/*------------------------------------------------------------------------- * * ipc.c * POSTGRES inter-process communication definitions. * * This file is misnamed, as it no longer has much of anything directly * to do with IPC. The functionality here is concerned with managing * exit-time cleanup for either a postmaster or a backend. * * * Portions Copyright (c) 1996-2017, PostgreSQL Global Development Group * Portions Copyright (c) 1994, Regents of the University of California * * * IDENTIFICATION * src/backend/storage/ipc/ipc.c * *------------------------------------------------------------------------- */ #include "postgres.h" #include #include #include #include "miscadmin.h" #ifdef PROFILE_PID_DIR #include "postmaster/autovacuum.h" #endif #include "storage/dsm.h" #include "storage/ipc.h" #include "tcop/tcopprot.h" /* * This flag is set during proc_exit() to change ereport()'s behavior, * so that an ereport() from an on_proc_exit routine cannot get us out * of the exit procedure. We do NOT want to go back to the idle loop... */ bool proc_exit_inprogress = false; /* * This flag tracks whether we've called atexit() in the current process * (or in the parent postmaster). */ static bool atexit_callback_setup = false; /* local functions */ static void proc_exit_prepare(int code); /* ---------------------------------------------------------------- * exit() handling stuff * * These functions are in generally the same spirit as atexit(), * but provide some additional features we need --- in particular, * we want to register callbacks to invoke when we are disconnecting * from a broken shared-memory context but not exiting the postmaster. * * Callback functions can take zero, one, or two args: the first passed * arg is the integer exitcode, the second is the Datum supplied when * the callback was registered. * ---------------------------------------------------------------- */ #define MAX_ON_EXITS 20 struct ONEXIT { pg_on_exit_callback function; Datum arg; }; static struct ONEXIT on_proc_exit_list[MAX_ON_EXITS]; static struct ONEXIT on_shmem_exit_list[MAX_ON_EXITS]; static struct ONEXIT before_shmem_exit_list[MAX_ON_EXITS]; static int on_proc_exit_index, on_shmem_exit_index, before_shmem_exit_index; /* ---------------------------------------------------------------- * proc_exit * * this function calls all the callbacks registered * for it (to free resources) and then calls exit. * * This should be the only function to call exit(). * -cim 2/6/90 * * Unfortunately, we can't really guarantee that add-on code * obeys the rule of not calling exit() directly. So, while * this is the preferred way out of the system, we also register * an atexit callback that will make sure cleanup happens. * ---------------------------------------------------------------- */ void proc_exit(int code) { /* Clean up everything that must be cleaned up */ proc_exit_prepare(code); #ifdef PROFILE_PID_DIR { /* * If we are profiling ourself then gprof's mcleanup() is about to * write out a profile to ./gmon.out. Since mcleanup() always uses a * fixed file name, each backend will overwrite earlier profiles. To * fix that, we create a separate subdirectory for each backend * (./gprof/pid) and 'cd' to that subdirectory before we exit() - that * forces mcleanup() to write each profile into its own directory. We * end up with something like: $PGDATA/gprof/8829/gmon.out * $PGDATA/gprof/8845/gmon.out ... * * To avoid undesirable disk space bloat, autovacuum workers are * discriminated against: all their gmon.out files go into the same * subdirectory. Without this, an installation that is "just sitting * there" nonetheless eats megabytes of disk space every few seconds. * * Note that we do this here instead of in an on_proc_exit() callback * because we want to ensure that this code executes last - we don't * want to interfere with any other on_proc_exit() callback. For the * same reason, we do not include it in proc_exit_prepare ... so if * you are exiting in the "wrong way" you won't drop your profile in a * nice place. */ char gprofDirName[32]; if (IsAutoVacuumWorkerProcess()) snprintf(gprofDirName, 32, "gprof/avworker"); else snprintf(gprofDirName, 32, "gprof/%d", (int) getpid()); mkdir("gprof", S_IRWXU | S_IRWXG | S_IRWXO); mkdir(gprofDirName, S_IRWXU | S_IRWXG | S_IRWXO); chdir(gprofDirName); } #endif elog(DEBUG3, "exit(%d)", code); exit(code); } /* * Code shared between proc_exit and the atexit handler. Note that in * normal exit through proc_exit, this will actually be called twice ... * but the second call will have nothing to do. */ static void proc_exit_prepare(int code) { /* * Once we set this flag, we are committed to exit. Any ereport() will * NOT send control back to the main loop, but right back here. */ proc_exit_inprogress = true; /* * Forget any pending cancel or die requests; we're doing our best to * close up shop already. Note that the signal handlers will not set * these flags again, now that proc_exit_inprogress is set. */ InterruptPending = false; ProcDiePending = false; QueryCancelPending = false; InterruptHoldoffCount = 1; CritSectionCount = 0; /* * Also clear the error context stack, to prevent error callbacks from * being invoked by any elog/ereport calls made during proc_exit. Whatever * context they might want to offer is probably not relevant, and in any * case they are likely to fail outright after we've done things like * aborting any open transaction. (In normal exit scenarios the context * stack should be empty anyway, but it might not be in the case of * elog(FATAL) for example.) */ error_context_stack = NULL; /* For the same reason, reset debug_query_string before it's clobbered */ debug_query_string = NULL; /* do our shared memory exits first */ shmem_exit(code); elog(DEBUG3, "proc_exit(%d): %d callbacks to make", code, on_proc_exit_index); /* * call all the registered callbacks. * * Note that since we decrement on_proc_exit_index each time, if a * callback calls ereport(ERROR) or ereport(FATAL) then it won't be * invoked again when control comes back here (nor will the * previously-completed callbacks). So, an infinite loop should not be * possible. */ while (--on_proc_exit_index >= 0) (*on_proc_exit_list[on_proc_exit_index].function) (code, on_proc_exit_list[on_proc_exit_index].arg); on_proc_exit_index = 0; } /* ------------------ * Run all of the on_shmem_exit routines --- but don't actually exit. * This is used by the postmaster to re-initialize shared memory and * semaphores after a backend dies horribly. As with proc_exit(), we * remove each callback from the list before calling it, to avoid * infinite loop in case of error. * ------------------ */ void shmem_exit(int code) { /* * Call before_shmem_exit callbacks. * * These should be things that need most of the system to still be up and * working, such as cleanup of temp relations, which requires catalog * access; or things that need to be completed because later cleanup steps * depend on them, such as releasing lwlocks. */ elog(DEBUG3, "shmem_exit(%d): %d before_shmem_exit callbacks to make", code, before_shmem_exit_index); while (--before_shmem_exit_index >= 0) (*before_shmem_exit_list[before_shmem_exit_index].function) (code, before_shmem_exit_list[before_shmem_exit_index].arg); before_shmem_exit_index = 0; /* * Call dynamic shared memory callbacks. * * These serve the same purpose as late callbacks, but for dynamic shared * memory segments rather than the main shared memory segment. * dsm_backend_shutdown() has the same kind of progressive logic we use * for the main shared memory segment; namely, it unregisters each * callback before invoking it, so that we don't get stuck in an infinite * loop if one of those callbacks itself throws an ERROR or FATAL. * * Note that explicitly calling this function here is quite different from * registering it as an on_shmem_exit callback for precisely this reason: * if one dynamic shared memory callback errors out, the remaining * callbacks will still be invoked. Thus, hard-coding this call puts it * equal footing with callbacks for the main shared memory segment. */ dsm_backend_shutdown(); /* * Call on_shmem_exit callbacks. * * These are generally releasing low-level shared memory resources. In * some cases, this is a backstop against the possibility that the early * callbacks might themselves fail, leading to re-entry to this routine; * in other cases, it's cleanup that only happens at