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|
/* $Id: init.cpp $ */
/** @file
* IPRT - Init Ring-3.
*/
/*
* Copyright (C) 2006-2019 Oracle Corporation
*
* This file is part of VirtualBox Open Source Edition (OSE), as
* available from http://www.virtualbox.org. This file is free software;
* you can redistribute it and/or modify it under the terms of the GNU
* General Public License (GPL) as published by the Free Software
* Foundation, in version 2 as it comes in the "COPYING" file of the
* VirtualBox OSE distribution. VirtualBox OSE is distributed in the
* hope that it will be useful, but WITHOUT ANY WARRANTY of any kind.
*
* The contents of this file may alternatively be used under the terms
* of the Common Development and Distribution License Version 1.0
* (CDDL) only, as it comes in the "COPYING.CDDL" file of the
* VirtualBox OSE distribution, in which case the provisions of the
* CDDL are applicable instead of those of the GPL.
*
* You may elect to license modified versions of this file under the
* terms and conditions of either the GPL or the CDDL or both.
*/
/*********************************************************************************************************************************
* Header Files *
*********************************************************************************************************************************/
#define LOG_GROUP RTLOGGROUP_DEFAULT
#include <iprt/types.h> /* darwin: UINT32_C and others. */
#ifdef RT_OS_WINDOWS
# include <process.h>
# include <iprt/win/windows.h>
#else
# include <unistd.h>
# ifndef RT_OS_OS2
# include <pthread.h>
# include <signal.h>
# include <errno.h>
# define IPRT_USE_SIG_CHILD_DUMMY
# endif
#endif
#ifdef RT_OS_OS2
# include <InnoTekLIBC/fork.h>
# define INCL_DOSMISC
# include <os2.h>
#endif
#include <locale.h>
#include <iprt/initterm.h>
#include <iprt/asm.h>
#include <iprt/assert.h>
#include <iprt/errcore.h>
#include <iprt/log.h>
#include <iprt/mem.h>
#include <iprt/path.h>
#include <iprt/time.h>
#include <iprt/string.h>
#include <iprt/param.h>
#ifdef RT_OS_WINDOWS
# include <iprt/utf16.h>
#endif
#if !defined(IN_GUEST) && !defined(RT_NO_GIP)
# include <iprt/file.h>
# include <VBox/sup.h>
#endif
#include <stdlib.h>
#include "init.h"
#include "internal/alignmentchecks.h"
#include "internal/path.h"
#include "internal/process.h"
#include "internal/thread.h"
#include "internal/time.h"
/*********************************************************************************************************************************
* Global Variables *
*********************************************************************************************************************************/
/** The number of calls to RTR3Init*. */
static int32_t volatile g_cUsers = 0;
/** Whether we're currently initializing the IPRT. */
static bool volatile g_fInitializing = false;
/** The process path.
* This is used by RTPathExecDir and RTProcGetExecutablePath and set by rtProcInitName. */
DECLHIDDEN(char) g_szrtProcExePath[RTPATH_MAX];
/** The length of g_szrtProcExePath. */
DECLHIDDEN(size_t) g_cchrtProcExePath;
/** The length of directory path component of g_szrtProcExePath. */
DECLHIDDEN(size_t) g_cchrtProcDir;
/** The offset of the process name into g_szrtProcExePath. */
DECLHIDDEN(size_t) g_offrtProcName;
/** The IPRT init flags. */
static uint32_t g_fInitFlags;
/** The argument count of the program. */
static int g_crtArgs = -1;
/** The arguments of the program (UTF-8). This is "leaked". */
static char ** g_papszrtArgs;
/** The original argument vector of the program. */
static char ** g_papszrtOrgArgs;
/**
* Program start nanosecond TS.
*/
DECLHIDDEN(uint64_t) g_u64ProgramStartNanoTS;
/**
* The process identifier of the running process.
