src/tools/launcher/java_launcher.cc - bazel - Git at Google

 // Copyright 2017 The Bazel Authors. All rights reserved.
 //
 // Licensed under the Apache License, Version 2.0 (the "License");
 // you may not use this file except in compliance with the License.
 // You may obtain a copy of the License at
 //
 //    http://www.apache.org/licenses/LICENSE-2.0
 //
 // Unless required by applicable law or agreed to in writing, software
 // distributed under the License is distributed on an "AS IS" BASIS,
 // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 // See the License for the specific language governing permissions and
 // limitations under the License.

 #include <memory>
 #include <sstream>
 #include <string>
 #include <unordered_map>
 #include <vector>

 #include "src/main/cpp/util/file.h"
 #include "src/main/cpp/util/file_platform.h"
 #include "src/main/cpp/util/strings.h"
 #include "src/main/native/windows/file.h"
 #include "src/tools/launcher/java_launcher.h"
 #include "src/tools/launcher/util/launcher_util.h"

 namespace bazel {
 namespace launcher {

 using std::getline;
 using std::ofstream;
 using std::ostringstream;
 using std::string;
 using std::stringstream;
 using std::vector;
 using std::wstring;

 // The runfile path of java binary, eg. local_jdk/bin/java.exe
 static constexpr const char* JAVA_BIN_PATH = "java_bin_path";
 static constexpr const char* JAR_BIN_PATH = "jar_bin_path";
 static constexpr const char* CLASSPATH = "classpath";
 static constexpr const char* JAVA_START_CLASS = "java_start_class";
 static constexpr const char* JVM_FLAGS = "jvm_flags";

 // Check if a string start with a certain prefix.
 // If it's true, store the substring without the prefix in value.
 // If value is quoted, then remove the quotes.
 static bool GetFlagValue(const string& str, const string& prefix,
                          string* value_ptr) {
   if (str.compare(0, prefix.length(), prefix)) {
     return false;
   }
   string& value = *value_ptr;
   value = str.substr(prefix.length());
   int len = value.length();
   if (len >= 2 && value[0] == '"' && value[len - 1] == '"') {
     value = value.substr(1, len - 2);
   }
   return true;
 }

 // Parses one launcher flag and updates this object's state accordingly.
 //
 // Returns true if the flag is a valid launcher flag; false otherwise.
 bool JavaBinaryLauncher::ProcessWrapperArgument(const string& argument) {
   string flag_value;
   if (argument.compare("--debug") == 0) {
     string default_jvm_debug_port;
     if (GetEnv("DEFAULT_JVM_DEBUG_PORT", &default_jvm_debug_port)) {
       this->jvm_debug_port = default_jvm_debug_port;
     } else {
       this->jvm_debug_port = "5005";
     }
   } else if (GetFlagValue(argument, "--debug=", &flag_value)) {
     this->jvm_debug_port = flag_value;
   } else if (GetFlagValue(argument, "--main_advice=", &flag_value)) {
     this->main_advice = flag_value;
   } else if (GetFlagValue(argument, "--main_advice_classpath=", &flag_value)) {
     this->main_advice_classpath = flag_value;
   } else if (GetFlagValue(argument, "--jvm_flag=", &flag_value)) {
     this->jvm_flags_cmdline.push_back(flag_value);
   } else if (GetFlagValue(argument, "--jvm_flags=", &flag_value)) {
     stringstream flag_value_ss(flag_value);
     string item;
     while (getline(flag_value_ss, item, ' ')) {
       this->jvm_flags_cmdline.push_back(item);
     }
   } else if (argument.compare("--singlejar") == 0) {
     this->singlejar = true;
   } else if (argument.compare("--print_javabin") == 0) {
     this->print_javabin = true;
   } else if (GetFlagValue(argument, "--classpath_limit=", &flag_value)) {
     this->classpath_limit = std::stoi(flag_value);
   } else {
     return false;
   }
   return true;
 }

