runtime/bin/process.h - sdk - Git at Google

 // Copyright (c) 2012, the Dart project authors.  Please see the AUTHORS file
 // for details. All rights reserved. Use of this source code is governed by a
 // BSD-style license that can be found in the LICENSE file.

 #ifndef RUNTIME_BIN_PROCESS_H_
 #define RUNTIME_BIN_PROCESS_H_

 #include <errno.h>

 #include "bin/builtin.h"
 #include "bin/io_buffer.h"
 #include "bin/lockers.h"
 #include "bin/namespace.h"
 #include "bin/thread.h"
 #include "platform/globals.h"
 #if !defined(HOST_OS_WINDOWS)
 #include "platform/signal_blocker.h"
 #endif
 #include "platform/utils.h"

 namespace dart {
 namespace bin {

 class ProcessResult {
  public:
   ProcessResult() : exit_code_(0) {}

   void set_stdout_data(Dart_Handle stdout_data) { stdout_data_ = stdout_data; }
   void set_stderr_data(Dart_Handle stderr_data) { stderr_data_ = stderr_data; }

   void set_exit_code(intptr_t exit_code) { exit_code_ = exit_code; }

   Dart_Handle stdout_data() { return stdout_data_; }
   Dart_Handle stderr_data() { return stderr_data_; }
   intptr_t exit_code() { return exit_code_; }

  private:
   Dart_Handle stdout_data_;
   Dart_Handle stderr_data_;
   intptr_t exit_code_;

   DISALLOW_ALLOCATION();
 };

 // To be kept in sync with ProcessSignal consts in sdk/lib/io/process.dart
 // Note that this map is as on Linux.
 enum ProcessSignals {
   kSighup = 1,
   kSigint = 2,
   kSigquit = 3,
   kSigill = 4,
   kSigtrap = 5,
   kSigabrt = 6,
   kSigbus = 7,
   kSigfpe = 8,
   kSigkill = 9,
   kSigusr1 = 10,
   kSigsegv = 11,
   kSigusr2 = 12,
   kSigpipe = 13,
   kSigalrm = 14,
   kSigterm = 15,
   kSigchld = 17,
   kSigcont = 18,
   kSigstop = 19,
   kSigtstp = 20,
   kSigttin = 21,
   kSigttou = 22,
   kSigurg = 23,
   kSigxcpu = 24,
   kSigxfsz = 25,
   kSigvtalrm = 26,
   kSigprof = 27,
   kSigwinch = 28,
   kSigpoll = 29,
   kSigsys = 31,
   kLastSignal = kSigsys,
 };

 // To be kept in sync with ProcessStartMode consts in sdk/lib/io/process.dart.
 enum ProcessStartMode {
   kNormal = 0,
   kInheritStdio = 1,
   kDetached = 2,
   kDetachedWithStdio = 3,
 };

 class Process {
  public:
   // Start a new process providing access to stdin, stdout, stderr and
   // process exit streams.
   static int Start(Namespace* namespc,
                    const char* path,
                    char* arguments[],
                    intptr_t arguments_length,
                    const char* working_directory,
                    char* environment[],
                    intptr_t environment_length,
                    ProcessStartMode mode,
                    intptr_t* in,
                    intptr_t* out,
                    intptr_t* err,
                    intptr_t* id,
                    intptr_t* exit_handler,
                    char** os_error_message);

   static bool Wait(intptr_t id,
                    intptr_t in,
                    intptr_t out,
                    intptr_t err,
                    intptr_t exit_handler,
                    ProcessResult* result);

   // Kill a process with a given pid.
   static bool Kill(intptr_t id, int signal);

