Example #1
0
        private Task CreateAndSendCallMessageAsync(CallInfo callInfo, ResolvedCallee callee, PropagationKind propKind)
        {
            var callMessageInfo = new CallMessageInfo(callInfo.Caller, callee.Method, callee.ReceiverType,
                                                      callInfo.ArgumentsPossibleTypes, callInfo.CallNode, callInfo.LHS, propKind);

            var source        = new MethodEntityDescriptor(callInfo.Caller);
            var callerMessage = new CallerMessage(source, callMessageInfo);

            return(this.AnalyzeCalleeAsync(callMessageInfo.Callee, callerMessage, propKind));
        }
Example #2
0
        private async Task <ISet <ResolvedCallee> > GetPossibleCalleesForDelegateCallAsync(DelegateVariableNode @delegate, IProjectCodeProvider codeProvider)
        {
            var possibleCallees         = new HashSet <ResolvedCallee>();
            var possibleDelegateMethods = this.GetPossibleMethodsForDelegate(@delegate);

            foreach (var method in possibleDelegateMethods)
            {
                if (method.IsStatic)
                {
                    // Static method call
                    var resolvedCallee = new ResolvedCallee(method);

                    possibleCallees.Add(resolvedCallee);
                }
                else
                {
                    // Instance method call
                    var receiverPossibleTypes = this.GetTypes(@delegate);

                    if (receiverPossibleTypes.Count > 0)
                    {
                        foreach (var receiverType in receiverPossibleTypes)
                        {
                            //var aMethod = delegateInstance.FindMethodImplementation(t);
                            // Diego: Should I use : codeProvider.FindImplementation(delegateInstance, t);
                            var callee = await codeProvider.FindMethodImplementationAsync(method, receiverType);

                            var resolvedCallee = new ResolvedCallee(receiverType, callee);

                            possibleCallees.Add(resolvedCallee);
                        }
                    }
                    else
                    {
                        // We don't have any possibleType for the receiver,
                        // so we just use the receiver's declared type to
                        // identify the calle method implementation

                        // if Count is 0, it is a delegate that do not came form an instance variable
                        var receiverType   = @delegate.Type;
                        var resolvedCallee = new ResolvedCallee(receiverType, method);

                        possibleCallees.Add(resolvedCallee);
                    }
                }
            }

            return(possibleCallees);
        }
        private Task CreateAndSendCallMessageAsync(CallInfo callInfo, ResolvedCallee callee, PropagationKind propKind)
        {
            var callMessageInfo = new CallMessageInfo(callInfo.Caller, callee.Method, callee.ReceiverType,
                                                      callInfo.ArgumentsPossibleTypes, callInfo.CallNode, callInfo.LHS, propKind);

            var source        = new MethodEntityDescriptor(callInfo.Caller);
            var callerMessage = new CallerMessage(source, callMessageInfo);

            //Logger.LogWarning(GrainClient.Logger, "Orchestrator", "CreateAndSendCallMsg", "Enqueuing: {0}", callee);

            //await WaitQueue(QUEUE_THRESHOLD);
            this.messageWorkList.Enqueue(callerMessage);
            //this.messageWorkList.Add(callerMessage);

            return(Task.CompletedTask);
            //return AnalyzeCalleeAsync(callMessageInfo.Callee, callerMessage, propKind);
        }
Example #4
0
        private async Task <ISet <ResolvedCallee> > GetPossibleCalleesForMethodCallAsync(PropGraphNodeDescriptor receiver, MethodDescriptor method, IProjectCodeProvider codeProvider)
        {
            var possibleCallees = new HashSet <ResolvedCallee>();

            // TODO: This is not good: one reason is that loads like b = this.f are not working
            // in a method m after call r.m() because only the value of r is passed and not all its structure (fields)

            //if (methodCallInfo.IsConstructor || methodCallInfo.Method.IsStatic)
            //if (methodCallInfo.Method.IsStatic)
            //if (methodCallInfo.Method.IsStatic || !methodCallInfo.Method.IsVirtual)
            if (method.IsStatic)
            {
                // Static method call
                var resolvedCallee = new ResolvedCallee(method);

                possibleCallees.Add(resolvedCallee);
            }
            else if (!method.IsVirtual)
            {
                // Non-virtual method call
                var receiverPossibleTypes = this.GetTypes(receiver);

                if (receiverPossibleTypes.Count > 0)
                {
                    foreach (var receiverType in receiverPossibleTypes)
                    {
                        var resolvedCallee = new ResolvedCallee(receiverType, method);

                        possibleCallees.Add(resolvedCallee);
                    }
                }
            }
            else
            {
                // Instance method call

                //// I need to compute all the callees
                //// In case of a deletion we can discard the deleted callee

                //// If callInfo.ReceiverPossibleTypes == {} it means that some info in missing => we should be conservative and use the instantiated types (RTA)
                //// TODO: I make this False for testing what happens if we remove this

                //if (conservativeWithTypes && methodCallInfo.ReceiverPossibleTypes.Count == 0)
                //{
                //	// TO-DO: Should I fix the node in the receiver to show that is not loaded. Ideally I should use the declared type.
                //	// Here I will use the already instantiated types

                //	foreach (var candidateTypeDescriptor in methodCallInfo.InstantiatedTypes)
                //	{
                //		var isSubtype = await codeProvider.IsSubtypeAsync(candidateTypeDescriptor, methodCallInfo.Receiver.Type);

                //		if (isSubtype)
                //		{
                //			methodCallInfo.ReceiverPossibleTypes.Add(candidateTypeDescriptor);
                //		}
                //	}
                //}

                var receiverPossibleTypes = this.GetTypes(receiver);

                if (receiverPossibleTypes.Count > 0)
                {
                    foreach (var receiverType in receiverPossibleTypes)
                    {
                        // Given a method m and T find the most accurate implementation wrt to T
                        // it can be T.m or the first super class implementing m
                        var methodDescriptor = await codeProvider.FindMethodImplementationAsync(method, receiverType);

                        var resolvedCallee = new ResolvedCallee(receiverType, methodDescriptor);

                        possibleCallees.Add(resolvedCallee);
                    }
                }
                //else
                //{
                //    // We don't have any possibleType for the receiver,
                //    // so we just use the receiver's declared type to
                //    // identify the calle method implementation
                //    possibleCallees.Add(methodCallInfo.Method);
                //}
            }

            return(possibleCallees);
        }