ssh_client/src/ssh_plugin.cc - apps/libapps - Git at Google

 // Copyright (c) 2012 The Chromium OS Authors. All rights reserved.
 // Use of this source code is governed by a BSD-style license that can be
 // found in the LICENSE file.

 #include "ssh_plugin.h"

 #include <stdio.h>
 #include <string.h>
 #include <resolv.h>

 #include "ppapi/cpp/module.h"
 #include "ppapi/cpp/var_array_buffer.h"

 #include "file_system.h"

 const char kMessageNameAttr[] = "name";
 const char kMessageArgumentsAttr[] = "arguments";

 // These are C++ the method names as JavaScript sees them.
 const char kStartSessionMethodId[] = "startSession";
 const char kOnOpenFileMethodId[] = "onOpenFile";
 const char kOnOpenSocketMethodId[] = "onOpenSocket";
 const char kOnReadMethodId[] = "onRead";
 const char kOnWriteAcknowledgeMethodId[] = "onWriteAcknowledge";
 const char kOnCloseMethodId[] = "onClose";
 const char kOnReadReadyMethodId[] = "onReadReady";
 const char kOnResizeMethodId[] = "onResize";
 const char kOnExitAcknowledgeMethodId[] = "onExitAcknowledge";

 // Known startSession attributes.
 const char kUsernameAttr[] = "username";
 const char kHostAttr[] = "host";
 const char kPortAttr[] = "port";
 const char kTerminalWidthAttr[] = "terminalWidth";
 const char kTerminalHeightAttr[] = "terminalHeight";
 const char kUseJsSocketAttr[] = "useJsSocket";
 const char kEnvironmentAttr[] = "environment";
 const char kArgumentsAttr[] = "arguments";
 const char kWriteWindowAttr[] = "writeWindow";
 const char kAuthAgentAppID[] = "authAgentAppID";
 const char kSubsystemAttr[] = "subsystem";

 // These are JavaScript method names as C++ code sees them.
 const char kPrintLogMethodId[] = "printLog";
 const char kExitMethodId[] = "exit";
 const char kOpenFileMethodId[] = "openFile";
 const char kOpenSocketMethodId[] = "openSocket";
 const char kWriteMethodId[] = "write";
 const char kReadMethodId[] = "read";
 const char kCloseMethodId[] = "close";

 const size_t kDefaultWriteWindow = 64 * 1024;

 extern "C" int ssh_main(int ac, const char** av, const char *subsystem);

 //------------------------------------------------------------------------------

 SshPluginInstance* SshPluginInstance::instance_ = NULL;

 SshPluginInstance::SshPluginInstance(PP_Instance instance)
     : pp::Instance(instance),
       core_(pp::Module::Get()->core()),
       openssh_thread_(NULL),
       factory_(this),
       file_system_(this, this) {
   instance_ = this;
 }

 SshPluginInstance::~SshPluginInstance() {
   instance_ = NULL;
 }

 void SshPluginInstance::HandleMessage(const pp::Var& message_data) {
   if (message_data.is_dictionary()) {
     pp::VarDictionary message(message_data);
     pp::Var function_var = message.Get(kMessageNameAttr);
     pp::Var args_var = message.Get(kMessageArgumentsAttr);

     if (function_var.is_string() && args_var.is_array()) {
       const std::string function = function_var.AsString();
       if (!function.empty()) {
         const pp::VarArray args(args_var);
         Invoke(function, args);
       }
     }
   }
 }

 void SshPluginInstance::Invoke(const std::string& function,
                                const pp::VarArray& args) {
   if (function == kStartSessionMethodId) {
     StartSession(args);
   } else if (function == kOnOpenFileMethodId ||
              function == kOnOpenSocketMethodId) {
     OnOpen(args);
   } else if (function == kOnReadMethodId) {
     OnRead(args);
   } else if (function == kOnWriteAcknowledgeMethodId) {
     OnWriteAcknowledge(args);
   } else if (function == kOnCloseMethodId) {
     OnClose(args);
   } else if (function == kOnReadReadyMethodId) {
     OnReadReady(args);
   } else if (function == kOnResizeMethodId) {
     OnResize(args);
   } else if (function == kOnExitAcknowledgeMethodId) {
     OnExitAcknowledge(args);
   }
 }

