Beispiel #1
0
/*
 * Compute the name of the executable
 *
 * In order to re-exec securely we need the absolute path of the
 * executable. On Solaris getexecname(3c) may not return an absolute
 * path so we use dladdr to get the filename of the executable and
 * then use realpath to derive an absolute path. From Solaris 9
 * onwards the filename returned in DL_info structure from dladdr is
 * an absolute pathname so technically realpath isn't required.
 * On Linux we read the executable name from /proc/self/exe.
 * As a fallback, and for platforms other than Solaris and Linux,
 * we use FindExecName to compute the executable name.
 */
const char*
SetExecname(char **argv)
{
    char* exec_path = NULL;
    {
        Dl_info dlinfo;
        int (*fptr)();

        fptr = (int (*)())dlsym(RTLD_DEFAULT, "main");
        if (fptr == NULL) {
            JLI_ReportErrorMessage(DLL_ERROR3, dlerror());
            return JNI_FALSE;
        }

        if (dladdr((void*)fptr, &dlinfo)) {
            char *resolved = (char*)JLI_MemAlloc(PATH_MAX+1);
            if (resolved != NULL) {
                exec_path = realpath(dlinfo.dli_fname, resolved);
                if (exec_path == NULL) {
                    JLI_MemFree(resolved);
                }
            }
        }
    }
    if (exec_path == NULL) {
        exec_path = FindExecName(argv[0]);
    }
    execname = exec_path;
    return exec_path;
}
Beispiel #2
0
/*
 * 从给定目录中搜索与指定版本最匹配的jre安装路径
 */
static char *ProcessDir(manifest_info *info, char *dirname)
{
    DIR     *dirp;
    struct dirent *dp;
    char    *best = NULL;
    int     offset;
    int     best_offset = 0;
    char    *ret_str = NULL;
    char    buffer[PATH_MAX];

    printf("%s[%d] [tid: %lu]: 开始从目录[%]中搜索安装的最佳jre版本...\n", __FILE__, __LINE__, pthread_self(), dirname);

    if ((dirp = opendir(dirname)) == NULL)
        return (NULL);

    do {
        if ((dp = readdir(dirp)) != NULL) {
            offset = 0;
            if ((JLI_StrNCmp(dp->d_name, "jre", 3) == 0) ||
                (JLI_StrNCmp(dp->d_name, "jdk", 3) == 0))
                offset = 3;
            else if (JLI_StrNCmp(dp->d_name, "j2re", 4) == 0)
                offset = 4;
            else if (JLI_StrNCmp(dp->d_name, "j2sdk", 5) == 0)
                offset = 5;

            if (offset > 0) {
                if ((JLI_AcceptableRelease(dp->d_name + offset,
                    info->jre_version)) && CheckSanity(dirname, dp->d_name)){

                    if ((best == NULL) || (JLI_ExactVersionId(
                      dp->d_name + offset, best + best_offset) > 0)) {
                        if (best != NULL)
                            JLI_MemFree(best);
                        best = JLI_StringDup(dp->d_name);
                        best_offset = offset;
                    }
                }
            }
        }

    } while (dp != NULL);

    (void) closedir(dirp);

    if (best == NULL){
    	printf("%s[%d] [tid: %lu]: 目录[%]中没有找到合适的jre版本...\n", __FILE__, __LINE__, pthread_self(), dirname);

        return (NULL);
    }
    else {
        ret_str = JLI_MemAlloc(JLI_StrLen(dirname) + JLI_StrLen(best) + 2);
        sprintf(ret_str, "%s/%s", dirname, best);
        JLI_MemFree(best);

        printf("%s[%d] [tid: %lu]: 搜索到最合适的jre版本: %s...\n", __FILE__, __LINE__, pthread_self(), ret_str);

        return (ret_str);
    }
}
Beispiel #3
0
/*
 * Local helper routine to return a string equivalent to the input string
 * s, but with quotes removed so the result is a string as would be found
 * in argv[].  The returned string should be freed by a call to JLI_MemFree().
 *
 * The rules for quoting (and escaped quotes) are:
 *
 *  1 A double quotation mark preceded by a backslash, \", is interpreted as a
 *    literal double quotation mark (").
 *
 *  2 Backslashes are interpreted literally, unless they immediately precede a
 *    double quotation mark.
 *
 *  3 If an even number of backslashes is followed by a double quotation mark,
 *    then one backslash (\) is placed in the argv array for every pair of
 *    backslashes (\\), and the double quotation mark (") is interpreted as a
 *    string delimiter.
 *
 *  4 If an odd number of backslashes is followed by a double quotation mark,
 *    then one backslash (\) is placed in the argv array for every pair of
 *    backslashes (\\) and the double quotation mark is interpreted as an
 *    escape sequence by the remaining backslash, causing a literal double
 *    quotation mark (") to be placed in argv.
 */
static char*
unquote(const char *s) {
    const char *p = s;          /* Pointer to the tail of the original string */
    char *un = (char*)JLI_MemAlloc(strlen(s) + 1);  /* Ptr to unquoted string */
    char *pun = un;             /* Pointer to the tail of the unquoted string */

    while (*p != '\0') {
        if (*p == '"') {
            p++;
        } else if (*p == '\\') {
            const char *q = p + strspn(p,"\\");
            if (*q == '"')
                do {
                    *pun++ = '\\';
                    p += 2;
                 } while (*p == '\\' && p < q);
            else
                while (p < q)
                    *pun++ = *p++;
        } else {
            *pun++ = *p++;
        }
    }
    *pun = '\0';
    return un;
}
Beispiel #4
0
void
CreateExecutionEnvironment(int *_argc,
                           char ***_argv,
                           char jrepath[],
                           jint so_jrepath,
                           char jvmpath[],
                           jint so_jvmpath,
                           char **original_argv) {
    char * jvmtype;
    int i = 0;
    char** pargv = *_argv;
    int running = CURRENT_DATA_MODEL;

    int wanted = running;

    for (i = 0; i < *_argc ; i++) {
        if (strcmp(pargv[i], "-J-d64") == 0 || strcmp(pargv[i], "-d64") == 0) {
            wanted = 64;
            continue;
        }
        if (strcmp(pargv[i], "-J-d32") == 0 || strcmp(pargv[i], "-d32") == 0) {
            wanted = 32;
            continue;
        }
    }
    if (running != wanted) {
        fprintf(stderr, "This Java instance does not support a %d-bit JVM.\nPlease install the desired version.\n", wanted);
        exit(1);
    }

    /* Find out where the JRE is that we will be using. */
    if (!GetJREPath(jrepath, so_jrepath)) {
        ReportErrorMessage("Error: could not find Java 2 Runtime Environment.",
                           JNI_TRUE);
        exit(2);
    }

    /* Find the specified JVM type */
    if (ReadKnownVMs(jrepath, (char*)GetArch(), JNI_FALSE) < 1) {
        ReportErrorMessage("Error: no known VMs. (check for corrupt jvm.cfg file)",
                           JNI_TRUE);
        exit(1);
    }
    jvmtype = CheckJvmType(_argc, _argv, JNI_FALSE);

    jvmpath[0] = '\0';
    if (!GetJVMPath(jrepath, jvmtype, jvmpath, so_jvmpath)) {
        char * message=NULL;
        const char * format = "Error: no `%s' JVM at `%s'.";
        message = (char *)JLI_MemAlloc((strlen(format)+strlen(jvmtype)+
                                    strlen(jvmpath)) * sizeof(char));
        sprintf(message,format, jvmtype, jvmpath);
        ReportErrorMessage(message, JNI_TRUE);
        exit(4);
    }
    /* If we got here, jvmpath has been correctly initialized. */

}
Beispiel #5
0
void SetJavaLauncherPlatformProps() {
   /* Linux only */
#ifdef __linux__
    const char *substr = "-Dsun.java.launcher.pid=";
    char *pid_prop_str = (char *)JLI_MemAlloc(JLI_StrLen(substr) + MAX_PID_STR_SZ + 1);
    sprintf(pid_prop_str, "%s%d", substr, getpid());
    AddOption(pid_prop_str, NULL);
#endif
}
Beispiel #6
0
static FileList
FileList_new(int capacity)
{
    FileList fl = NEW_(FileList);
    fl->capacity = capacity;
    fl->files = (char **) JLI_MemAlloc(capacity * sizeof(fl->files[0]));
    fl->size = 0;
    return fl;
}
Beispiel #7
0
static void
FileList_addSubstring(FileList fl, const char *beg, int len)
{
    char *filename = (char *) JLI_MemAlloc(len+1);
    memcpy(filename, beg, len);
    filename[len] = '\0';
    FileList_ensureCapacity(fl, fl->size+1);
    fl->files[fl->size++] = filename;
}
Beispiel #8
0
/*
 * Wrapper for platform dependent unsetenv function.
 */
int
UnsetEnv(char *name)
{
    int ret;
    char *buf = JLI_MemAlloc(JLI_StrLen(name) + 2);
    buf = JLI_StrCat(JLI_StrCpy(buf, name), "=");
    ret = _putenv(buf);
    JLI_MemFree(buf);
    return (ret);
}
Beispiel #9
0
/*
 * Wrapper for platform dependent unsetenv function.
 */
int
UnsetEnv(char *name)
{
    int ret;
    char *buf = JLI_MemAlloc(strlen(name) + 2);
    buf = strcat(strcpy(buf, name), "=");
    ret = _putenv(buf);
    JLI_MemFree(buf);
    return (ret);
}
Beispiel #10
0
static char *
wildcardConcat(const char *wildcard, const char *basename)
{
    int wildlen = (int)JLI_StrLen(wildcard);
    int baselen = (int)JLI_StrLen(basename);
    char *filename = (char *) JLI_MemAlloc(wildlen + baselen);
    /* Replace the trailing '*' with basename */
    memcpy(filename, wildcard, wildlen-1);
    memcpy(filename+wildlen-1, basename, baselen+1);
    return filename;
}
Beispiel #11
0
int WINAPI
WinMain(HINSTANCE inst, HINSTANCE previnst, LPSTR cmdline, int cmdshow)
{
    int margc;
    char** margv;
    const jboolean const_javaw = JNI_TRUE;