*/
DECLHIDDEN(RTPROCESS) g_ProcessSelf = NIL_RTPROCESS;
/**
* The current process priority.
*/
DECLHIDDEN(RTPROCPRIORITY) g_enmProcessPriority = RTPROCPRIORITY_DEFAULT;
/**
* Set if the atexit callback has been called, i.e. indicating
* that the process is terminating.
*/
DECLHIDDEN(bool volatile) g_frtAtExitCalled = false;
#ifdef IPRT_WITH_ALIGNMENT_CHECKS
/**
* Whether alignment checks are enabled.
* This is set if the environment variable IPRT_ALIGNMENT_CHECKS is 1.
*/
RTDATADECL(bool) g_fRTAlignmentChecks = false;
#endif
#if defined(RT_OS_DARWIN) || defined(RT_OS_FREEBSD) || defined(RT_OS_NETBSD) || defined(RT_OS_HAIKU) \
|| defined(RT_OS_LINUX) || defined(RT_OS_OS2) || defined(RT_OS_SOLARIS) /** @todo add host init hooks everywhere. */
/* Stubs */
DECLHIDDEN(int) rtR3InitNativeFirst(uint32_t fFlags) { RT_NOREF_PV(fFlags); return VINF_SUCCESS; }
DECLHIDDEN(int) rtR3InitNativeFinal(uint32_t fFlags) { RT_NOREF_PV(fFlags); return VINF_SUCCESS; }
DECLHIDDEN(void) rtR3InitNativeObtrusive(uint32_t fFlags) { RT_NOREF_PV(fFlags); }
#endif
/**
* atexit callback.
*
* This makes sure any loggers are flushed and will later also work the
* termination callback chain.
*/
static void rtR3ExitCallback(void)
{
ASMAtomicWriteBool(&g_frtAtExitCalled, true);
if (g_cUsers > 0)
{
PRTLOGGER pLogger = RTLogGetDefaultInstance();
if (pLogger)
RTLogFlush(pLogger);
pLogger = RTLogRelGetDefaultInstance();
if (pLogger)
RTLogFlush(pLogger);
}
}
#ifndef RT_OS_WINDOWS
/**
* Fork callback, child context.
*/
static void rtR3ForkChildCallback(void)
{
g_ProcessSelf = getpid();
}
#endif /* RT_OS_WINDOWS */
#ifdef RT_OS_OS2
/** Fork completion callback for OS/2. Only called in the child. */
static void rtR3ForkOs2ChildCompletionCallback(void *pvArg, int rc, __LIBC_FORKCTX enmCtx)
{
Assert(enmCtx == __LIBC_FORK_CTX_CHILD); NOREF(enmCtx);
NOREF(pvArg);
if (!rc)
rtR3ForkChildCallback();
}
/** Low-level fork callback for OS/2. */
int rtR3ForkOs2Child(__LIBC_PFORKHANDLE pForkHandle, __LIBC_FORKOP enmOperation)
{
if (enmOperation == __LIBC_FORK_OP_EXEC_CHILD)
return pForkHandle->pfnCompletionCallback(pForkHandle, rtR3ForkOs2ChildCompletionCallback, NULL, __LIBC_FORK_CTX_CHILD);
return 0;
}
# define static static volatile /** @todo _FORK_CHILD1 causes unresolved externals in optimized builds. Fix macro. */
_FORK_CHILD1(0, rtR3ForkOs2Child);
# undef static
#endif /* RT_OS_OS2 */
/**
* Internal worker which initializes or re-initializes the
* program path, name and directory globals.
*
* @returns IPRT status code.
* @param pszProgramPath The program path, NULL if not specified.
*/
static int rtR3InitProgramPath(const char *pszProgramPath)
{
/*
* We're reserving 32 bytes here for file names as what not.