 void SshPluginInstance::InvokeJS(const std::string& function,
                                  const pp::VarArray& args) {
   pp::VarDictionary dict;
   dict.Set(kMessageNameAttr, pp::Var(function));
   dict.Set(kMessageArgumentsAttr, args);
   PostMessage(dict);
 }

 void SshPluginInstance::PrintLogImpl(int32_t result, const std::string& msg) {
   pp::VarArray call_args;
   call_args.SetLength(1);
   call_args.Set(0, msg);
   InvokeJS(kPrintLogMethodId, call_args);
 }

 void SshPluginInstance::PrintLog(const std::string& msg) {
   core_->CallOnMainThread(0, factory_.NewCallback(
       &SshPluginInstance::PrintLogImpl, msg));
 }

 void SshPluginInstance::SendExitCodeImpl(int32_t result, int error) {
   pp::VarArray call_args;
   call_args.SetLength(1);
   call_args.Set(0, error);
   InvokeJS(kExitMethodId, call_args);
 }

 void SshPluginInstance::SendExitCode(int error) {
   core_->CallOnMainThread(0, factory_.NewCallback(
       &SshPluginInstance::SendExitCodeImpl, error));
   openssh_thread_ = NULL;
 }

 bool SshPluginInstance::OpenFile(int fd, const char* name, int mode,
                                  InputInterface* stream) {
   if (name) {
     pp::VarArray call_args;
     call_args.SetLength(3);
     call_args.Set(0, fd);
     call_args.Set(1, name);
     call_args.Set(2, mode);
     InvokeJS(kOpenFileMethodId, call_args);
   }
   assert(streams_.find(fd) == streams_.end());
   streams_[fd] = stream;
   return true;
 }

 bool SshPluginInstance::OpenSocket(int fd, const char* host, uint16_t port,
                                    InputInterface* stream) {
   pp::VarArray call_args;
   call_args.SetLength(3);
   call_args.Set(0, fd);
   call_args.Set(1, host);
   call_args.Set(2, port);
   InvokeJS(kOpenSocketMethodId, call_args);
   assert(streams_.find(fd) == streams_.end());
   streams_[fd] = stream;
   return true;
 }

 bool SshPluginInstance::Write(int fd, const char* data, size_t size) {
   const size_t kMaxWriteSize = 32 * 1024;
   pp::VarArray call_args;
   size_t start = 0;

   call_args.SetLength(2);
   call_args.Set(0, fd);

   while (start < size) {
     size_t chunk_size = ((size - start) <= kMaxWriteSize) ? (size - start)
                                                           : kMaxWriteSize;

     pp::VarArrayBuffer arr(chunk_size);
     char* buf = static_cast<char*>(arr.Map());
     memcpy(buf, data + start, chunk_size);
     arr.Unmap();

     call_args.Set(1, arr);

     start += chunk_size;
     InvokeJS(kWriteMethodId, call_args);
   }
   return true;
 }

 bool SshPluginInstance::Read(int fd, size_t size) {
   pp::VarArray call_args;
   call_args.SetLength(2);
   call_args.Set(0, fd);
   call_args.Set(1, (int32_t)size);
   InvokeJS(kReadMethodId, call_args);
   return true;
 }

 bool SshPluginInstance::Close(int fd) {
   pp::VarArray call_args;
   call_args.SetLength(1);
   call_args.Set(0, fd);
   InvokeJS(kCloseMethodId, call_args);
   return true;
 }

 size_t SshPluginInstance::GetWriteWindow() {
   if (session_args_.HasKey(kWriteWindowAttr)) {
     const pp::Var arg = session_args_.Get(kWriteWindowAttr);
     if (arg.is_number())
       return arg.AsInt();
   }
   return kDefaultWriteWindow;
 }

 void SshPluginInstance::SessionThreadImpl() {
   file_system_.WaitForStdFiles();

