/*
* If app is "/foo/bin/javac", or "/foo/bin/sparcv9/javac" then put
* "/foo" into buf.
*/
jboolean
GetApplicationHome(char *buf, jint bufsize)
{
if (execname != NULL) {
JLI_Snprintf(buf, bufsize, "%s", execname);
buf[bufsize-1] = '\0';
} else {
return JNI_FALSE;
}
if (JLI_StrRChr(buf, '/') == 0) {
buf[0] = '\0';
return JNI_FALSE;
}
*(JLI_StrRChr(buf, '/')) = '\0'; /* executable file */
if (JLI_StrLen(buf) < 4 || JLI_StrRChr(buf, '/') == 0) {
buf[0] = '\0';
return JNI_FALSE;
}
if (JLI_StrCmp("/bin", buf + JLI_StrLen(buf) - 4) != 0)
*(JLI_StrRChr(buf, '/')) = '\0'; /* sparcv9 or amd64 */
if (JLI_StrLen(buf) < 4 || JLI_StrCmp("/bin", buf + JLI_StrLen(buf) - 4) != 0) {
buf[0] = '\0';
return JNI_FALSE;
}
*(JLI_StrRChr(buf, '/')) = '\0'; /* bin */
return JNI_TRUE;
}
/*
* Modeled after strcmp(), compare two strings (as in the grammar defined
* in Appendix A of JSR 56). If both strings can be interpreted as
* Java ints, do a numeric comparison, else it is strcmp().
*/
static int
comp_string(const char *s1, const char *s2)
{
jint v1, v2;
if (isjavaint(s1, &v1) && isjavaint(s2, &v2))
return ((int)(v1 - v2));
else
return (JLI_StrCmp(s1, s2));
}
/*
* Return true if this simple-element (as defined in JSR 56) forms
* an acceptable match.
*
* JSR 56 is modified by the Java Web Start <rel> Developer Guide
* where it is stated "... Java Web Start will not consider an installed
* non-FCS (i.e., milestone) JRE as a match. ... a JRE from Sun
* Microsystems, Inc., is by convention a non-FCS (milestone) JRE
* if there is a dash (-) in the version string."
*
* An undocumented caveat to the above is that an exact match with a
* hyphen is accepted as a development extension.
*
* These modifications are addressed by the specific comparisons
* for releases with hyphens.
*/
static int
acceptable_simple_element(const char *release, char *simple_element)
{
char *modifier;
modifier = simple_element + JLI_StrLen(simple_element) - 1;
if (*modifier == '*') {
*modifier = '\0';
if (JLI_StrChr(release, '-'))
return ((JLI_StrCmp(release, simple_element) == 0)?1:0);
return ((JLI_PrefixVersionId(release, simple_element) == 0)?1:0);
} else if (*modifier == '+') {
*modifier = '\0';
if (JLI_StrChr(release, '-'))
return ((JLI_StrCmp(release, simple_element) == 0)?1:0);
return ((JLI_ExactVersionId(release, simple_element) >= 0)?1:0);
} else {
return ((JLI_ExactVersionId(release, simple_element) == 0)?1:0);
}
}
/*
* 根据当前java程序的启动命令解析出当前jre的安装路径,两种模式:
* 1./{**}/bin/javac(java) -------> /{**}/
* 2./{**}/bin/{arch(sparcv9 or amd64)}/javac(java) -------> /{**}/
*/
jboolean
GetApplicationHome(char *buf, jint bufsize)
{
const char *execname = GetExecName();
if (execname != NULL) {
JLI_Snprintf(buf, bufsize, "%s", execname);
buf[bufsize-1] = '\0';
} else {
return JNI_FALSE;
}
if (JLI_StrRChr(buf, '/') == 0) { //直接在系统根目录下,则无法找到jre安装路径
buf[0] = '\0';
return JNI_FALSE;
}
//去掉末尾的javac/java
*(JLI_StrRChr(buf, '/')) = '\0'; /* executable file */
//非'/{**}/bin'或'/{**}/bin/{arch(sparcv9 or amd64)}'形式,则无法找到jre安装路径
if (JLI_StrLen(buf) < 4 || JLI_StrRChr(buf, '/') == 0) {
buf[0] = '\0';
return JNI_FALSE;
}
if (JLI_StrCmp("/bin", buf + JLI_StrLen(buf) - 4) != 0)
*(JLI_StrRChr(buf, '/')) = '\0'; /* sparcv9 or amd64 */
if (JLI_StrLen(buf) < 4 || JLI_StrCmp("/bin", buf + JLI_StrLen(buf) - 4) != 0) {
buf[0] = '\0';
return JNI_FALSE;
}
*(JLI_StrRChr(buf, '/')) = '\0'; /* bin */
return JNI_TRUE;
}
static int
equal(const char *s1, const char *s2)
{
return JLI_StrCmp(s1, s2) == 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);
}
}
/*
* 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 path[MAXPATHLEN + 1];
const char *progname = GetProgramName();
/*
* Resolve the real path to the currently running launcher.