 vector<string> JavaBinaryLauncher::ProcessesCommandLine() {
   vector<string> args;
   bool first = 1;
   for (const auto& arg : this->GetCommandlineArguments()) {
     // Skip the first arugment.
     if (first) {
       first = 0;
       continue;
     }
     string flag_value;
     // TODO(pcloudy): Should rename this flag to --native_launcher_flag.
     // But keep it as it is for now to be consistent with the shell script
     // launcher.
     if (GetFlagValue(arg, "--wrapper_script_flag=", &flag_value)) {
       if (!ProcessWrapperArgument(flag_value)) {
         die("invalid wrapper argument '%s'", arg);
       }
     } else if (!args.empty() || !ProcessWrapperArgument(arg)) {
       args.push_back(arg);
     }
   }
   return args;
 }

 // Return an absolute normalized path for the directory of manifest jar
 static string GetManifestJarDir(const string& binary_base_path) {
   string abs_manifest_jar_dir;
   std::size_t slash = binary_base_path.find_last_of("/\\");
   if (slash == string::npos) {
     abs_manifest_jar_dir = "";
   } else {
     abs_manifest_jar_dir = binary_base_path.substr(0, slash);
   }
   if (!blaze_util::IsAbsolute(binary_base_path)) {
     abs_manifest_jar_dir = blaze_util::GetCwd() + "\\" + abs_manifest_jar_dir;
   }
   string result;
   if (!NormalizePath(abs_manifest_jar_dir, &result)) {
     die("GetManifestJarDir Failed");
   }
   return result;
 }

 static void WriteJarClasspath(const string& jar_path,
                               ostringstream* manifest_classpath) {
   *manifest_classpath << ' ';
   if (jar_path.find_first_of(" \\") != string::npos) {
     for (const auto& x : jar_path) {
       if (x == ' ') {
         *manifest_classpath << "%20";
       }
       if (x == '\\') {
         *manifest_classpath << "/";
       } else {
         *manifest_classpath << x;
       }
     }
   } else {
     *manifest_classpath << jar_path;
   }
 }

 string JavaBinaryLauncher::GetJunctionBaseDir() {
   string binary_base_path =
       GetBinaryPathWithExtension(this->GetCommandlineArguments()[0]);
   string result;
   if (!NormalizePath(binary_base_path + ".j", &result)) {
     die("Failed to get normalized junction base directory.");
   }
   return result;
 }

 void JavaBinaryLauncher::DeleteJunctionBaseDir() {
   string junction_base_dir_norm = GetJunctionBaseDir();
   if (!DoesDirectoryPathExist(junction_base_dir_norm.c_str())) {
     return;
   }
   vector<string> junctions;
   blaze_util::GetAllFilesUnder(junction_base_dir_norm, &junctions);
   for (const auto& junction : junctions) {
     if (!DeleteDirectoryByPath(junction.c_str())) {
       PrintError(GetLastErrorString().c_str());
     }
   }
   if (!DeleteDirectoryByPath(junction_base_dir_norm.c_str())) {
     PrintError(GetLastErrorString().c_str());
   }
 }

 string JavaBinaryLauncher::CreateClasspathJar(const string& classpath) {
   string binary_base_path =
       GetBinaryPathWithoutExtension(this->GetCommandlineArguments()[0]);
   string abs_manifest_jar_dir_norm = GetManifestJarDir(binary_base_path);

   ostringstream manifest_classpath;
   manifest_classpath << "Class-Path:";
   stringstream classpath_ss(classpath);
   string path, path_norm;

   // A set to store all junctions created.
   // The key is the target path, the value is the junction path.
   std::unordered_map<string, string> jar_dirs;
   string junction_base_dir_norm = GetJunctionBaseDir();
   int junction_count = 0;
   // Make sure the junction base directory doesn't exist already.
   DeleteJunctionBaseDir();
   blaze_util::MakeDirectories(junction_base_dir_norm, 0755);

   while (getline(classpath_ss, path, ';')) {
     if (blaze_util::IsAbsolute(path)) {
       if (!NormalizePath(path, &path_norm)) {
         die("CreateClasspathJar failed");
       }

