/*------------------------------------------------------------------------- * * ipci.c * POSTGRES inter-process communication initialization code. * * Portions Copyright (c) 1996-2021, PostgreSQL Global Development Group * Portions Copyright (c) 1994, Regents of the University of California * * * IDENTIFICATION * src/backend/storage/ipc/ipci.c * *------------------------------------------------------------------------- */ #include "postgres.h" #include "access/clog.h" #include "access/commit_ts.h" #include "access/heapam.h" #include "access/multixact.h" #include "access/nbtree.h" #include "access/subtrans.h" #include "access/syncscan.h" #include "access/twophase.h" #include "commands/async.h" #include "miscadmin.h" #include "pgstat.h" #include "postmaster/autovacuum.h" #include "postmaster/bgworker_internals.h" #include "postmaster/bgwriter.h" #include "postmaster/postmaster.h" #include "replication/logicallauncher.h" #include "replication/origin.h" #include "replication/slot.h" #include "replication/walreceiver.h" #include "replication/walsender.h" #include "storage/bufmgr.h" #include "storage/dsm.h" #include "storage/ipc.h" #include "storage/pg_shmem.h" #include "storage/pmsignal.h" #include "storage/predicate.h" #include "storage/proc.h" #include "storage/procarray.h" #include "storage/procsignal.h" #include "storage/sinvaladt.h" #include "storage/spin.h" #include "utils/snapmgr.h" /* GUCs */ int shared_memory_type = DEFAULT_SHARED_MEMORY_TYPE; shmem_startup_hook_type shmem_startup_hook = NULL; static Size total_addin_request = 0; static bool addin_request_allowed = true; /* * RequestAddinShmemSpace * Request that extra shmem space be allocated for use by * a loadable module. * * This is only useful if called from the _PG_init hook of a library that * is loaded into the postmaster via shared_preload_libraries. Once * shared memory has been allocated, calls will be ignored. (We could * raise an error, but it seems better to make it a no-op, so that * libraries containing such calls can be reloaded if needed.) */ void RequestAddinShmemSpace(Size size) { if (IsUnderPostmaster || !addin_request_allowed) return; /* too late */ total_addin_request = add_size(total_addin_request, size); } /* * CreateSharedMemoryAndSemaphores * Creates and initializes shared memory and semaphores. * * This is called by the postmaster or by a standalone backend. * It is also called by a backend forked from the postmaster in the * EXEC_BACKEND case. In the latter case, the shared memory segment * already exists and has been physically attached to, but we have to * initialize pointers in local memory that reference the shared structures, * because we didn't inherit the correct pointer values from the postmaster * as we do in the fork() scenario. The easiest way to do that is to run * through the same code as before. (Note that the called routines mostly * check IsUnderPostmaster, rather than EXEC_BACKEND, to detect this case. * This is a bit code-wasteful and could be cleaned up.) */ void CreateSharedMemoryAndSemaphores(void) { PGShmemHeader *shim = NULL; if (!IsUnderPostmaster) { PGShmemHeader *seghdr; Size size; int numSemas; /* Compute number of semaphores we'll need */ numSemas = ProcGlobalSemas(); numSemas += SpinlockSemas(); /* * Size of the Postgres shared-memory block is estimated via * moderately-accurate estimates for the big hogs, plus 100K for the * stuff that's too small to bother with estimating. * * We take some care during this phase to ensure that the total size * request doesn't overflow size_t. If this gets through, we don't * need to be so careful during the actual allocation phase. */ size = 100000; size = add_size(size, PGSemaphoreShmemSize(numSemas)); size = add_size(size, SpinlockSemaSize()); size = add_size(size, hash_estimate_size(SHMEM_INDEX_SIZE, sizeof(ShmemIndexEnt))); size = add_size(size, dsm_estimate_size()); size = add_size(size, BufferShmemSize()); size = add_size(size, LockShmemSize()); size = add_size(size, PredicateLockShmemSize()); size = add_size(size, ProcGlobalShmemSize()); size = add_size(size, XLOGShmemSize()); size = add_size(size, CLOGShmemSize()); size = add_size(size, CommitTsShmemSize()); size = add_size(size, SUBTRANSShmemSize()); size = add_size(size, TwoPhaseShmemSize()); size = add_size(size, BackgroundWorkerShmemSize()); size = add_size(size, MultiXactShmemSize()); size = add_size(size, LWLockShmemSize()); size = add_size(size, ProcArrayShmemSize()); size = add_size(size, BackendStatusShmemSize()); size = add_size(size, SInvalShmemSize()); size = add_size(size, PMSignalShmemSize()); size = add_size(size, ProcSignalShmemSize()); size = add_size(size, CheckpointerShmemSize()); size = add_size(size, AutoVacuumShmemSize()); size = add_size(size, ReplicationSlotsShmemSize()); size = add_size(size, ReplicationOriginShmemSize()); size = add_size(size, WalSndShmemSize()); size = add_size(size, WalRcvShmemSize()); size = add_size(size, PgArchShmemSize()); size = add_size(size, ApplyLauncherShmemSize()); size = add_size(size, SnapMgrShmemSize()); size = add_size(size, BTreeShmemSize()); size = add_size(size, SyncScanShmemSize()); size = add_size(size, AsyncShmemSize()); #ifdef EXEC_BACKEND size = add_size(size, ShmemBackendArraySize()); #endif /* freeze the addin request size and include it */ addin_request_allowed = false; size = add_size(size, total_addin_request); /* might as well round it off to a multiple of a typical page size */ size = add_size(size, 8192 - (size % 8192)); elog(DEBUG3, "invoking IpcMemoryCreate(size=%zu)", size); /* * Create the shmem segment */ seghdr = PGSharedMemoryCreate(size, &shim); InitShmemAccess(seghdr); /* * Create semaphores */ PGReserveSemaphores(numSemas); /* * If spinlocks are disabled, initialize emulation layer (which * depends on semaphores, so the order is important here). */ #ifndef HAVE_SPINLOCKS SpinlockSemaInit(); #endif } else { /* * We are reattaching to an existing shared memory segment. This * should only be reached in the EXEC_BACKEND case. */ #ifndef EXEC_BACKEND elog(PANIC, "should be attached to shared memory already"); #endif } /* * Set up shared memory allocation mechanism */ if (!IsUnderPostmaster) InitShmemAllocation(); /* * Now initialize LWLocks, which do shared memory allocation and are * needed for InitShmemIndex. */ CreateLWLocks(); /* * Set up shmem.c index hashtable */ InitShmemIndex(); dsm_shmem_init(); /* * Set up xlog, clog, and buffers */ XLOGShmemInit(); CLOGShmemInit(); CommitTsShmemInit(); SUBTRANSShmemInit(); MultiXactShmemInit(); InitBufferPool(); /* * Set up lock manager */ InitLocks(); /* * Set up predicate lock manager */ InitPredicateLocks(); /* * Set up process table */ if (!IsUnderPostmaster) InitProcGlobal(); CreateSharedProcArray(); CreateSharedBackendStatus(); TwoPhaseShmemInit(); BackgroundWorkerShmemInit(); /* * Set up shared-inval messaging */ CreateSharedInvalidationState(); /* * Set up interprocess signaling mechanisms */ PMSignalShmemInit(); ProcSignalShmemInit(); CheckpointerShmemInit(); AutoVacuumShmemInit(); ReplicationSlotsShmemInit(); ReplicationOriginShmemInit(); WalSndShmemInit(); WalRcvShmemInit(); PgArchShmemInit(); ApplyLauncherShmemInit(); /* * Set up other modules that need some shared memory space */ SnapMgrInit(); BTreeShmemInit(); SyncScanShmemInit(); AsyncShmemInit(); #ifdef EXEC_BACKEND /* * Alloc the win32 shared backend array */ if (!IsUnderPostmaster) ShmemBackendArrayAllocation(); #endif /* Initialize dynamic shared memory facilities. */ if (!IsUnderPostmaster) dsm_postmaster_startup(shim); /* * Now give loadable modules a chance to set up their shmem allocations */ if (shmem_startup_hook) shmem_startup_hook(); }