    __initenv = _environ;

#else /* JAVAW */
int
main(int argc, char **argv)
{
    int margc;
    char** margv;
    const jboolean const_javaw = JNI_FALSE;
#endif /* JAVAW */
#ifdef _WIN32
    {
        int i = 0;
        if (getenv(JLDEBUG_ENV_ENTRY) != NULL) {
            printf("Windows original main args:\n");
            for (i = 0 ; i < __argc ; i++) {
                printf("wwwd_args[%d] = %s\n", i, __argv[i]);
            }
        }
    }
    JLI_CmdToArgs(GetCommandLine());
    margc = JLI_GetStdArgc();
    // add one more to mark the end
    margv = (char **)JLI_MemAlloc((margc + 1) * (sizeof(char *)));
    {
        int i = 0;
        StdArg *stdargs = JLI_GetStdArgs();
        for (i = 0 ; i < margc ; i++) {
            margv[i] = stdargs[i].arg;
        }
        margv[i] = NULL;
    }
#else /* *NIXES */
    margc = argc;
    margv = argv;
#endif /* WIN32 */
    return JLI_Launch(margc, margv,
                      sizeof(const_jargs) / sizeof(char *), const_jargs,
                      sizeof(const_appclasspath) / sizeof(char *), const_appclasspath,
                      FULL_VERSION,
                      DOT_VERSION,
                      (const_progname != NULL) ? const_progname : *margv,
                      (const_launcher != NULL) ? const_launcher : *margv,
                      (const_jargs != NULL) ? JNI_TRUE : JNI_FALSE,
                      const_cpwildcard, const_javaw, const_ergo_class);
}
Beispiel #12
0
/*
 * Find a command in a directory, returning the path.
 */
static char *
Resolve(char *indir, char *cmd)
{
    char name[PATH_MAX + 2], *real;

    if ((JLI_StrLen(indir) + JLI_StrLen(cmd) + 1)  > PATH_MAX) return 0;
    JLI_Snprintf(name, sizeof(name), "%s%c%s", indir, FILE_SEPARATOR, cmd);
    if (!ProgramExists(name)) return 0;
    real = JLI_MemAlloc(PATH_MAX + 2);
    if (!realpath(name, real))
        JLI_StrCpy(real, name);
    return real;
}
Beispiel #13
0
/*
 * As ReportErrorMessage2 (above) except the system message (if any)
 * associated with this error is written to a second %s format specifier
 * in the format argument.
 */
void ReportSysErrorMessage2(char * format, char * string, jboolean always) {
  int   save_errno = errno;
  DWORD errval;
  int   freeit = 0;
  char  *errtext = NULL;

  if ((errval = GetLastError()) != 0) {         /* Platform SDK / DOS Error */
    int n = FormatMessage(FORMAT_MESSAGE_FROM_SYSTEM|
      FORMAT_MESSAGE_IGNORE_INSERTS|FORMAT_MESSAGE_ALLOCATE_BUFFER,
      NULL, errval, 0, (LPTSTR)&errtext, 0, NULL);
    if (errtext == NULL || n == 0) {            /* Paranoia check */
      errtext = "";
      n = 0;
    } else {
      freeit = 1;
      if (n > 2) {                              /* Drop final CR, LF */
        if (errtext[n - 1] == '\n') n--;
        if (errtext[n - 1] == '\r') n--;
        errtext[n] = '\0';
      }
    }
  } else        /* C runtime error that has no corresponding DOS error code */
    errtext = strerror(save_errno);

#ifdef JAVAW
  {
    size_t size;
    char * message;
    size = strlen(format) + strlen(string) + strlen(errtext);
    message = (char*)JLI_MemAlloc(size*sizeof(char));
    sprintf(message, (const char *)format, string, errtext);

    if (message != NULL) {
      MessageBox(NULL, message, "Java Virtual Machine Launcher",
               (MB_OK|MB_ICONSTOP|MB_APPLMODAL));
      JLI_MemFree(message);
    }
  }
#else
  if (always) {
    fprintf(stderr, (const char *)format, string, errtext);
    fprintf(stderr, "\n");
  }
#endif
  if (freeit)
    (void)LocalFree((HLOCAL)errtext);
}
Beispiel #14
0
/*
 * Compute the name of the executable
 *
 * In order to re-exec securely we need the absolute path of the
 * executable. On Solaris getexecname(3c) may not return an absolute
 * path so we use dladdr to get the filename of the executable and
 * then use realpath to derive an absolute path. From Solaris 9
 * onwards the filename returned in DL_info structure from dladdr is
 * an absolute pathname so technically realpath isn't required.
 * On Linux we read the executable name from /proc/self/exe.
 * As a fallback, and for platforms other than Solaris and Linux,
 * we use FindExecName to compute the executable name.
 */
static const char*
SetExecname(char **argv)
{
    char* exec_path = NULL;
#if defined(__solaris__)
    {
        Dl_info dlinfo;
        int (*fptr)();

        fptr = (int (*)())dlsym(RTLD_DEFAULT, "main");
        if (fptr == NULL) {
            JLI_ReportErrorMessage(DLL_ERROR3, dlerror());
            return JNI_FALSE;
        }

        if (dladdr((void*)fptr, &dlinfo)) {
            char *resolved = (char*)JLI_MemAlloc(PATH_MAX+1);
            if (resolved != NULL) {
                exec_path = realpath(dlinfo.dli_fname, resolved);
                if (exec_path == NULL) {
                    JLI_MemFree(resolved);
                }
            }
        }
    }
#elif defined(__linux__)
    {
        const char* self = "/proc/self/exe";
        char buf[PATH_MAX+1];
        int len = readlink(self, buf, PATH_MAX);
        if (len >= 0) {
            buf[len] = '\0';            /* readlink doesn't nul terminate */
            exec_path = JLI_StringDup(buf);
        }
    }
#else /* !__solaris__ && !__linux */
    {
        /* Not implemented */
    }
#endif

    if (exec_path == NULL) {
        exec_path = FindExecName(argv[0]);
    }
    execname = exec_path;
    return exec_path;
}
Beispiel #15
0
/*
 *  搜索指定的jre环境
 */
char* LocateJRE(manifest_info* info)
{
    char        *path;
    char        *home;
    char        *target = NULL;
    char        *dp;
    char        *cp;

    /*
     * Start by getting JAVA_VERSION_PATH
     */
    if (info->jre_restrict_search) {
        path = JLI_StringDup(system_dir);
    } else if ((path = getenv("JAVA_VERSION_PATH")) != NULL) {
        path = JLI_StringDup(path);
    } else {
        if ((home = getenv("HOME")) != NULL) {
            path = (char *)JLI_MemAlloc(JLI_StrLen(home) + \
                        JLI_StrLen(system_dir) + JLI_StrLen(user_dir) + 2);
            sprintf(path, "%s%s:%s", home, user_dir, system_dir);
        } else {
            path = JLI_StringDup(system_dir);
        }
    }

    /*
     * Step through each directory on the path. Terminate the scan with
     * the first directory with an acceptable JRE.
     */
    cp = dp = path;
    while (dp != NULL) {
        cp = JLI_StrChr(dp, (int)':');
        if (cp != NULL)
            *cp = '\0';

        if ((target = ProcessDir(info, dp)) != NULL)
            break;

        dp = cp;
        if (dp != NULL)
            dp++;
    }
    JLI_MemFree(path);
    return (target);
}
Beispiel #16
0
/*
 * Find a path for the executable
 */
char *
FindExecName(char *program)
{
    char cwdbuf[PATH_MAX+2];
    char *path;
    char *tmp_path;
    char *f;
    char *result = NULL;

    /* absolute path? */
    if (*program == FILE_SEPARATOR ||
        (FILE_SEPARATOR=='\\' && JLI_StrRChr(program, ':')))
        return Resolve("", program+1);

    /* relative path? */
    if (JLI_StrRChr(program, FILE_SEPARATOR) != 0) {
        char buf[PATH_MAX+2];
        return Resolve(getcwd(cwdbuf, sizeof(cwdbuf)), program);
    }

    /* from search path? */
    path = getenv("PATH");
    if (!path || !*path) path = ".";
    tmp_path = JLI_MemAlloc(JLI_StrLen(path) + 2);
    JLI_StrCpy(tmp_path, path);

    for (f=tmp_path; *f && result==0; ) {
        char *s = f;
        while (*f && (*f != PATH_SEPARATOR)) ++f;
        if (*f) *f++ = 0;
        if (*s == FILE_SEPARATOR)
            result = Resolve(s, program);
        else {
            /* relative path element */
            char dir[2*PATH_MAX];
            JLI_Snprintf(dir, sizeof(dir), "%s%c%s", getcwd(cwdbuf, sizeof(cwdbuf)),
                    FILE_SEPARATOR, s);
            result = Resolve(dir, program);
        }
        if (result != 0) break;
    }

