summaryrefslogtreecommitdiffstats
path: root/src/include/storage/proc.h
blob: 1464fad9b943ea7aefb7b2b8a1352cc210519c5f (plain)
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
51
52
53
54
55
56
57
58
59
60
61
62
63
64
65
66
67
68
69
70
71
72
73
74
75
76
77
78
79
80
81
82
83
84
85
86
87
88
89
90
91
92
93
94
95
96
97
98
99
100
101
102
103
104
105
106
107
108
109
110
111
112
113
114
115
116
117
118
119
120
121
122
123
124
125
126
127
128
129
130
131
132
133
134
135
136
137
138
139
140
141
142
143
144
145
146
147
148
149
150
151
152
153
154
155
156
157
158
159
160
161
162
163
164
165
166
167
168
169
170
171
172
173
174
175
176
177
178
179
180
181
182
183
184
185
186
187
188
189
190
191
192
193
194
195
196
197
198
199
200
201
202
203
204
205
206
207
208
209
210
211
212
213
214
215
216
217
218
219
220
221
222
223
224
225
226
227
228
229
230
231
232
233
234
235
236
237
238
239
240
241
242
243
244
245
246
247
248
249
250
251
252
253
254
255
256
257
258
259
260
261
262
263
264
265
266
267
268
269
270
271
272
273
274
275
276
277
278
279
280
281
282
283
284
285
286
287
288
289
290
291
292
293
294
295
296
297
298
299
300
301
302
303
304
305
306
307
308
309
310
311
312
313
314
315
316
317
318
319
320
321
322
323
324
325
326
327
328
329
330
331
332
333
334
335
336
337
338
339
340
341
342
343
344
345
346
347
348
349
350
351
352
353
354
355
356
357
358
359
360
361
362
363
364
365
366
367
368
369
370
371
372
373
374
375
376
377
378
379
380
381
382
383
384
385
386
387
388
389
390
391
392
393
394
395
396
397
398
399
400
401
402
403
404
405
406
407
408
409
410
411
412
413
414
415
416
417
418
419
420
421
422
423
424
425
426
427
428
429
430
431
432
433
434
435
/*-------------------------------------------------------------------------
 *
 * proc.h
 *	  per-process shared memory data structures
 *
 *
 * Portions Copyright (c) 1996-2021, PostgreSQL Global Development Group
 * Portions Copyright (c) 1994, Regents of the University of California
 *
 * src/include/storage/proc.h
 *
 *-------------------------------------------------------------------------
 */
#ifndef _PROC_H_
#define _PROC_H_

#include "access/clog.h"
#include "access/xlogdefs.h"
#include "lib/ilist.h"
#include "storage/latch.h"
#include "storage/lock.h"
#include "storage/pg_sema.h"
#include "storage/proclist_types.h"

/*
 * Each backend advertises up to PGPROC_MAX_CACHED_SUBXIDS TransactionIds
 * for non-aborted subtransactions of its current top transaction.  These
 * have to be treated as running XIDs by other backends.
 *
 * We also keep track of whether the cache overflowed (ie, the transaction has
 * generated at least one subtransaction that didn't fit in the cache).
 * If none of the caches have overflowed, we can assume that an XID that's not
 * listed anywhere in the PGPROC array is not a running transaction.  Else we
 * have to look at pg_subtrans.
 */
#define PGPROC_MAX_CACHED_SUBXIDS 64	/* XXX guessed-at value */

typedef struct XidCacheStatus
{
	/* number of cached subxids, never more than PGPROC_MAX_CACHED_SUBXIDS */
	uint8		count;
	/* has PGPROC->subxids overflowed */
	bool		overflowed;
} XidCacheStatus;

struct XidCache
{
	TransactionId xids[PGPROC_MAX_CACHED_SUBXIDS];
};

/*
 * Flags for PGPROC->statusFlags and PROC_HDR->statusFlags[]
 */
#define		PROC_IS_AUTOVACUUM	0x01	/* is it an autovac worker? */
#define		PROC_IN_VACUUM		0x02	/* currently running lazy vacuum */
#define		PROC_IN_SAFE_IC		0x04	/* currently running CREATE INDEX
										 * CONCURRENTLY or REINDEX
										 * CONCURRENTLY on non-expressional,
										 * non-partial index */
#define		PROC_VACUUM_FOR_WRAPAROUND	0x08	/* set by autovac only */
#define		PROC_IN_LOGICAL_DECODING	0x10	/* currently doing logical
												 * decoding outside xact */