   // Terminate the exit code handler thread. Does not return before
   // the thread has terminated.
   static void TerminateExitCodeHandler();

   static int GlobalExitCode() {
     MutexLocker ml(global_exit_code_mutex_);
     return global_exit_code_;
   }

   static void SetGlobalExitCode(int exit_code) {
     MutexLocker ml(global_exit_code_mutex_);
     global_exit_code_ = exit_code;
   }

   typedef void (*ExitHook)(int64_t exit_code);
   static void SetExitHook(ExitHook hook) { exit_hook_ = hook; }
   static void RunExitHook(int64_t exit_code) {
     if (exit_hook_ != NULL) {
       exit_hook_(exit_code);
     }
   }

   static intptr_t CurrentProcessId();

   static intptr_t SetSignalHandler(intptr_t signal);
   // When there is a current Isolate and the 'port' argument is
   // Dart_GetMainPortId(), this clears the signal handler for the current
   // isolate. When 'port' is ILLEGAL_PORT, this clears all signal handlers for
   // 'signal' for all Isolates.
   static void ClearSignalHandler(intptr_t signal, Dart_Port port);
   static void ClearAllSignalHandlers();

   static Dart_Handle GetProcessIdNativeField(Dart_Handle process,
                                              intptr_t* pid);
   static Dart_Handle SetProcessIdNativeField(Dart_Handle process, intptr_t pid);

   static int64_t CurrentRSS();
   static int64_t MaxRSS();
   static void GetRSSInformation(int64_t* max_rss, int64_t* current_rss);

   static bool ModeIsAttached(ProcessStartMode mode);
   static bool ModeHasStdio(ProcessStartMode mode);

  private:
   static int global_exit_code_;
   static Mutex* global_exit_code_mutex_;
   static ExitHook exit_hook_;

   DISALLOW_ALLOCATION();
   DISALLOW_IMPLICIT_CONSTRUCTORS(Process);
 };

 class SignalInfo {
  public:
   SignalInfo(intptr_t fd, intptr_t signal, SignalInfo* next)
       : fd_(fd),
         signal_(signal),
         // SignalInfo is expected to be created when in a isolate.
         port_(Dart_GetMainPortId()),
         next_(next),
         prev_(NULL) {
     if (next_ != NULL) {
       next_->prev_ = this;
     }
   }

   ~SignalInfo();

   void Unlink() {
     if (prev_ != NULL) {
       prev_->next_ = next_;
     }
     if (next_ != NULL) {
       next_->prev_ = prev_;
     }
   }

   intptr_t fd() const { return fd_; }
   intptr_t signal() const { return signal_; }
   Dart_Port port() const { return port_; }
   SignalInfo* next() const { return next_; }

  private:
   intptr_t fd_;
   intptr_t signal_;
   // The port_ is used to identify what isolate the signal-info belongs to.
   Dart_Port port_;
   SignalInfo* next_;
   SignalInfo* prev_;

   DISALLOW_COPY_AND_ASSIGN(SignalInfo);
 };

 // Utility class for collecting the output when running a process
 // synchronously by using Process::Wait. This class is sub-classed in
 // the platform specific files to implement reading into the buffers
 // allocated.
 class BufferListBase {
  protected:
   static const intptr_t kBufferSize = 16 * 1024;

   class BufferListNode {
    public:
     explicit BufferListNode(intptr_t size) {
       data_ = new uint8_t[size];
       // We check for a failed allocation below in Allocate()
       next_ = NULL;
     }

     ~BufferListNode() { delete[] data_; }

     bool Valid() const { return data_ != NULL; }

     uint8_t* data() const { return data_; }
     BufferListNode* next() const { return next_; }
     void set_next(BufferListNode* n) { next_ = n; }

    private:
     uint8_t* data_;
     BufferListNode* next_;

     DISALLOW_IMPLICIT_CONSTRUCTORS(BufferListNode);
   };

  public:
   BufferListBase() : head_(NULL), tail_(NULL), data_size_(0), free_size_(0) {}
   ~BufferListBase() {
     Free();
     DEBUG_ASSERT(IsEmpty());
   }

