/usr/include/postgresql/8.4/server/miscadmin.h is in postgresql-server-dev-8.4 8.4.11-1.
This file is owned by root:root, with mode 0o644.
The actual contents of the file can be viewed below.
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*
* miscadmin.h
* This file contains general postgres administration and initialization
* stuff that used to be spread out between the following files:
* globals.h global variables
* pdir.h directory path crud
* pinit.h postgres initialization
* pmod.h processing modes
* Over time, this has also become the preferred place for widely known
* resource-limitation stuff, such as work_mem and check_stack_depth().
*
* Portions Copyright (c) 1996-2009, PostgreSQL Global Development Group
* Portions Copyright (c) 1994, Regents of the University of California
*
* $PostgreSQL: pgsql/src/include/miscadmin.h,v 1.211.2.1 2009/12/09 21:58:04 tgl Exp $
*
* NOTES
* some of the information in this file should be moved to other files.
*
*-------------------------------------------------------------------------
*/
#ifndef MISCADMIN_H
#define MISCADMIN_H
#include "pgtime.h" /* for pg_time_t */
#define PG_BACKEND_VERSIONSTR "postgres (PostgreSQL) " PG_VERSION "\n"
/*****************************************************************************
* System interrupt and critical section handling
*
* There are two types of interrupts that a running backend needs to accept
* without messing up its state: QueryCancel (SIGINT) and ProcDie (SIGTERM).
* In both cases, we need to be able to clean up the current transaction
* gracefully, so we can't respond to the interrupt instantaneously ---
* there's no guarantee that internal data structures would be self-consistent
* if the code is interrupted at an arbitrary instant. Instead, the signal
* handlers set flags that are checked periodically during execution.
*
* The CHECK_FOR_INTERRUPTS() macro is called at strategically located spots
* where it is normally safe to accept a cancel or die interrupt. In some
* cases, we invoke CHECK_FOR_INTERRUPTS() inside low-level subroutines that
* might sometimes be called in contexts that do *not* want to allow a cancel
* or die interrupt. The HOLD_INTERRUPTS() and RESUME_INTERRUPTS() macros
* allow code to ensure that no cancel or die interrupt will be accepted,
* even if CHECK_FOR_INTERRUPTS() gets called in a subroutine. The interrupt
* will be held off until CHECK_FOR_INTERRUPTS() is done outside any
* HOLD_INTERRUPTS() ... RESUME_INTERRUPTS() section.
*
* Special mechanisms are used to let an interrupt be accepted when we are
* waiting for a lock or when we are waiting for command input (but, of
* course, only if the interrupt holdoff counter is zero). See the
* related code for details.
*
* A related, but conceptually distinct, mechanism is the "critical section"
* mechanism. A critical section not only holds off cancel/die interrupts,
* but causes any ereport(ERROR) or ereport(FATAL) to become ereport(PANIC)
* --- that is, a system-wide reset is forced. Needless to say, only really
* *critical* code should be marked as a critical section! Currently, this
* mechanism is only used for XLOG-related code.
*
*****************************************************************************/
/* in globals.c */
/* these are marked volatile because they are set by signal handlers: */
extern PGDLLIMPORT volatile bool InterruptPending;
extern volatile bool QueryCancelPending;
extern volatile bool ProcDiePending;
/* these are marked volatile because they are examined by signal handlers: */
extern volatile bool ImmediateInterruptOK;
extern PGDLLIMPORT volatile uint32 InterruptHoldoffCount;
extern PGDLLIMPORT volatile uint32 CritSectionCount;
/* in tcop/postgres.c */
extern void ProcessInterrupts(void);
#ifndef WIN32
#define CHECK_FOR_INTERRUPTS() \
do { \
if (InterruptPending) \
ProcessInterrupts(); \
} while(0)
#else /* WIN32 */
#define CHECK_FOR_INTERRUPTS() \
do { \
if (UNBLOCKED_SIGNAL_QUEUE()) \
pgwin32_dispatch_queued_signals(); \
if (InterruptPending) \
ProcessInterrupts(); \
} while(0)
#endif /* WIN32 */
#define HOLD_INTERRUPTS() (InterruptHoldoffCount++)
#define RESUME_INTERRUPTS() \
do { \
Assert(InterruptHoldoffCount > 0); \
InterruptHoldoffCount--; \
} while(0)
#define START_CRIT_SECTION() (CritSectionCount++)
#define END_CRIT_SECTION() \
do { \
Assert(CritSectionCount > 0); \
CritSectionCount--; \
} while(0)
/*****************************************************************************
* globals.h -- *
*****************************************************************************/
/*
* from utils/init/globals.c
*/
extern pid_t PostmasterPid;
extern bool IsPostmasterEnvironment;
extern PGDLLIMPORT bool IsUnderPostmaster;
extern bool ExitOnAnyError;
extern PGDLLIMPORT char *DataDir;
extern PGDLLIMPORT int NBuffers;
extern int MaxBackends;
extern int MaxConnections;
extern PGDLLIMPORT int MyProcPid;
extern PGDLLIMPORT pg_time_t MyStartTime;
extern PGDLLIMPORT struct Port *MyProcPort;
extern long MyCancelKey;
extern int MyPMChildSlot;
extern char OutputFileName[];
extern PGDLLIMPORT char my_exec_path[];
extern char pkglib_path[];
#ifdef EXEC_BACKEND
extern char postgres_exec_path[];
#endif
/*
* done in storage/backendid.h for now.