       // If two paths are under different drives, we should create a junction to
       // the jar's directory
       if (path_norm[0] != abs_manifest_jar_dir_norm[0]) {
         string jar_dir = GetParentDirFromPath(path_norm);
         string jar_base_name = GetBaseNameFromPath(path_norm);
         string junction;
         auto search = jar_dirs.find(jar_dir);
         if (search == jar_dirs.end()) {
           junction =
               junction_base_dir_norm + "\\" + std::to_string(junction_count++);

           wstring wjar_dir(
               blaze_util::CstringToWstring(junction.c_str()).get());
           wstring wjunction(
               blaze_util::CstringToWstring(jar_dir.c_str()).get());
           wstring werror(bazel::windows::CreateJunction(wjar_dir, wjunction));
           if (!werror.empty()) {
             string error(werror.begin(), werror.end());
             die("CreateClasspathJar failed: %s", error.c_str());
           }

           jar_dirs.insert(std::make_pair(jar_dir, junction));
         } else {
           junction = search->second;
         }
         path_norm = junction + "\\" + jar_base_name;
       }

       if (!RelativeTo(path_norm, abs_manifest_jar_dir_norm, &path)) {
         die("CreateClasspathJar failed");
       }
     }
     WriteJarClasspath(path, &manifest_classpath);
   }

   string rand_id = "-" + GetRandomStr(10);
   string jar_manifest_file_path = binary_base_path + rand_id + ".jar_manifest";
   ofstream jar_manifest_file(jar_manifest_file_path);
   jar_manifest_file << "Manifest-Version: 1.0\n";
   // No line in the MANIFEST.MF file may be longer than 72 bytes.
   // A space prefix indicates the line is still the content of the last
   // attribute.
   string manifest_classpath_str = manifest_classpath.str();
   for (size_t i = 0; i < manifest_classpath_str.length(); i += 71) {
     if (i > 0) {
       jar_manifest_file << " ";
     }
     jar_manifest_file << manifest_classpath_str.substr(i, 71) << "\n";
   }
   jar_manifest_file.close();

   // Create the command for generating classpath jar.
   string manifest_jar_path = binary_base_path + rand_id + "-classpath.jar";
   string jar_bin = this->Rlocation(this->GetLaunchInfoByKey(JAR_BIN_PATH));
   vector<string> arguments;
   arguments.push_back("cvfm");
   arguments.push_back(manifest_jar_path);
   arguments.push_back(jar_manifest_file_path);

   if (this->LaunchProcess(jar_bin, arguments, /* suppressOutput */ true) != 0) {
     die("Couldn't create classpath jar: %s", manifest_jar_path.c_str());
   }

   // Delete jar_manifest_file after classpath jar is created.
   DeleteFileByPath(jar_manifest_file_path.c_str());

   return manifest_jar_path;
 }

 ExitCode JavaBinaryLauncher::Launch() {
   // Parse the original command line.
   vector<string> remaining_args = this->ProcessesCommandLine();

   // Set JAVA_RUNFILES
   string java_runfiles;
   if (!GetEnv("JAVA_RUNFILES", &java_runfiles)) {
     java_runfiles = this->GetRunfilesPath();
   }
   SetEnv("JAVA_RUNFILES", java_runfiles);

   // Print Java binary path if needed
   string java_bin = this->Rlocation(this->GetLaunchInfoByKey(JAVA_BIN_PATH),
                                     /*need_workspace_name =*/false);
   if (this->print_javabin ||
       this->GetLaunchInfoByKey(JAVA_START_CLASS) == "--print_javabin") {
     printf("%s\n", java_bin.c_str());
     return 0;
   }

   ostringstream classpath;

   // Run deploy jar if needed, otherwise generate the CLASSPATH by rlocation.
   if (this->singlejar) {
     string deploy_jar =
         GetBinaryPathWithoutExtension(this->GetCommandlineArguments()[0]) +
         "_deploy.jar";
     if (!DoesFilePathExist(deploy_jar.c_str())) {
       die("Option --singlejar was passed, but %s does not exist.\n  (You may "
           "need to build it explicitly.)",
           deploy_jar.c_str());
     }
     classpath << deploy_jar << ';';
   } else {
     // Add main advice classpath if exists
     if (!this->main_advice_classpath.empty()) {
       classpath << this->main_advice_classpath << ';';
     }
     string path;
     stringstream classpath_ss(this->GetLaunchInfoByKey(CLASSPATH));
     while (getline(classpath_ss, path, ';')) {
       classpath << this->Rlocation(path) << ';';
     }
   }