   // Call renamed ssh main.
   std::vector<const std::string> argv;
   // argv[0]
   argv.push_back("ssh");
   if (session_args_.HasKey(kArgumentsAttr)) {
     const pp::Var arg = session_args_.Get(kArgumentsAttr);
     if (arg.is_array()) {
       const pp::VarArray args(arg);
       for (size_t i = 0; i < args.GetLength(); i++) {
         if (args.Get(i).is_string())
           argv.push_back(args.Get(i).AsString());
         else
           PrintLog("startSession: invalid argument\n");
       }
     }
   }

   std::string port;
   if (session_args_.HasKey(kPortAttr)) {
     char buf[64];
     snprintf(buf, sizeof(buf), "-p%d", session_args_.Get(kPortAttr).AsInt());
     port = buf;
     argv.push_back(port.c_str());
   }

   std::string username_hostname;
   if (session_args_.HasKey(kUsernameAttr) &&
       session_args_.HasKey(kHostAttr)) {
     username_hostname = session_args_.Get(kUsernameAttr).AsString() + "@" +
         session_args_.Get(kHostAttr).AsString();
     argv.push_back(username_hostname.c_str());
   }

   std::string subsystem;
   const char *csubsystem = NULL;
   if (session_args_.HasKey(kSubsystemAttr)) {
     subsystem = session_args_.Get(kSubsystemAttr).AsString();
     csubsystem = subsystem.c_str();
   }

   LOG("ssh main args:\n");
   for (size_t i = 0; i < argv.size(); i++)
     LOG("  argv[%d] = %s\n", i, argv[i]);

   std::vector<const char *> cargv;
   for (auto it = argv.begin(); it != argv.end(); ++it)
     cargv.push_back(it->c_str());
   SendExitCode(ssh_main(cargv.size(), &cargv[0], csubsystem));
 }

 void* SshPluginInstance::SessionThread(void* arg) {
   SshPluginInstance* instance = static_cast<SshPluginInstance*>(arg);
   instance->SessionThreadImpl();
   return NULL;
 }

 void SshPluginInstance::StartSession(const pp::VarArray& args) {
   if (openssh_thread_) {
     PrintLogImpl(0, "startSession: session already started!\n");
     return;
   }

   if (args.GetLength() != 1) {
     PrintLogImpl(0, "startSession: args must be one element only\n");
     return;
   }

   const pp::Var session_arg = args.Get(0);
   if (!session_arg.is_dictionary()) {
     PrintLogImpl(0, "startSession: args[0] must be a dictionary of settings\n");
     return;
   }

   session_args_ = pp::VarDictionary(session_arg);

   if (session_args_.HasKey(kTerminalWidthAttr) &&
       session_args_.Get(kTerminalWidthAttr).is_number() &&
       session_args_.HasKey(kTerminalHeightAttr) &&
       session_args_.Get(kTerminalHeightAttr).is_number()) {
     file_system_.SetTerminalSize(session_args_.Get(kTerminalWidthAttr).AsInt(),
                                  session_args_.Get(kTerminalHeightAttr).AsInt());
   }
   if (session_args_.HasKey(kUseJsSocketAttr) &&
       session_args_.Get(kUseJsSocketAttr).is_bool()) {
     file_system_.UseJsSocket(session_args_.Get(kUseJsSocketAttr).AsBool());
   }
   if (session_args_.HasKey(kEnvironmentAttr) &&
       session_args_.Get(kEnvironmentAttr).is_dictionary()) {
     const pp::VarDictionary env(session_args_.Get(kEnvironmentAttr));
     const pp::VarArray keys = env.GetKeys();
     for (size_t i = 0; i < keys.GetLength(); ++i) {
       const pp::Var key(keys.Get(i));
       const pp::Var value(env.Get(key));
       if (key.is_string() && value.is_string())
         setenv(key.AsString().c_str(), value.AsString().c_str(), 1);
     }
   }
   if (session_args_.HasKey(kAuthAgentAppID) &&
       session_args_.Get(kAuthAgentAppID).is_string()) {
     const pp::Var agent(session_args_.Get(kAuthAgentAppID));
     setenv("SSH_AUTH_SOCK", agent.AsString().c_str(), 1);
   }
   if (pthread_create(&openssh_thread_, NULL,
                      &SshPluginInstance::SessionThread, this)) {
     SendExitCodeImpl(0, -1);
   }
 }