*/
if (!pszProgramPath)
{
int rc = rtProcInitExePath(g_szrtProcExePath, sizeof(g_szrtProcExePath) - 32);
if (RT_FAILURE(rc))
return rc;
}
else
{
size_t cch = strlen(pszProgramPath);
Assert(cch > 1);
AssertMsgReturn(cch < sizeof(g_szrtProcExePath) - 32, ("%zu\n", cch), VERR_BUFFER_OVERFLOW);
memcpy(g_szrtProcExePath, pszProgramPath, cch + 1);
}
/*
* Parse the name.
*/
ssize_t offName;
g_cchrtProcExePath = RTPathParseSimple(g_szrtProcExePath, &g_cchrtProcDir, &offName, NULL);
g_offrtProcName = offName;
return VINF_SUCCESS;
}
/**
* Internal worker which initializes or re-initializes the
* program path, name and directory globals.
*
* @returns IPRT status code.
* @param fFlags Flags, see RTR3INIT_XXX.
* @param cArgs Pointer to the argument count.
* @param ppapszArgs Pointer to the argument vector pointer. NULL
* allowed if @a cArgs is 0.
*/
static int rtR3InitArgv(uint32_t fFlags, int cArgs, char ***ppapszArgs)
{
NOREF(fFlags);
if (cArgs)
{
AssertPtr(ppapszArgs);
AssertPtr(*ppapszArgs);
char **papszOrgArgs = *ppapszArgs;
/*
* Normally we should only be asked to convert arguments once. If we
* are though, it should be the already convered arguments.
*/
if (g_crtArgs != -1)
{
AssertReturn( g_crtArgs == cArgs
&& g_papszrtArgs == papszOrgArgs,
VERR_WRONG_ORDER); /* only init once! */
return VINF_SUCCESS;
}
if (!(fFlags & RTR3INIT_FLAGS_UTF8_ARGV))
{
/*
* Convert the arguments.
*/
char **papszArgs = (char **)RTMemAllocZ((cArgs + 1) * sizeof(char *));
if (!papszArgs)
return VERR_NO_MEMORY;
#ifdef RT_OS_WINDOWS
/* HACK ALERT! Try convert from unicode versions if possible.
Unfortunately for us, __wargv is only initialized if we have a
unicode main function. So, we have to use CommandLineToArgvW to get
something similar. It should do the same conversion... :-) */
/** @todo Replace this CommandLineToArgvW call with a call into
* getoptargv.cpp so we don't depend on shell32 and an API not present
* in NT 3.1. */
int cArgsW = -1;
PWSTR *papwszArgs = NULL;
if ( papszOrgArgs == __argv
&& cArgs == __argc
&& (papwszArgs = CommandLineToArgvW(GetCommandLineW(), &cArgsW)) != NULL )
{
AssertMsg(cArgsW == cArgs, ("%d vs %d\n", cArgsW, cArgs));
for (int i = 0; i < cArgs; i++)
{
int rc = RTUtf16ToUtf8Tag(papwszArgs[i], &papszArgs[i], "will-leak:rtR3InitArgv");
if (RT_FAILURE(rc))
{
while (i--)
RTStrFree(papszArgs[i]);
RTMemFree(papszArgs);
LocalFree(papwszArgs);
return rc;
}
}
LocalFree(papwszArgs);
}
else
#endif
{
for (int i = 0; i < cArgs; i++)
{
int rc = RTStrCurrentCPToUtf8(&papszArgs[i], papszOrgArgs[i]);
if (RT_FAILURE(rc))
{
while (i--)
RTStrFree(papszArgs[i]);
RTMemFree(papszArgs);
return rc;
}
}
}
papszArgs[cArgs] = NULL;
g_papszrtOrgArgs = papszOrgArgs;
g_papszrtArgs = papszArgs;
g_crtArgs = cArgs;
*ppapszArgs = papszArgs;
}
else
{
/*
* The arguments are already UTF-8, no conversion needed.
*/
g_papszrtOrgArgs = papszOrgArgs;
g_papszrtArgs = papszOrgArgs;
g_crtArgs = cArgs;
}
}
return VINF_SUCCESS;
}
#ifdef IPRT_USE_SIG_CHILD_DUMMY
/**
* Dummy SIGCHILD handler.
