adb/shell_service.h - platform/system/core - Git at Google

 /*
  * Copyright (C) 2015 The Android Open Source Project
  *
  * 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.
  */

 // This file contains classes and functionality to launch shell subprocesses
 // in adbd and communicate between those subprocesses and the adb client.
 //
 // The main features exposed here are:
 //   1. A ShellPacket class to wrap data in a simple protocol. Both adbd and
 //      the adb client use this class to transmit data between them.
 //   2. Functions to launch a subprocess on the adbd side.

 #ifndef SHELL_SERVICE_H_
 #define SHELL_SERVICE_H_

 #include <stdint.h>

 #include <android-base/macros.h>

 #include "adb.h"

 // Class to send and receive shell protocol packets.
 //
 // To keep things simple and predictable, reads and writes block until an entire
 // packet is complete.
 //
 // Example: read raw data from |fd| and send it in a packet.
 //   ShellProtocol* p = new ShellProtocol(protocol_fd);
 //   int len = adb_read(stdout_fd, p->data(), p->data_capacity());
 //   packet->WritePacket(ShellProtocol::kIdStdout, len);
 //
 // Example: read a packet and print it to |stdout|.
 //   ShellProtocol* p = new ShellProtocol(protocol_fd);
 //   if (p->ReadPacket() && p->id() == kIdStdout) {
 //       fwrite(p->data(), 1, p->data_length(), stdout);
 //   }
 class ShellProtocol {
   public:
     // This is an unscoped enum to make it easier to compare against raw bytes.
     enum Id : uint8_t {
         kIdStdin = 0,
         kIdStdout = 1,
         kIdStderr = 2,
         kIdExit = 3,

         // Close subprocess stdin if possible.
         kIdCloseStdin = 4,

         // Window size change (an ASCII version of struct winsize).
         kIdWindowSizeChange = 5,

         // Indicates an invalid or unknown packet.
         kIdInvalid = 255,
     };

     // ShellPackets will probably be too large to allocate on the stack so they
     // should be dynamically allocated on the heap instead.
     //
     // |fd| is an open file descriptor to be used to send or receive packets.
     explicit ShellProtocol(int fd);
     virtual ~ShellProtocol();

     // Returns a pointer to the data buffer.
     const char* data() const { return buffer_ + kHeaderSize; }
     char* data() { return buffer_ + kHeaderSize; }

     // Returns the total capacity of the data buffer.
     size_t data_capacity() const { return buffer_end_ - data(); }

     // Reads a packet from the FD.
     //
     // If a packet is too big to fit in the buffer then Read() will split the
     // packet across multiple calls. For example, reading a 50-byte packet into
     // a 20-byte buffer would read 20 bytes, 20 bytes, then 10 bytes.
     //
     // Returns false if the FD closed or errored.
     bool Read();

     // Returns the ID of the packet in the buffer.
     int id() const { return buffer_[0]; }

     // Returns the number of bytes that have been read into the data buffer.
     size_t data_length() const { return data_length_; }

     // Writes the packet currently in the buffer to the FD.
     //
     // Returns false if the FD closed or errored.
     bool Write(Id id, size_t length);

   private:
     // Packets support 4-byte lengths.
     typedef uint32_t length_t;

     enum {
         // It's OK if MAX_PAYLOAD doesn't match on the sending and receiving
         // end, reading will split larger packets into multiple smaller ones.
         kBufferSize = MAX_PAYLOAD,

         // Header is 1 byte ID + 4 bytes length.
         kHeaderSize = sizeof(Id) + sizeof(length_t)
     };

     int fd_;
     char buffer_[kBufferSize];
     size_t data_length_ = 0, bytes_left_ = 0;

     // We need to be able to modify this value for testing purposes, but it
     // will stay constant during actual program use.
     char* buffer_end_ = buffer_ + sizeof(buffer_);

     friend class ShellProtocolTest;

     DISALLOW_COPY_AND_ASSIGN(ShellProtocol);
 };

 #if !ADB_HOST

 enum class SubprocessType {
     kPty,
     kRaw,
 };

 enum class SubprocessProtocol {
     kNone,
     kShell,
 };

 // Forks and starts a new shell subprocess. If |name| is empty an interactive
 // shell is started, otherwise |name| is executed non-interactively.
 //
 // Returns an open FD connected to the subprocess or -1 on failure.
 int StartSubprocess(const char* name, const char* terminal_type,
                     SubprocessType type, SubprocessProtocol protocol);

 #endif  // !ADB_HOST

 #endif  // SHELL_SERVICE_H_
	/*
	* Copyright (C) 2015 The Android Open Source Project
	*
	* 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.
	*/

	// This file contains classes and functionality to launch shell subprocesses
	// in adbd and communicate between those subprocesses and the adb client.
	//
	// The main features exposed here are:
	// 1. A ShellPacket class to wrap data in a simple protocol. Both adbd and
	// the adb client use this class to transmit data between them.
	// 2. Functions to launch a subprocess on the adbd side.