 void SshPluginInstance::OnOpen(const pp::VarArray& args) {
   const pp::Var fd = args.Get(0);
   const pp::Var success = args.Get(1);
   const pp::Var is_atty = args.Get(2);
   if (fd.is_number() && success.is_bool() && is_atty.is_bool()) {
     InputStreams::iterator it = streams_.find(fd.AsInt());
     if (it != streams_.end()) {
       it->second->OnOpen(success.AsBool(), is_atty.AsBool());
       if (!success.AsBool())
         streams_.erase(it);
     } else {
       PrintLogImpl(0, "onOpen: for unknown file descriptor\n");
     }
   } else {
     PrintLogImpl(0, "onOpen: invalid arguments\n");
   }
 }

 void SshPluginInstance::OnRead(const pp::VarArray& args) {
   const pp::Var fd = args.Get(0);
   const pp::Var data = args.Get(1);

   if (!fd.is_number()) {
     PrintLogImpl(0, "onRead: bad fd argument (non-numeric)\n");
     return;
   }

   InputStreams::iterator it = streams_.find(fd.AsInt());
   if (it == streams_.end()) {
     PrintLogImpl(0, "onRead: for unknown file descriptor\n");
     return;
   }

   if (data.is_string()) {
     const std::string& str = data.AsString();
     std::vector<char> buf(str.size() * 3 / 4);
     int res = b64_pton(str.c_str(), (unsigned char*)&buf[0], buf.size());
     assert(res >= 0);
     it->second->OnRead(&buf[0], res);
   } else if (data.is_array()) {
     const pp::VarArray arr(data);
     std::vector<char> buf(arr.GetLength());
     for (size_t i = 0; i < buf.size(); ++i)
       buf[i] = arr.Get(i).AsInt();
     it->second->OnRead(&buf[0], buf.size());
   } else if (data.is_array_buffer()) {
     pp::VarArrayBuffer arr(data);
     const char* buf = static_cast<char*>(arr.Map());
     it->second->OnRead(buf, arr.ByteLength());
     arr.Unmap();
   } else {
     PrintLogImpl(0, "onRead: invalid data argument (not string or array)\n");
   }
 }

 void SshPluginInstance::OnWriteAcknowledge(const pp::VarArray& args) {
   const pp::Var fd = args.Get(0);
   const pp::Var count = args.Get(1);
   if (fd.is_number() && count.is_number()) {
     InputStreams::iterator it = streams_.find(fd.AsInt());
     if (it != streams_.end()) {
       // TODO(dpolukhin): UInt here is only 32-bit, current version of API
       // don't support 64-bit integer numbers.
       it->second->OnWriteAcknowledge(count.AsInt());
     } else {
       PrintLogImpl(0, "onWriteAcknowledge: for unknown file descriptor\n");
     }
   } else {
     PrintLogImpl(0, "onWriteAcknowledge: invalid arguments\n");
   }
 }

 void SshPluginInstance::OnClose(const pp::VarArray& args) {
   const pp::Var fd = args.Get(0);
   InputStreams::iterator it = streams_.find(fd.AsInt());
   if (it != streams_.end()) {
     it->second->OnClose();
     streams_.erase(it);
   } else {
     PrintLogImpl(0, "onClose: for unknown file descriptor\n");
   }
 }

 void SshPluginInstance::OnReadReady(const pp::VarArray& args) {
   const pp::Var fd = args.Get(0);
   const pp::Var result = args.Get(1);
   if (fd.is_number() && result.is_bool()) {
     InputStreams::iterator it = streams_.find(fd.AsInt());
     if (it != streams_.end()) {
       it->second->OnReadReady(result.AsBool());
     } else {
       PrintLogImpl(0, "onReadReady: for unknown file descriptor\n");
     }
   } else {
     PrintLogImpl(0, "onReadReady: invalid arguments\n");
   }
 }

 void SshPluginInstance::OnResize(const pp::VarArray& args) {
   file_system_.SetTerminalSize(args.Get(0).AsInt(),
                                args.Get(1).AsInt());
 }

 void SshPluginInstance::OnExitAcknowledge(const pp::VarArray& args) {
   file_system_.ExitCodeAcked();
 }

 //------------------------------------------------------------------------------

 namespace pp {

 class SshPluginModule : public pp::Module {
  public:
   SshPluginModule() : pp::Module() {}
   virtual ~SshPluginModule() {}

   virtual pp::Instance* CreateInstance(PP_Instance instance) {
     return new SshPluginInstance(instance);
   }
 };

 Module* CreateModule() {
   return new SshPluginModule();
 }

 }  // namespace pp
	// Copyright (c) 2012 The Chromium OS Authors. All rights reserved.
	// Use of this source code is governed by a BSD-style license that can be
	// found in the LICENSE file.