*
* extern BackendId MyBackendId;
*/
extern PGDLLIMPORT Oid MyDatabaseId;
extern PGDLLIMPORT Oid MyDatabaseTableSpace;
/*
* Date/Time Configuration
*
* DateStyle defines the output formatting choice for date/time types:
* USE_POSTGRES_DATES specifies traditional Postgres format
* USE_ISO_DATES specifies ISO-compliant format
* USE_SQL_DATES specifies Oracle/Ingres-compliant format
* USE_GERMAN_DATES specifies German-style dd.mm/yyyy
*
* DateOrder defines the field order to be assumed when reading an
* ambiguous date (anything not in YYYY-MM-DD format, with a four-digit
* year field first, is taken to be ambiguous):
* DATEORDER_YMD specifies field order yy-mm-dd
* DATEORDER_DMY specifies field order dd-mm-yy ("European" convention)
* DATEORDER_MDY specifies field order mm-dd-yy ("US" convention)
*
* In the Postgres and SQL DateStyles, DateOrder also selects output field
* order: day comes before month in DMY style, else month comes before day.
*
* The user-visible "DateStyle" run-time parameter subsumes both of these.
*/
/* valid DateStyle values */
#define USE_POSTGRES_DATES 0
#define USE_ISO_DATES 1
#define USE_SQL_DATES 2
#define USE_GERMAN_DATES 3
#define USE_XSD_DATES 4
/* valid DateOrder values */
#define DATEORDER_YMD 0
#define DATEORDER_DMY 1
#define DATEORDER_MDY 2
extern int DateStyle;
extern int DateOrder;
/*
* IntervalStyles
* INTSTYLE_POSTGRES Like Postgres < 8.4 when DateStyle = 'iso'
* INTSTYLE_POSTGRES_VERBOSE Like Postgres < 8.4 when DateStyle != 'iso'
* INTSTYLE_SQL_STANDARD SQL standard interval literals
* INTSTYLE_ISO_8601 ISO-8601-basic formatted intervals
*/
#define INTSTYLE_POSTGRES 0
#define INTSTYLE_POSTGRES_VERBOSE 1
#define INTSTYLE_SQL_STANDARD 2
#define INTSTYLE_ISO_8601 3
extern int IntervalStyle;
/*
* HasCTZSet is true if user has set timezone as a numeric offset from UTC.
* If so, CTimeZone is the timezone offset in seconds (using the Unix-ish
* sign convention, ie, positive offset is west of UTC, rather than the
* SQL-ish convention that positive is east of UTC).
