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|
/* -----------------------------------------------------------------------------
*
* (c) The GHC Team, 1998-2002
*
* Main function for a standalone Haskell program.
*
* ---------------------------------------------------------------------------*/
#include "Rts.h"
#include "RtsAPI.h"
#include "HsFFI.h"
#include "sm/Storage.h"
#include "RtsFlags.h"
#include "RtsUtils.h"
#include "Prelude.h"
#include "Printer.h" /* DEBUG_LoadSymbols */
#include "Schedule.h" /* initScheduler */
#include "Stats.h" /* initStats */
#include "STM.h" /* initSTM */
#include "RtsSignals.h"
#include "Weak.h"
#include "Ticky.h"
#include "StgRun.h"
#include "Prelude.h" /* fixupRTStoPreludeRefs */
#include "ThreadLabels.h"
#include "sm/BlockAlloc.h"
#include "Trace.h"
#include "Stable.h"
#include "StaticPtrTable.h"
#include "Hash.h"
#include "Profiling.h"
#include "Timer.h"
#include "Globals.h"
#include "FileLock.h"
#include "LinkerInternals.h"
#include "LibdwPool.h"
#if defined(PROFILING)
# include "ProfHeap.h"
# include "RetainerProfile.h"
#endif
#if defined(mingw32_HOST_OS) && !defined(THREADED_RTS)
#include "win32/AsyncIO.h"
#endif
#if !defined(mingw32_HOST_OS)
#include "posix/TTY.h"
#endif
#ifdef HAVE_UNISTD_H
#include <unistd.h>
#endif
#ifdef HAVE_LOCALE_H
#include <locale.h>
#endif
// Count of how many outstanding hs_init()s there have been.
static int hs_init_count = 0;
static void flushStdHandles(void);
/* -----------------------------------------------------------------------------
Initialise floating point unit on x86 (currently disabled; See Note
[x86 Floating point precision] in compiler/nativeGen/X86/Instr.hs)
-------------------------------------------------------------------------- */
#define X86_INIT_FPU 0
#if X86_INIT_FPU
static void
x86_init_fpu ( void )
{
__volatile unsigned short int fpu_cw;
// Grab the control word
__asm __volatile ("fnstcw %0" : "=m" (fpu_cw));
#if 0
printf("fpu_cw: %x\n", fpu_cw);
#endif
// Set bits 8-9 to 10 (64-bit precision).
fpu_cw = (fpu_cw & 0xfcff) | 0x0200;
// Store the new control word back
__asm __volatile ("fldcw %0" : : "m" (fpu_cw));
}
#endif
/* -----------------------------------------------------------------------------
Starting up the RTS
-------------------------------------------------------------------------- */
void
hs_init(int *argc, char **argv[])
{
hs_init_ghc(argc, argv, defaultRtsConfig);
}
void
hs_init_with_rtsopts(int *argc, char **argv[])
{
RtsConfig rts_opts = defaultRtsConfig; /* by value */
rts_opts.rts_opts_enabled = RtsOptsAll;
hs_init_ghc(argc, argv, rts_opts);
}
void
hs_init_ghc(int *argc, char **argv[], RtsConfig rts_config)
{
hs_init_count++;
if (hs_init_count > 1) {
// second and subsequent inits are ignored
return;
}
setlocale(LC_CTYPE,"");
/* Initialise the stats department, phase 0 */
initStats0();
/* Initialize system timer before starting to collect stats */
initializeTimer();
/* Next we do is grab the start time...just in case we're
* collecting timing statistics.
*/
stat_startInit();
/* Set the RTS flags to default values. */
initRtsFlagsDefaults();
/* Call the user hook to reset defaults, if present */
rts_config.defaultsHook();
/* Whether to GC CAFs */
if (rts_config.keep_cafs) {
setKeepCAFs();
}
/* Parse the flags, separating the RTS flags from the programs args */
if (argc == NULL || argv == NULL) {
// Use a default for argc & argv if either is not supplied
int my_argc = 1;
char *my_argv[] = { "<unknown>", NULL };
setFullProgArgv(my_argc,my_argv);
setupRtsFlags(&my_argc, my_argv, rts_config);
} else {
setFullProgArgv(*argc,*argv);
setupRtsFlags(argc, *argv, rts_config);
#ifdef DEBUG
/* load debugging symbols for current binary */
DEBUG_LoadSymbols((*argv)[0]);
#endif /* DEBUG */
}
/* Initialise the stats department, phase 1 */
initStats1();
/* initTracing must be after setupRtsFlags() */
#ifdef TRACING
initTracing();
#endif
/* Initialise libdw session pool */
libdwPoolInit();
/* initialise scheduler data structures (needs to be done before
* initStorage()).