*/
len = GetModuleFileName(NULL, path, MAXPATHLEN + 1);
if (len == 0 || len > MAXPATHLEN) {
JLI_ReportErrorMessageSys(JRE_ERROR9, progname);
exit(1);
}
JLI_TraceLauncher("ExecJRE: old: %s\n", path);
JLI_TraceLauncher("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.
*/
if (JLI_StrNCaseCmp(jre, path, JLI_StrLen(jre)) == 0)
return; /* I am the droid you were looking for */
/*
* If this isn't the selected version, exec the selected version.
*/
JLI_Snprintf(path, sizeof(path), "%s\\bin\\%s.exe", jre, progname);
/*
* 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);
* JLI_ReportErrorMessage("Error: Exec of %s failed\n", path);
* 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(JLI_StrLen(path) + JLI_StrLen(np) + 4);
if (JLI_StrChr(path, (int)' ') == NULL && JLI_StrChr(path, (int)'\t') == NULL)
cmdline = JLI_StrCpy(cmdline, path);
else
cmdline = JLI_StrCat(JLI_StrCat(JLI_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 (JLI_StrCmp(unquoted, "-classpath") == 0 ||
JLI_StrCmp(unquoted, "-cp") == 0) { /* Unique cp syntax */
cmdline = JLI_StrCat(JLI_StrCat(cmdline, " "), p);
p = nextarg(&np);
if (*p != (char)0) /* If a token was isolated */
cmdline = JLI_StrCat(JLI_StrCat(cmdline, " "), p);
} else if (JLI_StrNCmp(unquoted, "-version:", 9) != 0 &&
JLI_StrCmp(unquoted, "-jre-restrict-search") != 0 &&
JLI_StrCmp(unquoted, "-no-jre-restrict-search") != 0) {
cmdline = JLI_StrCat(JLI_StrCat(cmdline, " "), p);
}
} else { /* End of options */
cmdline = JLI_StrCat(JLI_StrCat(cmdline, " "), p);
cmdline = JLI_StrCat(JLI_StrCat(cmdline, " "), np);
JLI_MemFree((void *)unquoted);
break;
}
JLI_MemFree((void *)unquoted);
}
}
JLI_MemFree((void *)ccl);
if (JLI_IsTraceLauncher()) {
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 */
JLI_ReportErrorMessageSys(SYS_ERROR1, path);
exit(1);
}
if (WaitForSingleObject(pi.hProcess, INFINITE) != WAIT_FAILED) {
if (GetExitCodeProcess(pi.hProcess, &exitCode) == FALSE)
exitCode = 1;
} else {
JLI_ReportErrorMessage(SYS_ERROR2);
exitCode = 1;
}
CloseHandle(pi.hThread);
CloseHandle(pi.hProcess);
exit(exitCode);
}
}
static jboolean
GetPublicJREHome(char *buf, jint bufsize)
{
HKEY key, subkey;
char version[MAXPATHLEN];
/*
* Note: There is a very similar implementation of the following
* registry reading code in the Windows java control panel (javacp.cpl).
* If there are bugs here, a similar bug probably exists there. Hence,
* changes here require inspection there.