    JLI_MemFree(tmp_path);
    return result;
}
Beispiel #17
0
static char *
FileList_join(FileList fl, char sep)
{
    int i;
    int size;
    char *path;
    char *p;
    for (i = 0, size = 1; i < fl->size; i++)
        size += (int)JLI_StrLen(fl->files[i]) + 1;

    path = JLI_MemAlloc(size);

    for (i = 0, p = path; i < fl->size; i++) {
        int len = (int)JLI_StrLen(fl->files[i]);
        if (i > 0) *p++ = sep;
        memcpy(p, fl->files[i], len);
        p += len;
    }
    *p = '\0';

    return path;
}
Beispiel #18
0
void
JLI_ReportErrorMessage(const char* fmt, ...) {
    va_list vl;
    va_start(vl,fmt);

    if (IsJavaw()) {
        char *message;

        /* get the length of the string we need */
        int n = _vscprintf(fmt, vl);

        message = (char *)JLI_MemAlloc(n + 1);
        _vsnprintf(message, n, fmt, vl);
        message[n]='\0';
        MessageBox(NULL, message, "Java Virtual Machine Launcher",
            (MB_OK|MB_ICONSTOP|MB_APPLMODAL));
        JLI_MemFree(message);
    } else {
        vfprintf(stderr, fmt, vl);
        fprintf(stderr, "\n");
    }
    va_end(vl);
}
Beispiel #19
0
void ReportErrorMessage2(char * format, char * string, jboolean always) {
  /*
   * The format argument must be a printf format string with one %s
   * argument, which is passed the string argument.
   */
#ifdef JAVAW
  size_t size;
  char * message;
  size = strlen(format) + strlen(string);
  message = (char*)JLI_MemAlloc(size*sizeof(char));
  sprintf(message, (const char *)format, string);

  if (message != NULL) {
    MessageBox(NULL, message, "Java Virtual Machine Launcher",
               (MB_OK|MB_ICONSTOP|MB_APPLMODAL));
    JLI_MemFree(message);
  }
#else
  if (always) {
    fprintf(stderr, (const char *)format, string);
    fprintf(stderr, "\n");
  }
#endif
}
Beispiel #20
0
/*
 * At this point we have the arguments to the application, and we need to
 * check with original stdargs in order to compare which of these truly
 * needs expansion. cmdtoargs will specify this if it finds a bare
 * (unquoted) argument containing a glob character(s) ie. * or ?
 */
jobjectArray
CreateApplicationArgs(JNIEnv *env, char **strv, int argc)
{
    int i, j, idx, tlen;
    jobjectArray outArray, inArray;
    char *ostart, *astart, **nargv;
    jboolean needs_expansion = JNI_FALSE;
    jmethodID mid;
    int stdargc;
    StdArg *stdargs;
    jclass cls = GetLauncherHelperClass(env);
    NULL_CHECK0(cls);

    if (argc == 0) {
        return NewPlatformStringArray(env, strv, argc);
    }
    // the holy grail we need to compare with.
    stdargs = JLI_GetStdArgs();
    stdargc = JLI_GetStdArgc();

    // sanity check, this should never happen
    if (argc > stdargc) {
        JLI_TraceLauncher("Warning: app args is larger than the original, %d %d\n", argc, stdargc);
        JLI_TraceLauncher("passing arguments as-is.\n");
        return NewPlatformStringArray(env, strv, argc);
    }

    // sanity check, match the args we have, to the holy grail
    idx = stdargc - argc;
    ostart = stdargs[idx].arg;
    astart = strv[0];
    // sanity check, ensure that the first argument of the arrays are the same
    if (JLI_StrCmp(ostart, astart) != 0) {
        // some thing is amiss the args don't match
        JLI_TraceLauncher("Warning: app args parsing error\n");
        JLI_TraceLauncher("passing arguments as-is\n");
        return NewPlatformStringArray(env, strv, argc);
    }

    // make a copy of the args which will be expanded in java if required.
    nargv = (char **)JLI_MemAlloc(argc * sizeof(char*));
    for (i = 0, j = idx; i < argc; i++, j++) {
        jboolean arg_expand = (JLI_StrCmp(stdargs[j].arg, strv[i]) == 0)
                                ? stdargs[j].has_wildcard
                                : JNI_FALSE;
        if (needs_expansion == JNI_FALSE)
            needs_expansion = arg_expand;

        // indicator char + String + NULL terminator, the java method will strip
        // out the first character, the indicator character, so no matter what
        // we add the indicator
        tlen = 1 + JLI_StrLen(strv[i]) + 1;
        nargv[i] = (char *) JLI_MemAlloc(tlen);
        if (JLI_Snprintf(nargv[i], tlen, "%c%s", arg_expand ? 'T' : 'F',
                         strv[i]) < 0) {
            return NULL;
        }
        JLI_TraceLauncher("%s\n", nargv[i]);
    }

    if (!needs_expansion) {
        // clean up any allocated memory and return back the old arguments
        for (i = 0 ; i < argc ; i++) {
            JLI_MemFree(nargv[i]);
        }
        JLI_MemFree(nargv);
        return NewPlatformStringArray(env, strv, argc);
    }
    NULL_CHECK0(mid = (*env)->GetStaticMethodID(env, cls,
                                                "expandArgs",
                                                "([Ljava/lang/String;)[Ljava/lang/String;"));

    // expand the arguments that require expansion, the java method will strip
    // out the indicator character.
    inArray = NewPlatformStringArray(env, nargv, argc);
    outArray = (*env)->CallStaticObjectMethod(env, cls, mid, inArray);
    for (i = 0; i < argc; i++) {
        JLI_MemFree(nargv[i]);
    }
    JLI_MemFree(nargv);
    return outArray;
}
Beispiel #21
0
void
CreateExecutionEnvironment(int *pargc, char ***pargv,
                           char jrepath[], jint so_jrepath,
                           char jvmpath[], jint so_jvmpath,
                           char jvmcfg[],  jint so_jvmcfg) {
  /*
   * First, determine if we are running the desired data model.  If we
   * are running the desired data model, all the error messages
   * associated with calling GetJREPath, ReadKnownVMs, etc. should be
   * output, otherwise we simply exit with an error, as we no longer
   * support dual data models.
   */
    jboolean jvmpathExists;

    /* Compute/set the name of the executable */
    SetExecname(*pargv);

    /* Check data model flags, and exec process, if needed */
    {
      char *arch        = LIBARCHNAME; /* like sparc or sparcv9 */
      char * jvmtype    = NULL;
      int  argc         = *pargc;
      char **argv       = *pargv;
      int running       = CURRENT_DATA_MODEL;
      /*
       * As of jdk9, there is no support for dual mode operations, however
       * for legacy error reporting purposes and until -d options are supported
       * we need this.
       */
      int wanted        = running;
#ifdef SETENV_REQUIRED
      jboolean mustsetenv = JNI_FALSE;
      char *runpath     = NULL; /* existing effective LD_LIBRARY_PATH setting */
      char* new_runpath = NULL; /* desired new LD_LIBRARY_PATH string */
      char* newpath     = NULL; /* path on new LD_LIBRARY_PATH */
      char* lastslash   = NULL;
      char** newenvp    = NULL; /* current environment */
      size_t new_runpath_size;
#ifdef __solaris__
      char*  dmpath     = NULL;  /* data model specific LD_LIBRARY_PATH,
                                    Solaris only */
#endif /* __solaris__ */
#endif  /* SETENV_REQUIRED */

      char** newargv    = NULL;
      int    newargc    = 0;

      /*
       * Starting in 1.5, all unix platforms accept the -d32 and -d64
       * options.  On platforms where only one data-model is supported
       * (e.g. ia-64 Linux), using the flag for the other data model is
       * an error and will terminate the program.
       */

      { /* open new scope to declare local variables */
        int i;

        newargv = (char **)JLI_MemAlloc((argc+1) * sizeof(char*));
        newargv[newargc++] = argv[0];

        /* scan for data model arguments and remove from argument list;
           last occurrence determines desired data model */
        for (i=1; i < argc; i++) {

          if (JLI_StrCmp(argv[i], "-J-d64") == 0 || JLI_StrCmp(argv[i], "-d64") == 0) {
            wanted = 64;
            continue;
          }
          if (JLI_StrCmp(argv[i], "-J-d32") == 0 || JLI_StrCmp(argv[i], "-d32") == 0) {
            wanted = 32;
            continue;
          }
          newargv[newargc++] = argv[i];

          if (IsJavaArgs()) {
            if (argv[i][0] != '-') continue;
          } else {
            if (JLI_StrCmp(argv[i], "-classpath") == 0 || JLI_StrCmp(argv[i], "-cp") == 0) {
              i++;
              if (i >= argc) break;
              newargv[newargc++] = argv[i];
              continue;
            }
            if (argv[i][0] != '-') { i++; break; }
          }
        }

