tools/debugserver/source/MacOSX/ppc/DNBArchImpl.h - lldb - Git at Google

 //===-- DNBArchImpl.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 6/25/07.
 //
 //===----------------------------------------------------------------------===//

 #ifndef __DebugNubArchMachPPC_h__
 #define __DebugNubArchMachPPC_h__

 #if defined (__powerpc__) || defined (__ppc__) || defined (__ppc64__)

 #include "DNBArch.h"

 class MachThread;

 class DNBArchMachPPC : public DNBArchProtocol
 {
 public:
     DNBArchMachPPC(MachThread *thread) :
         m_thread(thread),
         m_state()
     {
     }

     virtual ~DNBArchMachPPC()
     {
     }

     virtual const DNBRegisterSetInfo *
                             GetRegisterSetInfo(nub_size_t *num_reg_sets) const;
     virtual bool            GetRegisterValue(int set, int reg, DNBRegisterValue *value) const;
     virtual kern_return_t   GetRegisterState  (int set, bool force);
     virtual kern_return_t   SetRegisterState  (int set);
     virtual bool            RegisterSetStateIsValid (int set) const;

     virtual uint64_t        GetPC(uint64_t failValue);    // Get program counter
     virtual kern_return_t   SetPC(uint64_t value);
     virtual uint64_t        GetSP(uint64_t failValue);    // Get stack pointer
     virtual bool            ThreadWillResume();
     virtual bool            ThreadDidStop();

     static const uint8_t * const SoftwareBreakpointOpcode (nub_size_t byte_size);
     static uint32_t         GetCPUType();

 protected:


     kern_return_t    EnableHardwareSingleStep (bool enable);

     typedef enum RegisterSetTag
     {
         e_regSetALL = REGISTER_SET_ALL,
         e_regSetGPR,
         e_regSetFPR,
         e_regSetEXC,
         e_regSetVEC,
         kNumRegisterSets
     } RegisterSet;

     typedef enum RegisterSetWordSizeTag
     {
         e_regSetWordSizeGPR = PPC_THREAD_STATE_COUNT,
         e_regSetWordSizeFPR = PPC_FLOAT_STATE_COUNT,
         e_regSetWordSizeEXC = PPC_EXCEPTION_STATE_COUNT,
         e_regSetWordSizeVEC = PPC_VECTOR_STATE_COUNT
     } RegisterSetWordSize;

     enum
     {
         Read = 0,
         Write = 1,
         kNumErrors = 2
     };

     struct State
     {
         ppc_thread_state_t        gpr;
         ppc_float_state_t        fpr;
         ppc_exception_state_t    exc;
         ppc_vector_state_t        vec;
         kern_return_t            gpr_errs[2];    // Read/Write errors
         kern_return_t            fpr_errs[2];    // Read/Write errors
         kern_return_t            exc_errs[2];    // Read/Write errors
         kern_return_t            vec_errs[2];    // Read/Write errors

         State()
         {
             uint32_t i;
             for (i=0; i<kNumErrors; i++)
             {
                 gpr_errs[i] = -1;
                 fpr_errs[i] = -1;
                 exc_errs[i] = -1;
                 vec_errs[i] = -1;
             }
         }
         void InvalidateAllRegisterStates()
         {
             SetError (e_regSetALL, Read, -1);
         }
         kern_return_t GetError (int set, uint32_t err_idx) const
         {
             if (err_idx < kNumErrors)
             {
                 switch (set)
                 {
                 // When getting all errors, just OR all values together to see if
                 // we got any kind of error.
                 case e_regSetALL:    return gpr_errs[err_idx] | fpr_errs[err_idx] | exc_errs[err_idx] | vec_errs[err_idx];
                 case e_regSetGPR:    return gpr_errs[err_idx];
                 case e_regSetFPR:    return fpr_errs[err_idx];
                 case e_regSetEXC:    return exc_errs[err_idx];
                 case e_regSetVEC:    return vec_errs[err_idx];
                 default: break;
                 }
             }
             return -1;
         }
         bool SetError (int set, uint32_t err_idx, kern_return_t err)
         {
             if (err_idx < kNumErrors)
             {
                 switch (set)
                 {
                 case e_regSetALL:
                     gpr_errs[err_idx] = fpr_errs[err_idx] = exc_errs[err_idx] = vec_errs[err_idx] = err;
                     return true;

                 case e_regSetGPR:
                     gpr_errs[err_idx] = err;
                     return true;

                 case e_regSetFPR:
                     fpr_errs[err_idx] = err;
                     return true;

                 case e_regSetEXC:
                     exc_errs[err_idx] = err;
                     return true;

                 case e_regSetVEC:
                     vec_errs[err_idx] = err;
                     return true;

                 default: break;
                 }
             }
             return false;
         }
         bool RegsAreValid (int set) const
         {
             return GetError(set, Read) == KERN_SUCCESS;
         }
     };

     kern_return_t GetGPRState (bool force);
     kern_return_t GetFPRState (bool force);
     kern_return_t GetEXCState (bool force);
     kern_return_t GetVECState (bool force);

     kern_return_t SetGPRState ();
     kern_return_t SetFPRState ();
     kern_return_t SetEXCState ();
     kern_return_t SetVECState ();

 protected:
     MachThread *    m_thread;
     State            m_state;
 };

