/* * Copyright (c) 1997, 2012, Oracle and/or its affiliates. All rights reserved. * DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER. * * This code is free software; you can redistribute it and/or modify it * under the terms of the GNU General Public License version 2 only, as * published by the Free Software Foundation. Oracle designates this * particular file as subject to the "Classpath" exception as provided * by Oracle in the LICENSE file that accompanied this code. * * This code is distributed in the hope that it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License * version 2 for more details (a copy is included in the LICENSE file that * accompanied this code). * * You should have received a copy of the GNU General Public License version * 2 along with this work; if not, write to the Free Software Foundation, * Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA. * * Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA * or visit www.oracle.com if you need additional information or have any * questions. */ #include #include #include #include #include #include #include #include #include #include #include #include #include "java.h" #include "version_comp.h" #define JVM_DLL "jvm.dll" #define JAVA_DLL "java.dll" /* * Prototypes. */ static jboolean GetPublicJREHome(char *path, jint pathsize); static jboolean GetJVMPath(const char *jrepath, const char *jvmtype, char *jvmpath, jint jvmpathsize); static jboolean GetJREPath(char *path, jint pathsize); /* We supports warmup for UI stack that is performed in parallel * to VM initialization. * This helps to improve startup of UI application as warmup phase * might be long due to initialization of OS or hardware resources. * It is not CPU bound and therefore it does not interfere with VM init. * Obviously such warmup only has sense for UI apps and therefore it needs * to be explicitly requested by passing -Dsun.awt.warmup=true property * (this is always the case for plugin/javaws). * * Implementation launches new thread after VM starts and use it to perform * warmup code (platform dependent). * This thread is later reused as AWT toolkit thread as graphics toolkit * often assume that they are used from the same thread they were launched on. * * At the moment we only support warmup for D3D. It only possible on windows * and only if other flags do not prohibit this (e.g. OpenGL support requested). */ #undef ENABLE_AWT_PRELOAD #ifndef JAVA_ARGS /* turn off AWT preloading for javac, jar, etc */ /* CR6999872: fastdebug crashes if awt library is loaded before JVM is * initialized*/ #if !defined(DEBUG) #define ENABLE_AWT_PRELOAD #endif #endif #ifdef ENABLE_AWT_PRELOAD /* "AWT was preloaded" flag; * turned on by AWTPreload(). */ int awtPreloaded = 0; /* Calls a function with the name specified * the function must be int(*fn)(void). */ int AWTPreload(const char *funcName); /* stops AWT preloading */ void AWTPreloadStop(); /* D3D preloading */ /* -1: not initialized; 0: OFF, 1: ON */ int awtPreloadD3D = -1; /* command line parameter to swith D3D preloading on */ #define PARAM_PRELOAD_D3D "-Dsun.awt.warmup" /* D3D/OpenGL management parameters */ #define PARAM_NODDRAW "-Dsun.java2d.noddraw" #define PARAM_D3D "-Dsun.java2d.d3d" #define PARAM_OPENGL "-Dsun.java2d.opengl" /* funtion in awt.dll (src/windows/native/sun/java2d/d3d/D3DPipelineManager.cpp) */ #define D3D_PRELOAD_FUNC "preloadD3D" /* Extracts value of a parameter with the specified name * from command line argument (returns pointer in the argument). * Returns NULL if the argument does not contains the parameter. * e.g.: * GetParamValue("theParam", "theParam=value") returns pointer to "value". */ const char * GetParamValue(const char *paramName, const char *arg) { int nameLen = JLI_StrLen(paramName); if (JLI_StrNCmp(paramName, arg, nameLen) == 0) { /* arg[nameLen] is valid (may contain final NULL) */ if (arg[nameLen] == '=') { return arg + nameLen + 1; } } return NULL; } /* Checks if commandline argument contains property specified * and