/* flags reset at EOXact */
#define		PROC_VACUUM_STATE_MASK \
	(PROC_IN_VACUUM | PROC_IN_SAFE_IC | PROC_VACUUM_FOR_WRAPAROUND)

/*
 * Xmin-related flags. Make sure any flags that affect how the process' Xmin
 * value is interpreted by VACUUM are included here.
 */
#define		PROC_XMIN_FLAGS (PROC_IN_VACUUM | PROC_IN_SAFE_IC)

/*
 * We allow a small number of "weak" relation locks (AccessShareLock,
 * RowShareLock, RowExclusiveLock) to be recorded in the PGPROC structure
 * rather than the main lock table.  This eases contention on the lock
 * manager LWLocks.  See storage/lmgr/README for additional details.
 */
#define		FP_LOCK_SLOTS_PER_BACKEND 16

/*
 * An invalid pgprocno.  Must be larger than the maximum number of PGPROC
 * structures we could possibly have.  See comments for MAX_BACKENDS.
 */
#define INVALID_PGPROCNO		PG_INT32_MAX

/*
 * Flags used only for type of internal functions
 * GetVirtualXIDsDelayingChkptGuts and HaveVirtualXIDsDelayingChkptGuts.
 */
#define DELAY_CHKPT_START		(1<<0)
#define DELAY_CHKPT_COMPLETE	(1<<1)

typedef enum
{
	PROC_WAIT_STATUS_OK,
	PROC_WAIT_STATUS_WAITING,
	PROC_WAIT_STATUS_ERROR,
} ProcWaitStatus;

/*
 * Each backend has a PGPROC struct in shared memory.  There is also a list of
 * currently-unused PGPROC structs that will be reallocated to new backends.
 *
 * links: list link for any list the PGPROC is in.  When waiting for a lock,
 * the PGPROC is linked into that lock's waitProcs queue.  A recycled PGPROC
 * is linked into ProcGlobal's freeProcs list.
 *
 * Note: twophase.c also sets up a dummy PGPROC struct for each currently
 * prepared transaction.  These PGPROCs appear in the ProcArray data structure
 * so that the prepared transactions appear to be still running and are
 * correctly shown as holding locks.  A prepared transaction PGPROC can be
 * distinguished from a real one at need by the fact that it has pid == 0.
 * The semaphore and lock-activity fields in a prepared-xact PGPROC are unused,
 * but its myProcLocks[] lists are valid.
 *
 * We allow many fields of this struct to be accessed without locks, such as
 * delayChkpt and isBackgroundWorker. However, keep in mind that writing
 * mirrored ones (see below) requires holding ProcArrayLock or XidGenLock in
 * at least shared mode, so that pgxactoff does not change concurrently.
 *
 * Mirrored fields:
 *
 * Some fields in PGPROC (see "mirrored in ..." comment) are mirrored into an
 * element of more densely packed ProcGlobal arrays. These arrays are indexed
 * by PGPROC->pgxactoff. Both copies need to be maintained coherently.
 *
 * NB: The pgxactoff indexed value can *never* be accessed without holding
 * locks.
 *
 * See PROC_HDR for details.
 */
struct PGPROC
{
	/* proc->links MUST BE FIRST IN STRUCT (see ProcSleep,ProcWakeup,etc) */
	SHM_QUEUE	links;			/* list link if process is in a list */
	PGPROC	  **procgloballist; /* procglobal list that owns this PGPROC */

	PGSemaphore sem;			/* ONE semaphore to sleep on */
	ProcWaitStatus waitStatus;

	Latch		procLatch;		/* generic latch for process */


	TransactionId xid;			/* id of top-level transaction currently being
								 * executed by this proc, if running and XID
								 * is assigned; else InvalidTransactionId.
								 * mirrored in ProcGlobal->xids[pgxactoff] */

