runtime/vm/debugger_api_impl_test.cc - sdk.git - Git at Google

 // Copyright (c) 2012, the Dart project authors.  Please see the AUTHORS file
 // for details. All rights reserved. Use of this source code is governed by a
 // BSD-style license that can be found in the LICENSE file.

 #include <include/dart_api.h>
 #include "include/dart_tools_api.h"

 #include "vm/class_finalizer.h"
 #include "vm/compiler/jit/compiler.h"
 #include "vm/dart_api_impl.h"
 #include "vm/dart_api_state.h"
 #include "vm/debugger.h"
 #include "vm/debugger_api_impl_test.h"
 #include "vm/isolate.h"
 #include "vm/object_store.h"
 #include "vm/symbols.h"

 namespace dart {

 // Facilitate quick access to the current zone once we have the current thread.
 #define Z (T->zone())

 #ifndef PRODUCT

 #define UNWRAP_AND_CHECK_PARAM(type, var, param)                               \
   type& var = type::Handle();                                                  \
   do {                                                                         \
     const Object& tmp = Object::Handle(Api::UnwrapHandle(param));              \
     if (tmp.IsNull()) {                                                        \
       return Api::NewError("%s expects argument '%s' to be non-null.",         \
                            CURRENT_FUNC, #param);                              \
     } else if (tmp.IsApiError()) {                                             \
       return param;                                                            \
     } else if (!tmp.Is##type()) {                                              \
       return Api::NewError("%s expects argument '%s' to be of type %s.",       \
                            CURRENT_FUNC, #param, #type);                       \
     }                                                                          \
     var ^= tmp.ptr();                                                          \
   } while (0)

 #define CHECK_AND_CAST(type, var, param)                                       \
   type* var = NULL;                                                            \
   do {                                                                         \
     if (param == NULL) {                                                       \
       return Api::NewError("%s expects argument '%s' to be non-null.",         \
                            CURRENT_FUNC, #param);                              \
     }                                                                          \
     var = reinterpret_cast<type*>(param);                                      \
   } while (0)

 #define CHECK_NOT_NULL(param)                                                  \
   if (param == NULL) {                                                         \
     return Api::NewError("%s expects argument '%s' to be non-null.",           \
                          CURRENT_FUNC, #param);                                \
   }

 #define CHECK_DEBUGGER(isolate)                                                \
   if (isolate->debugger() == NULL) {                                           \
     return Api::NewError("%s requires debugger support.", CURRENT_FUNC);       \
   }

 DART_EXPORT Dart_Handle Dart_StackTraceLength(Dart_StackTrace trace,
                                               intptr_t* length) {
   DARTSCOPE(Thread::Current());
   CHECK_NOT_NULL(length);
   CHECK_AND_CAST(DebuggerStackTrace, stack_trace, trace);
   *length = stack_trace->Length();
   return Api::Success();
 }

 DART_EXPORT Dart_Handle Dart_GetActivationFrame(Dart_StackTrace trace,
                                                 int frame_index,
                                                 Dart_ActivationFrame* frame) {
   DARTSCOPE(Thread::Current());
   CHECK_NOT_NULL(frame);
   CHECK_AND_CAST(DebuggerStackTrace, stack_trace, trace);
   if ((frame_index < 0) || (frame_index >= stack_trace->Length())) {
     return Api::NewError("argument 'frame_index' is out of range for %s",
                          CURRENT_FUNC);
   }
   *frame =
       reinterpret_cast<Dart_ActivationFrame>(stack_trace->FrameAt(frame_index));
   return Api::Success();
 }

 DART_EXPORT Dart_Handle Dart_GetStackTrace(Dart_StackTrace* trace) {
   DARTSCOPE(Thread::Current());
   Isolate* I = T->isolate();
   CHECK_DEBUGGER(I);
   CHECK_NOT_NULL(trace);
   *trace = reinterpret_cast<Dart_StackTrace>(DebuggerStackTrace::Collect());
   return Api::Success();
 }

