tools/fidlcat/lib/replay.h - fuchsia - Git at Google

 // Copyright 2020 The Fuchsia 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 TOOLS_FIDLCAT_LIB_REPLAY_H_
 #define TOOLS_FIDLCAT_LIB_REPLAY_H_

 #include <cstdint>
 #include <map>
 #include <memory>
 #include <sstream>
 #include <string>

 #include "src/lib/fidl_codec/library_loader.h"
 #include "tools/fidlcat/lib/event.h"
 #include "tools/fidlcat/lib/syscall_decoder_dispatcher.h"
 #include "tools/fidlcat/proto/session.pb.h"

 namespace fidlcat {

 // A buffer used to store the state of a channel syscall while the bytes and handles are decoded.
 class ReplayBuffer {
  public:
   enum class Kind { kRead, kWrite, kCall };

   ReplayBuffer(uint64_t invoked_timestamp, uint64_t process_id, uint64_t thread_id, Kind kind,
                bool etc, zx_handle_t channel)
       : invoked_timestamp_(invoked_timestamp),
         process_id_(process_id),
         thread_id_(thread_id),
         kind_(kind),
         etc_(etc),
         channel_(channel) {}

   uint64_t thread_id() const { return thread_id_; }
   Kind kind() const { return kind_; }
   zx_handle_t channel() const { return channel_; }
   zx_status_t status() const { return status_; }
   const std::vector<uint8_t>& write_bytes() const { return write_bytes_; }
   const std::vector<zx_handle_disposition_t>& write_handles() const { return write_handles_; }
   const std::vector<uint8_t>& read_bytes() const { return read_bytes_; }
   const std::vector<zx_handle_disposition_t>& read_handles() const { return read_handles_; }

   // True if all the data for the syscall has been decoded.
   bool DecodeOk() const {
     return status_set_ && (write_bytes_.size() == write_byte_count_) &&
            (write_handles_.size() == write_handle_count_) &&
            (read_bytes_.size() == read_byte_count_) && (read_handles_.size() == read_handle_count_);
   }

   Syscall* GetSyscall(SyscallDisplayDispatcher* dispatcher) const;

   void SetWrite(uint32_t write_byte_count, uint32_t write_handle_count) {
     write_byte_count_ = write_byte_count;
     write_handle_count_ = write_handle_count;
   }

   void SetRead(uint32_t read_byte_count, uint32_t read_handle_count) {
     read_byte_count_ = read_byte_count;
     read_handle_count_ = read_handle_count;
   }

   void SetStatus(uint64_t output_timestamp, zx_status_t status) {
     output_timestamp_ = output_timestamp;
     status_ = status;
     status_set_ = true;
   }

   void AddWriteBytes(std::istream& stream);
   void AddWriteHandles(std::istream& stream);
   void AddWriteEtcHandle(std::istream& stream);
   void AddReadBytes(std::istream& stream);
   void AddReadHandles(std::istream& stream);

   // When all the data has been decoded, creates the invoke and output events and adds them to the
   // dispatcher.
   void Dispatch(SyscallDisplayDispatcher* dispatcher);

  private:
   uint64_t invoked_timestamp_;
   uint64_t process_id_;
   uint64_t thread_id_;
   const Kind kind_;
   // True is the syscall is one of zx_channel_read_etc, zx_channel_write_etc and
   // zx_channel_call_etc.
   const bool etc_;
   const zx_handle_t channel_;
   uint32_t write_byte_count_ = 0;
   uint32_t write_handle_count_ = 0;
   uint32_t read_byte_count_ = 0;
   uint32_t read_handle_count_ = 0;
   uint64_t output_timestamp_ = 0;
   zx_status_t status_ = ZX_OK;
   bool status_set_ = false;
   std::vector<uint8_t> write_bytes_;
   std::vector<zx_handle_disposition_t> write_handles_;
   std::vector<uint8_t> read_bytes_;
   std::vector<zx_handle_disposition_t> read_handles_;
 };

 // Class to replay a previously stored session. All the formatting options can be used (for example
 // the filtering of message).
 class Replay : public EventDecoder {
  public:
   explicit Replay(SyscallDisplayDispatcher* dispatcher) : EventDecoder(dispatcher) {}

   ReplayBuffer* SearchBuffer(uintptr_t instance) {
     auto result = buffers_.find(instance);
     if (result == buffers_.end()) {
       return nullptr;
     }
     return result->second.get();
   }

   // Dumps in text a binary protobuf file which contains a session.
   bool DumpProto(const std::string& proto_file_name);
   bool DumpProto(std::istream& is);

   // Replays a previously save session.
   bool ReplayProto(const std::string& proto_file_name);
   bool ReplayProto(const std::string& file_name, std::istream& is);

   // Decodes traces.
   void DecodeTrace(std::istream& is);
   void DecodeTraceLine(std::istream& is);

  private:
   // Syscalls currently decoded from a trace.
   std::map<uintptr_t, std::unique_ptr<ReplayBuffer>> buffers_;
 };