   // Returns the collected data as a Uint8List. If an error occours an
   // error handle is returned.
   Dart_Handle GetData() {
     uint8_t* buffer;
     intptr_t buffer_position = 0;
     Dart_Handle result = IOBuffer::Allocate(data_size_, &buffer);
     if (Dart_IsNull(result)) {
       return DartUtils::NewDartOSError();
     }
     if (Dart_IsError(result)) {
       Free();
       return result;
     }
     for (BufferListNode* current = head_; current != NULL;
          current = current->next()) {
       intptr_t to_copy = dart::Utils::Minimum(data_size_, kBufferSize);
       memmove(buffer + buffer_position, current->data(), to_copy);
       buffer_position += to_copy;
       data_size_ -= to_copy;
     }
     ASSERT(data_size_ == 0);
     Free();
     return result;
   }

 #if defined(DEBUG)
   bool IsEmpty() const { return (head_ == NULL) && (tail_ == NULL); }
 #endif

  protected:
   bool Allocate() {
     ASSERT(free_size_ == 0);
     BufferListNode* node = new BufferListNode(kBufferSize);
     if ((node == NULL) || !node->Valid()) {
       // Failed to allocate a buffer for the node.
       delete node;
       return false;
     }
     if (head_ == NULL) {
       head_ = node;
       tail_ = node;
     } else {
       ASSERT(tail_->next() == NULL);
       tail_->set_next(node);
       tail_ = node;
     }
     free_size_ = kBufferSize;
     return true;
   }

   void Free() {
     BufferListNode* current = head_;
     while (current != NULL) {
       BufferListNode* tmp = current;
       current = current->next();
       delete tmp;
     }
     head_ = NULL;
     tail_ = NULL;
     data_size_ = 0;
     free_size_ = 0;
   }

   // Returns the address of the first byte in the free space.
   uint8_t* FreeSpaceAddress() {
     return tail_->data() + (kBufferSize - free_size_);
   }

   intptr_t data_size() const { return data_size_; }
   void set_data_size(intptr_t size) { data_size_ = size; }

   intptr_t free_size() const { return free_size_; }
   void set_free_size(intptr_t size) { free_size_ = size; }

   BufferListNode* head() const { return head_; }
   BufferListNode* tail() const { return tail_; }

  private:
   // Linked list for data collected.
   BufferListNode* head_;
   BufferListNode* tail_;

   // Number of bytes of data collected in the linked list.
   intptr_t data_size_;

   // Number of free bytes in the last node in the list.
   intptr_t free_size_;

   DISALLOW_COPY_AND_ASSIGN(BufferListBase);
 };

 #if defined(HOST_OS_ANDROID) || defined(HOST_OS_FUCHSIA) ||                    \
     defined(HOST_OS_LINUX) || defined(HOST_OS_MACOS)
 class BufferList : public BufferListBase {
  public:
   BufferList() {}

   bool Read(int fd, intptr_t available) {
     // Read all available bytes.
     while (available > 0) {
       if (free_size() == 0) {
         if (!Allocate()) {
           errno = ENOMEM;
           return false;
         }
       }
       ASSERT(free_size() > 0);
       ASSERT(free_size() <= kBufferSize);
       intptr_t block_size = dart::Utils::Minimum(free_size(), available);
 #if defined(HOST_OS_FUCHSIA)
       intptr_t bytes = NO_RETRY_EXPECTED(
           read(fd, reinterpret_cast<void*>(FreeSpaceAddress()), block_size));
 #else
       intptr_t bytes = TEMP_FAILURE_RETRY(
           read(fd, reinterpret_cast<void*>(FreeSpaceAddress()), block_size));
 #endif  // defined(HOST_OS_FUCHSIA)
       if (bytes < 0) {
         return false;
       }
       set_data_size(data_size() + bytes);
       set_free_size(free_size() - bytes);
       available -= bytes;
     }
     return true;
   }

  private:
   DISALLOW_COPY_AND_ASSIGN(BufferList);
 };
 #endif  // defined(HOST_OS_ANDROID) ...