	#include "ssh_plugin.h"

	#include <stdio.h>
	#include <string.h>
	#include <resolv.h>

	#include "ppapi/cpp/module.h"
	#include "ppapi/cpp/var_array_buffer.h"

	#include "file_system.h"

	const char kMessageNameAttr[] = "name";
	const char kMessageArgumentsAttr[] = "arguments";

	// These are C++ the method names as JavaScript sees them.
	const char kStartSessionMethodId[] = "startSession";
	const char kOnOpenFileMethodId[] = "onOpenFile";
	const char kOnOpenSocketMethodId[] = "onOpenSocket";
	const char kOnReadMethodId[] = "onRead";
	const char kOnWriteAcknowledgeMethodId[] = "onWriteAcknowledge";
	const char kOnCloseMethodId[] = "onClose";
	const char kOnReadReadyMethodId[] = "onReadReady";
	const char kOnResizeMethodId[] = "onResize";
	const char kOnExitAcknowledgeMethodId[] = "onExitAcknowledge";

	// Known startSession attributes.
	const char kUsernameAttr[] = "username";
	const char kHostAttr[] = "host";
	const char kPortAttr[] = "port";
	const char kTerminalWidthAttr[] = "terminalWidth";
	const char kTerminalHeightAttr[] = "terminalHeight";
	const char kUseJsSocketAttr[] = "useJsSocket";
	const char kEnvironmentAttr[] = "environment";
	const char kArgumentsAttr[] = "arguments";
	const char kWriteWindowAttr[] = "writeWindow";
	const char kAuthAgentAppID[] = "authAgentAppID";
	const char kSubsystemAttr[] = "subsystem";

	// These are JavaScript method names as C++ code sees them.
	const char kPrintLogMethodId[] = "printLog";
	const char kExitMethodId[] = "exit";
	const char kOpenFileMethodId[] = "openFile";
	const char kOpenSocketMethodId[] = "openSocket";
	const char kWriteMethodId[] = "write";
	const char kReadMethodId[] = "read";
	const char kCloseMethodId[] = "close";

	const size_t kDefaultWriteWindow = 64 * 1024;

	extern "C" int ssh_main(int ac, const char** av, const char *subsystem);

	//------------------------------------------------------------------------------

	SshPluginInstance* SshPluginInstance::instance_ = NULL;

	SshPluginInstance::SshPluginInstance(PP_Instance instance)
	: pp::Instance(instance),
	core_(pp::Module::Get()->core()),
	openssh_thread_(NULL),
	factory_(this),
	file_system_(this, this) {
	instance_ = this;
	}

	SshPluginInstance::~SshPluginInstance() {
	instance_ = NULL;
	}

	void SshPluginInstance::HandleMessage(const pp::Var& message_data) {
	if (message_data.is_dictionary()) {
	pp::VarDictionary message(message_data);
	pp::Var function_var = message.Get(kMessageNameAttr);
	pp::Var args_var = message.Get(kMessageArgumentsAttr);

	if (function_var.is_string() && args_var.is_array()) {
	const std::string function = function_var.AsString();
	if (!function.empty()) {
	const pp::VarArray args(args_var);
	Invoke(function, args);
	}
	}
	}
	}

	void SshPluginInstance::Invoke(const std::string& function,
	const pp::VarArray& args) {
	if (function == kStartSessionMethodId) {
	StartSession(args);
	} else if (function == kOnOpenFileMethodId \|\|
	function == kOnOpenSocketMethodId) {
	OnOpen(args);
	} else if (function == kOnReadMethodId) {
	OnRead(args);
	} else if (function == kOnWriteAcknowledgeMethodId) {
	OnWriteAcknowledge(args);
	} else if (function == kOnCloseMethodId) {
	OnClose(args);
	} else if (function == kOnReadReadyMethodId) {
	OnReadReady(args);
	} else if (function == kOnResizeMethodId) {
	OnResize(args);
	} else if (function == kOnExitAcknowledgeMethodId) {
	OnExitAcknowledge(args);
	}
	}