 }  // namespace fidlcat

 #endif  // TOOLS_FIDLCAT_LIB_REPLAY_H_
	// Copyright 2020 The Fuchsia 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 TOOLS_FIDLCAT_LIB_REPLAY_H_
	#define TOOLS_FIDLCAT_LIB_REPLAY_H_

	#include <cstdint>
	#include <map>
	#include <memory>
	#include <sstream>
	#include <string>

	#include "src/lib/fidl_codec/library_loader.h"
	#include "tools/fidlcat/lib/event.h"
	#include "tools/fidlcat/lib/syscall_decoder_dispatcher.h"
	#include "tools/fidlcat/proto/session.pb.h"

	namespace fidlcat {

	// A buffer used to store the state of a channel syscall while the bytes and handles are decoded.
	class ReplayBuffer {
	public:
	enum class Kind { kRead, kWrite, kCall };

	ReplayBuffer(uint64_t invoked_timestamp, uint64_t process_id, uint64_t thread_id, Kind kind,
	bool etc, zx_handle_t channel)
	: invoked_timestamp_(invoked_timestamp),
	process_id_(process_id),
	thread_id_(thread_id),
	kind_(kind),
	etc_(etc),
	channel_(channel) {}

	uint64_t thread_id() const { return thread_id_; }
	Kind kind() const { return kind_; }
	zx_handle_t channel() const { return channel_; }
	zx_status_t status() const { return status_; }
	const std::vector<uint8_t>& write_bytes() const { return write_bytes_; }
	const std::vector<zx_handle_disposition_t>& write_handles() const { return write_handles_; }
	const std::vector<uint8_t>& read_bytes() const { return read_bytes_; }
	const std::vector<zx_handle_disposition_t>& read_handles() const { return read_handles_; }

	// True if all the data for the syscall has been decoded.
	bool DecodeOk() const {
	return status_set_ && (write_bytes_.size() == write_byte_count_) &&
	(write_handles_.size() == write_handle_count_) &&
	(read_bytes_.size() == read_byte_count_) && (read_handles_.size() == read_handle_count_);
	}

	Syscall* GetSyscall(SyscallDisplayDispatcher* dispatcher) const;

	void SetWrite(uint32_t write_byte_count, uint32_t write_handle_count) {
	write_byte_count_ = write_byte_count;
	write_handle_count_ = write_handle_count;
	}

	void SetRead(uint32_t read_byte_count, uint32_t read_handle_count) {
	read_byte_count_ = read_byte_count;
	read_handle_count_ = read_handle_count;
	}

	void SetStatus(uint64_t output_timestamp, zx_status_t status) {
	output_timestamp_ = output_timestamp;
	status_ = status;
	status_set_ = true;
	}

	void AddWriteBytes(std::istream& stream);
	void AddWriteHandles(std::istream& stream);
	void AddWriteEtcHandle(std::istream& stream);
	void AddReadBytes(std::istream& stream);
	void AddReadHandles(std::istream& stream);

	// When all the data has been decoded, creates the invoke and output events and adds them to the
	// dispatcher.
	void Dispatch(SyscallDisplayDispatcher* dispatcher);

	private:
	uint64_t invoked_timestamp_;
	uint64_t process_id_;
	uint64_t thread_id_;
	const Kind kind_;
	// True is the syscall is one of zx_channel_read_etc, zx_channel_write_etc and
	// zx_channel_call_etc.
	const bool etc_;
	const zx_handle_t channel_;
	uint32_t write_byte_count_ = 0;
	uint32_t write_handle_count_ = 0;
	uint32_t read_byte_count_ = 0;
	uint32_t read_handle_count_ = 0;
	uint64_t output_timestamp_ = 0;
	zx_status_t status_ = ZX_OK;
	bool status_set_ = false;
	std::vector<uint8_t> write_bytes_;
	std::vector<zx_handle_disposition_t> write_handles_;
	std::vector<uint8_t> read_bytes_;
	std::vector<zx_handle_disposition_t> read_handles_;
	};

	// Class to replay a previously stored session. All the formatting options can be used (for example
	// the filtering of message).
	class Replay : public EventDecoder {
	public:
	explicit Replay(SyscallDisplayDispatcher* dispatcher) : EventDecoder(dispatcher) {}

	ReplayBuffer* SearchBuffer(uintptr_t instance) {
	auto result = buffers_.find(instance);
	if (result == buffers_.end()) {
	return nullptr;
	}
	return result->second.get();
	}

	// Dumps in text a binary protobuf file which contains a session.
	bool DumpProto(const std::string& proto_file_name);
	bool DumpProto(std::istream& is);

	// Replays a previously save session.
	bool ReplayProto(const std::string& proto_file_name);
	bool ReplayProto(const std::string& file_name, std::istream& is);

	// Decodes traces.
	void DecodeTrace(std::istream& is);
	void DecodeTraceLine(std::istream& is);

	private:
	// Syscalls currently decoded from a trace.
	std::map<uintptr_t, std::unique_ptr<ReplayBuffer>> buffers_;
	};

	} // namespace fidlcat

	#endif // TOOLS_FIDLCAT_LIB_REPLAY_H_