   // Set jvm debug options
   ostringstream jvm_debug_flags;
   if (!this->jvm_debug_port.empty()) {
     string jvm_debug_suspend;
     if (!GetEnv("DEFAULT_JVM_DEBUG_SUSPEND", &jvm_debug_suspend)) {
       jvm_debug_suspend = "y";
     }
     jvm_debug_flags << "-agentlib:jdwp=transport=dt_socket,server=y";
     jvm_debug_flags << ",suspend=" << jvm_debug_suspend;
     jvm_debug_flags << ",address=" << jvm_debug_port;

     string value;
     if (GetEnv("PERSISTENT_TEST_RUNNER", &value) && value == "true") {
       jvm_debug_flags << ",quiet=y";
     }
   }

   // Get jvm flags from JVM_FLAGS environment variable and JVM_FLAGS launch info
   vector<string> jvm_flags;
   string jvm_flags_env;
   GetEnv("JVM_FLAGS", &jvm_flags_env);
   string flag;
   stringstream jvm_flags_env_ss(jvm_flags_env);
   while (getline(jvm_flags_env_ss, flag, ' ')) {
     jvm_flags.push_back(flag);
   }
   stringstream jvm_flags_launch_info_ss(this->GetLaunchInfoByKey(JVM_FLAGS));
   while (getline(jvm_flags_launch_info_ss, flag, ' ')) {
     jvm_flags.push_back(flag);
   }

   // Check if TEST_TMPDIR is available to use for scratch.
   string test_tmpdir;
   if (GetEnv("TEST_TMPDIR", &test_tmpdir) &&
       DoesDirectoryPathExist(test_tmpdir.c_str())) {
     jvm_flags.push_back("-Djava.io.tmpdir=" + test_tmpdir);
   }

   // Construct the final command line arguments
   vector<string> arguments;
   // Add classpath flags
   arguments.push_back("-classpath");
   // Check if CLASSPATH is over classpath length limit.
   // If it does, then we create a classpath jar to pass CLASSPATH value.
   string classpath_str = classpath.str();
   string classpath_jar = "";
   if (classpath_str.length() > this->classpath_limit) {
     classpath_jar = CreateClasspathJar(classpath_str);
     arguments.push_back(classpath_jar);
   } else {
     arguments.push_back(classpath_str);
   }
   // Add JVM debug flags
   string jvm_debug_flags_str = jvm_debug_flags.str();
   if (!jvm_debug_flags_str.empty()) {
     arguments.push_back(jvm_debug_flags_str);
   }
   // Add JVM flags parsed from env and launch info.
   for (const auto& arg : jvm_flags) {
     arguments.push_back(arg);
   }
   // Add JVM flags parsed from command line.
   for (const auto& arg : this->jvm_flags_cmdline) {
     arguments.push_back(arg);
   }
   // Add main advice class
   if (!this->main_advice.empty()) {
     arguments.push_back(this->main_advice);
   }
   // Add java start class
   arguments.push_back(this->GetLaunchInfoByKey(JAVA_START_CLASS));
   // Add the remaininng arguements, they will be passed to the program.
   for (const auto& arg : remaining_args) {
     arguments.push_back(arg);
   }

   vector<string> escaped_arguments;
   // Quote the arguments if having spaces
   for (const auto& arg : arguments) {
     escaped_arguments.push_back(
         GetEscapedArgument(arg, /*escape_backslash = */ false));
   }

   ExitCode exit_code = this->LaunchProcess(java_bin, escaped_arguments);

   // Delete classpath jar file after execution.
   if (!classpath_jar.empty()) {
     DeleteFileByPath(classpath_jar.c_str());
     DeleteJunctionBaseDir();
   }

   return exit_code;
 }

 }  // namespace launcher
 }  // namespace bazel
	// Copyright 2017 The Bazel Authors. All rights reserved.
	//
	// Licensed under the Apache License, Version 2.0 (the "License");
	// you may not use this file except in compliance with the License.
	// You may obtain a copy of the License at
	//
	// http://www.apache.org/licenses/LICENSE-2.0
	//
	// Unless required by applicable law or agreed to in writing, software
	// distributed under the License is distributed on an "AS IS" BASIS,
	// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
	// See the License for the specific language governing permissions and
	// limitations under the License.

