shill/external_task.cc - mirrors/cros/chromiumos/platform2 - Git at Google

 // Copyright 2018 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 "shill/external_task.h"

 #include <memory>
 #include <utility>

 #include <base/bind.h>
 #include <base/bind_helpers.h>

 #include "shill/error.h"
 #include "shill/event_dispatcher.h"
 #include "shill/process_manager.h"

 namespace shill {

 using base::FilePath;
 using std::map;
 using std::string;
 using std::vector;

 ExternalTask::ExternalTask(
     ControlInterface* control,
     ProcessManager* process_manager,
     const base::WeakPtr<RPCTaskDelegate>& task_delegate,
     const base::Callback<void(pid_t, int)>& death_callback)
     : control_(control),
       process_manager_(process_manager),
       task_delegate_(task_delegate),
       death_callback_(death_callback),
       pid_(0) {
   CHECK(task_delegate_);
 }

 ExternalTask::~ExternalTask() {
   ExternalTask::Stop();
 }

 void ExternalTask::DestroyLater(EventDispatcher* dispatcher) {
   // Passes ownership of |this| to Destroy.
   dispatcher->PostTask(FROM_HERE, base::Bind(&Destroy, this));
 }

 bool ExternalTask::Start(const FilePath& program,
                          const vector<string>& arguments,
                          const map<string, string>& environment,
                          bool terminate_with_parent,
                          Error* error) {
   CHECK(!pid_);
   CHECK(!rpc_task_);

   // Setup full environment variables.
   auto local_rpc_task = std::make_unique<RPCTask>(control_, this);
   map<string, string> env = local_rpc_task->GetEnvironment();
   env.insert(environment.begin(), environment.end());

   pid_t pid =
       process_manager_->StartProcess(FROM_HERE,
                                      program,
                                      arguments,
                                      env,
                                      terminate_with_parent,
                                      base::Bind(&ExternalTask::OnTaskDied,
                                                 base::Unretained(this)));

   if (pid < 0) {
     Error::PopulateAndLog(FROM_HERE, error, Error::kInternalError,
                           string("Unable to spawn: ") +
                           program.value().c_str());
     return false;
   }
   pid_ = pid;
   rpc_task_ = std::move(local_rpc_task);
   return true;
 }

 bool ExternalTask::StartInMinijail(const FilePath& program,
                                    vector<string>* arguments,
                                    const string user,
                                    const string group,
                                    uint64_t mask,
                                    bool inherit_supplementary_groups,
                                    bool close_nonstd_fds,
                                    Error* error) {
   // Checks will fail if Start or StartInMinijailWithRPCIdentifiers has already
   // been called on this object.
   CHECK(!pid_);
   CHECK(!rpc_task_);

   // Passes the connection identifiers on the command line instead of through
   // environment variables.
   auto local_rpc_task = std::make_unique<RPCTask>(control_, this);
   map<string, string> env = local_rpc_task->GetEnvironment();
   map<string, string>::iterator task_service_variable =
                                 env.find(kRPCTaskServiceVariable);
   map<string, string>::iterator task_path_variable =
                                 env.find(kRPCTaskPathVariable);
   // Fails without the necessary environment variables.
   if (task_service_variable == env.end() || task_path_variable == env.end()) {
     Error::PopulateAndLog(FROM_HERE, error, Error::kInternalError,
                           string("Invalid environment variables for: ") +
                           program.value().c_str());
     return false;
   }
   arguments->push_back(base::StringPrintf("--shill_task_service=%s",
                       task_service_variable->second.c_str()));
   arguments->push_back(base::StringPrintf("--shill_task_path=%s",
                       task_path_variable->second.c_str()));

   pid_t pid = process_manager_->StartProcessInMinijail(
       FROM_HERE, program, *arguments, user, group, mask,
       inherit_supplementary_groups, close_nonstd_fds,
       base::Bind(&ExternalTask::OnTaskDied, base::Unretained(this)));

   if (pid < 0) {
     Error::PopulateAndLog(FROM_HERE, error, Error::kInternalError,
                           string("Unable to spawn: ") +
                           program.value().c_str() + string(" in a minijail."));
     return false;
   }
   pid_ = pid;
   rpc_task_ = std::move(local_rpc_task);
   return true;
 }

 void ExternalTask::Stop() {
   if (pid_) {
     process_manager_->StopProcess(pid_);
     pid_ = 0;
   }
   rpc_task_.reset();
 }

 void ExternalTask::GetLogin(string* user, string* password) {
   return task_delegate_->GetLogin(user, password);
 }

 void ExternalTask::Notify(const string& event,
                           const map<string, string>& details) {
   return task_delegate_->Notify(event, details);
 }

 void ExternalTask::OnTaskDied(int exit_status) {
   CHECK(pid_);
   LOG(INFO) << __func__ << "(" << pid_ << ", "
             << exit_status << ")";
   death_callback_.Run(pid_, exit_status);
   pid_ = 0;
   rpc_task_.reset();
 }