*
* Assigned on rtR3Init only when SIGCHILD handler is set SIGIGN or SIGDEF to
* ensure waitpid works properly for the terminated processes.
*/
static void rtR3SigChildHandler(int iSignal)
{
NOREF(iSignal);
}
#endif /* IPRT_USE_SIG_CHILD_DUMMY */
/**
* rtR3Init worker.
*/
static int rtR3InitBody(uint32_t fFlags, int cArgs, char ***ppapszArgs, const char *pszProgramPath)
{
/*
* Early native initialization.
*/
int rc = rtR3InitNativeFirst(fFlags);
AssertMsgRCReturn(rc, ("rtR3InitNativeFirst failed with %Rrc\n", rc), rc);
/*
* Disable error popups.
*/
#if defined(RT_OS_OS2) /** @todo move to private code. */
DosError(FERR_DISABLEHARDERR);
#endif
/*
* Init C runtime locale before we do anything that may end up converting
* paths or we'll end up using the "C" locale for path conversion.
*/
setlocale(LC_CTYPE, "");
/*
* The Process ID.
*/
#ifdef _MSC_VER
g_ProcessSelf = _getpid(); /* crappy ansi compiler */
#else
g_ProcessSelf = getpid();
#endif
/*
* Save the init flags.
*/
g_fInitFlags |= fFlags;
#if !defined(IN_GUEST) && !defined(RT_NO_GIP)
# ifdef VBOX
/*
* This MUST be done as the very first thing, before any file is opened.
* The log is opened on demand, but the first log entries may be caused
* by rtThreadInit() below.
*/
const char *pszDisableHostCache = getenv("VBOX_DISABLE_HOST_DISK_CACHE");
if ( pszDisableHostCache != NULL
&& *pszDisableHostCache
&& strcmp(pszDisableHostCache, "0") != 0)
{
RTFileSetForceFlags(RTFILE_O_WRITE, RTFILE_O_WRITE_THROUGH, 0);
RTFileSetForceFlags(RTFILE_O_READWRITE, RTFILE_O_WRITE_THROUGH, 0);
}
# endif /* VBOX */
#endif /* !IN_GUEST && !RT_NO_GIP */
/*
* Thread Thread database and adopt the caller thread as 'main'.
* This must be done before everything else or else we'll call into threading
* without having initialized TLS entries and suchlike.
*/
rc = rtThreadInit();
AssertMsgRCReturn(rc, ("Failed to initialize threads, rc=%Rrc!\n", rc), rc);
/*
* The executable path before SUPLib (windows requirement).
*/
rc = rtR3InitProgramPath(pszProgramPath);
AssertLogRelMsgRCReturn(rc, ("Failed to get executable directory path, rc=%Rrc!\n", rc), rc);
#if !defined(IN_GUEST) && !defined(RT_NO_GIP)
/*
* Initialize SUPLib here so the GIP can get going as early as possible
* (improves accuracy for the first client).
*/
if (fFlags & RTR3INIT_FLAGS_SUPLIB)
{
rc = SUPR3Init(NULL);
AssertMsgRCReturn(rc, ("Failed to initialize the support library, rc=%Rrc!\n", rc), rc);
}
#endif
/*
* Convert arguments.
*/
rc = rtR3InitArgv(fFlags, cArgs, ppapszArgs);
AssertLogRelMsgRCReturn(rc, ("Failed to convert the arguments, rc=%Rrc!\n", rc), rc);
#if !defined(IN_GUEST) && !defined(RT_NO_GIP)
/*
* The threading is initialized we can safely sleep a bit if GIP
* needs some time to update itself updating.
*/
if ((fFlags & RTR3INIT_FLAGS_SUPLIB) && g_pSUPGlobalInfoPage)
{
RTThreadSleep(20);
RTTimeNanoTS();
}
#endif
/*
* Init the program start timestamp TS.