	#include <memory>
	#include <sstream>
	#include <string>
	#include <unordered_map>
	#include <vector>

	#include "src/main/cpp/util/file.h"
	#include "src/main/cpp/util/file_platform.h"
	#include "src/main/cpp/util/strings.h"
	#include "src/main/native/windows/file.h"
	#include "src/tools/launcher/java_launcher.h"
	#include "src/tools/launcher/util/launcher_util.h"

	namespace bazel {
	namespace launcher {

	using std::getline;
	using std::ofstream;
	using std::ostringstream;
	using std::string;
	using std::stringstream;
	using std::vector;
	using std::wstring;

	// The runfile path of java binary, eg. local_jdk/bin/java.exe
	static constexpr const char* JAVA_BIN_PATH = "java_bin_path";
	static constexpr const char* JAR_BIN_PATH = "jar_bin_path";
	static constexpr const char* CLASSPATH = "classpath";
	static constexpr const char* JAVA_START_CLASS = "java_start_class";
	static constexpr const char* JVM_FLAGS = "jvm_flags";

	// Check if a string start with a certain prefix.
	// If it's true, store the substring without the prefix in value.
	// If value is quoted, then remove the quotes.
	static bool GetFlagValue(const string& str, const string& prefix,
	string* value_ptr) {
	if (str.compare(0, prefix.length(), prefix)) {
	return false;
	}
	string& value = *value_ptr;
	value = str.substr(prefix.length());
	int len = value.length();
	if (len >= 2 && value[0] == '"' && value[len - 1] == '"') {
	value = value.substr(1, len - 2);
	}
	return true;
	}

	// Parses one launcher flag and updates this object's state accordingly.
	//
	// Returns true if the flag is a valid launcher flag; false otherwise.
	bool JavaBinaryLauncher::ProcessWrapperArgument(const string& argument) {
	string flag_value;
	if (argument.compare("--debug") == 0) {
	string default_jvm_debug_port;
	if (GetEnv("DEFAULT_JVM_DEBUG_PORT", &default_jvm_debug_port)) {
	this->jvm_debug_port = default_jvm_debug_port;
	} else {
	this->jvm_debug_port = "5005";
	}
	} else if (GetFlagValue(argument, "--debug=", &flag_value)) {
	this->jvm_debug_port = flag_value;
	} else if (GetFlagValue(argument, "--main_advice=", &flag_value)) {
	this->main_advice = flag_value;
	} else if (GetFlagValue(argument, "--main_advice_classpath=", &flag_value)) {
	this->main_advice_classpath = flag_value;
	} else if (GetFlagValue(argument, "--jvm_flag=", &flag_value)) {
	this->jvm_flags_cmdline.push_back(flag_value);
	} else if (GetFlagValue(argument, "--jvm_flags=", &flag_value)) {
	stringstream flag_value_ss(flag_value);
	string item;
	while (getline(flag_value_ss, item, ' ')) {
	this->jvm_flags_cmdline.push_back(item);
	}
	} else if (argument.compare("--singlejar") == 0) {
	this->singlejar = true;
	} else if (argument.compare("--print_javabin") == 0) {
	this->print_javabin = true;
	} else if (GetFlagValue(argument, "--classpath_limit=", &flag_value)) {
	this->classpath_limit = std::stoi(flag_value);
	} else {
	return false;
	}
	return true;
	}

