src/third_party/llvm-project/lldb/tools/debugserver/source/MacOSX/MachThread.h - cobalt - Git at Google

 //===-- MachThread.h --------------------------------------------*- C++ -*-===//
 //
 //                     The LLVM Compiler Infrastructure
 //
 // This file is distributed under the University of Illinois Open Source
 // License. See LICENSE.TXT for details.
 //
 //===----------------------------------------------------------------------===//
 //
 //  Created by Greg Clayton on 6/19/07.
 //
 //===----------------------------------------------------------------------===//

 #ifndef __MachThread_h__
 #define __MachThread_h__

 #include <string>
 #include <vector>

 #include <libproc.h>
 #include <mach/mach.h>
 #include <pthread.h>
 #include <sys/signal.h>

 #include "DNBArch.h"
 #include "DNBRegisterInfo.h"
 #include "MachException.h"
 #include "PThreadCondition.h"
 #include "PThreadMutex.h"

 #include "ThreadInfo.h"

 class DNBBreakpoint;
 class MachProcess;
 class MachThreadList;

 class MachThread {
 public:
   MachThread(MachProcess *process, bool is_64_bit,
              uint64_t unique_thread_id = 0, thread_t mach_port_number = 0);
   ~MachThread();

   MachProcess *Process() { return m_process; }
   const MachProcess *Process() const { return m_process; }
   nub_process_t ProcessID() const;
   void Dump(uint32_t index);
   uint64_t ThreadID() const { return m_unique_id; }
   thread_t MachPortNumber() const { return m_mach_port_number; }
   thread_t InferiorThreadID() const;

   uint32_t SequenceID() const { return m_seq_id; }
   static bool ThreadIDIsValid(
       uint64_t thread); // The 64-bit system-wide unique thread identifier
   static bool MachPortNumberIsValid(thread_t thread); // The mach port # for
                                                       // this thread in
                                                       // debugserver namespace
   void Resume(bool others_stopped);
   void Suspend();
   bool SetSuspendCountBeforeResume(bool others_stopped);
   bool RestoreSuspendCountAfterStop();

   bool GetRegisterState(int flavor, bool force);
   bool SetRegisterState(int flavor);
   uint64_t
   GetPC(uint64_t failValue = INVALID_NUB_ADDRESS); // Get program counter
   bool SetPC(uint64_t value);                      // Set program counter
   uint64_t GetSP(uint64_t failValue = INVALID_NUB_ADDRESS); // Get stack pointer

   DNBBreakpoint *CurrentBreakpoint();
   uint32_t EnableHardwareBreakpoint(const DNBBreakpoint *breakpoint);
   uint32_t EnableHardwareWatchpoint(const DNBBreakpoint *watchpoint,
                                     bool also_set_on_task);
   bool DisableHardwareBreakpoint(const DNBBreakpoint *breakpoint);
   bool DisableHardwareWatchpoint(const DNBBreakpoint *watchpoint,
                                  bool also_set_on_task);
   uint32_t NumSupportedHardwareWatchpoints() const;
   bool RollbackTransForHWP();
   bool FinishTransForHWP();

   nub_state_t GetState();
   void SetState(nub_state_t state);

   void ThreadWillResume(const DNBThreadResumeAction *thread_action,
                         bool others_stopped = false);
   bool ShouldStop(bool &step_more);
   bool IsStepping();
   bool ThreadDidStop();
   bool NotifyException(MachException::Data &exc);
   const MachException::Data &GetStopException() { return m_stop_exception; }

   nub_size_t GetNumRegistersInSet(nub_size_t regSet) const;
   const char *GetRegisterSetName(nub_size_t regSet) const;
   const DNBRegisterInfo *GetRegisterInfo(nub_size_t regSet,
                                          nub_size_t regIndex) const;
   void DumpRegisterState(nub_size_t regSet);
   const DNBRegisterSetInfo *GetRegisterSetInfo(nub_size_t *num_reg_sets) const;
   bool GetRegisterValue(uint32_t reg_set_idx, uint32_t reg_idx,
                         DNBRegisterValue *reg_value);
   bool SetRegisterValue(uint32_t reg_set_idx, uint32_t reg_idx,
                         const DNBRegisterValue *reg_value);
   nub_size_t GetRegisterContext(void *buf, nub_size_t buf_len);
   nub_size_t SetRegisterContext(const void *buf, nub_size_t buf_len);
   uint32_t SaveRegisterState();
   bool RestoreRegisterState(uint32_t save_id);

   void NotifyBreakpointChanged(const DNBBreakpoint *bp) {}

   bool IsUserReady();
   struct thread_basic_info *GetBasicInfo();
   const char *GetBasicInfoAsString() const;
   const char *GetName();