 }  // namespace bin
 }  // namespace dart

 #endif  // RUNTIME_BIN_PROCESS_H_
	// Copyright (c) 2012, the Dart project authors. Please see the AUTHORS file
	// for details. All rights reserved. Use of this source code is governed by a
	// BSD-style license that can be found in the LICENSE file.

	#ifndef RUNTIME_BIN_PROCESS_H_
	#define RUNTIME_BIN_PROCESS_H_

	#include <errno.h>

	#include "bin/builtin.h"
	#include "bin/io_buffer.h"
	#include "bin/lockers.h"
	#include "bin/namespace.h"
	#include "bin/thread.h"
	#include "platform/globals.h"
	#if !defined(HOST_OS_WINDOWS)
	#include "platform/signal_blocker.h"
	#endif
	#include "platform/utils.h"

	namespace dart {
	namespace bin {

	class ProcessResult {
	public:
	ProcessResult() : exit_code_(0) {}

	void set_stdout_data(Dart_Handle stdout_data) { stdout_data_ = stdout_data; }
	void set_stderr_data(Dart_Handle stderr_data) { stderr_data_ = stderr_data; }

	void set_exit_code(intptr_t exit_code) { exit_code_ = exit_code; }

	Dart_Handle stdout_data() { return stdout_data_; }
	Dart_Handle stderr_data() { return stderr_data_; }
	intptr_t exit_code() { return exit_code_; }

	private:
	Dart_Handle stdout_data_;
	Dart_Handle stderr_data_;
	intptr_t exit_code_;

	DISALLOW_ALLOCATION();
	};

	// To be kept in sync with ProcessSignal consts in sdk/lib/io/process.dart
	// Note that this map is as on Linux.
	enum ProcessSignals {
	kSighup = 1,
	kSigint = 2,
	kSigquit = 3,
	kSigill = 4,
	kSigtrap = 5,
	kSigabrt = 6,
	kSigbus = 7,
	kSigfpe = 8,
	kSigkill = 9,
	kSigusr1 = 10,
	kSigsegv = 11,
	kSigusr2 = 12,
	kSigpipe = 13,
	kSigalrm = 14,
	kSigterm = 15,
	kSigchld = 17,
	kSigcont = 18,
	kSigstop = 19,
	kSigtstp = 20,
	kSigttin = 21,
	kSigttou = 22,
	kSigurg = 23,
	kSigxcpu = 24,
	kSigxfsz = 25,
	kSigvtalrm = 26,
	kSigprof = 27,
	kSigwinch = 28,
	kSigpoll = 29,
	kSigsys = 31,
	kLastSignal = kSigsys,
	};

	// To be kept in sync with ProcessStartMode consts in sdk/lib/io/process.dart.
	enum ProcessStartMode {
	kNormal = 0,
	kInheritStdio = 1,
	kDetached = 2,
	kDetachedWithStdio = 3,
	};

	class Process {
	public:
	// Start a new process providing access to stdin, stdout, stderr and
	// process exit streams.
	static int Start(Namespace* namespc,
	const char* path,
	char* arguments[],
	intptr_t arguments_length,
	const char* working_directory,
	char* environment[],
	intptr_t environment_length,
	ProcessStartMode mode,
	intptr_t* in,
	intptr_t* out,
	intptr_t* err,
	intptr_t* id,
	intptr_t* exit_handler,
	char** os_error_message);

	static bool Wait(intptr_t id,
	intptr_t in,
	intptr_t out,
	intptr_t err,
	intptr_t exit_handler,
	ProcessResult* result);

	// Kill a process with a given pid.
	static bool Kill(intptr_t id, int signal);