	vector<string> JavaBinaryLauncher::ProcessesCommandLine() {
	vector<string> args;
	bool first = 1;
	for (const auto& arg : this->GetCommandlineArguments()) {
	// Skip the first arugment.
	if (first) {
	first = 0;
	continue;
	}
	string flag_value;
	// TODO(pcloudy): Should rename this flag to --native_launcher_flag.
	// But keep it as it is for now to be consistent with the shell script
	// launcher.
	if (GetFlagValue(arg, "--wrapper_script_flag=", &flag_value)) {
	if (!ProcessWrapperArgument(flag_value)) {
	die("invalid wrapper argument '%s'", arg);
	}
	} else if (!args.empty() \|\| !ProcessWrapperArgument(arg)) {
	args.push_back(arg);
	}
	}
	return args;
	}

	// Return an absolute normalized path for the directory of manifest jar
	static string GetManifestJarDir(const string& binary_base_path) {
	string abs_manifest_jar_dir;
	std::size_t slash = binary_base_path.find_last_of("/\\");
	if (slash == string::npos) {
	abs_manifest_jar_dir = "";
	} else {
	abs_manifest_jar_dir = binary_base_path.substr(0, slash);
	}
	if (!blaze_util::IsAbsolute(binary_base_path)) {
	abs_manifest_jar_dir = blaze_util::GetCwd() + "\\" + abs_manifest_jar_dir;
	}
	string result;
	if (!NormalizePath(abs_manifest_jar_dir, &result)) {
	die("GetManifestJarDir Failed");
	}
	return result;
	}

	static void WriteJarClasspath(const string& jar_path,
	ostringstream* manifest_classpath) {
	*manifest_classpath << ' ';
	if (jar_path.find_first_of(" \\") != string::npos) {
	for (const auto& x : jar_path) {
	if (x == ' ') {
	*manifest_classpath << "%20";
	}
	if (x == '\\') {
	*manifest_classpath << "/";
	} else {
	*manifest_classpath << x;
	}
	}
	} else {
	*manifest_classpath << jar_path;
	}
	}

	string JavaBinaryLauncher::GetJunctionBaseDir() {
	string binary_base_path =
	GetBinaryPathWithExtension(this->GetCommandlineArguments()[0]);
	string result;
	if (!NormalizePath(binary_base_path + ".j", &result)) {
	die("Failed to get normalized junction base directory.");
	}
	return result;
	}

	void JavaBinaryLauncher::DeleteJunctionBaseDir() {
	string junction_base_dir_norm = GetJunctionBaseDir();
	if (!DoesDirectoryPathExist(junction_base_dir_norm.c_str())) {
	return;
	}
	vector<string> junctions;
	blaze_util::GetAllFilesUnder(junction_base_dir_norm, &junctions);
	for (const auto& junction : junctions) {
	if (!DeleteDirectoryByPath(junction.c_str())) {
	PrintError(GetLastErrorString().c_str());
	}
	}
	if (!DeleteDirectoryByPath(junction_base_dir_norm.c_str())) {
	PrintError(GetLastErrorString().c_str());
	}
	}

	string JavaBinaryLauncher::CreateClasspathJar(const string& classpath) {
	string binary_base_path =
	GetBinaryPathWithoutExtension(this->GetCommandlineArguments()[0]);
	string abs_manifest_jar_dir_norm = GetManifestJarDir(binary_base_path);

	ostringstream manifest_classpath;
	manifest_classpath << "Class-Path:";
	stringstream classpath_ss(classpath);
	string path, path_norm;

	// A set to store all junctions created.
	// The key is the target path, the value is the junction path.
	std::unordered_map<string, string> jar_dirs;
	string junction_base_dir_norm = GetJunctionBaseDir();
	int junction_count = 0;
	// Make sure the junction base directory doesn't exist already.
	DeleteJunctionBaseDir();
	blaze_util::MakeDirectories(junction_base_dir_norm, 0755);

	while (getline(classpath_ss, path, ';')) {
	if (blaze_util::IsAbsolute(path)) {
	if (!NormalizePath(path, &path_norm)) {
	die("CreateClasspathJar failed");
	}

