Service/UDS: Implement SendTo, PullPacket, HandleSecureData, and Bind
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30fabc41c6
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230ea063a5
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@ -47,8 +47,17 @@ static NodeList node_info;
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// Node information about our own system.
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static NodeInfo current_node;
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// Mapping of bind node ids to their respective events.
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static std::unordered_map<u32, Kernel::SharedPtr<Kernel::Event>> bind_node_events;
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struct BindNodeData {
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u32 bind_node_id; ///< Id of the bind node associated with this data.
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u8 channel; ///< Channel that this bind node was bound to.
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u16 network_node_id; ///< Node id this bind node is associated with, only packets from this
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/// network node will be received.
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Kernel::SharedPtr<Kernel::Event> event; ///< Receive event for this bind node.
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std::deque<std::vector<u8>> received_packets; ///< List of packets received on this channel.
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};
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// Mapping of data channels to their internal data.
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static std::unordered_map<u32, BindNodeData> channel_data;
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// The WiFi network channel that the network is currently on.
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// Since we're not actually interacting with physical radio waves, this is just a dummy value.
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@ -75,6 +84,9 @@ constexpr size_t MaxBeaconFrames = 15;
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// List of the last <MaxBeaconFrames> beacons received from the network.
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static std::list<Network::WifiPacket> received_beacons;
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// Network node id used when a SecureData packet is addressed to every connected node.
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constexpr u16 BroadcastNetworkNodeId = 0xFFFF;
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/**
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* Returns a list of received 802.11 beacon frames from the specified sender since the last call.
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*/
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@ -143,7 +155,7 @@ void HandleAssociationResponseFrame(const Network::WifiPacket& packet) {
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"Could not join network");
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{
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std::lock_guard<std::mutex> lock(connection_status_mutex);
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ASSERT(connection_status.status == static_cast<u32>(NetworkStatus::Connecting));
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ASSERT(connection_status.status == static_cast<u32>(NetworkStatus::NotConnected));
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}
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// Send the EAPoL-Start packet to the server.
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@ -159,6 +171,7 @@ void HandleAssociationResponseFrame(const Network::WifiPacket& packet) {
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}
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static void HandleEAPoLPacket(const Network::WifiPacket& packet) {
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std::lock_guard<std::recursive_mutex> hle_lock(HLE::g_hle_lock);
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std::lock_guard<std::mutex> lock(connection_status_mutex);
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if (GetEAPoLFrameType(packet.data) == EAPoLStartMagic) {
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@ -205,7 +218,6 @@ static void HandleEAPoLPacket(const Network::WifiPacket& packet) {
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SendPacket(eapol_logoff);
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// TODO(B3N30): Broadcast updated node list
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// The 3ds does this presumably to support spectators.
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std::lock_guard<std::recursive_mutex> lock(HLE::g_hle_lock);
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connection_status_event->Signal();
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} else {
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if (connection_status.status != static_cast<u32>(NetworkStatus::NotConnected)) {
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@ -242,6 +254,58 @@ static void HandleEAPoLPacket(const Network::WifiPacket& packet) {
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}
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}
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static void HandleSecureDataPacket(const Network::WifiPacket& packet) {
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auto secure_data = ParseSecureDataHeader(packet.data);
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std::lock_guard<std::recursive_mutex> hle_lock(HLE::g_hle_lock);
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std::lock_guard<std::mutex> lock(connection_status_mutex);
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if (secure_data.src_node_id == connection_status.network_node_id) {
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// Ignore packets that came from ourselves.
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return;
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}
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if (secure_data.dest_node_id != connection_status.network_node_id &&
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secure_data.dest_node_id != BroadcastNetworkNodeId) {
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// The packet wasn't addressed to us, we can only act as a router if we're the host.
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// However, we might have received this packet due to a broadcast from the host, in that
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// case just ignore it.
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ASSERT_MSG(packet.destination_address == Network::BroadcastMac ||
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connection_status.status == static_cast<u32>(NetworkStatus::ConnectedAsHost),
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"Can't be a router if we're not a host");
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if (connection_status.status == static_cast<u32>(NetworkStatus::ConnectedAsHost) &&
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secure_data.dest_node_id != BroadcastNetworkNodeId) {
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// Broadcast the packet so the right receiver can get it.
