content/zygote/zygote_linux.h - chromium/src - Git at Google

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

 #ifndef CONTENT_ZYGOTE_ZYGOTE_LINUX_H_
 #define CONTENT_ZYGOTE_ZYGOTE_LINUX_H_

 #include <stddef.h>

 #include <string>
 #include <vector>

 #include "base/containers/small_map.h"
 #include "base/files/scoped_file.h"
 #include "base/memory/scoped_vector.h"
 #include "base/posix/global_descriptors.h"
 #include "base/process/kill.h"
 #include "base/process/process.h"
 #include "base/process/process_handle.h"
 #include "base/time/time.h"

 namespace base {
 class Pickle;
 class PickleIterator;
 }

 namespace content {

 class ZygoteForkDelegate;

 // This is the object which implements the zygote. The ZygoteMain function,
 // which is called from ChromeMain, simply constructs one of these objects and
 // runs it.
 class Zygote {
  public:
   Zygote(int sandbox_flags, ScopedVector<ZygoteForkDelegate> helpers,
          const std::vector<base::ProcessHandle>& extra_children,
          const std::vector<int>& extra_fds);
   ~Zygote();

   bool ProcessRequests();

  private:
   struct ZygoteProcessInfo {
     // Pid from inside the Zygote's PID namespace.
     base::ProcessHandle internal_pid;
     // Keeps track of which fork delegate helper the process was started from.
     ZygoteForkDelegate* started_from_helper;
     // Records when the browser requested the zygote to reap this process.
     base::TimeTicks time_of_reap_request;
     // Notes whether the zygote has sent SIGKILL to this process.
     bool sent_sigkill;
   };
   typedef base::SmallMap< std::map<base::ProcessHandle, ZygoteProcessInfo> >
       ZygoteProcessMap;

   // Retrieve a ZygoteProcessInfo from the process_info_map_.
   // Returns true and write to process_info if |pid| can be found, return
   // false otherwise.
   bool GetProcessInfo(base::ProcessHandle pid,
                       ZygoteProcessInfo* process_info);

   // Returns true if the SUID sandbox is active.
   bool UsingSUIDSandbox() const;
   // Returns true if the NS sandbox is active.
   bool UsingNSSandbox() const;

   // ---------------------------------------------------------------------------
   // Requests from the browser...

   // Read and process a request from the browser. Returns true if we are in a
   // new process and thus need to unwind back into ChromeMain.
   bool HandleRequestFromBrowser(int fd);

   void HandleReapRequest(int fd, base::PickleIterator iter);

   // Get the termination status of |real_pid|. |real_pid| is the PID as it
   // appears outside of the sandbox.
   // Return true if it managed to get the termination status and return the
   // status in |status| and the exit code in |exit_code|.
   bool GetTerminationStatus(base::ProcessHandle real_pid, bool known_dead,
                             base::TerminationStatus* status,
                             int* exit_code);

   void HandleGetTerminationStatus(int fd,
                                   base::PickleIterator iter);

   // This is equivalent to fork(), except that, when using the SUID sandbox, it
   // returns the real PID of the child process as it appears outside the
   // sandbox, rather than returning the PID inside the sandbox.  The child's
   // real PID is determined by having it call content::SendZygoteChildPing(int)
   // using the |pid_oracle| descriptor.
   // Finally, when using a ZygoteForkDelegate helper, |uma_name|, |uma_sample|,
   // and |uma_boundary_value| may be set if the helper wants to make a UMA
   // report via UMA_HISTOGRAM_ENUMERATION.
   int ForkWithRealPid(const std::string& process_type,
                       const base::GlobalDescriptors::Mapping& fd_mapping,
                       const std::string& channel_id,
                       base::ScopedFD pid_oracle,
                       std::string* uma_name,
                       int* uma_sample,
                       int* uma_boundary_value);

   // Unpacks process type and arguments from |iter| and forks a new process.
   // Returns -1 on error, otherwise returns twice, returning 0 to the child
   // process and the child process ID to the parent process, like fork().
   base::ProcessId ReadArgsAndFork(base::PickleIterator iter,
                                   std::vector<base::ScopedFD> fds,
                                   std::string* uma_name,
                                   int* uma_sample,
                                   int* uma_boundary_value);

