/*------------------------------------------------------------------------- * * proc.h * per-process shared memory data structures * * * Portions Copyright (c) 1996-2001, PostgreSQL Global Development Group * Portions Copyright (c) 1994, Regents of the University of California * * $Id: proc.h,v 1.40 2001/02/26 00:50:08 tgl Exp $ * *------------------------------------------------------------------------- */ #ifndef _PROC_H_ #define _PROC_H_ #include "access/xlog.h" #include "storage/lock.h" /* configurable option */ extern int DeadlockTimeout; typedef struct { IpcSemaphoreId semId; /* SysV semaphore set ID */ int semNum; /* semaphore number within set */ } SEMA; /* * Each backend has a PROC struct in shared memory. There is also a list of * currently-unused PROC structs that will be reallocated to new backends. * * links: list link for any list the PROC is in. When waiting for a lock, * the PROC is linked into that lock's waitProcs queue. A recycled PROC * is linked into ProcGlobal's freeProcs list. */ struct proc { /* proc->links MUST BE FIRST IN STRUCT (see ProcSleep,ProcWakeup,etc) */ SHM_QUEUE links; /* list link if process is in a list */ SEMA sem; /* ONE semaphore to sleep on */ int errType; /* STATUS_OK or STATUS_ERROR after wakeup */ TransactionId xid; /* transaction currently being executed by * this proc */ TransactionId xmin; /* minimal running XID as it was when we * were starting our xact: vacuum must not * remove tuples deleted by xid >= xmin ! */ /* XLOG location of first XLOG record written by this backend's current * transaction. If backend is not in a transaction or hasn't yet modified * anything, logRec.xrecoff is zero. */ XLogRecPtr logRec; /* Info about lock the process is currently waiting for, if any. */ /* waitLock and waitHolder are NULL if not currently waiting. */ LOCK *waitLock; /* Lock object we're sleeping on ... */ HOLDER *waitHolder; /* 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 */ int pid; /* This backend's process id */ Oid databaseId; /* OID of database this backend is using */ short sLocks[MAX_SPINS]; /* Spin lock stats */ SHM_QUEUE procHolders; /* list of HOLDER objects for locks held or * awaited by this backend */ }; /* NOTE: "typedef struct proc PROC" appears in storage/lock.h. */ extern PROC *MyProc; extern SPINLOCK ProcStructLock; #define PROC_INCR_SLOCK(lock) \ do { \ if (MyProc) (MyProc->sLocks[(lock)])++; \ } while (0) #define PROC_DECR_SLOCK(lock) \ do { \ if (MyProc) (MyProc->sLocks[(lock)])--; \ } while (0) /* * There is one ProcGlobal struct for the whole installation. * * PROC_NSEMS_PER_SET is the number of semaphores in each sys-V semaphore set * we allocate. It must be no more than 32 (or however many bits in an int * on your machine), or our free-semaphores bitmap won't work. It also must * be *less than* your kernel's SEMMSL (max semaphores per set) parameter, * which is often around 25. (Less than, because we allocate one extra sema * in each set for identification purposes.) * * PROC_SEM_MAP_ENTRIES is the number of semaphore sets we need to allocate * to keep track of up to MAXBACKENDS backends. */ #define PROC_NSEMS_PER_SET 16 #define PROC_SEM_MAP_ENTRIES ((MAXBACKENDS-1)/PROC_NSEMS_PER_SET+1) typedef struct procglobal { /* Head of list of free PROC structures */ SHMEM_OFFSET freeProcs; /* Info about semaphore sets used for per-process semaphores */ IpcSemaphoreId procSemIds[PROC_SEM_MAP_ENTRIES]; int32 freeSemMap[PROC_SEM_MAP_ENTRIES]; /* * In each freeSemMap entry, bit i is set if the i'th semaphore of the * set is allocated to a process. (i counts from 0 at the LSB) */ } PROC_HDR; /* * Function Prototypes */ extern void InitProcGlobal(int maxBackends); extern void InitProcess(void); extern void ProcReleaseLocks(bool isCommit); extern bool ProcRemove(int pid); extern void ProcQueueInit(PROC_QUEUE *queue); extern int ProcSleep(LOCKMETHODTABLE *lockMethodTable, LOCKMODE lockmode, LOCK *lock, HOLDER *holder); extern PROC *ProcWakeup(PROC *proc, int errType); extern void ProcLockWakeup(LOCKMETHODTABLE *lockMethodTable, LOCK *lock); extern void ProcReleaseSpins(PROC *proc); extern bool LockWaitCancel(void); extern void HandleDeadLock(SIGNAL_ARGS); #endif /* PROC_H */