// Copyright (c) 2011 The Chromium Authors. All rights reserved.
// Use of this source code is governed by a BSD-style license that can be
// found in the LICENSE file.
//
// Unit test to make sure that the serialization of synchronous IPC messages
// works.  This ensures that the macros and templates were defined correctly.
// Doesn't test the IPC channel mechanism.

#include "base/logging.h"
#include "ipc/ipc_message.h"
#include "ipc/ipc_message_utils.h"
#include "testing/gtest/include/gtest/gtest.h"

#define IPC_MESSAGE_IMPL
#include "ipc/ipc_sync_message_unittest.h"

namespace {

static IPC::Message* g_reply;

class TestMessageReceiver {
 public:

  void On_0_1(bool* out1) {
    *out1 = false;
  }

  void On_0_2(bool* out1, int* out2) {
    *out1 = true;
    *out2 = 2;
  }

  void On_0_3(bool* out1, int* out2, std::string* out3) {
    *out1 = false;
    *out2 = 3;
    *out3 = "0_3";
  }

  void On_1_1(int in1, bool* out1) {
    DCHECK_EQ(1, in1);
    *out1 = true;
  }

  void On_1_2(bool in1, bool* out1, int* out2) {
    DCHECK(!in1);
    *out1 = true;
    *out2 = 12;
  }

  void On_1_3(int in1, std::string* out1, int* out2, bool* out3) {
    DCHECK_EQ(3, in1);
    *out1 = "1_3";
    *out2 = 13;
    *out3 = false;
  }

  void On_2_1(int in1, bool in2, bool* out1) {
    DCHECK_EQ(1, in1);
    DCHECK(!in2);
    *out1 = true;
  }

  void On_2_2(bool in1, int in2, bool* out1, int* out2) {
    DCHECK(!in1);
    DCHECK_EQ(2, in2);
    *out1 = true;
    *out2 = 22;
  }

  void On_2_3(int in1, bool in2, std::string* out1, int* out2, bool* out3) {
    DCHECK_EQ(3, in1);
    DCHECK(in2);
    *out1 = "2_3";
    *out2 = 23;
    *out3 = false;
  }

  void On_3_1(int in1, bool in2, const std::string& in3, bool* out1) {
    DCHECK_EQ(1, in1);
    DCHECK(!in2);
    DCHECK_EQ("3_1", in3);
    *out1 = true;
  }

  void On_3_2(const std::string& in1,
              bool in2,
              int in3,
              bool* out1,
              int* out2) {
    DCHECK_EQ("3_2", in1);
    DCHECK(!in2);
    DCHECK_EQ(2, in3);
    *out1 = true;
    *out2 = 32;
  }

  void On_3_3(int in1,
              const std::string& in2,
              bool in3,
              std::string* out1,
              int* out2,
              bool* out3) {
    DCHECK_EQ(3, in1);
    DCHECK_EQ("3_3", in2);
    DCHECK(in3);
    *out1 = "3_3";
    *out2 = 33;
    *out3 = false;
  }

  void On_3_4(bool in1,
              int in2,
              const std::string& in3,
              int* out1,
              bool* out2,
              std::string* out3,
              bool* out4) {
    DCHECK(in1);
    DCHECK_EQ(3, in2);
    DCHECK_EQ("3_4", in3);
    *out1 = 34;
    *out2 = true;
    *out3 = "3_4";
    *out4 = false;
  }

  bool Send(IPC::Message* message) {
    // gets the reply message, stash in global
    DCHECK(g_reply == NULL);
    g_reply = message;
    return true;
  }

  bool OnMessageReceived(const IPC::Message& msg) {
    IPC_BEGIN_MESSAGE_MAP(TestMessageReceiver, msg)
      IPC_MESSAGE_HANDLER(Msg_C_0_1, On_0_1)
      IPC_MESSAGE_HANDLER(Msg_C_0_2, On_0_2)
      IPC_MESSAGE_HANDLER(Msg_C_0_3, On_0_3)
      IPC_MESSAGE_HANDLER(Msg_C_1_1, On_1_1)
      IPC_MESSAGE_HANDLER(Msg_C_1_2, On_1_2)
      IPC_MESSAGE_HANDLER(Msg_C_1_3, On_1_3)
      IPC_MESSAGE_HANDLER(Msg_C_2_1, On_2_1)
      IPC_MESSAGE_HANDLER(Msg_C_2_2, On_2_2)
      IPC_MESSAGE_HANDLER(Msg_C_2_3, On_2_3)
      IPC_MESSAGE_HANDLER(Msg_C_3_1, On_3_1)
      IPC_MESSAGE_HANDLER(Msg_C_3_2, On_3_2)
      IPC_MESSAGE_HANDLER(Msg_C_3_3, On_3_3)
      IPC_MESSAGE_HANDLER(Msg_C_3_4, On_3_4)
      IPC_MESSAGE_HANDLER(Msg_R_0_1, On_0_1)
      IPC_MESSAGE_HANDLER(Msg_R_0_2, On_0_2)
      IPC_MESSAGE_HANDLER(Msg_R_0_3, On_0_3)
      IPC_MESSAGE_HANDLER(Msg_R_1_1, On_1_1)
      IPC_MESSAGE_HANDLER(Msg_R_1_2, On_1_2)
      IPC_MESSAGE_HANDLER(Msg_R_1_3, On_1_3)
      IPC_MESSAGE_HANDLER(Msg_R_2_1, On_2_1)
      IPC_MESSAGE_HANDLER(Msg_R_2_2, On_2_2)
      IPC_MESSAGE_HANDLER(Msg_R_2_3, On_2_3)
      IPC_MESSAGE_HANDLER(Msg_R_3_1, On_3_1)
      IPC_MESSAGE_HANDLER(Msg_R_3_2, On_3_2)
      IPC_MESSAGE_HANDLER(Msg_R_3_3, On_3_3)
      IPC_MESSAGE_HANDLER(Msg_R_3_4, On_3_4)
    IPC_END_MESSAGE_MAP()
    return true;
  }