	// Terminate the exit code handler thread. Does not return before
	// the thread has terminated.
	static void TerminateExitCodeHandler();

	static int GlobalExitCode() {
	MutexLocker ml(global_exit_code_mutex_);
	return global_exit_code_;
	}

	static void SetGlobalExitCode(int exit_code) {
	MutexLocker ml(global_exit_code_mutex_);
	global_exit_code_ = exit_code;
	}

	typedef void (*ExitHook)(int64_t exit_code);
	static void SetExitHook(ExitHook hook) { exit_hook_ = hook; }
	static void RunExitHook(int64_t exit_code) {
	if (exit_hook_ != NULL) {
	exit_hook_(exit_code);
	}
	}

	static intptr_t CurrentProcessId();

	static intptr_t SetSignalHandler(intptr_t signal);
	// When there is a current Isolate and the 'port' argument is
	// Dart_GetMainPortId(), this clears the signal handler for the current
	// isolate. When 'port' is ILLEGAL_PORT, this clears all signal handlers for
	// 'signal' for all Isolates.
	static void ClearSignalHandler(intptr_t signal, Dart_Port port);
	static void ClearAllSignalHandlers();

	static Dart_Handle GetProcessIdNativeField(Dart_Handle process,
	intptr_t* pid);
	static Dart_Handle SetProcessIdNativeField(Dart_Handle process, intptr_t pid);

	static int64_t CurrentRSS();
	static int64_t MaxRSS();
	static void GetRSSInformation(int64_t* max_rss, int64_t* current_rss);

	static bool ModeIsAttached(ProcessStartMode mode);
	static bool ModeHasStdio(ProcessStartMode mode);

	private:
	static int global_exit_code_;
	static Mutex* global_exit_code_mutex_;
	static ExitHook exit_hook_;

	DISALLOW_ALLOCATION();
	DISALLOW_IMPLICIT_CONSTRUCTORS(Process);
	};

	class SignalInfo {
	public:
	SignalInfo(intptr_t fd, intptr_t signal, SignalInfo* next)
	: fd_(fd),
	signal_(signal),
	// SignalInfo is expected to be created when in a isolate.
	port_(Dart_GetMainPortId()),
	next_(next),
	prev_(NULL) {
	if (next_ != NULL) {
	next_->prev_ = this;
	}
	}

	~SignalInfo();

	void Unlink() {
	if (prev_ != NULL) {
	prev_->next_ = next_;
	}
	if (next_ != NULL) {
	next_->prev_ = prev_;
	}
	}

	intptr_t fd() const { return fd_; }
	intptr_t signal() const { return signal_; }
	Dart_Port port() const { return port_; }
	SignalInfo* next() const { return next_; }

	private:
	intptr_t fd_;
	intptr_t signal_;
	// The port_ is used to identify what isolate the signal-info belongs to.
	Dart_Port port_;
	SignalInfo* next_;
	SignalInfo* prev_;

	DISALLOW_COPY_AND_ASSIGN(SignalInfo);
	};

	// Utility class for collecting the output when running a process
	// synchronously by using Process::Wait. This class is sub-classed in
	// the platform specific files to implement reading into the buffers
	// allocated.
	class BufferListBase {
	protected:
	static const intptr_t kBufferSize = 16 * 1024;

	class BufferListNode {
	public:
	explicit BufferListNode(intptr_t size) {
	data_ = new uint8_t[size];
	// We check for a failed allocation below in Allocate()
	next_ = NULL;
	}

	~BufferListNode() { delete[] data_; }

	bool Valid() const { return data_ != NULL; }

	uint8_t* data() const { return data_; }
	BufferListNode* next() const { return next_; }
	void set_next(BufferListNode* n) { next_ = n; }

	private:
	uint8_t* data_;
	BufferListNode* next_;

	DISALLOW_IMPLICIT_CONSTRUCTORS(BufferListNode);
	};

	public:
	BufferListBase() : head_(NULL), tail_(NULL), data_size_(0), free_size_(0) {}
	~BufferListBase() {
	Free();
	DEBUG_ASSERT(IsEmpty());
	}