analyze it as boolean property (true/false). * Returns -1 if the argument does not contain the parameter; * Returns 1 if the argument contains the parameter and its value is "true"; * Returns 0 if the argument contains the parameter and its value is "false". */ int GetBoolParamValue(const char *paramName, const char *arg) { const char * paramValue = GetParamValue(paramName, arg); if (paramValue != NULL) { if (JLI_StrCaseCmp(paramValue, "true") == 0) { return 1; } if (JLI_StrCaseCmp(paramValue, "false") == 0) { return 0; } } return -1; } #endif /* ENABLE_AWT_PRELOAD */ static jboolean _isjavaw = JNI_FALSE; jboolean IsJavaw() { return _isjavaw; } /* * Returns the arch path, to get the current arch use the * macro GetArch, nbits here is ignored for now. */ const char * GetArchPath(int nbits) { #ifdef _M_AMD64 return "amd64"; #elif defined(_M_IA64) return "ia64"; #else return "i386"; #endif } /* * */ void CreateExecutionEnvironment(int *pargc, char ***pargv, char *jrepath, jint so_jrepath, char *jvmpath, jint so_jvmpath, char *jvmcfg, jint so_jvmcfg) { 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); } JLI_Snprintf(jvmcfg, so_jvmcfg, "%s%slib%s%s%sjvm.cfg", jrepath, FILESEP, FILESEP, (char*)GetArch(), FILESEP); /* Find the specified JVM type */ if (ReadKnownVMs(jvmcfg, 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 */ } static jboolean LoadMSVCRT() { // Only do this once static int loaded = 0; char crtpath[MAXPATHLEN]; if (!loaded) { /* * The Microsoft C Runtime Library needs to be loaded first. A copy is * assumed to be present in the "JRE path" directory. If it is not found * there (or "JRE path" fails to resolve), skip the explicit load and let * nature take its course, which is likely to be a failure to execute. * This is clearly completely specific to the exact compiler version * which isn't very nice, but its hardly the only place. * No attempt to look for compiler versions in between 2003 and 2010 * as we aren't supporting building with those. */ #ifdef _MSC_VER #if _MSC_VER < 1400 #define CRT_DLL "msvcr71.dll" #endif #if _MSC_VER >= 1600 #define CRT_DLL "msvcr100.dll" #endif #ifdef CRT_DLL if (GetJREPath(crtpath, MAXPATHLEN)) { if (JLI_StrLen(crtpath) + JLI_StrLen("\\bin\\") + JLI_StrLen(CRT_DLL) >= MAXPATHLEN) { JLI_ReportErrorMessage(JRE_ERROR11); return JNI_FALSE; } (void)JLI_StrCat(crtpath, "\\bin\\" CRT_DLL); /* Add crt dll */ JLI_TraceLauncher("CRT path is %s\n", crtpath); if (_access(crtpath, 0) == 0) { if (LoadLibrary(crtpath) == 0) { JLI_ReportErrorMessage(DLL_ERROR4, crtpath); return JNI_FALSE; } } } #endif /* CRT_DLL */ #endif /* _MSC_VER */ loaded = 1; } return JNI_TRUE; } /* * Find path to JRE based on .exe's location or registry settings. */ jboolean GetJREPath(char *path, jint pathsize) { char javadll[MAXPATHLEN]; struct stat s; if (GetApplicationHome(path, pathsize)) { /* Is JRE co-located with the application? */ JLI_Snprintf(javadll, sizeof(javadll), "%s\\bin\\" JAVA_DLL, path); if (stat(javadll, &s) == 0) { JLI_TraceLauncher("JRE path is %s\n", path); return JNI_TRUE; } /* Does this app ship a private JRE in \jre directory? */ JLI_Snprintf(javadll, sizeof (javadll), "%s\\jre\\bin\\" JAVA_DLL, path); if (stat(javadll, &s) == 0) { JLI_StrCat(path, "\\jre"); JLI_TraceLauncher("JRE path is %s\n", path); return JNI_TRUE; } } /* Look for a public JRE on this machine. */ if (GetPublicJREHome(path, pathsize)) { JLI_TraceLauncher("JRE path is %s\n", path); return JNI_TRUE; } JLI_ReportErrorMessage(JRE_ERROR8 JAVA_DLL); return JNI_FALSE; } /* * Given a JRE location and a JVM type, construct what the name the * JVM shared library will be. Return true, if such a library * exists, false otherwise. */ static jboolean GetJVMPath(const char *jrepath, const char *jvmtype, char *jvmpath, jint jvmpathsize) { struct stat s; if (JLI_StrChr(jvmtype, '/') || JLI_StrChr(jvmtype, '\\')) { JLI_Snprintf(jvmpath, jvmpathsize, "%s\\" JVM_DLL, jvmtype); } else { JLI_Snprintf(jvmpath, jvmpathsize, "%s\\bin\\%s\\" JVM_DLL, jrepath, jvmtype); } if (stat(jvmpath, &s) == 0) { return JNI_TRUE; } else { return JNI_FALSE; } } /* * Load a jvm from "jvmpath" and initialize the invocation functions. */ jboolean LoadJavaVM(const char *jvmpath, InvocationFunctions *ifn) { HINSTANCE handle; JLI_TraceLauncher("JVM path is %s\n", jvmpath); /* * The Microsoft C Runtime Library needs to be loaded first. A copy is * assumed to be present in the "JRE path" directory. If it is not found * there (or "JRE path" fails to resolve), skip the explicit load and let * nature take its course, which is likely to be a failure to execute. * */ LoadMSVCRT(); /* Load the Java VM DLL */ if ((handle = LoadLibrary(jvmpath)) == 0) { JLI_ReportErrorMessage(DLL_ERROR4, (char *)jvmpath); return JNI_FALSE; } /* Now get the function addresses */ ifn->CreateJavaVM = (void *)GetProcAddress(handle, "JNI_CreateJavaVM"); ifn->GetDefaultJavaVMInitArgs = (void *)GetProcAddress(handle, "JNI_GetDefaultJavaVMInitArgs"); if (ifn->CreateJavaVM == 0 || ifn->GetDefaultJavaVMInitArgs == 0) { JLI_ReportErrorMessage(JNI_ERROR1, (char *)jvmpath); return JNI_FALSE; } return JNI_TRUE; } /* * If app is "c:\foo\bin\javac", then put "c:\foo" into buf. */ jboolean GetApplicationHome(char *buf, jint bufsize) { char *cp; GetModuleFileName(0, buf, bufsize); *JLI_StrRChr(buf, '\\') = '\0'; /* remove .exe file name */ if ((cp = JLI_StrRChr(buf, '\\')) == 0) { /* This happens if the application is in a drive root, and * there is no bin directory. */ buf[0] = '\0'; return JNI_FALSE; } *cp = '\0'; /* remove the bin\ part */ return JNI_TRUE; } /* * Helpers to look in the registry for a public JRE. */ /* Same for 1.5.0, 1.5.1, 1.5.2 etc. */ #define JRE_KEY "Software\\JavaSoft\\Java Runtime Environment" static jboolean GetStringFromRegistry(HKEY key, const char *name, char *buf, jint bufsize) { DWORD type, size; if (RegQueryValueEx(key, name, 0, &type, 0, &size) == 0 && type == REG_SZ && (size < (unsigned int)bufsize)) { if (RegQueryValueEx(key, name, 0, 0, buf, &size) == 0) { return JNI_TRUE; } } return JNI_FALSE; } 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; } /* * Support for doing cheap, accurate interval timing. */ static jboolean counterAvailable = JNI_FALSE; static jboolean counterInitialized = JNI_FALSE; static LARGE_INTEGER counterFrequency; jlong CounterGet() { LARGE_INTEGER count; if (!counterInitialized) { counterAvailable = QueryPerformanceFrequency(&counterFrequency); counterInitialized = JNI_TRUE; } if (!counterAvailable) { return 0; } QueryPerformanceCounter(&count); return (jlong)(count.QuadPart); } jlong Counter2Micros(jlong counts) { if (!counterAvailable || !counterInitialized) { return 0; } return (counts * 1000 * 1000)/counterFrequency.QuadPart; } /* * windows snprintf does not guarantee a null terminator in the buffer, * if the computed size is equal to or greater than the buffer size, * as well as error conditions. This function guarantees a null terminator * under all these conditions. An unreasonable buffer or size will return * an error value. Under all other conditions this function will return the * size of the bytes actually written minus the null terminator, similar * to ansi snprintf api. Thus when calling this function the caller must * ensure storage for the null terminator. */ int JLI_Snprintf(char* buffer, size_t size, const char* format, ...) { int rc; va_list vl; if (size == 0 || buffer == NULL) return -1; buffer[0] = '\0'; va_start(vl, format); rc = vsnprintf(buffer, size, format, vl); va_end(vl); /* force a null terminator, if something is amiss */ if (rc < 0) { /* apply ansi semantics */ buffer[size - 1] = '\0'; return size; } else if (rc == size) { /* force a null terminator */ buffer[size - 1] = '\0'; } return rc; } 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); } /* * 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); } void JLI_ReportExceptionDescription(JNIEnv * env) { if (IsJavaw()) { /* * This code should be replaced by code which opens a window with * the exception detail message, for now