*/
/* Find the current version of the JRE */
if (RegOpenKeyEx(HKEY_LOCAL_MACHINE, JRE_KEY, 0, KEY_READ, &key) != 0) {
JLI_ReportErrorMessage(REG_ERROR1, JRE_KEY);
return JNI_FALSE;
}
if (!GetStringFromRegistry(key, "CurrentVersion",
version, sizeof(version))) {
JLI_ReportErrorMessage(REG_ERROR2, JRE_KEY);
RegCloseKey(key);
return JNI_FALSE;
}
if (JLI_StrCmp(version, GetDotVersion()) != 0) {
JLI_ReportErrorMessage(REG_ERROR3, JRE_KEY, version, GetDotVersion()
);
RegCloseKey(key);
return JNI_FALSE;
}
/* Find directory where the current version is installed. */
if (RegOpenKeyEx(key, version, 0, KEY_READ, &subkey) != 0) {
JLI_ReportErrorMessage(REG_ERROR1, JRE_KEY, version);
RegCloseKey(key);
return JNI_FALSE;
}
if (!GetStringFromRegistry(subkey, "JavaHome", buf, bufsize)) {
JLI_ReportErrorMessage(REG_ERROR4, JRE_KEY, version);
RegCloseKey(key);
RegCloseKey(subkey);
return JNI_FALSE;
}
if (JLI_IsTraceLauncher()) {
char micro[MAXPATHLEN];
if (!GetStringFromRegistry(subkey, "MicroVersion", micro,
sizeof(micro))) {
printf("Warning: Can't read MicroVersion\n");
micro[0] = '\0';
}
printf("Version major.minor.micro = %s.%s\n", version, micro);
}
RegCloseKey(key);
RegCloseKey(subkey);
return JNI_TRUE;
}
void
CreateExecutionEnvironment(int *pargc, char ***pargv,
char *jrepath, jint so_jrepath,
char *jvmpath, jint so_jvmpath) {
char * jvmtype;
int i = 0;
int running = CURRENT_DATA_MODEL;
int wanted = running;
char** argv = *pargv;
for (i = 0; i < *pargc ; 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;
}
}
if (running != wanted) {
JLI_ReportErrorMessage(JRE_ERROR2, wanted);
exit(1);
}
/* Find out where the JRE is that we will be using. */
if (!GetJREPath(jrepath, so_jrepath)) {
JLI_ReportErrorMessage(JRE_ERROR1);
exit(2);
}
/* Find the specified JVM type */
if (ReadKnownVMs(jrepath, (char*)GetArch(), JNI_FALSE) < 1) {
JLI_ReportErrorMessage(CFG_ERROR7);
exit(1);
}
jvmtype = CheckJvmType(pargc, pargv, JNI_FALSE);
if (JLI_StrCmp(jvmtype, "ERROR") == 0) {
JLI_ReportErrorMessage(CFG_ERROR9);
exit(4);
}
jvmpath[0] = '\0';
if (!GetJVMPath(jrepath, jvmtype, jvmpath, so_jvmpath)) {
JLI_ReportErrorMessage(CFG_ERROR8, jvmtype, jvmpath);
exit(4);
}
/* If we got here, jvmpath has been correctly initialized. */
/* Check if we need preload AWT */
#ifdef ENABLE_AWT_PRELOAD
argv = *pargv;
for (i = 0; i < *pargc ; i++) {
/* Tests the "turn on" parameter only if not set yet. */
if (awtPreloadD3D < 0) {
if (GetBoolParamValue(PARAM_PRELOAD_D3D, argv[i]) == 1) {
awtPreloadD3D = 1;
}
}
/* Test parameters which can disable preloading if not already disabled. */
if (awtPreloadD3D != 0) {
if (GetBoolParamValue(PARAM_NODDRAW, argv[i]) == 1
|| GetBoolParamValue(PARAM_D3D, argv[i]) == 0
|| GetBoolParamValue(PARAM_OPENGL, argv[i]) == 1)
{
awtPreloadD3D = 0;
/* no need to test the rest of the parameters */
break;
}
}
}
#endif /* ENABLE_AWT_PRELOAD */
}
/*
* 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;
}
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);
}
}
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);
}
}
/*
* 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;
}
