src/third_party/llvm-project/lldb/source/Plugins/Process/gdb-remote/GDBRemoteClientBase.h - cobalt - Git at Google

 //===-- GDBRemoteClientBase.h -----------------------------------*- C++ -*-===//
 //
 //                     The LLVM Compiler Infrastructure
 //
 // This file is distributed under the University of Illinois Open Source
 // License. See LICENSE.TXT for details.
 //
 //===----------------------------------------------------------------------===//

 #ifndef liblldb_GDBRemoteClientBase_h_
 #define liblldb_GDBRemoteClientBase_h_

 #include "GDBRemoteCommunication.h"

 #include <condition_variable>

 namespace lldb_private {
 namespace process_gdb_remote {

 class GDBRemoteClientBase : public GDBRemoteCommunication {
 public:
   struct ContinueDelegate {
     virtual ~ContinueDelegate();
     virtual void HandleAsyncStdout(llvm::StringRef out) = 0;
     virtual void HandleAsyncMisc(llvm::StringRef data) = 0;
     virtual void HandleStopReply() = 0;

     // =========================================================================
     /// Process asynchronously-received structured data.
     ///
     /// @param[in] data
     ///   The complete data packet, expected to start with JSON-async.
     // =========================================================================
     virtual void HandleAsyncStructuredDataPacket(llvm::StringRef data) = 0;
   };

   GDBRemoteClientBase(const char *comm_name, const char *listener_name);

   bool SendAsyncSignal(int signo);

   bool Interrupt();

   lldb::StateType SendContinuePacketAndWaitForResponse(
       ContinueDelegate &delegate, const UnixSignals &signals,
       llvm::StringRef payload, StringExtractorGDBRemote &response);

   PacketResult SendPacketAndWaitForResponse(llvm::StringRef payload,
                                             StringExtractorGDBRemote &response,
                                             bool send_async);

   PacketResult SendPacketAndReceiveResponseWithOutputSupport(
       llvm::StringRef payload, StringExtractorGDBRemote &response,
       bool send_async,
       llvm::function_ref<void(llvm::StringRef)> output_callback);

   bool SendvContPacket(llvm::StringRef payload,
                        StringExtractorGDBRemote &response);

   class Lock {
   public:
     Lock(GDBRemoteClientBase &comm, bool interrupt);
     ~Lock();

     explicit operator bool() { return m_acquired; }

     // Whether we had to interrupt the continue thread to acquire the
     // connection.
     bool DidInterrupt() const { return m_did_interrupt; }

   private:
     std::unique_lock<std::recursive_mutex> m_async_lock;
     GDBRemoteClientBase &m_comm;
     bool m_acquired;
     bool m_did_interrupt;

     void SyncWithContinueThread(bool interrupt);
   };

 protected:
   PacketResult
   SendPacketAndWaitForResponseNoLock(llvm::StringRef payload,
                                      StringExtractorGDBRemote &response);

   virtual void OnRunPacketSent(bool first);

 private:
   // Variables handling synchronization between the Continue thread and any
   // other threads
   // wishing to send packets over the connection. Either the continue thread has
   // control over
   // the connection (m_is_running == true) or the connection is free for an
   // arbitrary number of
   // other senders to take which indicate their interest by incrementing
   // m_async_count.
   // Semantics of individual states:
   // - m_continue_packet == false, m_async_count == 0: connection is free
   // - m_continue_packet == true, m_async_count == 0: only continue thread is
   // present
   // - m_continue_packet == true, m_async_count > 0: continue thread has
   // control, async threads
   //   should interrupt it and wait for it to set m_continue_packet to false
   // - m_continue_packet == false, m_async_count > 0: async threads have
   // control, continue
   //   thread needs to wait for them to finish (m_async_count goes down to 0).
   std::mutex m_mutex;
   std::condition_variable m_cv;
   // Packet with which to resume after an async interrupt. Can be changed by an
   // async thread
   // e.g. to inject a signal.
   std::string m_continue_packet;
   // When was the interrupt packet sent. Used to make sure we time out if the
   // stub does not
   // respond to interrupt requests.
   std::chrono::time_point<std::chrono::steady_clock> m_interrupt_time;
   uint32_t m_async_count;
   bool m_is_running;
   bool m_should_stop; // Whether we should resume after a stop.
   // end of continue thread synchronization block

   // This handles the synchronization between individual async threads. For now
   // they just use a
   // simple mutex.
   std::recursive_mutex m_async_mutex;

   bool ShouldStop(const UnixSignals &signals,
                   StringExtractorGDBRemote &response);

   class ContinueLock {
   public:
     enum class LockResult { Success, Cancelled, Failed };

     explicit ContinueLock(GDBRemoteClientBase &comm);
     ~ContinueLock();
     explicit operator bool() { return m_acquired; }

     LockResult lock();

     void unlock();

   private:
     GDBRemoteClientBase &m_comm;
     bool m_acquired;
   };
 };