};

void Send(IPC::SyncMessage* msg) {
  static TestMessageReceiver receiver;

  IPC::MessageReplyDeserializer* reply_serializer = msg->GetReplyDeserializer();
  DCHECK(reply_serializer != NULL);

  // "send" the message
  receiver.OnMessageReceived(*msg);
  delete msg;

  // get the reply message from the global, and deserialize the output
  // parameters into the output pointers.
  DCHECK(g_reply != NULL);
  bool result = reply_serializer->SerializeOutputParameters(*g_reply);
  DCHECK(result);
  delete g_reply;
  g_reply = NULL;
  delete reply_serializer;
}

TEST(IPCSyncMessageTest, Main) {
  bool bool1 = true;
  int int1 = 0;
  std::string string1;

  Send(new Msg_C_0_1(&bool1));
  DCHECK(!bool1);

  Send(new Msg_C_0_2(&bool1, &int1));
  DCHECK(bool1);
  DCHECK_EQ(2, int1);

  Send(new Msg_C_0_3(&bool1, &int1, &string1));
  DCHECK(!bool1);
  DCHECK_EQ(3, int1);
  DCHECK_EQ("0_3", string1);

  bool1 = false;
  Send(new Msg_C_1_1(1, &bool1));
  DCHECK(bool1);

  bool1 = false;
  Send(new Msg_C_1_2(false, &bool1, &int1));
  DCHECK(bool1);
  DCHECK_EQ(12, int1);

  bool1 = true;
  Send(new Msg_C_1_3(3, &string1, &int1, &bool1));
  DCHECK_EQ("1_3", string1);
  DCHECK_EQ(13, int1);
  DCHECK(!bool1);

  bool1 = false;
  Send(new Msg_C_2_1(1, false, &bool1));
  DCHECK(bool1);

  bool1 = false;
  Send(new Msg_C_2_2(false, 2, &bool1, &int1));
  DCHECK(bool1);
  DCHECK_EQ(22, int1);

  bool1 = true;
  Send(new Msg_C_2_3(3, true, &string1, &int1, &bool1));
  DCHECK_EQ("2_3", string1);
  DCHECK_EQ(23, int1);
  DCHECK(!bool1);

  bool1 = false;
  Send(new Msg_C_3_1(1, false, "3_1", &bool1));
  DCHECK(bool1);

  bool1 = false;
  Send(new Msg_C_3_2("3_2", false, 2, &bool1, &int1));
  DCHECK(bool1);
  DCHECK_EQ(32, int1);

  bool1 = true;
  Send(new Msg_C_3_3(3, "3_3", true, &string1, &int1, &bool1));
  DCHECK_EQ("3_3", string1);
  DCHECK_EQ(33, int1);
  DCHECK(!bool1);

  bool1 = false;
  bool bool2 = true;
  Send(new Msg_C_3_4(true, 3, "3_4", &int1, &bool1, &string1, &bool2));
  DCHECK_EQ(34, int1);
  DCHECK(bool1);
  DCHECK_EQ("3_4", string1);
  DCHECK(!bool2);

  // Routed messages, just a copy of the above but with extra routing paramater
  Send(new Msg_R_0_1(0, &bool1));
  DCHECK(!bool1);

  Send(new Msg_R_0_2(0, &bool1, &int1));
  DCHECK(bool1);
  DCHECK_EQ(2, int1);

  Send(new Msg_R_0_3(0, &bool1, &int1, &string1));
  DCHECK(!bool1);
  DCHECK_EQ(3, int1);
  DCHECK_EQ("0_3", string1);

  bool1 = false;
  Send(new Msg_R_1_1(0, 1, &bool1));
  DCHECK(bool1);

  bool1 = false;
  Send(new Msg_R_1_2(0, false, &bool1, &int1));
  DCHECK(bool1);
  DCHECK_EQ(12, int1);

  bool1 = true;
  Send(new Msg_R_1_3(0, 3, &string1, &int1, &bool1));
  DCHECK_EQ("1_3", string1);
  DCHECK_EQ(13, int1);
  DCHECK(!bool1);

  bool1 = false;
  Send(new Msg_R_2_1(0, 1, false, &bool1));
  DCHECK(bool1);

  bool1 = false;
  Send(new Msg_R_2_2(0, false, 2, &bool1, &int1));
  DCHECK(bool1);
  DCHECK_EQ(22, int1);

  bool1 = true;
  Send(new Msg_R_2_3(0, 3, true, &string1, &int1, &bool1));
  DCHECK(!bool1);
  DCHECK_EQ("2_3", string1);
  DCHECK_EQ(23, int1);

  bool1 = false;
  Send(new Msg_R_3_1(0, 1, false, "3_1", &bool1));
  DCHECK(bool1);

  bool1 = false;
  Send(new Msg_R_3_2(0, "3_2", false, 2, &bool1, &int1));
  DCHECK(bool1);
  DCHECK_EQ(32, int1);

  bool1 = true;
  Send(new Msg_R_3_3(0, 3, "3_3", true, &string1, &int1, &bool1));
  DCHECK_EQ("3_3", string1);
  DCHECK_EQ(33, int1);
  DCHECK(!bool1);
}

}  // namespace