* Do that here to be sure that the GIP time was properly updated the 1st time.
*/
g_u64ProgramStartNanoTS = RTTimeNanoTS();
/*
* The remainder cannot easily be undone, so it has to go last.
*/
/* Fork and exit callbacks. */
#if !defined(RT_OS_WINDOWS) && !defined(RT_OS_OS2)
rc = pthread_atfork(NULL, NULL, rtR3ForkChildCallback);
AssertMsg(rc == 0, ("%d\n", rc));
#endif
atexit(rtR3ExitCallback);
#ifdef IPRT_USE_SIG_CHILD_DUMMY
/*
* SIGCHLD must not be ignored (that's default), otherwise posix compliant waitpid
* implementations won't work right.
*/
for (;;)
{
struct sigaction saOld;
rc = sigaction(SIGCHLD, 0, &saOld); AssertMsg(rc == 0, ("%d/%d\n", rc, errno));
if ( rc != 0
|| (saOld.sa_flags & SA_SIGINFO)
|| ( saOld.sa_handler != SIG_IGN
&& saOld.sa_handler != SIG_DFL)
)
break;
/* Try install dummy handler. */
struct sigaction saNew = saOld;
saNew.sa_flags = SA_NOCLDSTOP | SA_RESTART;
saNew.sa_handler = rtR3SigChildHandler;
rc = sigemptyset(&saNew.sa_mask); AssertMsg(rc == 0, ("%d/%d\n", rc, errno));
struct sigaction saOld2;
rc = sigaction(SIGCHLD, &saNew, &saOld2); AssertMsg(rc == 0, ("%d/%d\n", rc, errno));
if ( rc != 0
|| ( saOld2.sa_handler == saOld.sa_handler
&& !(saOld2.sa_flags & SA_SIGINFO))
)
break;
/* Race during dynamic load, restore and try again... */
sigaction(SIGCHLD, &saOld2, NULL);
RTThreadYield();
}
#endif /* IPRT_USE_SIG_CHILD_DUMMY */
#ifdef IPRT_WITH_ALIGNMENT_CHECKS
/*
* Enable alignment checks.
*/
const char *pszAlignmentChecks = getenv("IPRT_ALIGNMENT_CHECKS");
g_fRTAlignmentChecks = pszAlignmentChecks != NULL
&& pszAlignmentChecks[0] == '1'
&& pszAlignmentChecks[1] == '\0';
if (g_fRTAlignmentChecks)
IPRT_ALIGNMENT_CHECKS_ENABLE();
#endif
/*
* Final native initialization.
*/
rc = rtR3InitNativeFinal(fFlags);
AssertMsgRCReturn(rc, ("rtR3InitNativeFinal failed with %Rrc\n", rc), rc);
return VINF_SUCCESS;
}
/**
* Internal initialization worker.
*
* @returns IPRT status code.
* @param fFlags Flags, see RTR3INIT_XXX.
* @param cArgs Pointer to the argument count.
* @param ppapszArgs Pointer to the argument vector pointer. NULL
* allowed if @a cArgs is 0.
* @param pszProgramPath The program path. Pass NULL if we're to figure it
* out ourselves.
*/
static int rtR3Init(uint32_t fFlags, int cArgs, char ***ppapszArgs, const char *pszProgramPath)
{
/* no entry log flow, because prefixes and thread may freak out. */
Assert(!(fFlags & ~( RTR3INIT_FLAGS_DLL
| RTR3INIT_FLAGS_SUPLIB
| RTR3INIT_FLAGS_UNOBTRUSIVE
| RTR3INIT_FLAGS_UTF8_ARGV
| RTR3INIT_FLAGS_STANDALONE_APP)));
Assert(!(fFlags & RTR3INIT_FLAGS_DLL) || cArgs == 0);
/*
* Do reference counting, only initialize the first time around.