        /* copy rest of args [i .. argc) */
        while (i < argc) {
          newargv[newargc++] = argv[i++];
        }
        newargv[newargc] = NULL;

        /*
         * newargv has all proper arguments here
         */

        argc = newargc;
        argv = newargv;
      }

      /* If the data model is not changing, it is an error if the
         jvmpath does not exist */
      if (wanted == running) {
        /* Find out where the JRE is that we will be using. */
        if (!GetJREPath(jrepath, so_jrepath, arch, JNI_FALSE) ) {
          JLI_ReportErrorMessage(JRE_ERROR1);
          exit(2);
        }
        JLI_Snprintf(jvmcfg, so_jvmcfg, "%s%slib%s%s%sjvm.cfg",
                     jrepath, FILESEP, FILESEP,  arch, FILESEP);
        /* Find the specified JVM type */
        if (ReadKnownVMs(jvmcfg, JNI_FALSE) < 1) {
          JLI_ReportErrorMessage(CFG_ERROR7);
          exit(1);
        }

        jvmpath[0] = '\0';
        jvmtype = CheckJvmType(pargc, pargv, JNI_FALSE);
        if (JLI_StrCmp(jvmtype, "ERROR") == 0) {
            JLI_ReportErrorMessage(CFG_ERROR9);
            exit(4);
        }

        if (!GetJVMPath(jrepath, jvmtype, jvmpath, so_jvmpath, arch, 0 )) {
          JLI_ReportErrorMessage(CFG_ERROR8, jvmtype, jvmpath);
          exit(4);
        }
        /*
         * we seem to have everything we need, so without further ado
         * we return back, otherwise proceed to set the environment.
         */
#ifdef SETENV_REQUIRED
        mustsetenv = RequiresSetenv(jvmpath);
        JLI_TraceLauncher("mustsetenv: %s\n", mustsetenv ? "TRUE" : "FALSE");

        if (mustsetenv == JNI_FALSE) {
            JLI_MemFree(newargv);
            return;
        }
#else
            JLI_MemFree(newargv);
            return;
#endif /* SETENV_REQUIRED */
    } else {  /* do the same speculatively or exit */
        JLI_ReportErrorMessage(JRE_ERROR2, wanted);
        exit(1);
    }
#ifdef SETENV_REQUIRED
        if (mustsetenv) {
            /*
             * We will set the LD_LIBRARY_PATH as follows:
             *
             *     o          $JVMPATH (directory portion only)
             *     o          $JRE/lib/$LIBARCHNAME
             *     o          $JRE/../lib/$LIBARCHNAME
             *
             * followed by the user's previous effective LD_LIBRARY_PATH, if
             * any.
             */

#ifdef __solaris__
            /*
             * Starting in Solaris 7, ld.so.1 supports three LD_LIBRARY_PATH
             * variables:
             *
             * 1. LD_LIBRARY_PATH -- used for 32 and 64 bit searches if
             * data-model specific variables are not set.
             *
             * 2. LD_LIBRARY_PATH_64 -- overrides and replaces LD_LIBRARY_PATH
             * for 64-bit binaries.
             * The vm uses LD_LIBRARY_PATH to set the java.library.path system
             * property.  To shield the vm from the complication of multiple
             * LD_LIBRARY_PATH variables, if the appropriate data model
             * specific variable is set, we will act as if LD_LIBRARY_PATH had
             * the value of the data model specific variant and the data model
             * specific variant will be unset.  Note that the variable for the
             * *wanted* data model must be used (if it is set), not simply the
             * current running data model.
             */

            switch (wanted) {
                case 0:
                case 64:
                    dmpath = getenv("LD_LIBRARY_PATH_64");
                    wanted = 64;
                    break;

                default:
                    JLI_ReportErrorMessage(JRE_ERROR3, __LINE__);
                    exit(1); /* unknown value in wanted */
                    break;
            }

            /*
             * If dmpath is NULL, the relevant data model specific variable is
             * not set and normal LD_LIBRARY_PATH should be used.
             */
            if (dmpath == NULL) {
                runpath = getenv("LD_LIBRARY_PATH");
            } else {
                runpath = dmpath;
            }
#else /* ! __solaris__ */
            /*
             * If not on Solaris, assume only a single LD_LIBRARY_PATH
             * variable.
             */
            runpath = getenv(LD_LIBRARY_PATH);
#endif /* __solaris__ */

            /* runpath contains current effective LD_LIBRARY_PATH setting */

            jvmpath = JLI_StringDup(jvmpath);
            new_runpath_size = ((runpath != NULL) ? JLI_StrLen(runpath) : 0) +
                    2 * JLI_StrLen(jrepath) + 2 * JLI_StrLen(arch) +
#ifdef AIX
                    /* On AIX we additionally need 'jli' in the path because ld doesn't support $ORIGIN. */
                    JLI_StrLen(jrepath) + JLI_StrLen(arch) + JLI_StrLen("/lib//jli:") +
#endif
                    JLI_StrLen(jvmpath) + 52;
            new_runpath = JLI_MemAlloc(new_runpath_size);
            newpath = new_runpath + JLI_StrLen(LD_LIBRARY_PATH "=");


            /*
             * Create desired LD_LIBRARY_PATH value for target data model.
             */
            {
                /* remove the name of the .so from the JVM path */
                lastslash = JLI_StrRChr(jvmpath, '/');
                if (lastslash)
                    *lastslash = '\0';

                sprintf(new_runpath, LD_LIBRARY_PATH "="
                        "%s:"
                        "%s/lib/%s:"
#ifdef AIX
                        "%s/lib/%s/jli:" /* Needed on AIX because ld doesn't support $ORIGIN. */
#endif
                        "%s/../lib/%s",
                        jvmpath,
                        jrepath, arch,
#ifdef AIX
                        jrepath, arch,
#endif
                        jrepath, arch
                        );


                /*
                 * Check to make sure that the prefix of the current path is the
                 * desired environment variable setting, though the RequiresSetenv
                 * checks if the desired runpath exists, this logic does a more
                 * comprehensive check.
                 */
                if (runpath != NULL &&
                        JLI_StrNCmp(newpath, runpath, JLI_StrLen(newpath)) == 0 &&
                        (runpath[JLI_StrLen(newpath)] == 0 || runpath[JLI_StrLen(newpath)] == ':') &&
                        (running == wanted) /* data model does not have to be changed */
#ifdef __solaris__
                        && (dmpath == NULL) /* data model specific variables not set  */
#endif /* __solaris__ */
                        ) {
                    JLI_MemFree(newargv);
                    JLI_MemFree(new_runpath);
                    return;
                }
            }

            /*
             * Place the desired environment setting onto the prefix of
             * LD_LIBRARY_PATH.  Note that this prevents any possible infinite
             * loop of execv() because we test for the prefix, above.
             */
            if (runpath != 0) {
                /* ensure storage for runpath + colon + NULL */
                if ((JLI_StrLen(runpath) + 1 + 1) > new_runpath_size) {
                    JLI_ReportErrorMessageSys(JRE_ERROR11);
                    exit(1);
                }
                JLI_StrCat(new_runpath, ":");
                JLI_StrCat(new_runpath, runpath);
            }

            if (putenv(new_runpath) != 0) {
                exit(1); /* problem allocating memory; LD_LIBRARY_PATH not set
                    properly */
            }

            /*
             * Unix systems document that they look at LD_LIBRARY_PATH only
             * once at startup, so we have to re-exec the current executable
             * to get the changed environment variable to have an effect.
             */

#ifdef __solaris__
            /*
             * If dmpath is not NULL, remove the data model specific string
             * in the environment for the exec'ed child.
             */
            if (dmpath != NULL)
                (void)UnsetEnv("LD_LIBRARY_PATH_64");
#endif /* __solaris */

            newenvp = environ;
        }
#endif /* SETENV_REQUIRED */
        {
            char *newexec = execname;
            JLI_TraceLauncher("TRACER_MARKER:About to EXEC\n");
            (void) fflush(stdout);
            (void) fflush(stderr);
#ifdef SETENV_REQUIRED
            if (mustsetenv) {
                execve(newexec, argv, newenvp);
            } else {
                execv(newexec, argv);
            }
#else /* !SETENV_REQUIRED */
            execv(newexec, argv);
#endif /* SETENV_REQUIRED */
            JLI_ReportErrorMessageSys(JRE_ERROR4, newexec);
        }
        exit(1);
    }
}
Beispiel #22
0
/*
 * At this point we have the arguments to the application, and we need to
 * check with original stdargs in order to compare which of these truly
 * needs expansion. cmdtoargs will specify this if it finds a bare
 * (unquoted) argument containing a glob character(s) ie. * or ?
 */
jobjectArray
CreateApplicationArgs(JNIEnv *env, char **strv, int argc)
{
    int i, j, idx;
    size_t tlen;
    jobjectArray outArray, inArray;
    char *arg, **nargv;
    jboolean needs_expansion = JNI_FALSE;
    jmethodID mid;
    int stdargc;
    StdArg *stdargs;
    int *appArgIdx;
    int isTool;
    jclass cls = GetLauncherHelperClass(env);
    NULL_CHECK0(cls);

    if (argc == 0) {
        return NewPlatformStringArray(env, strv, argc);
    }
    // the holy grail we need to compare with.
    stdargs = JLI_GetStdArgs();
    stdargc = JLI_GetStdArgc();