*/
extern bool HasCTZSet;
extern int CTimeZone;
#define MAXTZLEN 10 /* max TZ name len, not counting tr. null */
extern bool enableFsync;
extern bool allowSystemTableMods;
extern PGDLLIMPORT int work_mem;
extern PGDLLIMPORT int maintenance_work_mem;
extern int VacuumCostPageHit;
extern int VacuumCostPageMiss;
extern int VacuumCostPageDirty;
extern int VacuumCostLimit;
extern int VacuumCostDelay;
extern int VacuumCostBalance;
extern bool VacuumCostActive;
/* in tcop/postgres.c */
extern void check_stack_depth(void);
/*****************************************************************************
* pdir.h -- *
* POSTGRES directory path definitions. *
*****************************************************************************/
/* flags to be OR'd to form sec_context */
#define SECURITY_LOCAL_USERID_CHANGE 0x0001
#define SECURITY_RESTRICTED_OPERATION 0x0002
extern char *DatabasePath;
/* now in utils/init/miscinit.c */
extern void SetDatabasePath(const char *path);
extern char *GetUserNameFromId(Oid roleid);
extern Oid GetUserId(void);
extern Oid GetOuterUserId(void);
extern Oid GetSessionUserId(void);
extern void GetUserIdAndSecContext(Oid *userid, int *sec_context);
extern void SetUserIdAndSecContext(Oid userid, int sec_context);
extern bool InLocalUserIdChange(void);
extern bool InSecurityRestrictedOperation(void);
extern void GetUserIdAndContext(Oid *userid, bool *sec_def_context);
extern void SetUserIdAndContext(Oid userid, bool sec_def_context);
extern void InitializeSessionUserId(const char *rolename);
extern void InitializeSessionUserIdStandalone(void);
extern void SetSessionAuthorization(Oid userid, bool is_superuser);
extern Oid GetCurrentRoleId(void);
extern void SetCurrentRoleId(Oid roleid, bool is_superuser);
extern void SetDataDir(const char *dir);
extern void ChangeToDataDir(void);
extern char *make_absolute_path(const char *path);
/* in utils/misc/superuser.c */
extern bool superuser(void); /* current user is superuser */
extern bool superuser_arg(Oid roleid); /* given user is superuser */
/*****************************************************************************
* pmod.h -- *
* POSTGRES processing mode definitions. *
*****************************************************************************/
/*
* Description:
* There are three processing modes in POSTGRES. They are
* BootstrapProcessing or "bootstrap," InitProcessing or
* "initialization," and NormalProcessing or "normal."
*
* The first two processing modes are used during special times. When the
* system state indicates bootstrap processing, transactions are all given
* transaction id "one" and are consequently guaranteed to commit. This mode
* is used during the initial generation of template databases.
*
* Initialization mode: used while starting a backend, until all normal
* initialization is complete. Some code behaves differently when executed
* in this mode to enable system bootstrapping.
*
* If a POSTGRES binary is in normal mode, then all code may be executed
* normally.
*/
typedef enum ProcessingMode
{
BootstrapProcessing, /* bootstrap creation of template database */
InitProcessing, /* initializing system */
NormalProcessing /* normal processing */
} ProcessingMode;
extern ProcessingMode Mode;
#define IsBootstrapProcessingMode() ((bool)(Mode == BootstrapProcessing))
#define IsInitProcessingMode() ((bool)(Mode == InitProcessing))
#define IsNormalProcessingMode() ((bool)(Mode == NormalProcessing))
#define SetProcessingMode(mode) \
do { \
AssertArg((mode) == BootstrapProcessing || \
(mode) == InitProcessing || \
(mode) == NormalProcessing); \
Mode = (mode); \
} while(0)
#define GetProcessingMode() Mode
/*****************************************************************************
* pinit.h -- *
* POSTGRES initialization and cleanup definitions. *
*****************************************************************************/
/* in utils/init/postinit.c */
extern bool InitPostgres(const char *in_dbname, Oid dboid, const char *username,
char **out_dbname);
extern void BaseInit(void);
/* in utils/init/miscinit.c */
extern bool IgnoreSystemIndexes;
extern PGDLLIMPORT bool process_shared_preload_libraries_in_progress;
extern char *shared_preload_libraries_string;
extern char *local_preload_libraries_string;
extern void SetReindexProcessing(Oid heapOid, Oid indexOid);
extern void ResetReindexProcessing(void);
extern bool ReindexIsProcessingHeap(Oid heapOid);
extern bool ReindexIsProcessingIndex(Oid indexOid);
extern void CreateDataDirLockFile(bool amPostmaster);
extern void CreateSocketLockFile(const char *socketfile, bool amPostmaster);
extern void TouchSocketLockFile(void);
extern void RecordSharedMemoryInLockFile(unsigned long id1,
unsigned long id2);
extern void ValidatePgVersion(const char *path);
extern void process_shared_preload_libraries(void);
extern void process_local_preload_libraries(void);
extern void pg_bindtextdomain(const char *domain);
/* in access/transam/xlog.c */
extern bool BackupInProgress(void);
extern void CancelBackup(void);
#endif /* MISCADMIN_H */
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