	TransactionId xmin;			/* minimal running XID as it was when we were
								 * starting our xact, excluding LAZY VACUUM:
								 * vacuum must not remove tuples deleted by
								 * xid >= xmin ! */

	LocalTransactionId lxid;	/* local id of top-level transaction currently
								 * being executed by this proc, if running;
								 * else InvalidLocalTransactionId */
	int			pid;			/* Backend's process ID; 0 if prepared xact */

	int			pgxactoff;		/* offset into various ProcGlobal->arrays with
								 * data mirrored from this PGPROC */
	int			pgprocno;

	/* These fields are zero while a backend is still starting up: */
	BackendId	backendId;		/* This backend's backend ID (if assigned) */
	Oid			databaseId;		/* OID of database this backend is using */
	Oid			roleId;			/* OID of role using this backend */

	Oid			tempNamespaceId;	/* OID of temp schema this backend is
									 * using */

	bool		isBackgroundWorker; /* true if background worker. */

	/*
	 * While in hot standby mode, shows that a conflict signal has been sent
	 * for the current transaction. Set/cleared while holding ProcArrayLock,
	 * though not required. Accessed without lock, if needed.
	 */
	bool		recoveryConflictPending;

	/* Info about LWLock the process is currently waiting for, if any. */
	bool		lwWaiting;		/* true if waiting for an LW lock */
	uint8		lwWaitMode;		/* lwlock mode being waited for */
	proclist_node lwWaitLink;	/* position in LW lock wait list */

	/* Support for condition variables. */
	proclist_node cvWaitLink;	/* position in CV wait list */

	/* Info about lock the process is currently waiting for, if any. */
	/* waitLock and waitProcLock are NULL if not currently waiting. */
	LOCK	   *waitLock;		/* Lock object we're sleeping on ... */
	PROCLOCK   *waitProcLock;	/* Per-holder info for awaited lock */
	LOCKMODE	waitLockMode;	/* type of lock we're waiting for */
	LOCKMASK	heldLocks;		/* bitmask for lock types already held on this
								 * lock object by this backend */
	pg_atomic_uint64 waitStart; /* time at which wait for lock acquisition
								 * started */

	bool		delayChkpt;		/* true if this proc delays checkpoint start */

	uint8		statusFlags;	/* this backend's status flags, see PROC_*
								 * above. mirrored in
								 * ProcGlobal->statusFlags[pgxactoff] */
	bool		delayChkptEnd;	/* true if this proc delays checkpoint end */

	/*
	 * Info to allow us to wait for synchronous replication, if needed.
	 * waitLSN is InvalidXLogRecPtr if not waiting; set only by user backend.
	 * syncRepState must not be touched except by owning process or WALSender.
	 * syncRepLinks used only while holding SyncRepLock.
	 */
	XLogRecPtr	waitLSN;		/* waiting for this LSN or higher */
	int			syncRepState;	/* wait state for sync rep */
	SHM_QUEUE	syncRepLinks;	/* list link if process is in syncrep queue */

	/*
	 * All PROCLOCK objects for locks held or awaited by this backend are
	 * linked into one of these lists, according to the partition number of
	 * their lock.
	 */
	SHM_QUEUE	myProcLocks[NUM_LOCK_PARTITIONS];

	XidCacheStatus subxidStatus;	/* mirrored with
									 * ProcGlobal->subxidStates[i] */
	struct XidCache subxids;	/* cache for subtransaction XIDs */

	/* Support for group XID clearing. */
	/* true, if member of ProcArray group waiting for XID clear */
	bool		procArrayGroupMember;
	/* next ProcArray group member waiting for XID clear */
	pg_atomic_uint32 procArrayGroupNext;

	/*
	 * latest transaction id among the transaction's main XID and
	 * subtransactions
	 */
	TransactionId procArrayGroupMemberXid;

	uint32		wait_event_info;	/* proc's wait information */

	/* Support for group transaction status update. */
	bool		clogGroupMember;	/* true, if member of clog group */
	pg_atomic_uint32 clogGroupNext; /* next clog group member */
	TransactionId clogGroupMemberXid;	/* transaction id of clog group member */
	XidStatus	clogGroupMemberXidStatus;	/* transaction status of clog
											 * group member */
	int			clogGroupMemberPage;	/* clog page corresponding to
										 * transaction id of clog group member */
	XLogRecPtr	clogGroupMemberLsn; /* WAL location of commit record for clog
									 * group member */