*/
initScheduler();
/* Trace some basic information about the process */
traceWallClockTime();
traceOSProcessInfo();
/* initialize the storage manager */
initStorage();
/* initialise the stable pointer table */
initStableTables();
/* Add some GC roots for things in the base package that the RTS
* knows about. We don't know whether these turn out to be CAFs
* or refer to CAFs, but we have to assume that they might.
*/
getStablePtr((StgPtr)runIO_closure);
getStablePtr((StgPtr)runNonIO_closure);
getStablePtr((StgPtr)flushStdHandles_closure);
getStablePtr((StgPtr)runFinalizerBatch_closure);
getStablePtr((StgPtr)stackOverflow_closure);
getStablePtr((StgPtr)heapOverflow_closure);
getStablePtr((StgPtr)unpackCString_closure);
getStablePtr((StgPtr)blockedIndefinitelyOnMVar_closure);
getStablePtr((StgPtr)nonTermination_closure);
getStablePtr((StgPtr)blockedIndefinitelyOnSTM_closure);
getStablePtr((StgPtr)allocationLimitExceeded_closure);
getStablePtr((StgPtr)nestedAtomically_closure);
getStablePtr((StgPtr)runSparks_closure);
getStablePtr((StgPtr)ensureIOManagerIsRunning_closure);
getStablePtr((StgPtr)ioManagerCapabilitiesChanged_closure);
#ifndef mingw32_HOST_OS
getStablePtr((StgPtr)blockedOnBadFD_closure);
getStablePtr((StgPtr)runHandlersPtr_closure);
#endif
/* initialise the shared Typeable store */
initGlobalStore();
/* initialise file locking, if necessary */
initFileLocking();
#if defined(DEBUG)
/* initialise thread label table (tso->char*) */
initThreadLabelTable();
#endif
initProfiling();
/* start the virtual timer 'subsystem'. */
initTimer();
startTimer();
#if defined(RTS_USER_SIGNALS)
if (RtsFlags.MiscFlags.install_signal_handlers) {
/* Initialise the user signal handler set */
initUserSignals();
/* Set up handler to run on SIGINT, etc. */
initDefaultHandlers();
}
#endif
#if defined(mingw32_HOST_OS) && !defined(THREADED_RTS)
startupAsyncIO();
#endif
#if X86_INIT_FPU
x86_init_fpu();
#endif
startupHpc();
// ditto.
#if defined(THREADED_RTS)
ioManagerStart();
#endif
/* Record initialization times */
stat_endInit();
}
// Compatibility interface
void
startupHaskell(int argc, char *argv[], void (*init_root)(void) STG_UNUSED)
{
hs_init(&argc, &argv);
}
/* -----------------------------------------------------------------------------
hs_add_root: backwards compatibility. (see #3252)
-------------------------------------------------------------------------- */
void
hs_add_root(void (*init_root)(void) STG_UNUSED)
{
/* nothing */
}
/* ----------------------------------------------------------------------------
* Shutting down the RTS
*
* The wait_foreign parameter means:
* True ==> wait for any threads doing foreign calls now.
* False ==> threads doing foreign calls may return in the
* future, but will immediately block on a mutex.
* (capability->lock).
*
* If this RTS is a DLL that we're about to unload, then you want
* safe=True, otherwise the thread might return to code that has been
* unloaded. If this is a standalone program that is about to exit,
* then you can get away with safe=False, which is better because we
* won't hang on exit if there is a blocked foreign call outstanding.
*
------------------------------------------------------------------------- */
static void
hs_exit_(rtsBool wait_foreign)
{
nat g, i;
if (hs_init_count <= 0) {
errorBelch("warning: too many hs_exit()s");
return;
}
hs_init_count--;
if (hs_init_count > 0) {
// ignore until it's the last one
return;
}
/* start timing the shutdown */
stat_startExit();
rtsConfig.onExitHook();
flushStdHandles();
// sanity check
#if defined(DEBUG)
checkFPUStack();
#endif
#if defined(THREADED_RTS)
ioManagerDie();
#endif
/* stop all running tasks */
exitScheduler(wait_foreign);
/* run C finalizers for all active weak pointers */
for (i = 0; i < n_capabilities; i++) {
runAllCFinalizers(capabilities[i]->weak_ptr_list_hd);
}
for (g = 0; g < RtsFlags.GcFlags.generations; g++) {
runAllCFinalizers(generations[g].weak_ptr_list);
}
#if defined(RTS_USER_SIGNALS)
if (RtsFlags.MiscFlags.install_signal_handlers) {
freeSignalHandlers();
}
#endif
/* stop the ticker */
stopTimer();
exitTimer(wait_foreign);
// set the terminal settings back to what they were
#if !defined(mingw32_HOST_OS)
resetTerminalSettings();
#endif
#if defined(RTS_USER_SIGNALS)
if (RtsFlags.MiscFlags.install_signal_handlers) {
// uninstall signal handlers
resetDefaultHandlers();
}
#endif
/* stop timing the shutdown, we're about to print stats */
stat_endExit();
/* shutdown the hpc support (if needed) */
exitHpc();
// clean up things from the storage manager's point of view.