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// TODO(B3N30): Is there a flag that makes this kind of routing be unicast instead of
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// multicast? Perhaps this is a way to allow spectators to see some of the packets.
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Network::WifiPacket out_packet = packet;
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out_packet.destination_address = Network::BroadcastMac;
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SendPacket(out_packet);
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}
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return;
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}
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// The packet is addressed to us (or to everyone using the broadcast node id), handle it.
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// TODO(B3N30): We don't currently send nor handle management frames.
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ASSERT(!secure_data.is_management);
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// TODO(B3N30): Allow more than one bind node per channel.
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auto channel_info = channel_data.find(secure_data.data_channel);
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// Ignore packets from channels we're not interested in.
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if (channel_info == channel_data.end())
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return;
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if (channel_info->second.network_node_id != BroadcastNetworkNodeId &&
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channel_info->second.network_node_id != secure_data.src_node_id)
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return;
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// Add the received packet to the data queue.
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channel_info->second.received_packets.emplace_back(packet.data);
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// Signal the data event. We can do this directly because we locked g_hle_lock
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channel_info->second.event->Signal();
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}
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/*
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* Start a connection sequence with an UDS server. The sequence starts by sending an 802.11
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* authentication frame with SEQ1.
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@ -329,7 +393,7 @@ static void HandleDataFrame(const Network::WifiPacket& packet) {
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HandleEAPoLPacket(packet);
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break;
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case EtherType::SecureData:
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// TODO(B3N30): Handle SecureData packets
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HandleSecureDataPacket(packet);
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break;
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}
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}
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@ -557,8 +621,6 @@ static void Bind(Interface* self) {
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u8 data_channel = rp.Pop<u8>();
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u16 network_node_id = rp.Pop<u16>();
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// TODO(Subv): Store the data channel and verify it when receiving data frames.
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LOG_DEBUG(Service_NWM, "called");
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if (data_channel == 0) {
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@ -569,13 +631,15 @@ static void Bind(Interface* self) {
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}
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// Create a new event for this bind node.
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// TODO(Subv): Signal this event when new data is received on this data channel.
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auto event = Kernel::Event::Create(Kernel::ResetType::OneShot,
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"NWM::BindNodeEvent" + std::to_string(bind_node_id));
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bind_node_events[bind_node_id] = event;
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std::lock_guard<std::mutex> lock(connection_status_mutex);
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ASSERT(channel_data.find(data_channel) == channel_data.end());
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// TODO(B3N30): Support more than one bind node per channel.
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channel_data[data_channel] = {bind_node_id, data_channel, network_node_id, event};
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IPC::RequestBuilder rb = rp.MakeBuilder(1, 2);
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rb.Push(RESULT_SUCCESS);
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rb.PushCopyHandles(Kernel::g_handle_table.Create(event).Unwrap());
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}
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@ -722,31 +786,25 @@ static void SendTo(Interface* self) {
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size_t desc_size;
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const VAddr input_address = rp.PopStaticBuffer(&desc_size, false);
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ASSERT(desc_size == data_size);
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ASSERT(desc_size >= data_size);
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IPC::RequestBuilder rb = rp.MakeBuilder(1, 0);
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u16 network_node_id;
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{
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std::lock_guard<std::mutex> lock(connection_status_mutex);
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if (connection_status.status != static_cast<u32>(NetworkStatus::ConnectedAsClient) &&
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connection_status.status != static_cast<u32>(NetworkStatus::ConnectedAsHost)) {
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rb.Push(ResultCode(ErrorDescription::NotAuthorized, ErrorModule::UDS,
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ErrorSummary::InvalidState, ErrorLevel::Status));
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return;
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}
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if (dest_node_id == connection_status.network_node_id) {
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rb.Push(ResultCode(ErrorDescription::NotFound, ErrorModule::UDS,
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ErrorSummary::WrongArgument, ErrorLevel::Status));
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return;
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}
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network_node_id = connection_status.network_node_id;
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std::lock_guard<std::mutex> lock(connection_status_mutex);
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if (connection_status.status != static_cast<u32>(NetworkStatus::ConnectedAsClient) &&
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connection_status.status != static_cast<u32>(NetworkStatus::ConnectedAsHost)) {
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rb.Push(ResultCode(ErrorDescription::NotAuthorized, ErrorModule::UDS,
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ErrorSummary::InvalidState, ErrorLevel::Status));
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return;
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}
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// TODO(Subv): Do something with the flags.