	/* Lock manager data, recording fast-path locks taken by this backend. */
	LWLock		fpInfoLock;		/* protects per-backend fast-path state */
	uint64		fpLockBits;		/* lock modes held for each fast-path slot */
	Oid			fpRelId[FP_LOCK_SLOTS_PER_BACKEND]; /* slots for rel oids */
	bool		fpVXIDLock;		/* are we holding a fast-path VXID lock? */
	LocalTransactionId fpLocalTransactionId;	/* lxid for fast-path VXID
												 * lock */

	/*
	 * Support for lock groups.  Use LockHashPartitionLockByProc on the group
	 * leader to get the LWLock protecting these fields.
	 */
	PGPROC	   *lockGroupLeader;	/* lock group leader, if I'm a member */
	dlist_head	lockGroupMembers;	/* list of members, if I'm a leader */
	dlist_node	lockGroupLink;	/* my member link, if I'm a member */
};

/* NOTE: "typedef struct PGPROC PGPROC" appears in storage/lock.h. */


extern PGDLLIMPORT PGPROC *MyProc;

/*
 * There is one ProcGlobal struct for the whole database cluster.
 *
 * Adding/Removing an entry into the procarray requires holding *both*
 * ProcArrayLock and XidGenLock in exclusive mode (in that order). Both are
 * needed because the dense arrays (see below) are accessed from
 * GetNewTransactionId() and GetSnapshotData(), and we don't want to add
 * further contention by both using the same lock. Adding/Removing a procarray
 * entry is much less frequent.
 *
 * Some fields in PGPROC are mirrored into more densely packed arrays (e.g.
 * xids), with one entry for each backend. These arrays only contain entries
 * for PGPROCs that have been added to the shared array with ProcArrayAdd()
 * (in contrast to PGPROC array which has unused PGPROCs interspersed).
 *
 * The dense arrays are indexed by PGPROC->pgxactoff. Any concurrent
 * ProcArrayAdd() / ProcArrayRemove() can lead to pgxactoff of a procarray
 * member to change.  Therefore it is only safe to use PGPROC->pgxactoff to
 * access the dense array while holding either ProcArrayLock or XidGenLock.
 *
 * As long as a PGPROC is in the procarray, the mirrored values need to be
 * maintained in both places in a coherent manner.
 *
 * The denser separate arrays are beneficial for three main reasons: First, to
 * allow for as tight loops accessing the data as possible. Second, to prevent
 * updates of frequently changing data (e.g. xmin) from invalidating
 * cachelines also containing less frequently changing data (e.g. xid,
 * statusFlags). Third to condense frequently accessed data into as few
 * cachelines as possible.
 *
 * There are two main reasons to have the data mirrored between these dense
 * arrays and PGPROC. First, as explained above, a PGPROC's array entries can
 * only be accessed with either ProcArrayLock or XidGenLock held, whereas the
 * PGPROC entries do not require that (obviously there may still be locking
 * requirements around the individual field, separate from the concerns
 * here). That is particularly important for a backend to efficiently checks
 * it own values, which it often can safely do without locking.  Second, the
 * PGPROC fields allow to avoid unnecessary accesses and modification to the
 * dense arrays. A backend's own PGPROC is more likely to be in a local cache,
 * whereas the cachelines for the dense array will be modified by other
 * backends (often removing it from the cache for other cores/sockets). At
 * commit/abort time a check of the PGPROC value can avoid accessing/dirtying
 * the corresponding array value.
 *
 * Basically it makes sense to access the PGPROC variable when checking a
 * single backend's data, especially when already looking at the PGPROC for
 * other reasons already.  It makes sense to look at the "dense" arrays if we
 * need to look at many / most entries, because we then benefit from the
 * reduced indirection and better cross-process cache-ability.
 *
 * When entering a PGPROC for 2PC transactions with ProcArrayAdd(), the data
 * in the dense arrays is initialized from the PGPROC while it already holds
 * ProcArrayLock.
 */
typedef struct PROC_HDR
{
	/* Array of PGPROC structures (not including dummies for prepared txns) */
	PGPROC	   *allProcs;