   // Handle a 'fork' request from the browser: this means that the browser
   // wishes to start a new renderer. Returns true if we are in a new process,
   // otherwise writes the child_pid back to the browser via |fd|. Writes a
   // child_pid of -1 on error.
   bool HandleForkRequest(int fd,
                          base::PickleIterator iter,
                          std::vector<base::ScopedFD> fds);

   bool HandleGetSandboxStatus(int fd,
                               base::PickleIterator iter);

   // Attempt to reap the child process by calling waitpid, and return
   // whether successful.  If the process has not terminated within
   // 2 seconds of its reap request, send it SIGKILL.
   bool ReapChild(const base::TimeTicks& now, ZygoteProcessInfo* child);

   // Attempt to reap all outstanding children in |to_reap_|.
   void ReapChildren();

   // The Zygote needs to keep some information about each process. Most
   // notably what the PID of the process is inside the PID namespace of
   // the Zygote and whether or not a process was started by the
   // ZygoteForkDelegate helper.
   ZygoteProcessMap process_info_map_;

   const int sandbox_flags_;
   ScopedVector<ZygoteForkDelegate> helpers_;

   // Count of how many fork delegates for which we've invoked InitialUMA().
   size_t initial_uma_index_;

   // This vector contains the PIDs of any child processes which have been
   // created prior to the construction of the Zygote object, and must be reaped
   // before the Zygote exits. The Zygote will perform a blocking wait on these
   // children, so they must be guaranteed to be exiting by the time the Zygote
   // exits.
   std::vector<base::ProcessHandle> extra_children_;

   // This vector contains the FDs that must be closed before reaping the extra
   // children.
   std::vector<int> extra_fds_;

   // The vector contains the child processes that need to be reaped.
   std::vector<ZygoteProcessInfo> to_reap_;
 };

 }  // namespace content

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

	#ifndef CONTENT_ZYGOTE_ZYGOTE_LINUX_H_
	#define CONTENT_ZYGOTE_ZYGOTE_LINUX_H_

	#include <stddef.h>

	#include <string>
	#include <vector>

	#include "base/containers/small_map.h"
	#include "base/files/scoped_file.h"
	#include "base/memory/scoped_vector.h"
	#include "base/posix/global_descriptors.h"
	#include "base/process/kill.h"
	#include "base/process/process.h"
	#include "base/process/process_handle.h"
	#include "base/time/time.h"

	namespace base {
	class Pickle;
	class PickleIterator;
	}

	namespace content {

	class ZygoteForkDelegate;

	// This is the object which implements the zygote. The ZygoteMain function,
	// which is called from ChromeMain, simply constructs one of these objects and
	// runs it.
	class Zygote {
	public:
	Zygote(int sandbox_flags, ScopedVector<ZygoteForkDelegate> helpers,
	const std::vector<base::ProcessHandle>& extra_children,
	const std::vector<int>& extra_fds);
	~Zygote();

	bool ProcessRequests();

	private:
	struct ZygoteProcessInfo {
	// Pid from inside the Zygote's PID namespace.
	base::ProcessHandle internal_pid;
	// Keeps track of which fork delegate helper the process was started from.
	ZygoteForkDelegate* started_from_helper;
	// Records when the browser requested the zygote to reap this process.
	base::TimeTicks time_of_reap_request;
	// Notes whether the zygote has sent SIGKILL to this process.
	bool sent_sigkill;
	};
	typedef base::SmallMap< std::map<base::ProcessHandle, ZygoteProcessInfo> >
	ZygoteProcessMap;

	// Retrieve a ZygoteProcessInfo from the process_info_map_.
	// Returns true and write to process_info if \|pid\| can be found, return
	// false otherwise.
	bool GetProcessInfo(base::ProcessHandle pid,
	ZygoteProcessInfo* process_info);

	// Returns true if the SUID sandbox is active.
	bool UsingSUIDSandbox() const;
	// Returns true if the NS sandbox is active.
	bool UsingNSSandbox() const;

	// ---------------------------------------------------------------------------
	// Requests from the browser...