	// If two paths are under different drives, we should create a junction to
	// the jar's directory
	if (path_norm[0] != abs_manifest_jar_dir_norm[0]) {
	string jar_dir = GetParentDirFromPath(path_norm);
	string jar_base_name = GetBaseNameFromPath(path_norm);
	string junction;
	auto search = jar_dirs.find(jar_dir);
	if (search == jar_dirs.end()) {
	junction =
	junction_base_dir_norm + "\\" + std::to_string(junction_count++);

	wstring wjar_dir(
	blaze_util::CstringToWstring(junction.c_str()).get());
	wstring wjunction(
	blaze_util::CstringToWstring(jar_dir.c_str()).get());
	wstring werror(bazel::windows::CreateJunction(wjar_dir, wjunction));
	if (!werror.empty()) {
	string error(werror.begin(), werror.end());
	die("CreateClasspathJar failed: %s", error.c_str());
	}

	jar_dirs.insert(std::make_pair(jar_dir, junction));
	} else {
	junction = search->second;
	}
	path_norm = junction + "\\" + jar_base_name;
	}

	if (!RelativeTo(path_norm, abs_manifest_jar_dir_norm, &path)) {
	die("CreateClasspathJar failed");
	}
	}
	WriteJarClasspath(path, &manifest_classpath);
	}

	string rand_id = "-" + GetRandomStr(10);
	string jar_manifest_file_path = binary_base_path + rand_id + ".jar_manifest";
	ofstream jar_manifest_file(jar_manifest_file_path);
	jar_manifest_file << "Manifest-Version: 1.0\n";
	// No line in the MANIFEST.MF file may be longer than 72 bytes.
	// A space prefix indicates the line is still the content of the last
	// attribute.
	string manifest_classpath_str = manifest_classpath.str();
	for (size_t i = 0; i < manifest_classpath_str.length(); i += 71) {
	if (i > 0) {
	jar_manifest_file << " ";
	}
	jar_manifest_file << manifest_classpath_str.substr(i, 71) << "\n";
	}
	jar_manifest_file.close();

	// Create the command for generating classpath jar.
	string manifest_jar_path = binary_base_path + rand_id + "-classpath.jar";
	string jar_bin = this->Rlocation(this->GetLaunchInfoByKey(JAR_BIN_PATH));
	vector<string> arguments;
	arguments.push_back("cvfm");
	arguments.push_back(manifest_jar_path);
	arguments.push_back(jar_manifest_file_path);

	if (this->LaunchProcess(jar_bin, arguments, /* suppressOutput */ true) != 0) {
	die("Couldn't create classpath jar: %s", manifest_jar_path.c_str());
	}

	// Delete jar_manifest_file after classpath jar is created.
	DeleteFileByPath(jar_manifest_file_path.c_str());

	return manifest_jar_path;
	}

	ExitCode JavaBinaryLauncher::Launch() {
	// Parse the original command line.
	vector<string> remaining_args = this->ProcessesCommandLine();

	// Set JAVA_RUNFILES
	string java_runfiles;
	if (!GetEnv("JAVA_RUNFILES", &java_runfiles)) {
	java_runfiles = this->GetRunfilesPath();
	}
	SetEnv("JAVA_RUNFILES", java_runfiles);

	// Print Java binary path if needed
	string java_bin = this->Rlocation(this->GetLaunchInfoByKey(JAVA_BIN_PATH),
	/need_workspace_name =/false);
	if (this->print_javabin \|\|
	this->GetLaunchInfoByKey(JAVA_START_CLASS) == "--print_javabin") {
	printf("%s\n", java_bin.c_str());
	return 0;
	}

	ostringstream classpath;

	// Run deploy jar if needed, otherwise generate the CLASSPATH by rlocation.
	if (this->singlejar) {
	string deploy_jar =
	GetBinaryPathWithoutExtension(this->GetCommandlineArguments()[0]) +
	"_deploy.jar";
	if (!DoesFilePathExist(deploy_jar.c_str())) {
	die("Option --singlejar was passed, but %s does not exist.\n (You may "
	"need to build it explicitly.)",
	deploy_jar.c_str());
	}
	classpath << deploy_jar << ';';
	} else {
	// Add main advice classpath if exists
	if (!this->main_advice_classpath.empty()) {
	classpath << this->main_advice_classpath << ';';
	}
	string path;
	stringstream classpath_ss(this->GetLaunchInfoByKey(CLASSPATH));
	while (getline(classpath_ss, path, ';')) {
	classpath << this->Rlocation(path) << ';';
	}
	}