	/* Array mirroring PGPROC.xid for each PGPROC currently in the procarray */
	TransactionId *xids;

	/*
	 * Array mirroring PGPROC.subxidStatus for each PGPROC currently in the
	 * procarray.
	 */
	XidCacheStatus *subxidStates;

	/*
	 * Array mirroring PGPROC.statusFlags for each PGPROC currently in the
	 * procarray.
	 */
	uint8	   *statusFlags;

	/* Length of allProcs array */
	uint32		allProcCount;
	/* Head of list of free PGPROC structures */
	PGPROC	   *freeProcs;
	/* Head of list of autovacuum's free PGPROC structures */
	PGPROC	   *autovacFreeProcs;
	/* Head of list of bgworker free PGPROC structures */
	PGPROC	   *bgworkerFreeProcs;
	/* Head of list of walsender free PGPROC structures */
	PGPROC	   *walsenderFreeProcs;
	/* First pgproc waiting for group XID clear */
	pg_atomic_uint32 procArrayGroupFirst;
	/* First pgproc waiting for group transaction status update */
	pg_atomic_uint32 clogGroupFirst;
	/* WALWriter process's latch */
	Latch	   *walwriterLatch;
	/* Checkpointer process's latch */
	Latch	   *checkpointerLatch;
	/* Current shared estimate of appropriate spins_per_delay value */
	int			spins_per_delay;
	/* The proc of the Startup process, since not in ProcArray */
	PGPROC	   *startupProc;
	int			startupProcPid;
	/* Buffer id of the buffer that Startup process waits for pin on, or -1 */
	int			startupBufferPinWaitBufId;
} PROC_HDR;

extern PGDLLIMPORT PROC_HDR *ProcGlobal;

extern PGPROC *PreparedXactProcs;

/* Accessor for PGPROC given a pgprocno. */
#define GetPGProcByNumber(n) (&ProcGlobal->allProcs[(n)])

/*
 * We set aside some extra PGPROC structures for auxiliary processes,
 * ie things that aren't full-fledged backends but need shmem access.
 *
 * Background writer, checkpointer, WAL writer and archiver run during normal
 * operation.  Startup process and WAL receiver also consume 2 slots, but WAL
 * writer is launched only after startup has exited, so we only need 5 slots.
 */
#define NUM_AUXILIARY_PROCS		5

/* configurable options */
extern PGDLLIMPORT int DeadlockTimeout;
extern PGDLLIMPORT int StatementTimeout;
extern PGDLLIMPORT int LockTimeout;
extern PGDLLIMPORT int IdleInTransactionSessionTimeout;
extern PGDLLIMPORT int IdleSessionTimeout;
extern bool log_lock_waits;


/*
 * Function Prototypes
 */
extern int	ProcGlobalSemas(void);
extern Size ProcGlobalShmemSize(void);
extern void InitProcGlobal(void);
extern void InitProcess(void);
extern void InitProcessPhase2(void);
extern void InitAuxiliaryProcess(void);

extern void PublishStartupProcessInformation(void);
extern void SetStartupBufferPinWaitBufId(int bufid);
extern int	GetStartupBufferPinWaitBufId(void);

extern bool HaveNFreeProcs(int n);
extern void ProcReleaseLocks(bool isCommit);

extern void ProcQueueInit(PROC_QUEUE *queue);
extern ProcWaitStatus ProcSleep(LOCALLOCK *locallock, LockMethod lockMethodTable);
extern PGPROC *ProcWakeup(PGPROC *proc, ProcWaitStatus waitStatus);
extern void ProcLockWakeup(LockMethod lockMethodTable, LOCK *lock);
extern void CheckDeadLockAlert(void);
extern bool IsWaitingForLock(void);
extern void LockErrorCleanup(void);

extern void ProcWaitForSignal(uint32 wait_event_info);
extern void ProcSendSignal(int pid);

extern PGPROC *AuxiliaryPidGetProc(int pid);

extern void BecomeLockGroupLeader(void);
extern bool BecomeLockGroupMember(PGPROC *leader, int pid);

#endif							/* _PROC_H_ */