   DNBArchProtocol *GetArchProtocol() { return m_arch_ap.get(); }

   ThreadInfo::QoS GetRequestedQoS(nub_addr_t tsd, uint64_t dti_qos_class_index);
   nub_addr_t GetPThreadT();
   nub_addr_t GetDispatchQueueT();
   nub_addr_t
   GetTSDAddressForThread(uint64_t plo_pthread_tsd_base_address_offset,
                          uint64_t plo_pthread_tsd_base_offset,
                          uint64_t plo_pthread_tsd_entry_size);

   static uint64_t GetGloballyUniqueThreadIDForMachPortID(thread_t mach_port_id);

 protected:
   static bool GetBasicInfo(thread_t threadID,
                            struct thread_basic_info *basic_info);

   bool GetIdentifierInfo();

   //    const char *
   //    GetDispatchQueueName();
   //
   MachProcess *m_process; // The process that owns this thread
   uint64_t m_unique_id; // The globally unique ID for this thread (nub_thread_t)
   thread_t m_mach_port_number; // The mach port # for this thread in debugserver
                                // namesp.
   uint32_t m_seq_id;   // A Sequential ID that increments with each new thread
   nub_state_t m_state; // The state of our process
   PThreadMutex m_state_mutex;            // Multithreaded protection for m_state
   struct thread_basic_info m_basic_info; // Basic information for a thread used
                                          // to see if a thread is valid
   int32_t m_suspend_count; // The current suspend count > 0 means we have
                            // suspended m_suspendCount times,
   //                           < 0 means we have resumed it m_suspendCount
   //                           times.
   MachException::Data m_stop_exception; // The best exception that describes why
                                         // this thread is stopped
   std::unique_ptr<DNBArchProtocol>
       m_arch_ap; // Arch specific information for register state and more
   const DNBRegisterSetInfo
       *m_reg_sets; // Register set information for this thread
   nub_size_t m_num_reg_sets;
   thread_identifier_info_data_t m_ident_info;
   struct proc_threadinfo m_proc_threadinfo;
   std::string m_dispatch_queue_name;
   bool m_is_64_bit;

   // qos_class_t _pthread_qos_class_decode(pthread_priority_t priority, int *,
   // unsigned long *);
   unsigned int (*m_pthread_qos_class_decode)(unsigned long priority, int *,
                                              unsigned long *);

 private:
   friend class MachThreadList;
 };

 typedef std::shared_ptr<MachThread> MachThreadSP;

 #endif
	//===-- MachThread.h --------------------------------------------- C++ --===//
	//
	// The LLVM Compiler Infrastructure
	//
	// This file is distributed under the University of Illinois Open Source
	// License. See LICENSE.TXT for details.
	//
	//===----------------------------------------------------------------------===//
	//
	// Created by Greg Clayton on 6/19/07.
	//
	//===----------------------------------------------------------------------===//

	#ifndef __MachThread_h__
	#define __MachThread_h__

	#include <string>
	#include <vector>

	#include <libproc.h>
	#include <mach/mach.h>
	#include <pthread.h>
	#include <sys/signal.h>

	#include "DNBArch.h"
	#include "DNBRegisterInfo.h"
	#include "MachException.h"
	#include "PThreadCondition.h"
	#include "PThreadMutex.h"

	#include "ThreadInfo.h"

	class DNBBreakpoint;
	class MachProcess;
	class MachThreadList;

	class MachThread {
	public:
	MachThread(MachProcess *process, bool is_64_bit,
	uint64_t unique_thread_id = 0, thread_t mach_port_number = 0);
	~MachThread();

	MachProcess *Process() { return m_process; }
	const MachProcess *Process() const { return m_process; }
	nub_process_t ProcessID() const;
	void Dump(uint32_t index);
	uint64_t ThreadID() const { return m_unique_id; }
	thread_t MachPortNumber() const { return m_mach_port_number; }
	thread_t InferiorThreadID() const;

	uint32_t SequenceID() const { return m_seq_id; }
	static bool ThreadIDIsValid(
	uint64_t thread); // The 64-bit system-wide unique thread identifier
	static bool MachPortNumberIsValid(thread_t thread); // The mach port # for
	// this thread in
	// debugserver namespace
	void Resume(bool others_stopped);
	void Suspend();
	bool SetSuspendCountBeforeResume(bool others_stopped);
	bool RestoreSuspendCountAfterStop();

	bool GetRegisterState(int flavor, bool force);
	bool SetRegisterState(int flavor);
	uint64_t
	GetPC(uint64_t failValue = INVALID_NUB_ADDRESS); // Get program counter
	bool SetPC(uint64_t value); // Set program counter
	uint64_t GetSP(uint64_t failValue = INVALID_NUB_ADDRESS); // Get stack pointer