// also outputs the stats (+RTS -s) info.
exitStorage();
/* free the tasks */
freeScheduler();
/* free shared Typeable store */
exitGlobalStore();
/* free linker data */
exitLinker();
/* free file locking tables, if necessary */
freeFileLocking();
/* free the Static Pointer Table */
exitStaticPtrTable();
/* free the stable pointer table */
exitStableTables();
#if defined(DEBUG)
/* free the thread label table */
freeThreadLabelTable();
#endif
#if defined(PROFILING)
reportCCSProfiling();
#endif
endProfiling();
freeProfiling();
#ifdef PROFILING
// Originally, this was in report_ccs_profiling(). Now, retainer
// profiling might tack some extra stuff on to the end of this file
// during endProfiling().
if (prof_file != NULL) fclose(prof_file);
#endif
#ifdef TRACING
endTracing();
freeTracing();
#endif
#if defined(TICKY_TICKY)
if (RtsFlags.TickyFlags.showTickyStats) PrintTickyInfo();
#endif
#if defined(mingw32_HOST_OS) && !defined(THREADED_RTS)
shutdownAsyncIO(wait_foreign);
#endif
/* free hash table storage */
exitHashTable();
// Finally, free all our storage. However, we only free the heap
// memory if we have waited for foreign calls to complete;
// otherwise a foreign call in progress may still be referencing
// heap memory (e.g. by being passed a ByteArray#).
freeStorage(wait_foreign);
// Free the various argvs
freeRtsArgs();
}
// Flush stdout and stderr. We do this during shutdown so that it
// happens even when the RTS is being used as a library, without a
// main (#5594)
static void flushStdHandles(void)
{
Capability *cap;
cap = rts_lock();
rts_evalIO(&cap, flushStdHandles_closure, NULL);
rts_unlock(cap);
}
// The real hs_exit():
void
hs_exit(void)
{
hs_exit_(rtsTrue);
// be safe; this might be a DLL
}
// Compatibility interfaces
void
shutdownHaskell(void)
{
hs_exit();
}
void
shutdownHaskellAndExit(int n, int fastExit)
{
if (!fastExit) {
// even if hs_init_count > 1, we still want to shut down the RTS
// and exit immediately (see #5402)
hs_init_count = 1;
// we're about to exit(), no need to wait for foreign calls to return.
hs_exit_(rtsFalse);
}
stg_exit(n);
}
#ifndef mingw32_HOST_OS
static void exitBySignal(int sig) GNUC3_ATTRIBUTE(__noreturn__);
void
shutdownHaskellAndSignal(int sig, int fastExit)
{
if (!fastExit) {
hs_exit_(rtsFalse);
}
exitBySignal(sig);
}
void
exitBySignal(int sig)
{
// We're trying to kill ourselves with a given signal.
// That's easier said that done because:
// - signals can be ignored have handlers set for them
// - signals can be masked
// - signals default action can do things other than terminate:
// + can do nothing
// + can do weirder things: stop/continue the process
struct sigaction dfl;
sigset_t sigset;
// So first of all, we reset the signal to use the default action.
(void)sigemptyset(&dfl.sa_mask);
dfl.sa_flags = 0;
dfl.sa_handler = SIG_DFL;
(void)sigaction(sig, &dfl, NULL);
// Then we unblock the signal so we can deliver it to ourselves
sigemptyset(&sigset);
sigaddset(&sigset, sig);
sigprocmask(SIG_UNBLOCK, &sigset, NULL);
switch (sig) {
case SIGSTOP: case SIGTSTP: case SIGTTIN: case SIGTTOU: case SIGCONT:
// These signals stop (or continue) the process, so are no good for
// exiting.
exit(0xff);
default:
kill(getpid(),sig);
// But it's possible the signal is one where the default action is to
// ignore, in which case we'll still be alive... so just exit.
exit(0xff);
}
}
#endif
/*
* called from STG-land to exit the program
*/
void (*exitFn)(int) = 0;
void
stg_exit(int n)
{
if (exitFn)
(*exitFn)(n);
exit(n);
}
|