 } // namespace process_gdb_remote
 } // namespace lldb_private

 #endif // liblldb_GDBRemoteCommunicationClient_h_
	//===-- GDBRemoteClientBase.h ------------------------------------ C++ --===//
	//
	// The LLVM Compiler Infrastructure
	//
	// This file is distributed under the University of Illinois Open Source
	// License. See LICENSE.TXT for details.
	//
	//===----------------------------------------------------------------------===//

	#ifndef liblldb_GDBRemoteClientBase_h_
	#define liblldb_GDBRemoteClientBase_h_

	#include "GDBRemoteCommunication.h"

	#include <condition_variable>

	namespace lldb_private {
	namespace process_gdb_remote {

	class GDBRemoteClientBase : public GDBRemoteCommunication {
	public:
	struct ContinueDelegate {
	virtual ~ContinueDelegate();
	virtual void HandleAsyncStdout(llvm::StringRef out) = 0;
	virtual void HandleAsyncMisc(llvm::StringRef data) = 0;
	virtual void HandleStopReply() = 0;

	// =========================================================================
	/// Process asynchronously-received structured data.
	///
	/// @param[in] data
	/// The complete data packet, expected to start with JSON-async.
	// =========================================================================
	virtual void HandleAsyncStructuredDataPacket(llvm::StringRef data) = 0;
	};

	GDBRemoteClientBase(const char comm_name, const char listener_name);

	bool SendAsyncSignal(int signo);

	bool Interrupt();

	lldb::StateType SendContinuePacketAndWaitForResponse(
	ContinueDelegate &delegate, const UnixSignals &signals,
	llvm::StringRef payload, StringExtractorGDBRemote &response);

	PacketResult SendPacketAndWaitForResponse(llvm::StringRef payload,
	StringExtractorGDBRemote &response,
	bool send_async);

	PacketResult SendPacketAndReceiveResponseWithOutputSupport(
	llvm::StringRef payload, StringExtractorGDBRemote &response,
	bool send_async,
	llvm::function_ref<void(llvm::StringRef)> output_callback);

	bool SendvContPacket(llvm::StringRef payload,
	StringExtractorGDBRemote &response);

	class Lock {
	public:
	Lock(GDBRemoteClientBase &comm, bool interrupt);
	~Lock();

	explicit operator bool() { return m_acquired; }

	// Whether we had to interrupt the continue thread to acquire the
	// connection.
	bool DidInterrupt() const { return m_did_interrupt; }

	private:
	std::unique_lock<std::recursive_mutex> m_async_lock;
	GDBRemoteClientBase &m_comm;
	bool m_acquired;
	bool m_did_interrupt;

	void SyncWithContinueThread(bool interrupt);
	};

	protected:
	PacketResult
	SendPacketAndWaitForResponseNoLock(llvm::StringRef payload,
	StringExtractorGDBRemote &response);

	virtual void OnRunPacketSent(bool first);

	private:
	// Variables handling synchronization between the Continue thread and any
	// other threads
	// wishing to send packets over the connection. Either the continue thread has
	// control over
	// the connection (m_is_running == true) or the connection is free for an
	// arbitrary number of
	// other senders to take which indicate their interest by incrementing
	// m_async_count.
	// Semantics of individual states:
	// - m_continue_packet == false, m_async_count == 0: connection is free
	// - m_continue_packet == true, m_async_count == 0: only continue thread is
	// present
	// - m_continue_packet == true, m_async_count > 0: continue thread has
	// control, async threads
	// should interrupt it and wait for it to set m_continue_packet to false
	// - m_continue_packet == false, m_async_count > 0: async threads have
	// control, continue
	// thread needs to wait for them to finish (m_async_count goes down to 0).
	std::mutex m_mutex;
	std::condition_variable m_cv;
	// Packet with which to resume after an async interrupt. Can be changed by an
	// async thread
	// e.g. to inject a signal.
	std::string m_continue_packet;
	// When was the interrupt packet sent. Used to make sure we time out if the
	// stub does not
	// respond to interrupt requests.
	std::chrono::time_point<std::chrono::steady_clock> m_interrupt_time;
	uint32_t m_async_count;
	bool m_is_running;
	bool m_should_stop; // Whether we should resume after a stop.
	// end of continue thread synchronization block

	// This handles the synchronization between individual async threads. For now
	// they just use a
	// simple mutex.
	std::recursive_mutex m_async_mutex;

	bool ShouldStop(const UnixSignals &signals,
	StringExtractorGDBRemote &response);

	class ContinueLock {
	public:
	enum class LockResult { Success, Cancelled, Failed };

	explicit ContinueLock(GDBRemoteClientBase &comm);
	~ContinueLock();
	explicit operator bool() { return m_acquired; }

	LockResult lock();

	void unlock();

	private:
	GDBRemoteClientBase &m_comm;
	bool m_acquired;
	};
	};

	} // namespace process_gdb_remote
	} // namespace lldb_private

	#endif // liblldb_GDBRemoteCommunicationClient_h_