    // sanity check, this should never happen
    if (argc > stdargc) {
        JLI_TraceLauncher("Warning: app args is larger than the original, %d %d\n", argc, stdargc);
        JLI_TraceLauncher("passing arguments as-is.\n");
        return NewPlatformStringArray(env, strv, argc);
    }

    // sanity check, match the args we have, to the holy grail
    idx = JLI_GetAppArgIndex();
    isTool = (idx == 0);
    if (isTool) { idx++; } // skip tool name
    JLI_TraceLauncher("AppArgIndex: %d points to %s\n", idx, stdargs[idx].arg);

    appArgIdx = calloc(argc, sizeof(int));
    for (i = idx, j = 0; i < stdargc; i++) {
        if (isTool) { // filter -J used by tools to pass JVM options
            arg = stdargs[i].arg;
            if (arg[0] == '-' && arg[1] == 'J') {
                continue;
            }
        }
        appArgIdx[j++] = i;
    }
    // sanity check, ensure same number of arguments for application
    if (j != argc) {
        JLI_TraceLauncher("Warning: app args count doesn't match, %d %d\n", j, argc);
        JLI_TraceLauncher("passing arguments as-is.\n");
        JLI_MemFree(appArgIdx);
        return NewPlatformStringArray(env, strv, argc);
    }

    // make a copy of the args which will be expanded in java if required.
    nargv = (char **)JLI_MemAlloc(argc * sizeof(char*));
    for (i = 0; i < argc; i++) {
        jboolean arg_expand;
        j = appArgIdx[i];
        arg_expand = (JLI_StrCmp(stdargs[j].arg, strv[i]) == 0)
            ? stdargs[j].has_wildcard
            : JNI_FALSE;
        if (needs_expansion == JNI_FALSE)
            needs_expansion = arg_expand;

        // indicator char + String + NULL terminator, the java method will strip
        // out the first character, the indicator character, so no matter what
        // we add the indicator
        tlen = 1 + JLI_StrLen(strv[i]) + 1;
        nargv[i] = (char *) JLI_MemAlloc(tlen);
        if (JLI_Snprintf(nargv[i], tlen, "%c%s", arg_expand ? 'T' : 'F',
                         strv[i]) < 0) {
            return NULL;
        }
        JLI_TraceLauncher("%s\n", nargv[i]);
    }

    if (!needs_expansion) {
        // clean up any allocated memory and return back the old arguments
        for (i = 0 ; i < argc ; i++) {
            JLI_MemFree(nargv[i]);
        }
        JLI_MemFree(nargv);
        JLI_MemFree(appArgIdx);
        return NewPlatformStringArray(env, strv, argc);
    }
    NULL_CHECK0(mid = (*env)->GetStaticMethodID(env, cls,
                                                "expandArgs",
                                                "([Ljava/lang/String;)[Ljava/lang/String;"));

    // expand the arguments that require expansion, the java method will strip
    // out the indicator character.
    NULL_CHECK0(inArray = NewPlatformStringArray(env, nargv, argc));
    outArray = (*env)->CallStaticObjectMethod(env, cls, mid, inArray);
    for (i = 0; i < argc; i++) {
        JLI_MemFree(nargv[i]);
    }
    JLI_MemFree(nargv);
    JLI_MemFree(appArgIdx);
    return outArray;
}
Beispiel #23
0
void
CreateExecutionEnvironment(int *_argc,
                           char ***_argv,
                           char jrepath[],
                           jint so_jrepath,
                           char jvmpath[],
                           jint so_jvmpath,
                           char **original_argv) {
#ifndef GAMMA
   char * jvmtype;

    /* Find out where the JRE is that we will be using. */
    if (!GetJREPath(jrepath, so_jrepath)) {
        ReportErrorMessage("Error: could not find Java SE Runtime Environment.",
                           JNI_TRUE);
        exit(2);
    }

    /* Do this before we read jvm.cfg */
    EnsureJreInstallation(jrepath);

    /* Find the specified JVM type */
    if (ReadKnownVMs(jrepath, (char*)GetArch(), JNI_FALSE) < 1) {
        ReportErrorMessage("Error: no known VMs. (check for corrupt jvm.cfg file)",
                           JNI_TRUE);
        exit(1);
    }
    jvmtype = CheckJvmType(_argc, _argv, JNI_FALSE);

    jvmpath[0] = '\0';
    if (!GetJVMPath(jrepath, jvmtype, jvmpath, so_jvmpath)) {
        char * message=NULL;
        const char * format = "Error: no `%s' JVM at `%s'.";
        message = (char *)JLI_MemAlloc((strlen(format)+strlen(jvmtype)+
                                    strlen(jvmpath)) * sizeof(char));
        sprintf(message,format, jvmtype, jvmpath);
        ReportErrorMessage(message, JNI_TRUE);
        exit(4);
    }
    /* If we got here, jvmpath has been correctly initialized. */

#else  /* ifndef GAMMA */

    /*
     * gamma launcher is simpler in that it doesn't handle VM flavors, data
     * model, etc. Assuming everything is set-up correctly
     * all we need to do here is to return correct path names. See also
     * GetJVMPath() and GetApplicationHome().
     */

  {
    if (!GetJREPath(jrepath, so_jrepath) ) {
       ReportErrorMessage("Error: could not find Java SE Runtime Environment.",
                          JNI_TRUE);
       exit(2);
    }

    if (!GetJVMPath(jrepath, NULL, jvmpath, so_jvmpath)) {
       char * message=NULL;
       const char * format = "Error: no JVM at `%s'.";
       message = (char *)JLI_MemAlloc((strlen(format)+
                                       strlen(jvmpath)) * sizeof(char));
       sprintf(message, format, jvmpath);
       ReportErrorMessage(message, JNI_TRUE);
       exit(4);
    }
  }

#endif  /* ifndef GAMMA */

}
Beispiel #24
0
/*
 * Given a path to a jre to execute, this routine checks if this process
 * is indeed that jre.  If not, it exec's that jre.
 *
 * We want to actually check the paths rather than just the version string
 * built into the executable, so that given version specification will yield
 * the exact same Java environment, regardless of the version of the arbitrary
 * launcher we start with.
 */
void
ExecJRE(char *jre, char **argv) {
    int     len;
    char    *progname;
    char    path[MAXPATHLEN + 1];

    /*
     * Determine the executable we are building (or in the rare case, running).
     */
#ifdef JAVA_ARGS  /* javac, jar and friends. */
    progname = "java";
#else             /* java, oldjava, javaw and friends */
#ifdef PROGNAME
    progname = PROGNAME;
#else
    {
        char *s;
        progname = *argv;
        if ((s = strrchr(progname, FILE_SEPARATOR)) != 0) {
            progname = s + 1;
        }
    }
#endif /* PROGNAME */
#endif /* JAVA_ARGS */

    /*
     * Resolve the real path to the currently running launcher.
     */
    len = GetModuleFileName(NULL, path, MAXPATHLEN + 1);
    if (len == 0 || len > MAXPATHLEN) {
        ReportSysErrorMessage2(
          "Unable to resolve path to current %s executable: %s",
          progname, JNI_TRUE);
        exit(1);
    }

    if (_launcher_debug) {
        printf("ExecJRE: old: %s\n", path);
        printf("ExecJRE: new: %s\n", jre);
    }

    /*
     * If the path to the selected JRE directory is a match to the initial
     * portion of the path to the currently executing JRE, we have a winner!
     * If so, just return. (strnicmp() is the Windows equiv. of strncasecmp().)
     */
    if (strnicmp(jre, path, strlen(jre)) == 0)
        return;                 /* I am the droid you were looking for */

    /*
     * If this isn't the selected version, exec the selected version.
     */
    (void)strcat(strcat(strcpy(path, jre), "\\bin\\"), progname);
    (void)strcat(path, ".exe");

    /*
     * Although Windows has an execv() entrypoint, it doesn't actually
     * overlay a process: it can only create a new process and terminate
     * the old process.  Therefore, any processes waiting on the initial
     * process wake up and they shouldn't.  Hence, a chain of pseudo-zombie
     * processes must be retained to maintain the proper wait semantics.
     * Fortunately the image size of the launcher isn't too large at this
     * time.
     *
     * If it weren't for this semantic flaw, the code below would be ...
     *
     *     execv(path, argv);
     *     ReportErrorMessage2("Exec of %s failed\n", path, JNI_TRUE);
     *     exit(1);
     *
     * The incorrect exec semantics could be addressed by:
     *
     *     exit((int)spawnv(_P_WAIT, path, argv));
     *
     * Unfortunately, a bug in Windows spawn/exec impementation prevents
     * this from completely working.  All the Windows POSIX process creation
     * interfaces are implemented as wrappers around the native Windows
     * function CreateProcess().  CreateProcess() takes a single string
     * to specify command line options and arguments, so the POSIX routine
     * wrappers build a single string from the argv[] array and in the
     * process, any quoting information is lost.
     *
     * The solution to this to get the original command line, to process it
     * to remove the new multiple JRE options (if any) as was done for argv
     * in the common SelectVersion() routine and finally to pass it directly
     * to the native CreateProcess() Windows process control interface.
     */
    {
        char    *cmdline;
        char    *p;
        char    *np;
        char    *ocl;
        char    *ccl;
        char    *unquoted;
        DWORD   exitCode;
        STARTUPINFO si;
        PROCESS_INFORMATION pi;