*
* We are ASSUMING that nobody will be able to race RTR3Init* calls when the
* first one, the real init, is running (second assertion).
*/
int32_t cUsers = ASMAtomicIncS32(&g_cUsers);
if (cUsers != 1)
{
AssertMsg(cUsers > 1, ("%d\n", cUsers));
Assert(!g_fInitializing);
#if !defined(IN_GUEST) && !defined(RT_NO_GIP)
if (fFlags & RTR3INIT_FLAGS_SUPLIB)
{
SUPR3Init(NULL);
g_fInitFlags |= RTR3INIT_FLAGS_SUPLIB;
}
#endif
g_fInitFlags |= fFlags & RTR3INIT_FLAGS_UTF8_ARGV;
if ( !(fFlags & RTR3INIT_FLAGS_UNOBTRUSIVE)
&& (g_fInitFlags & RTR3INIT_FLAGS_UNOBTRUSIVE))
{
g_fInitFlags &= ~RTR3INIT_FLAGS_UNOBTRUSIVE;
g_fInitFlags |= fFlags & RTR3INIT_FLAGS_STANDALONE_APP;
rtR3InitNativeObtrusive(g_fInitFlags | fFlags);
rtThreadReInitObtrusive();
}
else
Assert(!(fFlags & RTR3INIT_FLAGS_STANDALONE_APP) || (g_fInitFlags & RTR3INIT_FLAGS_STANDALONE_APP));
int rc = VINF_SUCCESS;
if (pszProgramPath)
rc = rtR3InitProgramPath(pszProgramPath);
if (RT_SUCCESS(rc))
rc = rtR3InitArgv(fFlags, cArgs, ppapszArgs);
return rc;
}
ASMAtomicWriteBool(&g_fInitializing, true);
/*
* Do the initialization.
*/
int rc = rtR3InitBody(fFlags, cArgs, ppapszArgs, pszProgramPath);
if (RT_FAILURE(rc))
{
/* failure */
ASMAtomicWriteBool(&g_fInitializing, false);
ASMAtomicDecS32(&g_cUsers);
return rc;
}
/* success */
LogFlow(("rtR3Init: returns VINF_SUCCESS\n"));
ASMAtomicWriteBool(&g_fInitializing, false);
return VINF_SUCCESS;
}
RTR3DECL(int) RTR3InitExe(int cArgs, char ***ppapszArgs, uint32_t fFlags)
{
Assert(!(fFlags & RTR3INIT_FLAGS_DLL));
return rtR3Init(fFlags, cArgs, ppapszArgs, NULL);
}
RTR3DECL(int) RTR3InitExeNoArguments(uint32_t fFlags)
{
Assert(!(fFlags & RTR3INIT_FLAGS_DLL));
return rtR3Init(fFlags, 0, NULL, NULL);
}
RTR3DECL(int) RTR3InitDll(uint32_t fFlags)
{
Assert(!(fFlags & RTR3INIT_FLAGS_DLL));
return rtR3Init(fFlags | RTR3INIT_FLAGS_DLL, 0, NULL, NULL);
}
RTR3DECL(int) RTR3InitEx(uint32_t iVersion, uint32_t fFlags, int cArgs, char ***ppapszArgs, const char *pszProgramPath)
{
AssertReturn(iVersion == RTR3INIT_VER_CUR, VERR_NOT_SUPPORTED);
return rtR3Init(fFlags, cArgs, ppapszArgs, pszProgramPath);
}
RTR3DECL(bool) RTR3InitIsInitialized(void)
{
return g_cUsers >= 1 && !g_fInitializing;
}
RTR3DECL(bool) RTR3InitIsUnobtrusive(void)
{
return RT_BOOL(g_fInitFlags & RTR3INIT_FLAGS_UNOBTRUSIVE);
}
#if 0 /** @todo implement RTR3Term. */
RTR3DECL(void) RTR3Term(void)
{
}
#endif
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