	// Read and process a request from the browser. Returns true if we are in a
	// new process and thus need to unwind back into ChromeMain.
	bool HandleRequestFromBrowser(int fd);

	void HandleReapRequest(int fd, base::PickleIterator iter);

	// Get the termination status of \|real_pid\|. \|real_pid\| is the PID as it
	// appears outside of the sandbox.
	// Return true if it managed to get the termination status and return the
	// status in \|status\| and the exit code in \|exit_code\|.
	bool GetTerminationStatus(base::ProcessHandle real_pid, bool known_dead,
	base::TerminationStatus* status,
	int* exit_code);

	void HandleGetTerminationStatus(int fd,
	base::PickleIterator iter);

	// This is equivalent to fork(), except that, when using the SUID sandbox, it
	// returns the real PID of the child process as it appears outside the
	// sandbox, rather than returning the PID inside the sandbox. The child's
	// real PID is determined by having it call content::SendZygoteChildPing(int)
	// using the \|pid_oracle\| descriptor.
	// Finally, when using a ZygoteForkDelegate helper, \|uma_name\|, \|uma_sample\|,
	// and \|uma_boundary_value\| may be set if the helper wants to make a UMA
	// report via UMA_HISTOGRAM_ENUMERATION.
	int ForkWithRealPid(const std::string& process_type,
	const base::GlobalDescriptors::Mapping& fd_mapping,
	const std::string& channel_id,
	base::ScopedFD pid_oracle,
	std::string* uma_name,
	int* uma_sample,
	int* uma_boundary_value);

	// Unpacks process type and arguments from \|iter\| and forks a new process.
	// Returns -1 on error, otherwise returns twice, returning 0 to the child
	// process and the child process ID to the parent process, like fork().
	base::ProcessId ReadArgsAndFork(base::PickleIterator iter,
	std::vector<base::ScopedFD> fds,
	std::string* uma_name,
	int* uma_sample,
	int* uma_boundary_value);

	// Handle a 'fork' request from the browser: this means that the browser
	// wishes to start a new renderer. Returns true if we are in a new process,
	// otherwise writes the child_pid back to the browser via \|fd\|. Writes a
	// child_pid of -1 on error.
	bool HandleForkRequest(int fd,
	base::PickleIterator iter,
	std::vector<base::ScopedFD> fds);

	bool HandleGetSandboxStatus(int fd,
	base::PickleIterator iter);

	// Attempt to reap the child process by calling waitpid, and return
	// whether successful. If the process has not terminated within
	// 2 seconds of its reap request, send it SIGKILL.
	bool ReapChild(const base::TimeTicks& now, ZygoteProcessInfo* child);

	// Attempt to reap all outstanding children in \|to_reap_\|.
	void ReapChildren();

	// The Zygote needs to keep some information about each process. Most
	// notably what the PID of the process is inside the PID namespace of
	// the Zygote and whether or not a process was started by the
	// ZygoteForkDelegate helper.
	ZygoteProcessMap process_info_map_;

	const int sandbox_flags_;
	ScopedVector<ZygoteForkDelegate> helpers_;

	// Count of how many fork delegates for which we've invoked InitialUMA().
	size_t initial_uma_index_;

	// This vector contains the PIDs of any child processes which have been
	// created prior to the construction of the Zygote object, and must be reaped
	// before the Zygote exits. The Zygote will perform a blocking wait on these
	// children, so they must be guaranteed to be exiting by the time the Zygote
	// exits.
	std::vector<base::ProcessHandle> extra_children_;

	// This vector contains the FDs that must be closed before reaping the extra
	// children.
	std::vector<int> extra_fds_;

	// The vector contains the child processes that need to be reaped.
	std::vector<ZygoteProcessInfo> to_reap_;
	};

	} // namespace content

	#endif // CONTENT_ZYGOTE_ZYGOTE_LINUX_H_