        /*
         * The following code block gets and processes the original command
         * line, replacing the argv[0] equivalent in the command line with
         * the path to the new executable and removing the appropriate
         * Multiple JRE support options. Note that similar logic exists
         * in the platform independent SelectVersion routine, but is
         * replicated here due to the syntax of CreateProcess().
         *
         * The magic "+ 4" characters added to the command line length are
         * 2 possible quotes around the path (argv[0]), a space after the
         * path and a terminating null character.
         */
        ocl = GetCommandLine();
        np = ccl = JLI_StringDup(ocl);
        p = nextarg(&np);               /* Discard argv[0] */
        cmdline = (char *)JLI_MemAlloc(strlen(path) + strlen(np) + 4);
        if (strchr(path, (int)' ') == NULL && strchr(path, (int)'\t') == NULL)
            cmdline = strcpy(cmdline, path);
        else
            cmdline = strcat(strcat(strcpy(cmdline, "\""), path), "\"");

        while (*np != (char)0) {                /* While more command-line */
            p = nextarg(&np);
            if (*p != (char)0) {                /* If a token was isolated */
                unquoted = unquote(p);
                if (*unquoted == '-') {         /* Looks like an option */
                    if (strcmp(unquoted, "-classpath") == 0 ||
                      strcmp(unquoted, "-cp") == 0) {   /* Unique cp syntax */
                        cmdline = strcat(strcat(cmdline, " "), p);
                        p = nextarg(&np);
                        if (*p != (char)0)      /* If a token was isolated */
                            cmdline = strcat(strcat(cmdline, " "), p);
                    } else if (strncmp(unquoted, "-version:", 9) != 0 &&
                      strcmp(unquoted, "-jre-restrict-search") != 0 &&
                      strcmp(unquoted, "-no-jre-restrict-search") != 0) {
                        cmdline = strcat(strcat(cmdline, " "), p);
                    }
                } else {                        /* End of options */
                    cmdline = strcat(strcat(cmdline, " "), p);
                    cmdline = strcat(strcat(cmdline, " "), np);
                    JLI_MemFree((void *)unquoted);
                    break;
                }
                JLI_MemFree((void *)unquoted);
            }
        }
        JLI_MemFree((void *)ccl);

        if (_launcher_debug) {
            np = ccl = JLI_StringDup(cmdline);
            p = nextarg(&np);
            printf("ReExec Command: %s (%s)\n", path, p);
            printf("ReExec Args: %s\n", np);
            JLI_MemFree((void *)ccl);
        }
        (void)fflush(stdout);
        (void)fflush(stderr);

        /*
         * The following code is modeled after a model presented in the
         * Microsoft Technical Article "Moving Unix Applications to
         * Windows NT" (March 6, 1994) and "Creating Processes" on MSDN
         * (Februrary 2005).  It approximates UNIX spawn semantics with
         * the parent waiting for termination of the child.
         */
        memset(&si, 0, sizeof(si));
        si.cb =sizeof(STARTUPINFO);
        memset(&pi, 0, sizeof(pi));

        if (!CreateProcess((LPCTSTR)path,       /* executable name */
          (LPTSTR)cmdline,                      /* command line */
          (LPSECURITY_ATTRIBUTES)NULL,          /* process security attr. */
          (LPSECURITY_ATTRIBUTES)NULL,          /* thread security attr. */
          (BOOL)TRUE,                           /* inherits system handles */
          (DWORD)0,                             /* creation flags */
          (LPVOID)NULL,                         /* environment block */
          (LPCTSTR)NULL,                        /* current directory */
          (LPSTARTUPINFO)&si,                   /* (in) startup information */
          (LPPROCESS_INFORMATION)&pi)) {        /* (out) process information */
            ReportSysErrorMessage2("CreateProcess(%s, ...) failed: %s",
              path, JNI_TRUE);
              exit(1);
        }

        if (WaitForSingleObject(pi.hProcess, INFINITE) != WAIT_FAILED) {
            if (GetExitCodeProcess(pi.hProcess, &exitCode) == FALSE)
                exitCode = 1;
        } else {
            ReportErrorMessage("WaitForSingleObject() failed.", JNI_TRUE);
            exitCode = 1;
        }

        CloseHandle(pi.hThread);
        CloseHandle(pi.hProcess);

        exit(exitCode);
    }

}
Beispiel #25
0
/*
 * Just like JLI_ReportErrorMessage, except that it concatenates the system
 * error message if any, its upto the calling routine to correctly
 * format the separation of the messages.
 */
void
JLI_ReportErrorMessageSys(const char *fmt, ...)
{
    va_list vl;

    int save_errno = errno;
    DWORD       errval;
    jboolean freeit = JNI_FALSE;
    char  *errtext = NULL;

    va_start(vl, fmt);

    if ((errval = GetLastError()) != 0) {               /* Platform SDK / DOS Error */
        int n = FormatMessage(FORMAT_MESSAGE_FROM_SYSTEM|
            FORMAT_MESSAGE_IGNORE_INSERTS|FORMAT_MESSAGE_ALLOCATE_BUFFER,
            NULL, errval, 0, (LPTSTR)&errtext, 0, NULL);
        if (errtext == NULL || n == 0) {                /* Paranoia check */
            errtext = "";
            n = 0;
        } else {
            freeit = JNI_TRUE;
            if (n > 2) {                                /* Drop final CR, LF */
                if (errtext[n - 1] == '\n') n--;
                if (errtext[n - 1] == '\r') n--;
                errtext[n] = '\0';
            }
        }
    } else {   /* C runtime error that has no corresponding DOS error code */
        errtext = strerror(save_errno);
    }

    if (IsJavaw()) {
        char *message;
        int mlen;
        /* get the length of the string we need */
        int len = mlen =  _vscprintf(fmt, vl) + 1;
        if (freeit) {
           mlen += (int)JLI_StrLen(errtext);
        }

        message = (char *)JLI_MemAlloc(mlen);
        _vsnprintf(message, len, fmt, vl);
        message[len]='\0';

        if (freeit) {
           JLI_StrCat(message, errtext);
        }

        MessageBox(NULL, message, "Java Virtual Machine Launcher",
            (MB_OK|MB_ICONSTOP|MB_APPLMODAL));

        JLI_MemFree(message);
    } else {
        vfprintf(stderr, fmt, vl);
        if (freeit) {
           fprintf(stderr, "%s", errtext);
        }
    }
    if (freeit) {
        (void)LocalFree((HLOCAL)errtext);
    }
    va_end(vl);
}
Beispiel #26
0
void
CreateExecutionEnvironment(int *pargc, char ***pargv,
                           char jrepath[], jint so_jrepath,
                           char jvmpath[], jint so_jvmpath) {
  /*
   * First, determine if we are running the desired data model.  If we
   * are running the desired data model, all the error messages
   * associated with calling GetJREPath, ReadKnownVMs, etc. should be
   * output.  However, if we are not running the desired data model,
   * some of the errors should be suppressed since it is more
   * informative to issue an error message based on whether or not the
   * os/processor combination has dual mode capabilities.
   */
    jboolean jvmpathExists;

    /* Compute/set the name of the executable */
    SetExecname(*pargv);

    /* Check data model flags, and exec process, if needed */
    {
      char *arch        = (char *)GetArch(); /* like sparc or sparcv9 */
      char * jvmtype    = NULL;
      int  argc         = *pargc;
      char **argv       = *pargv;
      int running       = CURRENT_DATA_MODEL;

      int wanted        = running;      /* What data mode is being
                                           asked for? Current model is
                                           fine unless another model
                                           is asked for */
#ifdef SETENV_REQUIRED
      jboolean mustsetenv = JNI_FALSE;
      char *runpath     = NULL; /* existing effective LD_LIBRARY_PATH setting */
      char* new_runpath = NULL; /* desired new LD_LIBRARY_PATH string */
      char* newpath     = NULL; /* path on new LD_LIBRARY_PATH */
      char* lastslash   = NULL;
      char** newenvp    = NULL; /* current environment */
#ifdef __solaris__
      char*  dmpath     = NULL;  /* data model specific LD_LIBRARY_PATH,
                                    Solaris only */
#endif /* __solaris__ */
#endif  /* SETENV_REQUIRED */

      char** newargv    = NULL;
      int    newargc    = 0;

      /*
       * Starting in 1.5, all unix platforms accept the -d32 and -d64
       * options.  On platforms where only one data-model is supported
       * (e.g. ia-64 Linux), using the flag for the other data model is
       * an error and will terminate the program.
       */

      { /* open new scope to declare local variables */
        int i;

        newargv = (char **)JLI_MemAlloc((argc+1) * sizeof(char*));
        newargv[newargc++] = argv[0];

        /* scan for data model arguments and remove from argument list;
           last occurrence determines desired data model */
        for (i=1; i < argc; i++) {

          if (JLI_StrCmp(argv[i], "-J-d64") == 0 || JLI_StrCmp(argv[i], "-d64") == 0) {
            wanted = 64;
            continue;
          }
          if (JLI_StrCmp(argv[i], "-J-d32") == 0 || JLI_StrCmp(argv[i], "-d32") == 0) {
            wanted = 32;
            continue;
          }
          newargv[newargc++] = argv[i];

          if (IsJavaArgs()) {
            if (argv[i][0] != '-') continue;
          } else {
            if (JLI_StrCmp(argv[i], "-classpath") == 0 || JLI_StrCmp(argv[i], "-cp") == 0) {
              i++;
              if (i >= argc) break;
              newargv[newargc++] = argv[i];
              continue;
            }
            if (argv[i][0] != '-') { i++; break; }
          }
        }