	void SshPluginInstance::InvokeJS(const std::string& function,
	const pp::VarArray& args) {
	pp::VarDictionary dict;
	dict.Set(kMessageNameAttr, pp::Var(function));
	dict.Set(kMessageArgumentsAttr, args);
	PostMessage(dict);
	}

	void SshPluginInstance::PrintLogImpl(int32_t result, const std::string& msg) {
	pp::VarArray call_args;
	call_args.SetLength(1);
	call_args.Set(0, msg);
	InvokeJS(kPrintLogMethodId, call_args);
	}

	void SshPluginInstance::PrintLog(const std::string& msg) {
	core_->CallOnMainThread(0, factory_.NewCallback(
	&SshPluginInstance::PrintLogImpl, msg));
	}

	void SshPluginInstance::SendExitCodeImpl(int32_t result, int error) {
	pp::VarArray call_args;
	call_args.SetLength(1);
	call_args.Set(0, error);
	InvokeJS(kExitMethodId, call_args);
	}

	void SshPluginInstance::SendExitCode(int error) {
	core_->CallOnMainThread(0, factory_.NewCallback(
	&SshPluginInstance::SendExitCodeImpl, error));
	openssh_thread_ = NULL;
	}

	bool SshPluginInstance::OpenFile(int fd, const char* name, int mode,
	InputInterface* stream) {
	if (name) {
	pp::VarArray call_args;
	call_args.SetLength(3);
	call_args.Set(0, fd);
	call_args.Set(1, name);
	call_args.Set(2, mode);
	InvokeJS(kOpenFileMethodId, call_args);
	}
	assert(streams_.find(fd) == streams_.end());
	streams_[fd] = stream;
	return true;
	}

	bool SshPluginInstance::OpenSocket(int fd, const char* host, uint16_t port,
	InputInterface* stream) {
	pp::VarArray call_args;
	call_args.SetLength(3);
	call_args.Set(0, fd);
	call_args.Set(1, host);
	call_args.Set(2, port);
	InvokeJS(kOpenSocketMethodId, call_args);
	assert(streams_.find(fd) == streams_.end());
	streams_[fd] = stream;
	return true;
	}

	bool SshPluginInstance::Write(int fd, const char* data, size_t size) {
	const size_t kMaxWriteSize = 32 * 1024;
	pp::VarArray call_args;
	size_t start = 0;

	call_args.SetLength(2);
	call_args.Set(0, fd);

	while (start < size) {
	size_t chunk_size = ((size - start) <= kMaxWriteSize) ? (size - start)
	: kMaxWriteSize;

	pp::VarArrayBuffer arr(chunk_size);
	char* buf = static_cast<char*>(arr.Map());
	memcpy(buf, data + start, chunk_size);
	arr.Unmap();

	call_args.Set(1, arr);

	start += chunk_size;
	InvokeJS(kWriteMethodId, call_args);
	}
	return true;
	}

	bool SshPluginInstance::Read(int fd, size_t size) {
	pp::VarArray call_args;
	call_args.SetLength(2);
	call_args.Set(0, fd);
	call_args.Set(1, (int32_t)size);
	InvokeJS(kReadMethodId, call_args);
	return true;
	}

	bool SshPluginInstance::Close(int fd) {
	pp::VarArray call_args;
	call_args.SetLength(1);
	call_args.Set(0, fd);
	InvokeJS(kCloseMethodId, call_args);
	return true;
	}

	size_t SshPluginInstance::GetWriteWindow() {
	if (session_args_.HasKey(kWriteWindowAttr)) {
	const pp::Var arg = session_args_.Get(kWriteWindowAttr);
	if (arg.is_number())
	return arg.AsInt();
	}
	return kDefaultWriteWindow;
	}

	void SshPluginInstance::SessionThreadImpl() {
	file_system_.WaitForStdFiles();