 DART_EXPORT Dart_Handle Dart_GetStackTraceFromError(Dart_Handle handle,
                                                     Dart_StackTrace* trace) {
   DARTSCOPE(Thread::Current());
   CHECK_DEBUGGER(T->isolate());
   CHECK_NOT_NULL(trace);
   const Object& obj = Object::Handle(Z, Api::UnwrapHandle(handle));
   if (obj.IsUnhandledException()) {
     const UnhandledException& error = UnhandledException::Cast(obj);
     StackTrace& dart_stacktrace = StackTrace::Handle(Z);
     dart_stacktrace ^= error.stacktrace();
     if (dart_stacktrace.IsNull()) {
       *trace = NULL;
     } else {
       *trace = reinterpret_cast<Dart_StackTrace>(
           DebuggerStackTrace::From(dart_stacktrace));
     }
     return Api::Success();
   } else {
     return Api::NewError(
         "Can only get stacktraces from error handles or "
         "instances of Error.");
   }
 }

 DART_EXPORT Dart_Handle
 Dart_ActivationFrameInfo(Dart_ActivationFrame activation_frame,
                          Dart_Handle* function_name,
                          Dart_Handle* script_url,
                          intptr_t* line_number,
                          intptr_t* column_number) {
   DARTSCOPE(Thread::Current());
   CHECK_AND_CAST(ActivationFrame, frame, activation_frame);
   if (function_name != NULL) {
     *function_name = Api::NewHandle(T, frame->QualifiedFunctionName());
   }
   if (script_url != NULL) {
     *script_url = Api::NewHandle(T, frame->SourceUrl());
   }
   if (line_number != NULL) {
     *line_number = frame->LineNumber();
   }
   if (column_number != NULL) {
     *column_number = frame->ColumnNumber();
   }
   return Api::Success();
 }

 DART_EXPORT Dart_Handle Dart_SetBreakpoint(Dart_Handle script_url_in,
                                            intptr_t line_number) {
   Breakpoint* bpt;
   {
     DARTSCOPE(Thread::Current());
     Isolate* I = T->isolate();
     CHECK_DEBUGGER(I);
     UNWRAP_AND_CHECK_PARAM(String, script_url, script_url_in);

     Debugger* debugger = I->debugger();
     bpt = debugger->SetBreakpointAtLineCol(script_url, line_number, -1);
     if (bpt == NULL) {
       return Api::NewError("%s: could not set breakpoint at line %" Pd
                            " in '%s'",
                            CURRENT_FUNC, line_number, script_url.ToCString());
     }
   }
   return Dart_NewInteger(bpt->id());
 }

 DART_EXPORT Dart_Handle Dart_EvaluateStaticExpr(Dart_Handle lib_handle,
                                                 Dart_Handle expr_in) {
   DARTSCOPE(Thread::Current());
   CHECK_DEBUGGER(T->isolate());

   const Object& target = Object::Handle(Z, Api::UnwrapHandle(lib_handle));
   if (target.IsError()) return lib_handle;
   if (target.IsNull()) {
     return Api::NewError("%s expects argument 'target' to be non-null",
                          CURRENT_FUNC);
   }
   const Library& lib = Library::Cast(target);
   UNWRAP_AND_CHECK_PARAM(String, expr, expr_in);

   if (!KernelIsolate::IsRunning()) {
     UNREACHABLE();
   } else {
     Dart_KernelCompilationResult compilation_result =
         KernelIsolate::CompileExpressionToKernel(
             /* platform_kernel= */ nullptr, /* platform_kernel_size= */ 0,
             expr.ToCString(),
             /* definitions= */ Array::empty_array(),
             /* type_defintions= */ Array::empty_array(),
             String::Handle(lib.url()).ToCString(),
             /* klass= */ nullptr,
             /* method= */ nullptr,
             /* is_static= */ true);
     if (compilation_result.status != Dart_KernelCompilationStatus_Ok) {
       return Api::NewError("Failed to compile expression.");
     }

     const ExternalTypedData& kernel_buffer =
         ExternalTypedData::Handle(ExternalTypedData::NewFinalizeWithFree(
             const_cast<uint8_t*>(compilation_result.kernel),
             compilation_result.kernel_size));