process exit. */ elog(DEBUG3, "shmem_exit(%d): %d on_shmem_exit callbacks to make", code, on_shmem_exit_index); while (--on_shmem_exit_index >= 0) (*on_shmem_exit_list[on_shmem_exit_index].function) (code, on_shmem_exit_list[on_shmem_exit_index].arg); on_shmem_exit_index = 0; } /* ---------------------------------------------------------------- * atexit_callback * * Backstop to ensure that direct calls of exit() don't mess us up. * * Somebody who was being really uncooperative could call _exit(), * but for that case we have a "dead man switch" that will make the * postmaster treat it as a crash --- see pmsignal.c. * ---------------------------------------------------------------- */ static void atexit_callback(void) { /* Clean up everything that must be cleaned up */ /* ... too bad we don't know the real exit code ... */ proc_exit_prepare(-1); } /* ---------------------------------------------------------------- * on_proc_exit * * this function adds a callback function to the list of * functions invoked by proc_exit(). -cim 2/6/90 * ---------------------------------------------------------------- */ void on_proc_exit(pg_on_exit_callback function, Datum arg) { if (on_proc_exit_index >= MAX_ON_EXITS) ereport(FATAL, (errcode(ERRCODE_PROGRAM_LIMIT_EXCEEDED), errmsg_internal("out of on_proc_exit slots"))); on_proc_exit_list[on_proc_exit_index].function = function; on_proc_exit_list[on_proc_exit_index].arg = arg; ++on_proc_exit_index; if (!atexit_callback_setup) { atexit(atexit_callback); atexit_callback_setup = true; } } /* ---------------------------------------------------------------- * before_shmem_exit * * Register early callback to perform user-level cleanup, * e.g. transaction abort, before we begin shutting down * low-level subsystems. * ---------------------------------------------------------------- */ void before_shmem_exit(pg_on_exit_callback function, Datum arg) { if (before_shmem_exit_index >= MAX_ON_EXITS) ereport(FATAL, (errcode(ERRCODE_PROGRAM_LIMIT_EXCEEDED), errmsg_internal("out of before_shmem_exit slots"))); before_shmem_exit_list[before_shmem_exit_index].function = function; before_shmem_exit_list[before_shmem_exit_index].arg = arg; ++before_shmem_exit_index; if (!atexit_callback_setup) { atexit(atexit_callback); atexit_callback_setup = true; } } /* ---------------------------------------------------------------- * on_shmem_exit * * Register ordinary callback to perform low-level shutdown * (e.g. releasing our PGPROC); run after before_shmem_exit * callbacks and before on_proc_exit callbacks. * ---------------------------------------------------------------- */ void on_shmem_exit(pg_on_exit_callback function, Datum arg) { if (on_shmem_exit_index >= MAX_ON_EXITS) ereport(FATAL, (errcode(ERRCODE_PROGRAM_LIMIT_EXCEEDED), errmsg_internal("out of on_shmem_exit slots"))); on_shmem_exit_list[on_shmem_exit_index].function = function; on_shmem_exit_list[on_shmem_exit_index].arg = arg; ++on_shmem_exit_index; if (!atexit_callback_setup) { atexit(atexit_callback); atexit_callback_setup = true; } } /* ---------------------------------------------------------------- * cancel_before_shmem_exit * * this function removes a previously-registed before_shmem_exit * callback. For simplicity, only the latest entry can be * removed. (We could work harder but there is no need for * current uses.) * ---------------------------------------------------------------- */ void cancel_before_shmem_exit(pg_on_exit_callback function, Datum arg) { if (before_shmem_exit_index > 0 && before_shmem_exit_list[before_shmem_exit_index - 1].function == function && before_shmem_exit_list[before_shmem_exit_index - 1].arg == arg) --before_shmem_exit_index; } /* ---------------------------------------------------------------- * on_exit_reset * * this function clears all on_proc_exit() and on_shmem_exit() * registered functions. This is used just after forking a backend, * so that the backend doesn't believe it should call the postmaster's * on-exit routines when it exits... * ---------------------------------------------------------------- */ void on_exit_reset(void) { before_shmem_exit_index = 0; on_shmem_exit_index = 0; on_proc_exit_index = 0; reset_on_dsm_detach(); }