	// Set jvm debug options
	ostringstream jvm_debug_flags;
	if (!this->jvm_debug_port.empty()) {
	string jvm_debug_suspend;
	if (!GetEnv("DEFAULT_JVM_DEBUG_SUSPEND", &jvm_debug_suspend)) {
	jvm_debug_suspend = "y";
	}
	jvm_debug_flags << "-agentlib:jdwp=transport=dt_socket,server=y";
	jvm_debug_flags << ",suspend=" << jvm_debug_suspend;
	jvm_debug_flags << ",address=" << jvm_debug_port;

	string value;
	if (GetEnv("PERSISTENT_TEST_RUNNER", &value) && value == "true") {
	jvm_debug_flags << ",quiet=y";
	}
	}

	// Get jvm flags from JVM_FLAGS environment variable and JVM_FLAGS launch info
	vector<string> jvm_flags;
	string jvm_flags_env;
	GetEnv("JVM_FLAGS", &jvm_flags_env);
	string flag;
	stringstream jvm_flags_env_ss(jvm_flags_env);
	while (getline(jvm_flags_env_ss, flag, ' ')) {
	jvm_flags.push_back(flag);
	}
	stringstream jvm_flags_launch_info_ss(this->GetLaunchInfoByKey(JVM_FLAGS));
	while (getline(jvm_flags_launch_info_ss, flag, ' ')) {
	jvm_flags.push_back(flag);
	}

	// Check if TEST_TMPDIR is available to use for scratch.
	string test_tmpdir;
	if (GetEnv("TEST_TMPDIR", &test_tmpdir) &&
	DoesDirectoryPathExist(test_tmpdir.c_str())) {
	jvm_flags.push_back("-Djava.io.tmpdir=" + test_tmpdir);
	}

	// Construct the final command line arguments
	vector<string> arguments;
	// Add classpath flags
	arguments.push_back("-classpath");
	// Check if CLASSPATH is over classpath length limit.
	// If it does, then we create a classpath jar to pass CLASSPATH value.
	string classpath_str = classpath.str();
	string classpath_jar = "";
	if (classpath_str.length() > this->classpath_limit) {
	classpath_jar = CreateClasspathJar(classpath_str);
	arguments.push_back(classpath_jar);
	} else {
	arguments.push_back(classpath_str);
	}
	// Add JVM debug flags
	string jvm_debug_flags_str = jvm_debug_flags.str();
	if (!jvm_debug_flags_str.empty()) {
	arguments.push_back(jvm_debug_flags_str);
	}
	// Add JVM flags parsed from env and launch info.
	for (const auto& arg : jvm_flags) {
	arguments.push_back(arg);
	}
	// Add JVM flags parsed from command line.
	for (const auto& arg : this->jvm_flags_cmdline) {
	arguments.push_back(arg);
	}
	// Add main advice class
	if (!this->main_advice.empty()) {
	arguments.push_back(this->main_advice);
	}
	// Add java start class
	arguments.push_back(this->GetLaunchInfoByKey(JAVA_START_CLASS));
	// Add the remaininng arguements, they will be passed to the program.
	for (const auto& arg : remaining_args) {
	arguments.push_back(arg);
	}

	vector<string> escaped_arguments;
	// Quote the arguments if having spaces
	for (const auto& arg : arguments) {
	escaped_arguments.push_back(
	GetEscapedArgument(arg, /escape_backslash = / false));
	}

	ExitCode exit_code = this->LaunchProcess(java_bin, escaped_arguments);

	// Delete classpath jar file after execution.
	if (!classpath_jar.empty()) {
	DeleteFileByPath(classpath_jar.c_str());
	DeleteJunctionBaseDir();
	}

	return exit_code;
	}

	} // namespace launcher
	} // namespace bazel