atleast put a dialog up. */ MessageBox(NULL, "A Java Exception has occurred.", "Java Virtual Machine Launcher", (MB_OK|MB_ICONSTOP|MB_APPLMODAL)); } else { (*env)->ExceptionDescribe(env); } } jboolean ServerClassMachine() { return (GetErgoPolicy() == ALWAYS_SERVER_CLASS) ? JNI_TRUE : JNI_FALSE; } /* * Determine if there is an acceptable JRE in the registry directory top_key. * Upon locating the "best" one, return a fully qualified path to it. * "Best" is defined as the most advanced JRE meeting the constraints * contained in the manifest_info. If no JRE in this directory meets the * constraints, return NULL. * * It doesn't matter if we get an error reading the registry, or we just * don't find anything interesting in the directory. We just return NULL * in either case. */ static char * ProcessDir(manifest_info* info, HKEY top_key) { DWORD index = 0; HKEY ver_key; char name[MAXNAMELEN]; int len; char *best = NULL; /* * Enumerate "/SOFTWARE/JavaSoft/Java Runtime Environment" * searching for the best available version. */ while (RegEnumKey(top_key, index, name, MAXNAMELEN) == ERROR_SUCCESS) { index++; if (JLI_AcceptableRelease(name, info->jre_version)) if ((best == NULL) || (JLI_ExactVersionId(name, best) > 0)) { if (best != NULL) JLI_MemFree(best); best = JLI_StringDup(name); } } /* * Extract "JavaHome" from the "best" registry directory and return * that path. If no appropriate version was located, or there is an * error in extracting the "JavaHome" string, return null. */ if (best == NULL) return (NULL); else { if (RegOpenKeyEx(top_key, best, 0, KEY_READ, &ver_key) != ERROR_SUCCESS) { JLI_MemFree(best); if (ver_key != NULL) RegCloseKey(ver_key); return (NULL); } JLI_MemFree(best); len = MAXNAMELEN; if (RegQueryValueEx(ver_key, "JavaHome", NULL, NULL, (LPBYTE)name, &len) != ERROR_SUCCESS) { if (ver_key != NULL) RegCloseKey(ver_key); return (NULL); } if (ver_key != NULL) RegCloseKey(ver_key); return (JLI_StringDup(name)); } } /* * This is the global entry point. It examines the host for the optimal * JRE to be used by scanning a set of registry entries. This set of entries * is hardwired on Windows as "Software\JavaSoft\Java Runtime Environment" * under the set of roots "{ HKEY_CURRENT_USER, HKEY_LOCAL_MACHINE }". * * This routine simply opens each of these registry directories before passing * control onto ProcessDir(). */ char * LocateJRE(manifest_info* info) { HKEY key = NULL; char *path; int key_index; HKEY root_keys[2] = { HKEY_CURRENT_USER, HKEY_LOCAL_MACHINE }; for (key_index = 0; key_index <= 1; key_index++) { if (RegOpenKeyEx(root_keys[key_index], JRE_KEY, 0, KEY_READ, &key) == ERROR_SUCCESS) if ((path = ProcessDir(info, key)) != NULL) { if (key != NULL) RegCloseKey(key); return (path); } if (key != NULL) RegCloseKey(key); } return NULL; } /* * Local helper routine to isolate a single token (option or argument) * from the command line. * * This routine accepts a pointer to a character pointer. The first * token (as defined by MSDN command-line argument syntax) is isolated * from that string. * * Upon return, the input character pointer pointed to by the parameter s * is updated to point to the remainding, unscanned, portion of the string, * or to a null character if the entire string has been consummed. * * This function returns a pointer to a null-terminated string which * contains the isolated first token, or to the null character if no * token could be isolated. * * Note the side effect of modifying the input string s by the insertion * of a null character, making it two strings. * * See "Parsing C Command-Line Arguments" in the MSDN Library for the * parsing rule details. The rule summary from that specification is: * * * Arguments are delimited by white space, which is either a space or a tab. * * * A string surrounded by double quotation marks is interpreted as a single * argument, regardless of white space contained within. A quoted string can * be embedded in an argument. Note that the caret (^) is not recognized as * an escape