 #endif    // #if defined (__powerpc__) || defined (__ppc__) || defined (__ppc64__)
 #endif    // #ifndef __DebugNubArchMachPPC_h__
	//===-- DNBArchImpl.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 6/25/07.
	//
	//===----------------------------------------------------------------------===//

	#ifndef __DebugNubArchMachPPC_h__
	#define __DebugNubArchMachPPC_h__

	#if defined (__powerpc__) \|\| defined (__ppc__) \|\| defined (__ppc64__)

	#include "DNBArch.h"

	class MachThread;

	class DNBArchMachPPC : public DNBArchProtocol
	{
	public:
	DNBArchMachPPC(MachThread *thread) :
	m_thread(thread),
	m_state()
	{
	}

	virtual ~DNBArchMachPPC()
	{
	}

	virtual const DNBRegisterSetInfo *
	GetRegisterSetInfo(nub_size_t *num_reg_sets) const;
	virtual bool GetRegisterValue(int set, int reg, DNBRegisterValue *value) const;
	virtual kern_return_t GetRegisterState (int set, bool force);
	virtual kern_return_t SetRegisterState (int set);
	virtual bool RegisterSetStateIsValid (int set) const;

	virtual uint64_t GetPC(uint64_t failValue); // Get program counter
	virtual kern_return_t SetPC(uint64_t value);
	virtual uint64_t GetSP(uint64_t failValue); // Get stack pointer
	virtual bool ThreadWillResume();
	virtual bool ThreadDidStop();

	static const uint8_t * const SoftwareBreakpointOpcode (nub_size_t byte_size);
	static uint32_t GetCPUType();

	protected:


	kern_return_t EnableHardwareSingleStep (bool enable);

	typedef enum RegisterSetTag
	{
	e_regSetALL = REGISTER_SET_ALL,
	e_regSetGPR,
	e_regSetFPR,
	e_regSetEXC,
	e_regSetVEC,
	kNumRegisterSets
	} RegisterSet;

	typedef enum RegisterSetWordSizeTag
	{
	e_regSetWordSizeGPR = PPC_THREAD_STATE_COUNT,
	e_regSetWordSizeFPR = PPC_FLOAT_STATE_COUNT,
	e_regSetWordSizeEXC = PPC_EXCEPTION_STATE_COUNT,
	e_regSetWordSizeVEC = PPC_VECTOR_STATE_COUNT
	} RegisterSetWordSize;

	enum
	{
	Read = 0,
	Write = 1,
	kNumErrors = 2
	};

	struct State
	{
	ppc_thread_state_t gpr;
	ppc_float_state_t fpr;
	ppc_exception_state_t exc;
	ppc_vector_state_t vec;
	kern_return_t gpr_errs[2]; // Read/Write errors
	kern_return_t fpr_errs[2]; // Read/Write errors
	kern_return_t exc_errs[2]; // Read/Write errors
	kern_return_t vec_errs[2]; // Read/Write errors

	State()
	{
	uint32_t i;
	for (i=0; i<kNumErrors; i++)
	{
	gpr_errs[i] = -1;
	fpr_errs[i] = -1;
	exc_errs[i] = -1;
	vec_errs[i] = -1;
	}
	}
	void InvalidateAllRegisterStates()
	{
	SetError (e_regSetALL, Read, -1);
	}
	kern_return_t GetError (int set, uint32_t err_idx) const
	{
	if (err_idx < kNumErrors)
	{
	switch (set)
	{
	// When getting all errors, just OR all values together to see if
	// we got any kind of error.
	case e_regSetALL: return gpr_errs[err_idx] \| fpr_errs[err_idx] \| exc_errs[err_idx] \| vec_errs[err_idx];
	case e_regSetGPR: return gpr_errs[err_idx];
	case e_regSetFPR: return fpr_errs[err_idx];
	case e_regSetEXC: return exc_errs[err_idx];
	case e_regSetVEC: return vec_errs[err_idx];
	default: break;
	}
	}
	return -1;
	}
	bool SetError (int set, uint32_t err_idx, kern_return_t err)
	{
	if (err_idx < kNumErrors)
	{
	switch (set)
	{
	case e_regSetALL:
	gpr_errs[err_idx] = fpr_errs[err_idx] = exc_errs[err_idx] = vec_errs[err_idx] = err;
	return true;

	case e_regSetGPR:
	gpr_errs[err_idx] = err;
	return true;

	case e_regSetFPR:
	fpr_errs[err_idx] = err;
	return true;

	case e_regSetEXC:
	exc_errs[err_idx] = err;
	return true;

	case e_regSetVEC:
	vec_errs[err_idx] = err;
	return true;

	default: break;
	}
	}
	return false;
	}
	bool RegsAreValid (int set) const
	{
	return GetError(set, Read) == KERN_SUCCESS;
	}
	};

	kern_return_t GetGPRState (bool force);
	kern_return_t GetFPRState (bool force);
	kern_return_t GetEXCState (bool force);
	kern_return_t GetVECState (bool force);

	kern_return_t SetGPRState ();
	kern_return_t SetFPRState ();
	kern_return_t SetEXCState ();
	kern_return_t SetVECState ();

	protected:
	MachThread * m_thread;
	State m_state;
	};

	#endif // #if defined (__powerpc__) \|\| defined (__ppc__) \|\| defined (__ppc64__)
	#endif // #ifndef __DebugNubArchMachPPC_h__