	#ifndef SHELL_SERVICE_H_
	#define SHELL_SERVICE_H_

	#include <stdint.h>

	#include <android-base/macros.h>

	#include "adb.h"

	// Class to send and receive shell protocol packets.
	//
	// To keep things simple and predictable, reads and writes block until an entire
	// packet is complete.
	//
	// Example: read raw data from \|fd\| and send it in a packet.
	// ShellProtocol* p = new ShellProtocol(protocol_fd);
	// int len = adb_read(stdout_fd, p->data(), p->data_capacity());
	// packet->WritePacket(ShellProtocol::kIdStdout, len);
	//
	// Example: read a packet and print it to \|stdout\|.
	// ShellProtocol* p = new ShellProtocol(protocol_fd);
	// if (p->ReadPacket() && p->id() == kIdStdout) {
	// fwrite(p->data(), 1, p->data_length(), stdout);
	// }
	class ShellProtocol {
	public:
	// This is an unscoped enum to make it easier to compare against raw bytes.
	enum Id : uint8_t {
	kIdStdin = 0,
	kIdStdout = 1,
	kIdStderr = 2,
	kIdExit = 3,

	// Close subprocess stdin if possible.
	kIdCloseStdin = 4,

	// Window size change (an ASCII version of struct winsize).
	kIdWindowSizeChange = 5,

	// Indicates an invalid or unknown packet.
	kIdInvalid = 255,
	};

	// ShellPackets will probably be too large to allocate on the stack so they
	// should be dynamically allocated on the heap instead.
	//
	// \|fd\| is an open file descriptor to be used to send or receive packets.
	explicit ShellProtocol(int fd);
	virtual ~ShellProtocol();

	// Returns a pointer to the data buffer.
	const char* data() const { return buffer_ + kHeaderSize; }
	char* data() { return buffer_ + kHeaderSize; }

	// Returns the total capacity of the data buffer.
	size_t data_capacity() const { return buffer_end_ - data(); }

	// Reads a packet from the FD.
	//
	// If a packet is too big to fit in the buffer then Read() will split the
	// packet across multiple calls. For example, reading a 50-byte packet into
	// a 20-byte buffer would read 20 bytes, 20 bytes, then 10 bytes.
	//
	// Returns false if the FD closed or errored.
	bool Read();

	// Returns the ID of the packet in the buffer.
	int id() const { return buffer_[0]; }

	// Returns the number of bytes that have been read into the data buffer.
	size_t data_length() const { return data_length_; }

	// Writes the packet currently in the buffer to the FD.
	//
	// Returns false if the FD closed or errored.
	bool Write(Id id, size_t length);

	private:
	// Packets support 4-byte lengths.
	typedef uint32_t length_t;

	enum {
	// It's OK if MAX_PAYLOAD doesn't match on the sending and receiving
	// end, reading will split larger packets into multiple smaller ones.
	kBufferSize = MAX_PAYLOAD,

	// Header is 1 byte ID + 4 bytes length.
	kHeaderSize = sizeof(Id) + sizeof(length_t)
	};

	int fd_;
	char buffer_[kBufferSize];
	size_t data_length_ = 0, bytes_left_ = 0;

	// We need to be able to modify this value for testing purposes, but it
	// will stay constant during actual program use.
	char* buffer_end_ = buffer_ + sizeof(buffer_);

	friend class ShellProtocolTest;

	DISALLOW_COPY_AND_ASSIGN(ShellProtocol);
	};

	#if !ADB_HOST

	enum class SubprocessType {
	kPty,
	kRaw,
	};

	enum class SubprocessProtocol {
	kNone,
	kShell,
	};

	// Forks and starts a new shell subprocess. If \|name\| is empty an interactive
	// shell is started, otherwise \|name\| is executed non-interactively.
	//
	// Returns an open FD connected to the subprocess or -1 on failure.
	int StartSubprocess(const char* name, const char* terminal_type,
	SubprocessType type, SubprocessProtocol protocol);

	#endif // !ADB_HOST

	#endif // SHELL_SERVICE_H_