	// Call renamed ssh main.
	std::vector<const std::string> argv;
	// argv[0]
	argv.push_back("ssh");
	if (session_args_.HasKey(kArgumentsAttr)) {
	const pp::Var arg = session_args_.Get(kArgumentsAttr);
	if (arg.is_array()) {
	const pp::VarArray args(arg);
	for (size_t i = 0; i < args.GetLength(); i++) {
	if (args.Get(i).is_string())
	argv.push_back(args.Get(i).AsString());
	else
	PrintLog("startSession: invalid argument\n");
	}
	}
	}

	std::string port;
	if (session_args_.HasKey(kPortAttr)) {
	char buf[64];
	snprintf(buf, sizeof(buf), "-p%d", session_args_.Get(kPortAttr).AsInt());
	port = buf;
	argv.push_back(port.c_str());
	}

	std::string username_hostname;
	if (session_args_.HasKey(kUsernameAttr) &&
	session_args_.HasKey(kHostAttr)) {
	username_hostname = session_args_.Get(kUsernameAttr).AsString() + "@" +
	session_args_.Get(kHostAttr).AsString();
	argv.push_back(username_hostname.c_str());
	}

	std::string subsystem;
	const char *csubsystem = NULL;
	if (session_args_.HasKey(kSubsystemAttr)) {
	subsystem = session_args_.Get(kSubsystemAttr).AsString();
	csubsystem = subsystem.c_str();
	}

	LOG("ssh main args:\n");
	for (size_t i = 0; i < argv.size(); i++)
	LOG(" argv[%d] = %s\n", i, argv[i]);

	std::vector<const char *> cargv;
	for (auto it = argv.begin(); it != argv.end(); ++it)
	cargv.push_back(it->c_str());
	SendExitCode(ssh_main(cargv.size(), &cargv[0], csubsystem));
	}

	void* SshPluginInstance::SessionThread(void* arg) {
	SshPluginInstance* instance = static_cast<SshPluginInstance*>(arg);
	instance->SessionThreadImpl();
	return NULL;
	}

	void SshPluginInstance::StartSession(const pp::VarArray& args) {
	if (openssh_thread_) {
	PrintLogImpl(0, "startSession: session already started!\n");
	return;
	}

	if (args.GetLength() != 1) {
	PrintLogImpl(0, "startSession: args must be one element only\n");
	return;
	}

	const pp::Var session_arg = args.Get(0);
	if (!session_arg.is_dictionary()) {
	PrintLogImpl(0, "startSession: args[0] must be a dictionary of settings\n");
	return;
	}

	session_args_ = pp::VarDictionary(session_arg);

	if (session_args_.HasKey(kTerminalWidthAttr) &&
	session_args_.Get(kTerminalWidthAttr).is_number() &&
	session_args_.HasKey(kTerminalHeightAttr) &&
	session_args_.Get(kTerminalHeightAttr).is_number()) {
	file_system_.SetTerminalSize(session_args_.Get(kTerminalWidthAttr).AsInt(),
	session_args_.Get(kTerminalHeightAttr).AsInt());
	}
	if (session_args_.HasKey(kUseJsSocketAttr) &&
	session_args_.Get(kUseJsSocketAttr).is_bool()) {
	file_system_.UseJsSocket(session_args_.Get(kUseJsSocketAttr).AsBool());
	}
	if (session_args_.HasKey(kEnvironmentAttr) &&
	session_args_.Get(kEnvironmentAttr).is_dictionary()) {
	const pp::VarDictionary env(session_args_.Get(kEnvironmentAttr));
	const pp::VarArray keys = env.GetKeys();
	for (size_t i = 0; i < keys.GetLength(); ++i) {
	const pp::Var key(keys.Get(i));
	const pp::Var value(env.Get(key));
	if (key.is_string() && value.is_string())
	setenv(key.AsString().c_str(), value.AsString().c_str(), 1);
	}
	}
	if (session_args_.HasKey(kAuthAgentAppID) &&
	session_args_.Get(kAuthAgentAppID).is_string()) {
	const pp::Var agent(session_args_.Get(kAuthAgentAppID));
	setenv("SSH_AUTH_SOCK", agent.AsString().c_str(), 1);
	}
	if (pthread_create(&openssh_thread_, NULL,
	&SshPluginInstance::SessionThread, this)) {
	SendExitCodeImpl(0, -1);
	}
	}