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if (dest_node_id == connection_status.network_node_id) {
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rb.Push(ResultCode(ErrorDescription::NotFound, ErrorModule::UDS,
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ErrorSummary::WrongArgument, ErrorLevel::Status));
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return;
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}
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// TODO(B3N30): Do something with the flags.
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constexpr size_t MaxSize = 0x5C6;
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if (data_size > MaxSize) {
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@ -758,20 +816,107 @@ static void SendTo(Interface* self) {
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std::vector<u8> data(data_size);
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Memory::ReadBlock(input_address, data.data(), data.size());
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// TODO(Subv): Increment the sequence number after each sent packet.
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// TODO(B3N30): Increment the sequence number after each sent packet.
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u16 sequence_number = 0;
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std::vector<u8> data_payload =
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GenerateDataPayload(data, data_channel, dest_node_id, network_node_id, sequence_number);
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std::vector<u8> data_payload = GenerateDataPayload(
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data, data_channel, dest_node_id, connection_status.network_node_id, sequence_number);
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// TODO(Subv): Retrieve the MAC address of the dest_node_id and our own to encrypt
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// TODO(B3N30): Retrieve the MAC address of the dest_node_id and our own to encrypt
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// and encapsulate the payload.
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// TODO(Subv): Send the frame.
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Network::WifiPacket packet;
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// Data frames are sent to the host, who then decides where to route it to. If we're the host,
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// just directly broadcast the frame.
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if (connection_status.status == static_cast<u32>(NetworkStatus::ConnectedAsHost))
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packet.destination_address = Network::BroadcastMac;
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else
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packet.destination_address = network_info.host_mac_address;
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packet.channel = network_channel;
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packet.data = std::move(data_payload);
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packet.type = Network::WifiPacket::PacketType::Data;
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SendPacket(packet);
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rb.Push(RESULT_SUCCESS);
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}
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LOG_WARNING(Service_NWM, "(STUB) called dest_node_id=%u size=%u flags=%u channel=%u",
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static_cast<u32>(dest_node_id), data_size, flags, static_cast<u32>(data_channel));
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/**
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* NWM_UDS::PullPacket service function.
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* Receives a data frame from the specified bind node id
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* Inputs:
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* 0 : Command header.
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* 1 : Bind node id.
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* 2 : Max out buff size >> 2.
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* 3 : Max out buff size.
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* 64 : Output buffer descriptor
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* 65 : Output buffer address
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* Outputs:
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* 0 : Return header
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* 1 : Result of function, 0 on success, otherwise error code
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* 2 : Received data size
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* 3 : u16 Source network node id
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* 4 : Buffer descriptor
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* 5 : Buffer address
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*/
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static void PullPacket(Interface* self) {
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IPC::RequestParser rp(Kernel::GetCommandBuffer(), 0x14, 3, 0);
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u32 bind_node_id = rp.Pop<u32>();
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u32 max_out_buff_size_aligned = rp.Pop<u32>();
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u32 max_out_buff_size = rp.Pop<u32>();
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size_t desc_size;
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const VAddr output_address = rp.PeekStaticBuffer(0, &desc_size);
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ASSERT(desc_size == max_out_buff_size);
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std::lock_guard<std::mutex> lock(connection_status_mutex);
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auto channel =
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std::find_if(channel_data.begin(), channel_data.end(), [bind_node_id](const auto& data) {
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return data.second.bind_node_id == bind_node_id;
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});
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if (channel == channel_data.end()) {
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IPC::RequestBuilder rb = rp.MakeBuilder(1, 0);
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// TODO(B3N30): Find the right error code
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rb.Push<u32>(-1);
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return;
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}
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if (channel->second.received_packets.empty()) {
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Memory::ZeroBlock(output_address, desc_size);
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IPC::RequestBuilder rb = rp.MakeBuilder(3, 2);
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rb.Push(RESULT_SUCCESS);
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rb.Push<u32>(0);
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rb.Push<u16>(0);
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rb.PushStaticBuffer(output_address, desc_size, 0);
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return;
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}
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const auto& next_packet = channel->second.received_packets.front();
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auto secure_data = ParseSecureDataHeader(next_packet);
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auto data_size = secure_data.GetActualDataSize();
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if (data_size > max_out_buff_size) {
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IPC::RequestBuilder rb = rp.MakeBuilder(1, 0);
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rb.Push<u32>(0xE10113E9);
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return;
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}
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IPC::RequestBuilder rb = rp.MakeBuilder(3, 2);
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Memory::ZeroBlock(output_address, desc_size);
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// Write the actual data.