character or delimiter. * * * A double quotation mark preceded by a backslash, \", is interpreted as a * literal double quotation mark ("). * * * Backslashes are interpreted literally, unless they immediately precede a * double quotation mark. * * * 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. * * * 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* nextarg(char** s) { char *p = *s; char *head; int slashes = 0; int inquote = 0; /* * Strip leading whitespace, which MSDN defines as only space or tab. * (Hence, no locale specific "isspace" here.) */ while (*p != (char)0 && (*p == ' ' || *p == '\t')) p++; head = p; /* Save the start of the token to return */ /* * Isolate a token from the command line. */ while (*p != (char)0 && (inquote || !(*p == ' ' || *p == '\t'))) { if (*p == '\\' && *(p+1) == '"' && slashes % 2 == 0) p++; else if (*p == '"') inquote = !inquote; slashes = (*p++ == '\\') ? slashes + 1 : 0; } /* * If the token isolated isn't already terminated in a "char zero", * then replace the whitespace character with one and move to the * next character. */ if (*p != (char)0) *p++ = (char)0; /* * Update the parameter to point to the head of the remaining string * reflecting the command line and return a pointer to the leading * token which was isolated from the command line. */ *s = p; return (head); } /* * 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(JLI_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 + JLI_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; } /* * 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) { jint 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); } } /* * 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); } /* --- Splash Screen shared library support --- */ static const char* SPLASHSCREEN_SO = "\\bin\\splashscreen.dll"; static HMODULE hSplashLib = NULL; void* SplashProcAddress(const char* name) { char libraryPath[MAXPATHLEN]; /* some extra space for JLI_StrCat'ing SPLASHSCREEN_SO */ if (!GetJREPath(libraryPath, MAXPATHLEN)) { return NULL; } if (JLI_StrLen(libraryPath)+JLI_StrLen(SPLASHSCREEN_SO) >= MAXPATHLEN) { return NULL; } JLI_StrCat(libraryPath, SPLASHSCREEN_SO); if (!hSplashLib) { hSplashLib = LoadLibrary(libraryPath); } if (hSplashLib) { return GetProcAddress(hSplashLib, name); } else { return NULL; } } void SplashFreeLibrary() { if (hSplashLib) { FreeLibrary(hSplashLib); hSplashLib = NULL; } } const char * jlong_format_specifier() { return "%I64d"; } /* * Block current thread and continue execution in a new thread */ int ContinueInNewThread0(int (JNICALL *continuation)(void *), jlong stack_size, void * args) { int rslt = 0; unsigned thread_id; #ifndef STACK_SIZE_PARAM_IS_A_RESERVATION #define STACK_SIZE_PARAM_IS_A_RESERVATION (0x10000) #endif /* * STACK_SIZE_PARAM_IS_A_RESERVATION is what we want, but it's not * supported on older version of Windows. Try first with the flag; and * if that fails try again without the flag. See MSDN document or HotSpot * source (os_win32.cpp) for details. */ HANDLE thread_handle = (HANDLE)_beginthreadex(NULL, (unsigned)stack_size, continuation, args, STACK_SIZE_PARAM_IS_A_RESERVATION, &thread_id); if (thread_handle == NULL) { thread_handle = (HANDLE)_beginthreadex(NULL, (unsigned)stack_size, continuation, args, 0, &thread_id); } /* AWT preloading (AFTER main thread start) */ #ifdef ENABLE_AWT_PRELOAD /* D3D preloading */ if (awtPreloadD3D != 0) { char *envValue; /* D3D routines checks env.var J2D_D3D if no appropriate * command line params was specified */ envValue = getenv("J2D_D3D"); if (envValue != NULL && JLI_StrCaseCmp(envValue, "false") == 0) { awtPreloadD3D = 0; } /* Test that AWT preloading isn't disabled by J2D_D3D_PRELOAD env.var */ envValue = getenv("J2D_D3D_PRELOAD"); if (envValue != NULL && JLI_StrCaseCmp(envValue, "false") == 0) { awtPreloadD3D = 0; } if (awtPreloadD3D < 0) { /* If awtPreloadD3D is still undefined (-1), test * if it is turned on by J2D_D3D_PRELOAD env.var. * By default it's turned OFF. */ awtPreloadD3D = 