	// Returns the collected data as a Uint8List. If an error occours an
	// error handle is returned.
	Dart_Handle GetData() {
	uint8_t* buffer;
	intptr_t buffer_position = 0;
	Dart_Handle result = IOBuffer::Allocate(data_size_, &buffer);
	if (Dart_IsNull(result)) {
	return DartUtils::NewDartOSError();
	}
	if (Dart_IsError(result)) {
	Free();
	return result;
	}
	for (BufferListNode* current = head_; current != NULL;
	current = current->next()) {
	intptr_t to_copy = dart::Utils::Minimum(data_size_, kBufferSize);
	memmove(buffer + buffer_position, current->data(), to_copy);
	buffer_position += to_copy;
	data_size_ -= to_copy;
	}
	ASSERT(data_size_ == 0);
	Free();
	return result;
	}

	#if defined(DEBUG)
	bool IsEmpty() const { return (head_ == NULL) && (tail_ == NULL); }
	#endif

	protected:
	bool Allocate() {
	ASSERT(free_size_ == 0);
	BufferListNode* node = new BufferListNode(kBufferSize);
	if ((node == NULL) \|\| !node->Valid()) {
	// Failed to allocate a buffer for the node.
	delete node;
	return false;
	}
	if (head_ == NULL) {
	head_ = node;
	tail_ = node;
	} else {
	ASSERT(tail_->next() == NULL);
	tail_->set_next(node);
	tail_ = node;
	}
	free_size_ = kBufferSize;
	return true;
	}

	void Free() {
	BufferListNode* current = head_;
	while (current != NULL) {
	BufferListNode* tmp = current;
	current = current->next();
	delete tmp;
	}
	head_ = NULL;
	tail_ = NULL;
	data_size_ = 0;
	free_size_ = 0;
	}

	// Returns the address of the first byte in the free space.
	uint8_t* FreeSpaceAddress() {
	return tail_->data() + (kBufferSize - free_size_);
	}

	intptr_t data_size() const { return data_size_; }
	void set_data_size(intptr_t size) { data_size_ = size; }

	intptr_t free_size() const { return free_size_; }
	void set_free_size(intptr_t size) { free_size_ = size; }

	BufferListNode* head() const { return head_; }
	BufferListNode* tail() const { return tail_; }

	private:
	// Linked list for data collected.
	BufferListNode* head_;
	BufferListNode* tail_;

	// Number of bytes of data collected in the linked list.
	intptr_t data_size_;

	// Number of free bytes in the last node in the list.
	intptr_t free_size_;

	DISALLOW_COPY_AND_ASSIGN(BufferListBase);
	};

	#if defined(HOST_OS_ANDROID) \|\| defined(HOST_OS_FUCHSIA) \|\| \
	defined(HOST_OS_LINUX) \|\| defined(HOST_OS_MACOS)
	class BufferList : public BufferListBase {
	public:
	BufferList() {}

	bool Read(int fd, intptr_t available) {
	// Read all available bytes.
	while (available > 0) {
	if (free_size() == 0) {
	if (!Allocate()) {
	errno = ENOMEM;
	return false;
	}
	}
	ASSERT(free_size() > 0);
	ASSERT(free_size() <= kBufferSize);
	intptr_t block_size = dart::Utils::Minimum(free_size(), available);
	#if defined(HOST_OS_FUCHSIA)
	intptr_t bytes = NO_RETRY_EXPECTED(
	read(fd, reinterpret_cast<void*>(FreeSpaceAddress()), block_size));
	#else
	intptr_t bytes = TEMP_FAILURE_RETRY(
	read(fd, reinterpret_cast<void*>(FreeSpaceAddress()), block_size));
	#endif // defined(HOST_OS_FUCHSIA)
	if (bytes < 0) {
	return false;
	}
	set_data_size(data_size() + bytes);
	set_free_size(free_size() - bytes);
	available -= bytes;
	}
	return true;
	}

	private:
	DISALLOW_COPY_AND_ASSIGN(BufferList);
	};
	#endif // defined(HOST_OS_ANDROID) ...

	} // namespace bin
	} // namespace dart

	#endif // RUNTIME_BIN_PROCESS_H_