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Memory::WriteBlock(output_address,
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next_packet.data() + sizeof(LLCHeader) + sizeof(SecureDataHeader),
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data_size);
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rb.Push(RESULT_SUCCESS);
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rb.Push<u32>(data_size);
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rb.Push<u16>(secure_data.src_node_id);
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rb.PushStaticBuffer(output_address, desc_size, 0);
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channel->second.received_packets.pop_front();
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}
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/**
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@ -993,7 +1138,7 @@ const Interface::FunctionInfo FunctionTable[] = {
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{0x00110040, nullptr, "GetApplicationData"},
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{0x00120100, Bind, "Bind"},
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{0x00130040, nullptr, "Unbind"},
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{0x001400C0, nullptr, "PullPacket"},
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{0x001400C0, PullPacket, "PullPacket"},
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{0x00150080, nullptr, "SetMaxSendDelay"},
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{0x00170182, SendTo, "SendTo"},
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{0x001A0000, GetChannel, "GetChannel"},
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@ -1018,7 +1163,7 @@ NWM_UDS::NWM_UDS() {
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NWM_UDS::~NWM_UDS() {
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network_info = {};
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bind_node_events.clear();
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channel_data.clear();
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connection_status_event = nullptr;
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recv_buffer_memory = nullptr;
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@ -42,7 +42,6 @@ using NodeList = std::vector<NodeInfo>;
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enum class NetworkStatus {
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NotConnected = 3,
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ConnectedAsHost = 6,
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Connecting = 7,
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ConnectedAsClient = 9,
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ConnectedAsSpectator = 10,
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};
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@ -275,6 +275,15 @@ std::vector<u8> GenerateDataPayload(const std::vector<u8>& data, u8 channel, u16
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return buffer;
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}
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SecureDataHeader ParseSecureDataHeader(const std::vector<u8>& data) {
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SecureDataHeader header;
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// Skip the LLC header
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std::memcpy(&header, data.data() + sizeof(LLCHeader), sizeof(header));
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return header;
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}
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std::vector<u8> GenerateEAPoLStartFrame(u16 association_id, const NodeInfo& node_info) {
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EAPoLStartPacket eapol_start{};
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eapol_start.association_id = association_id;
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@ -51,6 +51,10 @@ struct SecureDataHeader {
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u16_be sequence_number;
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u16_be dest_node_id;
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u16_be src_node_id;
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u32 GetActualDataSize() {
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return protocol_size - sizeof(SecureDataHeader);
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}
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};
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static_assert(sizeof(SecureDataHeader) == 14, "SecureDataHeader has the wrong size");
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@ -118,6 +122,11 @@ static_assert(sizeof(EAPoLLogoffPacket) == 0x298, "EAPoLLogoffPacket has the wro
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std::vector<u8> GenerateDataPayload(const std::vector<u8>& data, u8 channel, u16 dest_node,
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u16 src_node, u16 sequence_number);
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/*
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* Returns the SecureDataHeader stored in an 802.11 data frame.
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*/
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SecureDataHeader ParseSecureDataHeader(const std::vector<u8>& data);
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/*
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* Generates an unencrypted 802.11 data frame body with the EAPoL-Start format for UDS
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* communication.
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