	void SshPluginInstance::OnOpen(const pp::VarArray& args) {
	const pp::Var fd = args.Get(0);
	const pp::Var success = args.Get(1);
	const pp::Var is_atty = args.Get(2);
	if (fd.is_number() && success.is_bool() && is_atty.is_bool()) {
	InputStreams::iterator it = streams_.find(fd.AsInt());
	if (it != streams_.end()) {
	it->second->OnOpen(success.AsBool(), is_atty.AsBool());
	if (!success.AsBool())
	streams_.erase(it);
	} else {
	PrintLogImpl(0, "onOpen: for unknown file descriptor\n");
	}
	} else {
	PrintLogImpl(0, "onOpen: invalid arguments\n");
	}
	}

	void SshPluginInstance::OnRead(const pp::VarArray& args) {
	const pp::Var fd = args.Get(0);
	const pp::Var data = args.Get(1);

	if (!fd.is_number()) {
	PrintLogImpl(0, "onRead: bad fd argument (non-numeric)\n");
	return;
	}

	InputStreams::iterator it = streams_.find(fd.AsInt());
	if (it == streams_.end()) {
	PrintLogImpl(0, "onRead: for unknown file descriptor\n");
	return;
	}

	if (data.is_string()) {
	const std::string& str = data.AsString();
	std::vector<char> buf(str.size() * 3 / 4);
	int res = b64_pton(str.c_str(), (unsigned char*)&buf[0], buf.size());
	assert(res >= 0);
	it->second->OnRead(&buf[0], res);
	} else if (data.is_array()) {
	const pp::VarArray arr(data);
	std::vector<char> buf(arr.GetLength());
	for (size_t i = 0; i < buf.size(); ++i)
	buf[i] = arr.Get(i).AsInt();
	it->second->OnRead(&buf[0], buf.size());
	} else if (data.is_array_buffer()) {
	pp::VarArrayBuffer arr(data);
	const char* buf = static_cast<char*>(arr.Map());
	it->second->OnRead(buf, arr.ByteLength());
	arr.Unmap();
	} else {
	PrintLogImpl(0, "onRead: invalid data argument (not string or array)\n");
	}
	}

	void SshPluginInstance::OnWriteAcknowledge(const pp::VarArray& args) {
	const pp::Var fd = args.Get(0);
	const pp::Var count = args.Get(1);
	if (fd.is_number() && count.is_number()) {
	InputStreams::iterator it = streams_.find(fd.AsInt());
	if (it != streams_.end()) {
	// TODO(dpolukhin): UInt here is only 32-bit, current version of API
	// don't support 64-bit integer numbers.
	it->second->OnWriteAcknowledge(count.AsInt());
	} else {
	PrintLogImpl(0, "onWriteAcknowledge: for unknown file descriptor\n");
	}
	} else {
	PrintLogImpl(0, "onWriteAcknowledge: invalid arguments\n");
	}
	}

	void SshPluginInstance::OnClose(const pp::VarArray& args) {
	const pp::Var fd = args.Get(0);
	InputStreams::iterator it = streams_.find(fd.AsInt());
	if (it != streams_.end()) {
	it->second->OnClose();
	streams_.erase(it);
	} else {
	PrintLogImpl(0, "onClose: for unknown file descriptor\n");
	}
	}

	void SshPluginInstance::OnReadReady(const pp::VarArray& args) {
	const pp::Var fd = args.Get(0);
	const pp::Var result = args.Get(1);
	if (fd.is_number() && result.is_bool()) {
	InputStreams::iterator it = streams_.find(fd.AsInt());
	if (it != streams_.end()) {
	it->second->OnReadReady(result.AsBool());
	} else {
	PrintLogImpl(0, "onReadReady: for unknown file descriptor\n");
	}
	} else {
	PrintLogImpl(0, "onReadReady: invalid arguments\n");
	}
	}

	void SshPluginInstance::OnResize(const pp::VarArray& args) {
	file_system_.SetTerminalSize(args.Get(0).AsInt(),
	args.Get(1).AsInt());
	}

	void SshPluginInstance::OnExitAcknowledge(const pp::VarArray& args) {
	file_system_.ExitCodeAcked();
	}

	//------------------------------------------------------------------------------

	namespace pp {

	class SshPluginModule : public pp::Module {
	public:
	SshPluginModule() : pp::Module() {}
	virtual ~SshPluginModule() {}

	virtual pp::Instance* CreateInstance(PP_Instance instance) {
	return new SshPluginInstance(instance);
	}
	};

	Module* CreateModule() {
	return new SshPluginModule();
	}

	} // namespace pp