vm/interp/Interp.h - platform/dalvik2 - Git at Google

 /*
  * Copyright (C) 2008 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.
  */

 /*
  * Dalvik interpreter public definitions.
  */
 #ifndef DALVIK_INTERP_INTERP_H_
 #define DALVIK_INTERP_INTERP_H_

 /*
  * Stash the dalvik PC in the frame.  Called  during interpretation.
  */
 INLINE void dvmExportPC(const u2* pc, const u4* fp)
 {
     SAVEAREA_FROM_FP(fp)->xtra.currentPc = pc;
 }

 /*
  * Extract the Dalvik opcode
  */
 #define GET_OPCODE(_inst) (_inst & 0xff)

 /*
  * Interpreter entry point.  Call here after setting up the interpreted
  * stack (most code will want to get here via dvmCallMethod().)
  */
 void dvmInterpret(Thread* thread, const Method* method, JValue* pResult);

 /*
  * Throw an exception for a problem detected by the verifier.
  *
  * This is called from the handler for the throw-verification-error
  * instruction.  "method" is the method currently being executed.
  */
 extern "C" void dvmThrowVerificationError(const Method* method,
                                           int kind, int ref);

 /*
  * One-time initialization and shutdown.
  */
 bool dvmBreakpointStartup(void);
 void dvmBreakpointShutdown(void);
 void dvmInitInterpreterState(Thread* self);

 /*
  * Breakpoint implementation.
  */
 void dvmInitBreakpoints();
 void dvmAddBreakAddr(Method* method, unsigned int instrOffset);
 void dvmClearBreakAddr(Method* method, unsigned int instrOffset);
 bool dvmAddSingleStep(Thread* thread, int size, int depth);
 void dvmClearSingleStep(Thread* thread);

 /*
  * Recover the opcode that was replaced by a breakpoint.
  */
 extern "C" u1 dvmGetOriginalOpcode(const u2* addr);

 /*
  * Flush any breakpoints associated with methods in "clazz".
  */
 void dvmFlushBreakpoints(ClassObject* clazz);

 /*
  * Debugger support
  */
 extern "C" void dvmCheckBefore(const u2 *dPC, u4 *fp, Thread* self);
 extern "C" void dvmReportExceptionThrow(Thread* self, Object* exception);
 extern "C" void dvmReportPreNativeInvoke(const Method* methodToCall, Thread* self, u4* fp);
 extern "C" void dvmReportPostNativeInvoke(const Method* methodToCall, Thread* self, u4* fp);
 extern "C" void dvmReportInvoke(Thread* self, const Method* methodToCall);
 extern "C" void dvmReportReturn(Thread* self);

 /*
  * InterpBreak & subMode control
  */
 void dvmDisableSubMode(Thread* thread, ExecutionSubModes subMode);
 extern "C" void dvmEnableSubMode(Thread* thread, ExecutionSubModes subMode);
 void dvmDisableAllSubMode(ExecutionSubModes subMode);
 void dvmEnableAllSubMode(ExecutionSubModes subMode);
 void dvmAddToSuspendCounts(Thread* thread, int delta, int dbgDelta);
 void dvmCheckInterpStateConsistency();
 void dvmInitializeInterpBreak(Thread* thread);

 /*
  * Register a callback to occur at the next safe point for a single thread.
  * If funct is NULL, the previous registration is cancelled.
  *
  * The callback prototype is:
  *        bool funct(Thread* thread, void* arg)
  *
  *  If funct returns false, the callback will be disarmed.  If true,
  *  it will stay in effect.
  */
 void dvmArmSafePointCallback(Thread* thread, SafePointCallback funct,
                              void* arg);


 #ifndef DVM_NO_ASM_INTERP
 extern void* dvmAsmInstructionStart[];
 extern void* dvmAsmAltInstructionStart[];
 #endif

 #endif  // DALVIK_INTERP_INTERP_H_
	/*
	* Copyright (C) 2008 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.
	*/

	/*
	* Dalvik interpreter public definitions.
	*/
	#ifndef DALVIK_INTERP_INTERP_H_
	#define DALVIK_INTERP_INTERP_H_

	/*
	* Stash the dalvik PC in the frame. Called during interpretation.
	*/
	INLINE void dvmExportPC(const u2* pc, const u4* fp)
	{
	SAVEAREA_FROM_FP(fp)->xtra.currentPc = pc;
	}

	/*
	* Extract the Dalvik opcode
	*/
	#define GET_OPCODE(_inst) (_inst & 0xff)

	/*
	* Interpreter entry point. Call here after setting up the interpreted
	* stack (most code will want to get here via dvmCallMethod().)
	*/
	void dvmInterpret(Thread* thread, const Method* method, JValue* pResult);

	/*
	* Throw an exception for a problem detected by the verifier.
	*
	* This is called from the handler for the throw-verification-error
	* instruction. "method" is the method currently being executed.
	*/
	extern "C" void dvmThrowVerificationError(const Method* method,
	int kind, int ref);

	/*
	* One-time initialization and shutdown.
	*/
	bool dvmBreakpointStartup(void);
	void dvmBreakpointShutdown(void);
	void dvmInitInterpreterState(Thread* self);

	/*
	* Breakpoint implementation.
	*/
	void dvmInitBreakpoints();
	void dvmAddBreakAddr(Method* method, unsigned int instrOffset);
	void dvmClearBreakAddr(Method* method, unsigned int instrOffset);
	bool dvmAddSingleStep(Thread* thread, int size, int depth);
	void dvmClearSingleStep(Thread* thread);

	/*
	* Recover the opcode that was replaced by a breakpoint.
	*/
	extern "C" u1 dvmGetOriginalOpcode(const u2* addr);

	/*
	* Flush any breakpoints associated with methods in "clazz".
	*/
	void dvmFlushBreakpoints(ClassObject* clazz);

	/*
	* Debugger support
	*/
	extern "C" void dvmCheckBefore(const u2 dPC, u4 fp, Thread* self);
	extern "C" void dvmReportExceptionThrow(Thread* self, Object* exception);
	extern "C" void dvmReportPreNativeInvoke(const Method* methodToCall, Thread* self, u4* fp);
	extern "C" void dvmReportPostNativeInvoke(const Method* methodToCall, Thread* self, u4* fp);
	extern "C" void dvmReportInvoke(Thread* self, const Method* methodToCall);
	extern "C" void dvmReportReturn(Thread* self);

	/*
	* InterpBreak & subMode control
	*/
	void dvmDisableSubMode(Thread* thread, ExecutionSubModes subMode);
	extern "C" void dvmEnableSubMode(Thread* thread, ExecutionSubModes subMode);
	void dvmDisableAllSubMode(ExecutionSubModes subMode);
	void dvmEnableAllSubMode(ExecutionSubModes subMode);
	void dvmAddToSuspendCounts(Thread* thread, int delta, int dbgDelta);
	void dvmCheckInterpStateConsistency();
	void dvmInitializeInterpBreak(Thread* thread);

	/*
	* Register a callback to occur at the next safe point for a single thread.
	* If funct is NULL, the previous registration is cancelled.
	*
	* The callback prototype is:
	* bool funct(Thread* thread, void* arg)
	*
	* If funct returns false, the callback will be disarmed. If true,
	* it will stay in effect.
	*/
	void dvmArmSafePointCallback(Thread* thread, SafePointCallback funct,
	void* arg);


	#ifndef DVM_NO_ASM_INTERP
	extern void* dvmAsmInstructionStart[];
	extern void* dvmAsmAltInstructionStart[];
	#endif

	#endif // DALVIK_INTERP_INTERP_H_