     Dart_Handle result = Api::NewHandle(
         T,
         lib.EvaluateCompiledExpression(kernel_buffer,
                                        /* type_definitions= */
                                        Array::empty_array(),
                                        /* param_values= */
                                        Array::empty_array(),
                                        /* type_param_values= */
                                        TypeArguments::null_type_arguments()));
     return result;
   }
 }

 DART_EXPORT Dart_Handle Dart_LibraryId(Dart_Handle library,
                                        intptr_t* library_id) {
   DARTSCOPE(Thread::Current());
   const Library& lib = Api::UnwrapLibraryHandle(Z, library);
   if (lib.IsNull()) {
     RETURN_TYPE_ERROR(Z, library, Library);
   }
   if (library_id == NULL) {
     RETURN_NULL_ERROR(library_id);
   }
   *library_id = lib.index();
   return Api::Success();
 }

 DART_EXPORT Dart_Handle Dart_GetLibraryDebuggable(intptr_t library_id,
                                                   bool* is_debuggable) {
   DARTSCOPE(Thread::Current());
   CHECK_NOT_NULL(is_debuggable);
   const Library& lib = Library::Handle(Library::GetLibrary(library_id));
   if (lib.IsNull()) {
     return Api::NewError("%s: %" Pd " is not a valid library id", CURRENT_FUNC,
                          library_id);
   }
   *is_debuggable = lib.IsDebuggable();
   return Api::Success();
 }

 DART_EXPORT Dart_Handle Dart_SetLibraryDebuggable(intptr_t library_id,
                                                   bool is_debuggable) {
   DARTSCOPE(Thread::Current());
   const Library& lib = Library::Handle(Z, Library::GetLibrary(library_id));
   if (lib.IsNull()) {
     return Api::NewError("%s: %" Pd " is not a valid library id", CURRENT_FUNC,
                          library_id);
   }
   lib.set_debuggable(is_debuggable);
   return Api::Success();
 }

 #endif  // !PRODUCT

 }  // namespace dart
	// Copyright (c) 2012, the Dart project authors. Please see the AUTHORS file
	// for details. All rights reserved. Use of this source code is governed by a
	// BSD-style license that can be found in the LICENSE file.

	#include <include/dart_api.h>
	#include "include/dart_tools_api.h"

	#include "vm/class_finalizer.h"
	#include "vm/compiler/jit/compiler.h"
	#include "vm/dart_api_impl.h"
	#include "vm/dart_api_state.h"
	#include "vm/debugger.h"
	#include "vm/debugger_api_impl_test.h"
	#include "vm/isolate.h"
	#include "vm/object_store.h"
	#include "vm/symbols.h"

	namespace dart {

	// Facilitate quick access to the current zone once we have the current thread.
	#define Z (T->zone())

	#ifndef PRODUCT

	#define UNWRAP_AND_CHECK_PARAM(type, var, param) \
	type& var = type::Handle(); \
	do { \
	const Object& tmp = Object::Handle(Api::UnwrapHandle(param)); \
	if (tmp.IsNull()) { \
	return Api::NewError("%s expects argument '%s' to be non-null.", \
	CURRENT_FUNC, #param); \
	} else if (tmp.IsApiError()) { \
	return param; \
	} else if (!tmp.Is##type()) { \
	return Api::NewError("%s expects argument '%s' to be of type %s.", \
	CURRENT_FUNC, #param, #type); \
	} \
	var ^= tmp.ptr(); \
	} while (0)

	#define CHECK_AND_CAST(type, var, param) \
	type* var = NULL; \
	do { \
	if (param == NULL) { \
	return Api::NewError("%s expects argument '%s' to be non-null.", \
	CURRENT_FUNC, #param); \
	} \
	var = reinterpret_cast<type*>(param); \
	} while (0)