	DNBBreakpoint *CurrentBreakpoint();
	uint32_t EnableHardwareBreakpoint(const DNBBreakpoint *breakpoint);
	uint32_t EnableHardwareWatchpoint(const DNBBreakpoint *watchpoint,
	bool also_set_on_task);
	bool DisableHardwareBreakpoint(const DNBBreakpoint *breakpoint);
	bool DisableHardwareWatchpoint(const DNBBreakpoint *watchpoint,
	bool also_set_on_task);
	uint32_t NumSupportedHardwareWatchpoints() const;
	bool RollbackTransForHWP();
	bool FinishTransForHWP();

	nub_state_t GetState();
	void SetState(nub_state_t state);

	void ThreadWillResume(const DNBThreadResumeAction *thread_action,
	bool others_stopped = false);
	bool ShouldStop(bool &step_more);
	bool IsStepping();
	bool ThreadDidStop();
	bool NotifyException(MachException::Data &exc);
	const MachException::Data &GetStopException() { return m_stop_exception; }

	nub_size_t GetNumRegistersInSet(nub_size_t regSet) const;
	const char *GetRegisterSetName(nub_size_t regSet) const;
	const DNBRegisterInfo *GetRegisterInfo(nub_size_t regSet,
	nub_size_t regIndex) const;
	void DumpRegisterState(nub_size_t regSet);
	const DNBRegisterSetInfo GetRegisterSetInfo(nub_size_t num_reg_sets) const;
	bool GetRegisterValue(uint32_t reg_set_idx, uint32_t reg_idx,
	DNBRegisterValue *reg_value);
	bool SetRegisterValue(uint32_t reg_set_idx, uint32_t reg_idx,
	const DNBRegisterValue *reg_value);
	nub_size_t GetRegisterContext(void *buf, nub_size_t buf_len);
	nub_size_t SetRegisterContext(const void *buf, nub_size_t buf_len);
	uint32_t SaveRegisterState();
	bool RestoreRegisterState(uint32_t save_id);

	void NotifyBreakpointChanged(const DNBBreakpoint *bp) {}

	bool IsUserReady();
	struct thread_basic_info *GetBasicInfo();
	const char *GetBasicInfoAsString() const;
	const char *GetName();

	DNBArchProtocol *GetArchProtocol() { return m_arch_ap.get(); }

	ThreadInfo::QoS GetRequestedQoS(nub_addr_t tsd, uint64_t dti_qos_class_index);
	nub_addr_t GetPThreadT();
	nub_addr_t GetDispatchQueueT();
	nub_addr_t
	GetTSDAddressForThread(uint64_t plo_pthread_tsd_base_address_offset,
	uint64_t plo_pthread_tsd_base_offset,
	uint64_t plo_pthread_tsd_entry_size);

	static uint64_t GetGloballyUniqueThreadIDForMachPortID(thread_t mach_port_id);

	protected:
	static bool GetBasicInfo(thread_t threadID,
	struct thread_basic_info *basic_info);

	bool GetIdentifierInfo();

	// const char *
	// GetDispatchQueueName();
	//
	MachProcess *m_process; // The process that owns this thread
	uint64_t m_unique_id; // The globally unique ID for this thread (nub_thread_t)
	thread_t m_mach_port_number; // The mach port # for this thread in debugserver
	// namesp.
	uint32_t m_seq_id; // A Sequential ID that increments with each new thread
	nub_state_t m_state; // The state of our process
	PThreadMutex m_state_mutex; // Multithreaded protection for m_state
	struct thread_basic_info m_basic_info; // Basic information for a thread used
	// to see if a thread is valid
	int32_t m_suspend_count; // The current suspend count > 0 means we have
	// suspended m_suspendCount times,
	// < 0 means we have resumed it m_suspendCount
	// times.
	MachException::Data m_stop_exception; // The best exception that describes why
	// this thread is stopped
	std::unique_ptr<DNBArchProtocol>
	m_arch_ap; // Arch specific information for register state and more
	const DNBRegisterSetInfo
	*m_reg_sets; // Register set information for this thread
	nub_size_t m_num_reg_sets;
	thread_identifier_info_data_t m_ident_info;
	struct proc_threadinfo m_proc_threadinfo;
	std::string m_dispatch_queue_name;
	bool m_is_64_bit;

	// qos_class_t _pthread_qos_class_decode(pthread_priority_t priority, int *,
	// unsigned long *);
	unsigned int (m_pthread_qos_class_decode)(unsigned long priority, int ,
	unsigned long *);

	private:
	friend class MachThreadList;
	};

	typedef std::shared_ptr<MachThread> MachThreadSP;

	#endif