Exemple #1
0
// This is just for debugging / playing around.
// There really is no reason to implement wd unless we can bend it such that
// we can talk to the DS.
IPCCommandResult NetWDCommand::IOCtlV(const IOCtlVRequest& request)
{
  s32 return_value = IPC_SUCCESS;

  switch (request.request)
  {
  case IOCTLV_WD_SCAN:
  {
    // Gives parameters detailing type of scan and what to match
    // XXX - unused
    // ScanInfo *scan = (ScanInfo *)Memory::GetPointer(request.in_vectors.at(0).m_Address);

    u16* results = (u16*)Memory::GetPointer(request.io_vectors.at(0).address);
    // first u16 indicates number of BSSInfo following
    results[0] = Common::swap16(1);

    BSSInfo* bss = (BSSInfo*)&results[1];
    memset(bss, 0, sizeof(BSSInfo));

    bss->length = Common::swap16(sizeof(BSSInfo));
    bss->rssi = Common::swap16(0xffff);

    for (int i = 0; i < BSSID_SIZE; ++i)
      bss->bssid[i] = i;

    const char* ssid = "dolphin-emu";
    strcpy((char*)bss->ssid, ssid);
    bss->ssid_length = Common::swap16((u16)strlen(ssid));

    bss->channel = Common::swap16(2);
  }
  break;

  case IOCTLV_WD_GET_INFO:
  {
    Info* info = (Info*)Memory::GetPointer(request.io_vectors.at(0).address);
    memset(info, 0, sizeof(Info));
    // Probably used to disallow certain channels?
    memcpy(info->country, "US", 2);
    info->ntr_allowed_channels = Common::swap16(0xfffe);

    u8 address[Common::MAC_ADDRESS_SIZE];
    GetMacAddress(address);
    memcpy(info->mac, address, sizeof(info->mac));
  }
  break;

  case IOCTLV_WD_GET_MODE:
  case IOCTLV_WD_SET_LINKSTATE:
  case IOCTLV_WD_GET_LINKSTATE:
  case IOCTLV_WD_SET_CONFIG:
  case IOCTLV_WD_GET_CONFIG:
  case IOCTLV_WD_CHANGE_BEACON:
  case IOCTLV_WD_DISASSOC:
  case IOCTLV_WD_MP_SEND_FRAME:
  case IOCTLV_WD_SEND_FRAME:
  case IOCTLV_WD_CALL_WL:
  case IOCTLV_WD_MEASURE_CHANNEL:
  case IOCTLV_WD_GET_LASTERROR:
  case IOCTLV_WD_CHANGE_GAMEINFO:
  case IOCTLV_WD_CHANGE_VTSF:
  case IOCTLV_WD_RECV_FRAME:
  case IOCTLV_WD_RECV_NOTIFICATION:
  default:
    request.Dump(GetDeviceName(), LogTypes::IOS_NET, LogTypes::LINFO);
  }

  return GetDefaultReply(return_value);
}
Exemple #2
0
IPCCommandResult NetIPTop::HandleGetAddressInfoRequest(const IOCtlVRequest& request)
{
  addrinfo hints;

  if (request.in_vectors.size() > 2 && request.in_vectors[2].size)
  {
    hints.ai_flags = Memory::Read_U32(request.in_vectors[2].address);
    hints.ai_family = Memory::Read_U32(request.in_vectors[2].address + 0x4);
    hints.ai_socktype = Memory::Read_U32(request.in_vectors[2].address + 0x8);
    hints.ai_protocol = Memory::Read_U32(request.in_vectors[2].address + 0xC);
    hints.ai_addrlen = Memory::Read_U32(request.in_vectors[2].address + 0x10);
    hints.ai_canonname = nullptr;
    hints.ai_addr = nullptr;
    hints.ai_next = nullptr;
  }

  // getaddrinfo allows a null pointer for the nodeName or serviceName strings
  // So we have to do a bit of juggling here.
  std::string nodeNameStr;
  const char* pNodeName = nullptr;
  if (request.in_vectors.size() > 0 && request.in_vectors[0].size > 0)
  {
    nodeNameStr = Memory::GetString(request.in_vectors[0].address, request.in_vectors[0].size);
    pNodeName = nodeNameStr.c_str();
  }

  std::string serviceNameStr;
  const char* pServiceName = nullptr;
  if (request.in_vectors.size() > 1 && request.in_vectors[1].size > 0)
  {
    serviceNameStr = Memory::GetString(request.in_vectors[1].address, request.in_vectors[1].size);
    pServiceName = serviceNameStr.c_str();
  }

  addrinfo* result = nullptr;
  int ret = getaddrinfo(
      pNodeName, pServiceName,
      (request.in_vectors.size() > 2 && request.in_vectors[2].size) ? &hints : nullptr, &result);
  u32 addr = request.io_vectors[0].address;
  u32 sockoffset = addr + 0x460;
  if (ret == 0)
  {
    constexpr size_t WII_ADDR_INFO_SIZE = 0x20;
    for (addrinfo* result_iter = result; result_iter != nullptr; result_iter = result_iter->ai_next)
    {
      Memory::Write_U32(result_iter->ai_flags, addr);
      Memory::Write_U32(result_iter->ai_family, addr + 0x04);
      Memory::Write_U32(result_iter->ai_socktype, addr + 0x08);
      Memory::Write_U32(result_iter->ai_protocol, addr + 0x0C);
      Memory::Write_U32((u32)result_iter->ai_addrlen, addr + 0x10);
      // what to do? where to put? the buffer of 0x834 doesn't allow space for this
      Memory::Write_U32(/*result->ai_cannonname*/ 0, addr + 0x14);

      if (result_iter->ai_addr)
      {
        Memory::Write_U32(sockoffset, addr + 0x18);
        Memory::Write_U8(result_iter->ai_addrlen & 0xFF, sockoffset);
        Memory::Write_U8(result_iter->ai_addr->sa_family & 0xFF, sockoffset + 0x01);
        Memory::CopyToEmu(sockoffset + 0x2, result_iter->ai_addr->sa_data,
                          sizeof(result_iter->ai_addr->sa_data));
        sockoffset += 0x1C;
      }
      else
      {
        Memory::Write_U32(0, addr + 0x18);
      }

      if (result_iter->ai_next)
      {
        Memory::Write_U32(addr + WII_ADDR_INFO_SIZE, addr + 0x1C);
      }
      else
      {
        Memory::Write_U32(0, addr + 0x1C);
      }

      addr += WII_ADDR_INFO_SIZE;
    }

    freeaddrinfo(result);
  }
  else
  {
    // Host not found
    ret = -305;
  }

  request.Dump(GetDeviceName(), LogTypes::IOS_NET, LogTypes::LINFO);
  return GetDefaultReply(ret);
}