	#define CHECK_NOT_NULL(param) \
	if (param == NULL) { \
	return Api::NewError("%s expects argument '%s' to be non-null.", \
	CURRENT_FUNC, #param); \
	}

	#define CHECK_DEBUGGER(isolate) \
	if (isolate->debugger() == NULL) { \
	return Api::NewError("%s requires debugger support.", CURRENT_FUNC); \
	}

	DART_EXPORT Dart_Handle Dart_StackTraceLength(Dart_StackTrace trace,
	intptr_t* length) {
	DARTSCOPE(Thread::Current());
	CHECK_NOT_NULL(length);
	CHECK_AND_CAST(DebuggerStackTrace, stack_trace, trace);
	*length = stack_trace->Length();
	return Api::Success();
	}

	DART_EXPORT Dart_Handle Dart_GetActivationFrame(Dart_StackTrace trace,
	int frame_index,
	Dart_ActivationFrame* frame) {
	DARTSCOPE(Thread::Current());
	CHECK_NOT_NULL(frame);
	CHECK_AND_CAST(DebuggerStackTrace, stack_trace, trace);
	if ((frame_index < 0) \|\| (frame_index >= stack_trace->Length())) {
	return Api::NewError("argument 'frame_index' is out of range for %s",
	CURRENT_FUNC);
	}
	*frame =
	reinterpret_cast<Dart_ActivationFrame>(stack_trace->FrameAt(frame_index));
	return Api::Success();
	}

	DART_EXPORT Dart_Handle Dart_GetStackTrace(Dart_StackTrace* trace) {
	DARTSCOPE(Thread::Current());
	Isolate* I = T->isolate();
	CHECK_DEBUGGER(I);
	CHECK_NOT_NULL(trace);
	*trace = reinterpret_cast<Dart_StackTrace>(DebuggerStackTrace::Collect());
	return Api::Success();
	}

	DART_EXPORT Dart_Handle Dart_GetStackTraceFromError(Dart_Handle handle,
	Dart_StackTrace* trace) {
	DARTSCOPE(Thread::Current());
	CHECK_DEBUGGER(T->isolate());
	CHECK_NOT_NULL(trace);
	const Object& obj = Object::Handle(Z, Api::UnwrapHandle(handle));
	if (obj.IsUnhandledException()) {
	const UnhandledException& error = UnhandledException::Cast(obj);
	StackTrace& dart_stacktrace = StackTrace::Handle(Z);
	dart_stacktrace ^= error.stacktrace();
	if (dart_stacktrace.IsNull()) {
	*trace = NULL;
	} else {
	*trace = reinterpret_cast<Dart_StackTrace>(
	DebuggerStackTrace::From(dart_stacktrace));
	}
	return Api::Success();
	} else {
	return Api::NewError(
	"Can only get stacktraces from error handles or "
	"instances of Error.");
	}
	}

	DART_EXPORT Dart_Handle
	Dart_ActivationFrameInfo(Dart_ActivationFrame activation_frame,
	Dart_Handle* function_name,
	Dart_Handle* script_url,
	intptr_t* line_number,
	intptr_t* column_number) {
	DARTSCOPE(Thread::Current());
	CHECK_AND_CAST(ActivationFrame, frame, activation_frame);
	if (function_name != NULL) {
	*function_name = Api::NewHandle(T, frame->QualifiedFunctionName());
	}
	if (script_url != NULL) {
	*script_url = Api::NewHandle(T, frame->SourceUrl());
	}
	if (line_number != NULL) {
	*line_number = frame->LineNumber();
	}
	if (column_number != NULL) {
	*column_number = frame->ColumnNumber();
	}
	return Api::Success();
	}

	DART_EXPORT Dart_Handle Dart_SetBreakpoint(Dart_Handle script_url_in,
	intptr_t line_number) {
	Breakpoint* bpt;
	{
	DARTSCOPE(Thread::Current());
	Isolate* I = T->isolate();
	CHECK_DEBUGGER(I);
	UNWRAP_AND_CHECK_PARAM(String, script_url, script_url_in);