0; if (envValue != NULL && JLI_StrCaseCmp(envValue, "true") == 0) { awtPreloadD3D = 1; } } } if (awtPreloadD3D) { AWTPreload(D3D_PRELOAD_FUNC); } #endif /* ENABLE_AWT_PRELOAD */ if (thread_handle) { WaitForSingleObject(thread_handle, INFINITE); GetExitCodeThread(thread_handle, &rslt); CloseHandle(thread_handle); } else { rslt = continuation(args); } #ifdef ENABLE_AWT_PRELOAD if (awtPreloaded) { AWTPreloadStop(); } #endif /* ENABLE_AWT_PRELOAD */ return rslt; } /* Unix only, empty on windows. */ void SetJavaLauncherPlatformProps() {} /* * The implementation for finding classes from the bootstrap * class loader, refer to java.h */ static FindClassFromBootLoader_t *findBootClass = NULL; jclass FindBootStrapClass(JNIEnv *env, const char *classname) { HMODULE hJvm; if (findBootClass == NULL) { hJvm = GetModuleHandle(JVM_DLL); if (hJvm == NULL) return NULL; /* need to use the demangled entry point */ findBootClass = (FindClassFromBootLoader_t *)GetProcAddress(hJvm, "JVM_FindClassFromBootLoader"); if (findBootClass == NULL) { JLI_ReportErrorMessage(DLL_ERROR4, "JVM_FindClassFromBootLoader"); return NULL; } } return findBootClass(env, classname); } void InitLauncher(boolean javaw) { INITCOMMONCONTROLSEX icx; /* * Required for javaw mode MessageBox output as well as for * HotSpot -XX:+ShowMessageBoxOnError in java mode, an empty * flag field is sufficient to perform the basic UI initialization. */ memset(&icx, 0, sizeof(INITCOMMONCONTROLSEX)); icx.dwSize = sizeof(INITCOMMONCONTROLSEX); InitCommonControlsEx(&icx); _isjavaw = javaw; JLI_SetTraceLauncher(); } /* ============================== */ /* AWT preloading */ #ifdef ENABLE_AWT_PRELOAD typedef int FnPreloadStart(void); typedef void FnPreloadStop(void); static FnPreloadStop *fnPreloadStop = NULL; static HMODULE hPreloadAwt = NULL; /* * Starts AWT preloading */ int AWTPreload(const char *funcName) { int result = -1; /* load AWT library once (if several preload function should be called) */ if (hPreloadAwt == NULL) { /* awt.dll is not loaded yet */ char libraryPath[MAXPATHLEN]; int jrePathLen = 0; HMODULE hJava = NULL; HMODULE hVerify = NULL; while (1) { /* awt.dll depends on jvm.dll & java.dll; * jvm.dll is already loaded, so we need only java.dll; * java.dll depends on MSVCRT lib & verify.dll. */ if (!GetJREPath(libraryPath, MAXPATHLEN)) { break; } /* save path length */ jrePathLen = JLI_StrLen(libraryPath); /* load msvcrt 1st */ LoadMSVCRT(); /* load verify.dll */ JLI_StrCat(libraryPath, "\\bin\\verify.dll"); hVerify = LoadLibrary(libraryPath); if (hVerify == NULL) { break; } /* restore jrePath */ libraryPath[jrePathLen] = 0; /* load java.dll */ JLI_StrCat(libraryPath, "\\bin\\" JAVA_DLL); hJava = LoadLibrary(libraryPath); if (hJava == NULL) { break; } /* restore jrePath */ libraryPath[jrePathLen] = 0; /* load awt.dll */ JLI_StrCat(libraryPath, "\\bin\\awt.dll"); hPreloadAwt = LoadLibrary(libraryPath); if (hPreloadAwt == NULL) { break; } /* get "preloadStop" func ptr */ fnPreloadStop = (FnPreloadStop *)GetProcAddress(hPreloadAwt, "preloadStop"); break; } } if (hPreloadAwt != NULL) { FnPreloadStart *fnInit = (FnPreloadStart *)GetProcAddress(hPreloadAwt, funcName); if (fnInit != NULL) { /* don't forget to stop preloading */ awtPreloaded = 1; result = fnInit(); } } return result; } /* * Terminates AWT preloading */ void AWTPreloadStop() { if (fnPreloadStop != NULL) { fnPreloadStop(); } } #endif /* ENABLE_AWT_PRELOAD */ int JVMInit(InvocationFunctions* ifn, jlong threadStackSize, int argc, char **argv, int mode, char *what, int ret) { ShowSplashScreen(); return ContinueInNewThread(ifn, threadStackSize, argc, argv, mode, what, ret); } void PostJVMInit(JNIEnv *env, jstring mainClass, JavaVM *vm) { // stubbed out for windows and *nixes. } void RegisterThread() { // stubbed out for windows and *nixes. } /* * on windows, we return a false to indicate this option is not applicable */ jboolean ProcessPlatformOption(const char *arg) { return JNI_FALSE; } /* * 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; }