        /* copy rest of args [i .. argc) */
        while (i < argc) {
          newargv[newargc++] = argv[i++];
        }
        newargv[newargc] = NULL;

        /*
         * newargv has all proper arguments here
         */

        argc = newargc;
        argv = newargv;
      }

      /* If the data model is not changing, it is an error if the
         jvmpath does not exist */
      if (wanted == running) {
        /* Find out where the JRE is that we will be using. */
        if (!GetJREPath(jrepath, so_jrepath, arch, JNI_FALSE) ) {
          JLI_ReportErrorMessage(JRE_ERROR1);
          exit(2);
        }

        /* Find the specified JVM type */
        if (ReadKnownVMs(jrepath, arch, JNI_FALSE) < 1) {
          JLI_ReportErrorMessage(CFG_ERROR7);
          exit(1);
        }

        jvmpath[0] = '\0';
        jvmtype = CheckJvmType(pargc, pargv, JNI_FALSE);
        if (JLI_StrCmp(jvmtype, "ERROR") == 0) {
            JLI_ReportErrorMessage(CFG_ERROR9);
            exit(4);
        }

        if (!GetJVMPath(jrepath, jvmtype, jvmpath, so_jvmpath, arch )) {
          JLI_ReportErrorMessage(CFG_ERROR8, jvmtype, jvmpath);
          exit(4);
        }
        /*
         * we seem to have everything we need, so without further ado
         * we return back, otherwise proceed to set the environment.
         */
#ifdef SETENV_REQUIRED
        mustsetenv = RequiresSetenv(wanted, jvmpath);
        JLI_TraceLauncher("mustsetenv: %s\n", mustsetenv ? "TRUE" : "FALSE");

        if (mustsetenv == JNI_FALSE) {
            return;
        }
#else
        return;
#endif /* SETENV_REQUIRED */
      } else {  /* do the same speculatively or exit */
#ifdef DUAL_MODE
        if (running != wanted) {
          /* Find out where the JRE is that we will be using. */
          if (!GetJREPath(jrepath, so_jrepath, GetArchPath(wanted), JNI_TRUE)) {
            /* give up and let other code report error message */
            JLI_ReportErrorMessage(JRE_ERROR2, wanted);
            exit(1);
          }

          /*
           * Read in jvm.cfg for target data model and process vm
           * selection options.
           */
          if (ReadKnownVMs(jrepath, GetArchPath(wanted), JNI_TRUE) < 1) {
            /* give up and let other code report error message */
            JLI_ReportErrorMessage(JRE_ERROR2, wanted);
            exit(1);
          }
          jvmpath[0] = '\0';
          jvmtype = CheckJvmType(pargc, pargv, JNI_TRUE);
          if (JLI_StrCmp(jvmtype, "ERROR") == 0) {
            JLI_ReportErrorMessage(CFG_ERROR9);
            exit(4);
          }

          /* exec child can do error checking on the existence of the path */
          jvmpathExists = GetJVMPath(jrepath, jvmtype, jvmpath, so_jvmpath, GetArchPath(wanted));
#ifdef SETENV_REQUIRED
          mustsetenv = RequiresSetenv(wanted, jvmpath);
#endif /* SETENV_REQUIRED */
        }
#else
        JLI_ReportErrorMessage(JRE_ERROR2, wanted);
        exit(1);
#endif
        }
#ifdef SETENV_REQUIRED
        if (mustsetenv) {
            /*
             * We will set the LD_LIBRARY_PATH as follows:
             *
             *     o          $JVMPATH (directory portion only)
             *     o          $JRE/lib/$LIBARCHNAME
             *     o          $JRE/../lib/$LIBARCHNAME
             *
             * followed by the user's previous effective LD_LIBRARY_PATH, if
             * any.
             */

#ifdef __solaris__
            /*
             * Starting in Solaris 7, ld.so.1 supports three LD_LIBRARY_PATH
             * variables:
             *
             * 1. LD_LIBRARY_PATH -- used for 32 and 64 bit searches if
             * data-model specific variables are not set.
             *
             * 2. LD_LIBRARY_PATH_64 -- overrides and replaces LD_LIBRARY_PATH
             * for 64-bit binaries.
             *
             * 3. LD_LIBRARY_PATH_32 -- overrides and replaces LD_LIBRARY_PATH
             * for 32-bit binaries.
             *
             * The vm uses LD_LIBRARY_PATH to set the java.library.path system
             * property.  To shield the vm from the complication of multiple
             * LD_LIBRARY_PATH variables, if the appropriate data model
             * specific variable is set, we will act as if LD_LIBRARY_PATH had
             * the value of the data model specific variant and the data model
             * specific variant will be unset.  Note that the variable for the
             * *wanted* data model must be used (if it is set), not simply the
             * current running data model.
             */

            switch (wanted) {
                case 0:
                    if (running == 32) {
                        dmpath = getenv("LD_LIBRARY_PATH_32");
                        wanted = 32;
                    } else {
                        dmpath = getenv("LD_LIBRARY_PATH_64");
                        wanted = 64;
                    }
                    break;

                case 32:
                    dmpath = getenv("LD_LIBRARY_PATH_32");
                    break;

                case 64:
                    dmpath = getenv("LD_LIBRARY_PATH_64");
                    break;

                default:
                    JLI_ReportErrorMessage(JRE_ERROR3, __LINE__);
                    exit(1); /* unknown value in wanted */
                    break;
            }

            /*
             * If dmpath is NULL, the relevant data model specific variable is
             * not set and normal LD_LIBRARY_PATH should be used.
             */
            if (dmpath == NULL) {
                runpath = getenv("LD_LIBRARY_PATH");
            } else {
                runpath = dmpath;
            }
#else
            /*
             * If not on Solaris, assume only a single LD_LIBRARY_PATH
             * variable.
             */
            runpath = getenv("LD_LIBRARY_PATH");
#endif /* __solaris__ */

            /* runpath contains current effective LD_LIBRARY_PATH setting */

            jvmpath = JLI_StringDup(jvmpath);
            new_runpath = JLI_MemAlloc(((runpath != NULL) ? JLI_StrLen(runpath) : 0) +
                    2 * JLI_StrLen(jrepath) + 2 * JLI_StrLen(arch) +
                    JLI_StrLen(jvmpath) + 52);
            newpath = new_runpath + JLI_StrLen("LD_LIBRARY_PATH=");


            /*
             * Create desired LD_LIBRARY_PATH value for target data model.
             */
            {
                /* remove the name of the .so from the JVM path */
                lastslash = JLI_StrRChr(jvmpath, '/');
                if (lastslash)
                    *lastslash = '\0';

                sprintf(new_runpath, "LD_LIBRARY_PATH="
                        "%s:"
                        "%s/lib/%s:"
                        "%s/../lib/%s",
                        jvmpath,
#ifdef DUAL_MODE
                        jrepath, GetArchPath(wanted),
                        jrepath, GetArchPath(wanted)
#else
                        jrepath, arch,
                        jrepath, arch
#endif
                        );


                /*
                 * Check to make sure that the prefix of the current path is the
                 * desired environment variable setting, though the RequiresSetenv
                 * checks if the desired runpath exists, this logic does a more
                 * comprehensive check.
                 */
                if (runpath != NULL &&
                        JLI_StrNCmp(newpath, runpath, JLI_StrLen(newpath)) == 0 &&
                        (runpath[JLI_StrLen(newpath)] == 0 || runpath[JLI_StrLen(newpath)] == ':') &&
                        (running == wanted) /* data model does not have to be changed */
#ifdef __solaris__
                        && (dmpath == NULL) /* data model specific variables not set  */
#endif
                        ) {

                    return;

                }
            }

            /*
             * Place the desired environment setting onto the prefix of
             * LD_LIBRARY_PATH.  Note that this prevents any possible infinite
             * loop of execv() because we test for the prefix, above.
             */
            if (runpath != 0) {
                JLI_StrCat(new_runpath, ":");
                JLI_StrCat(new_runpath, runpath);
            }

            if (putenv(new_runpath) != 0) {
                exit(1); /* problem allocating memory; LD_LIBRARY_PATH not set
                    properly */
            }

            /*
             * Unix systems document that they look at LD_LIBRARY_PATH only
             * once at startup, so we have to re-exec the current executable
             * to get the changed environment variable to have an effect.
             */