	Debugger* debugger = I->debugger();
	bpt = debugger->SetBreakpointAtLineCol(script_url, line_number, -1);
	if (bpt == NULL) {
	return Api::NewError("%s: could not set breakpoint at line %" Pd
	" in '%s'",
	CURRENT_FUNC, line_number, script_url.ToCString());
	}
	}
	return Dart_NewInteger(bpt->id());
	}

	DART_EXPORT Dart_Handle Dart_EvaluateStaticExpr(Dart_Handle lib_handle,
	Dart_Handle expr_in) {
	DARTSCOPE(Thread::Current());
	CHECK_DEBUGGER(T->isolate());

	const Object& target = Object::Handle(Z, Api::UnwrapHandle(lib_handle));
	if (target.IsError()) return lib_handle;
	if (target.IsNull()) {
	return Api::NewError("%s expects argument 'target' to be non-null",
	CURRENT_FUNC);
	}
	const Library& lib = Library::Cast(target);
	UNWRAP_AND_CHECK_PARAM(String, expr, expr_in);

	if (!KernelIsolate::IsRunning()) {
	UNREACHABLE();
	} else {
	Dart_KernelCompilationResult compilation_result =
	KernelIsolate::CompileExpressionToKernel(
	/* platform_kernel= / nullptr, / platform_kernel_size= */ 0,
	expr.ToCString(),
	/* definitions= */ Array::empty_array(),
	/* type_defintions= */ Array::empty_array(),
	String::Handle(lib.url()).ToCString(),
	/* klass= */ nullptr,
	/* method= */ nullptr,
	/* is_static= */ true);
	if (compilation_result.status != Dart_KernelCompilationStatus_Ok) {
	return Api::NewError("Failed to compile expression.");
	}

	const ExternalTypedData& kernel_buffer =
	ExternalTypedData::Handle(ExternalTypedData::NewFinalizeWithFree(
	const_cast<uint8_t*>(compilation_result.kernel),
	compilation_result.kernel_size));

	Dart_Handle result = Api::NewHandle(
	T,
	lib.EvaluateCompiledExpression(kernel_buffer,
	/* type_definitions= */
	Array::empty_array(),
	/* param_values= */
	Array::empty_array(),
	/* type_param_values= */
	TypeArguments::null_type_arguments()));
	return result;
	}
	}

	DART_EXPORT Dart_Handle Dart_LibraryId(Dart_Handle library,
	intptr_t* library_id) {
	DARTSCOPE(Thread::Current());
	const Library& lib = Api::UnwrapLibraryHandle(Z, library);
	if (lib.IsNull()) {
	RETURN_TYPE_ERROR(Z, library, Library);
	}
	if (library_id == NULL) {
	RETURN_NULL_ERROR(library_id);
	}
	*library_id = lib.index();
	return Api::Success();
	}

	DART_EXPORT Dart_Handle Dart_GetLibraryDebuggable(intptr_t library_id,
	bool* is_debuggable) {
	DARTSCOPE(Thread::Current());
	CHECK_NOT_NULL(is_debuggable);
	const Library& lib = Library::Handle(Library::GetLibrary(library_id));
	if (lib.IsNull()) {
	return Api::NewError("%s: %" Pd " is not a valid library id", CURRENT_FUNC,
	library_id);
	}
	*is_debuggable = lib.IsDebuggable();
	return Api::Success();
	}

	DART_EXPORT Dart_Handle Dart_SetLibraryDebuggable(intptr_t library_id,
	bool is_debuggable) {
	DARTSCOPE(Thread::Current());
	const Library& lib = Library::Handle(Z, Library::GetLibrary(library_id));
	if (lib.IsNull()) {
	return Api::NewError("%s: %" Pd " is not a valid library id", CURRENT_FUNC,
	library_id);
	}
	lib.set_debuggable(is_debuggable);
	return Api::Success();
	}

	#endif // !PRODUCT

	} // namespace dart