 // static
 void ExternalTask::Destroy(ExternalTask* task) {
   delete task;
 }

 }  // namespace shill
	// Copyright 2018 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 "shill/external_task.h"

	#include <memory>
	#include <utility>

	#include <base/bind.h>
	#include <base/bind_helpers.h>

	#include "shill/error.h"
	#include "shill/event_dispatcher.h"
	#include "shill/process_manager.h"

	namespace shill {

	using base::FilePath;
	using std::map;
	using std::string;
	using std::vector;

	ExternalTask::ExternalTask(
	ControlInterface* control,
	ProcessManager* process_manager,
	const base::WeakPtr<RPCTaskDelegate>& task_delegate,
	const base::Callback<void(pid_t, int)>& death_callback)
	: control_(control),
	process_manager_(process_manager),
	task_delegate_(task_delegate),
	death_callback_(death_callback),
	pid_(0) {
	CHECK(task_delegate_);
	}

	ExternalTask::~ExternalTask() {
	ExternalTask::Stop();
	}

	void ExternalTask::DestroyLater(EventDispatcher* dispatcher) {
	// Passes ownership of \|this\| to Destroy.
	dispatcher->PostTask(FROM_HERE, base::Bind(&Destroy, this));
	}

	bool ExternalTask::Start(const FilePath& program,
	const vector<string>& arguments,
	const map<string, string>& environment,
	bool terminate_with_parent,
	Error* error) {
	CHECK(!pid_);
	CHECK(!rpc_task_);

	// Setup full environment variables.
	auto local_rpc_task = std::make_unique<RPCTask>(control_, this);
	map<string, string> env = local_rpc_task->GetEnvironment();
	env.insert(environment.begin(), environment.end());

	pid_t pid =
	process_manager_->StartProcess(FROM_HERE,
	program,
	arguments,
	env,
	terminate_with_parent,
	base::Bind(&ExternalTask::OnTaskDied,
	base::Unretained(this)));

	if (pid < 0) {
	Error::PopulateAndLog(FROM_HERE, error, Error::kInternalError,
	string("Unable to spawn: ") +
	program.value().c_str());
	return false;
	}
	pid_ = pid;
	rpc_task_ = std::move(local_rpc_task);
	return true;
	}

	bool ExternalTask::StartInMinijail(const FilePath& program,
	vector<string>* arguments,
	const string user,
	const string group,
	uint64_t mask,
	bool inherit_supplementary_groups,
	bool close_nonstd_fds,
	Error* error) {
	// Checks will fail if Start or StartInMinijailWithRPCIdentifiers has already
	// been called on this object.
	CHECK(!pid_);
	CHECK(!rpc_task_);

	// Passes the connection identifiers on the command line instead of through
	// environment variables.
	auto local_rpc_task = std::make_unique<RPCTask>(control_, this);
	map<string, string> env = local_rpc_task->GetEnvironment();
	map<string, string>::iterator task_service_variable =
	env.find(kRPCTaskServiceVariable);
	map<string, string>::iterator task_path_variable =
	env.find(kRPCTaskPathVariable);
	// Fails without the necessary environment variables.
	if (task_service_variable == env.end() \|\| task_path_variable == env.end()) {
	Error::PopulateAndLog(FROM_HERE, error, Error::kInternalError,
	string("Invalid environment variables for: ") +
	program.value().c_str());
	return false;
	}
	arguments->push_back(base::StringPrintf("--shill_task_service=%s",
	task_service_variable->second.c_str()));
	arguments->push_back(base::StringPrintf("--shill_task_path=%s",
	task_path_variable->second.c_str()));

	pid_t pid = process_manager_->StartProcessInMinijail(
	FROM_HERE, program, *arguments, user, group, mask,
	inherit_supplementary_groups, close_nonstd_fds,
	base::Bind(&ExternalTask::OnTaskDied, base::Unretained(this)));

	if (pid < 0) {
	Error::PopulateAndLog(FROM_HERE, error, Error::kInternalError,
	string("Unable to spawn: ") +
	program.value().c_str() + string(" in a minijail."));
	return false;
	}
	pid_ = pid;
	rpc_task_ = std::move(local_rpc_task);
	return true;
	}

	void ExternalTask::Stop() {
	if (pid_) {
	process_manager_->StopProcess(pid_);
	pid_ = 0;
	}
	rpc_task_.reset();
	}

	void ExternalTask::GetLogin(string* user, string* password) {
	return task_delegate_->GetLogin(user, password);
	}

	void ExternalTask::Notify(const string& event,
	const map<string, string>& details) {
	return task_delegate_->Notify(event, details);
	}

	void ExternalTask::OnTaskDied(int exit_status) {
	CHECK(pid_);
	LOG(INFO) << __func__ << "(" << pid_ << ", "
	<< exit_status << ")";
	death_callback_.Run(pid_, exit_status);
	pid_ = 0;
	rpc_task_.reset();
	}

	// static
	void ExternalTask::Destroy(ExternalTask* task) {
	delete task;
	}

	} // namespace shill