#ifdef __solaris__
            /*
             * If dmpath is not NULL, remove the data model specific string
             * in the environment for the exec'ed child.
             */
            if (dmpath != NULL)
                (void)UnsetEnv((wanted == 32) ? "LD_LIBRARY_PATH_32" : "LD_LIBRARY_PATH_64");
#endif

            newenvp = environ;
        }
#endif /* SETENV_REQUIRED */
        {
            char *newexec = execname;
#ifdef DUAL_MODE
            /*
             * If the data model is being changed, the path to the
             * executable must be updated accordingly; the executable name
             * and directory the executable resides in are separate.  In the
             * case of 32 => 64, the new bits are assumed to reside in, e.g.
             * "olddir/LIBARCH64NAME/execname"; in the case of 64 => 32,
             * the bits are assumed to be in "olddir/../execname".  For example,
             *
             * olddir/sparcv9/execname
             * olddir/amd64/execname
             *
             * for Solaris SPARC and Linux amd64, respectively.
             */

            if (running != wanted) {
                char *oldexec = JLI_StrCpy(JLI_MemAlloc(JLI_StrLen(execname) + 1), execname);
                char *olddir = oldexec;
                char *oldbase = JLI_StrRChr(oldexec, '/');


                newexec = JLI_MemAlloc(JLI_StrLen(execname) + 20);
                *oldbase++ = 0;
                sprintf(newexec, "%s/%s/%s", olddir,
                        ((wanted == 64) ? LIBARCH64NAME : ".."), oldbase);
                argv[0] = newexec;
            }
#endif /* DUAL_MODE */
            JLI_TraceLauncher("TRACER_MARKER:About to EXEC\n");
            (void) fflush(stdout);
            (void) fflush(stderr);
#ifdef SETENV_REQUIRED
            if (mustsetenv) {
                execve(newexec, argv, newenvp);
            } else {
                execv(newexec, argv);
            }
#else
            execv(newexec, argv);
#endif /* SETENV_REQUIRED */
            JLI_ReportErrorMessageSys(JRE_ERROR4, newexec);

#ifdef DUAL_MODE
            if (running != wanted) {
                JLI_ReportErrorMessage(JRE_ERROR5, wanted, running);
#ifdef __solaris__
#ifdef __sparc
                JLI_ReportErrorMessage(JRE_ERROR6);
#else
                JLI_ReportErrorMessage(JRE_ERROR7);
#endif  /* __sparc */
            }
#endif /* __solaris__ */
#endif /* DUAL_MODE */

        }
        exit(1);
    }
}
Beispiel #27
0
void
CreateExecutionEnvironment(int *pargc, char ***pargv,
                           char jrepath[], jint so_jrepath,
                           char jvmpath[], jint so_jvmpath,
                           char jvmcfg[],  jint so_jvmcfg) {
  /*
   * First, determine if we are running the desired data model.  If we
   * are running the desired data model, all the error messages
   * associated with calling GetJREPath, ReadKnownVMs, etc. should be
   * output.  However, if we are not running the desired data model,
   * some of the errors should be suppressed since it is more
   * informative to issue an error message based on whether or not the
   * os/processor combination has dual mode capabilities.
   */
    jboolean jvmpathExists;

    /* Compute/set the name of the executable */
    SetExecname(*pargv);

    /* Check data model flags, and exec process, if needed */
    {
      char *arch        = (char *)GetArch(); /* like sparc or sparcv9 */
      char * jvmtype    = NULL;
      int  argc         = *pargc;
      char **argv       = *pargv;
      int running       = CURRENT_DATA_MODEL;

      int wanted        = running;      /* What data mode is being
                                           asked for? Current model is
                                           fine unless another model
                                           is asked for */

      char** newargv    = NULL;
      int    newargc    = 0;

      /*
       * Starting in 1.5, all unix platforms accept the -d32 and -d64
       * options.  On platforms where only one data-model is supported
       * (e.g. ia-64 Linux), using the flag for the other data model is
       * an error and will terminate the program.
       */

      { /* open new scope to declare local variables */
        int i;

        newargv = (char **)JLI_MemAlloc((argc+1) * sizeof(char*));
        newargv[newargc++] = argv[0];

        /* scan for data model arguments and remove from argument list;
           last occurrence determines desired data model */
        for (i=1; i < argc; i++) {

          if (JLI_StrCmp(argv[i], "-J-d64") == 0 || JLI_StrCmp(argv[i], "-d64") == 0) {
            wanted = 64;
            continue;
          }
          if (JLI_StrCmp(argv[i], "-J-d32") == 0 || JLI_StrCmp(argv[i], "-d32") == 0) {
            wanted = 32;
            continue;
          }
          newargv[newargc++] = argv[i];

          if (IsJavaArgs()) {
            if (argv[i][0] != '-') continue;
          } else {
            if (JLI_StrCmp(argv[i], "-classpath") == 0 || JLI_StrCmp(argv[i], "-cp") == 0) {
              i++;
              if (i >= argc) break;
              newargv[newargc++] = argv[i];
              continue;
            }
            if (argv[i][0] != '-') { i++; break; }
          }
        }

        /* copy rest of args [i .. argc) */
        while (i < argc) {
          newargv[newargc++] = argv[i++];
        }
        newargv[newargc] = NULL;

        /*
         * newargv has all proper arguments here
         */

        argc = newargc;
        argv = newargv;
      }

      /* If the data model is not changing, it is an error if the
         jvmpath does not exist */
      if (wanted == running) {
        /* Find out where the JRE is that we will be using. */
        if (!GetJREPath(jrepath, so_jrepath, arch, JNI_FALSE) ) {
          JLI_ReportErrorMessage(JRE_ERROR1);
          exit(2);
        }
        JLI_Snprintf(jvmcfg, so_jvmcfg, "%s%slib%s%s%sjvm.cfg",
          jrepath, FILESEP, FILESEP,  "", "");
        /* Find the specified JVM type */
        if (ReadKnownVMs(jvmcfg, JNI_FALSE) < 1) {
          JLI_ReportErrorMessage(CFG_ERROR7);
          exit(1);
        }

        jvmpath[0] = '\0';
        jvmtype = CheckJvmType(pargc, pargv, JNI_FALSE);
        if (JLI_StrCmp(jvmtype, "ERROR") == 0) {
            JLI_ReportErrorMessage(CFG_ERROR9);
            exit(4);
        }

        if (!GetJVMPath(jrepath, jvmtype, jvmpath, so_jvmpath, arch, wanted)) {
          JLI_ReportErrorMessage(CFG_ERROR8, jvmtype, jvmpath);
          exit(4);
        }

        /*
         * Mac OS X requires the Cocoa event loop to be run on the "main"
         * thread. Spawn off a new thread to run main() and pass
         * this thread off to the Cocoa event loop.
         */
        MacOSXStartup(argc, argv);

        /*
         * we seem to have everything we need, so without further ado
         * we return back, otherwise proceed to set the environment.
         */
        return;
      } else {  /* do the same speculatively or exit */
#if defined(DUAL_MODE)
        if (running != wanted) {
          /* Find out where the JRE is that we will be using. */
          if (!GetJREPath(jrepath, so_jrepath, GetArchPath(wanted), JNI_TRUE)) {
            /* give up and let other code report error message */
            JLI_ReportErrorMessage(JRE_ERROR2, wanted);
            exit(1);
          }
          JLI_Snprintf(jvmcfg, so_jvmcfg, "%s%slib%s%s%sjvm.cfg",
            jrepath, FILESEP, FILESEP,  "", "");
          /*
           * Read in jvm.cfg for target data model and process vm
           * selection options.
           */
          if (ReadKnownVMs(jvmcfg, JNI_TRUE) < 1) {
            /* give up and let other code report error message */
            JLI_ReportErrorMessage(JRE_ERROR2, wanted);
            exit(1);
          }
          jvmpath[0] = '\0';
          jvmtype = CheckJvmType(pargc, pargv, JNI_TRUE);
          if (JLI_StrCmp(jvmtype, "ERROR") == 0) {
            JLI_ReportErrorMessage(CFG_ERROR9);
            exit(4);
          }

          /* exec child can do error checking on the existence of the path */
          jvmpathExists = GetJVMPath(jrepath, jvmtype, jvmpath, so_jvmpath, GetArchPath(wanted), wanted);
        }
#else /* ! DUAL_MODE */
        JLI_ReportErrorMessage(JRE_ERROR2, wanted);
        exit(1);
#endif /* DUAL_MODE */
        }
        {
            char *newexec = execname;
            JLI_TraceLauncher("TRACER_MARKER:About to EXEC\n");
            (void) fflush(stdout);
            (void) fflush(stderr);
            /*
            * Use posix_spawn() instead of execv() on Mac OS X.
            * This allows us to choose which architecture the child process
            * should run as.
            */
            {
                posix_spawnattr_t attr;
                size_t unused_size;
                pid_t  unused_pid;

#if defined(__i386__) || defined(__x86_64__)
                cpu_type_t cpu_type[] = { (wanted == 64) ? CPU_TYPE_X86_64 : CPU_TYPE_X86,
                                    (running== 64) ? CPU_TYPE_X86_64 : CPU_TYPE_X86 };
#else
                cpu_type_t cpu_type[] = { CPU_TYPE_ANY };
#endif /* __i386 .. */

                posix_spawnattr_init(&attr);
                posix_spawnattr_setflags(&attr, POSIX_SPAWN_SETEXEC);
                posix_spawnattr_setbinpref_np(&attr, sizeof(cpu_type) / sizeof(cpu_type_t),
                                            cpu_type, &unused_size);

                posix_spawn(&unused_pid, newexec, NULL, &attr, argv, environ);
            }
            JLI_ReportErrorMessageSys(JRE_ERROR4, newexec);

#if defined(DUAL_MODE)
            if (running != wanted) {
                JLI_ReportErrorMessage(JRE_ERROR5, wanted, running);
            }
#endif /* DUAL_MODE */
        }
        exit(1);
    }
}