) \ ( logId = (xlrp).xlogid, \ logSeg = (xlrp).xrecoff / XLogSegSize \ ) #define XLByteToPrevSeg(xlrp, logId, logSeg) \ ( logId = (xlrp).xlogid, \ logSeg = ((xlrp).xrecoff - 1) / XLogSegSize \ ) /* * Is an XLogRecPtr within a particular XLOG segment? * * For XLByteInSeg, do the computation at face value. For XLByteInPrevSeg, * a boundary byte is taken to be in the previous segment. */ #define XLByteInSeg(xlrp, logId, logSeg) \ ((xlrp).xlogid == (logId) && \ (xlrp).xrecoff / XLogSegSize == (logSeg)) #define XLByteInPrevSeg(xlrp, logId, logSeg) \ ((xlrp).xlogid == (logId) && \ ((xlrp).xrecoff - 1) / XLogSegSize == (logSeg)) /* Check if an xrecoff value is in a plausible range */ #define XRecOffIsValid(xrecoff) \ ((xrecoff) % XLOG_BLCKSZ >= SizeOfXLogShortPHD && \ (XLOG_BLCKSZ - (xrecoff) % XLOG_BLCKSZ) >= SizeOfXLogRecord) /* * The XLog directory and control file (relative to $PGDATA) */ #define XLOGDIR "pg_xlog" #define XLOG_CONTROL_FILE "global/pg_control" /* * These macros encapsulate knowledge about the exact layout of XLog file * names, timeline history file names, and archive-status file names. */ #define MAXFNAMELEN 64 #define XLogFileName(fname, tli, log, seg) \ snprintf(fname, MAXFNAMELEN, "%08X%08X%08X", tli, log, seg) #define XLogFilePath(path, tli, log, seg) \ snprintf(path, MAXPGPATH, XLOGDIR "/%08X%08X%08X", tli, log, seg) #define TLHistoryFileName(fname, tli) \ snprintf(fname, MAXFNAMELEN, "%08X.history", tli) #define TLHistoryFilePath(path, tli) \ snprintf(path, MAXPGPATH, XLOGDIR "/%08X.history", tli) #define StatusFilePath(path, xlog, suffix) \ snprintf(path, MAXPGPATH, XLOGDIR "/archive_status/%s%s", xlog, suffix) #define BackupHistoryFileName(fname, tli, log, seg, offset) \ snprintf(fname, MAXFNAMELEN, "%08X%08X%08X.%08X.backup", tli, log, seg, offset) #define BackupHistoryFilePath(path, tli, log, seg, offset) \ snprintf(path, MAXPGPATH, XLOGDIR "/%08X%08X%08X.%08X.backup", tli, log, seg, offset) /* * Method table for resource managers. * * RmgrTable[] is indexed by RmgrId values (see rmgr.h). */ typedef struct RmgrData { const char *rm_name; void (*rm_redo) (XLogRecPtr lsn, XLogRecord *rptr); void (*rm_desc) (StringInfo buf, uint8 xl_info, char *rec); void (*rm_startup) (void); void (*rm_cleanup) (void); bool (*rm_safe_restartpoint) (void); } RmgrData; extern const RmgrData RmgrTable[]; /* * Exported to support xlog switching from bgwriter */ extern time_t GetLastSegSwitchTime(void); extern XLogRecPtr RequestXLogSwitch(void); /* * These aren't in xlog.h because I'd rather not include fmgr.h there. */ extern Datum pg_start_backup(PG_FUNCTION_ARGS); extern Datum pg_stop_backup(PG_FUNCTION_ARGS); extern Datum pg_switch_xlog(PG_FUNCTION_ARGS); extern Datum pg_current_xlog_location(PG_FUNCTION_ARGS); extern Datum pg_current_xlog_insert_location(PG_FUNCTION_ARGS); extern Datum pg_xlogfile_name_offset(PG_FUNCTION_ARGS); extern Datum pg_xlogfile_name(PG_FUNCTION_ARGS); #endif /* XLOG_INTERNAL_H */