/* * Copyright 2019 The Android Open Source Project * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ #include "hal/hci_hal_host_rootcanal.h" #include "hal/hci_hal.h" #include #include #include #include #include #include #include #include "hal/snoop_logger.h" #include "os/log.h" #include "os/reactor.h" #include "os/thread.h" namespace { constexpr int INVALID_FD = -1; constexpr uint8_t kH4Command = 0x01; constexpr uint8_t kH4Acl = 0x02; constexpr uint8_t kH4Sco = 0x03; constexpr uint8_t kH4Event = 0x04; constexpr uint8_t kH4HeaderSize = 1; constexpr uint8_t kHciAclHeaderSize = 4; constexpr uint8_t kHciScoHeaderSize = 3; constexpr uint8_t kHciEvtHeaderSize = 2; constexpr int kBufSize = 1024; int ConnectToRootCanal(const std::string& server, int port) { int socket_fd = socket(AF_INET, SOCK_STREAM, 0); if (socket_fd < 1) { LOG_ERROR("can't create socket: %s", strerror(errno)); return INVALID_FD; } struct hostent* host; host = gethostbyname(server.c_str()); if (host == nullptr) { LOG_ERROR("can't get server name"); return INVALID_FD; } struct sockaddr_in serv_addr; memset((void*)&serv_addr, 0, sizeof(serv_addr)); serv_addr.sin_family = AF_INET; serv_addr.sin_addr.s_addr = INADDR_ANY; serv_addr.sin_port = htons(port); int result = connect(socket_fd, (struct sockaddr*)&serv_addr, sizeof(serv_addr)); if (result < 0) { LOG_ERROR("can't connect: %s", strerror(errno)); return INVALID_FD; } timeval socket_timeout{ .tv_sec = 3, .tv_usec = 0, }; int ret = setsockopt(socket_fd, SOL_SOCKET, SO_RCVTIMEO, &socket_timeout, sizeof(socket_timeout)); if (ret == -1) { LOG_ERROR("can't control socket fd: %s", strerror(errno)); return INVALID_FD; } return socket_fd; } } // namespace namespace bluetooth { namespace hal { const std::string SnoopLogger::DefaultFilePath = "/tmp/btsnoop_hci.log"; class HciHalHostRootcanal : public HciHal { public: void registerIncomingPacketCallback(HciHalCallbacks* callback) override { std::lock_guard lock(mutex_); ASSERT(incoming_packet_callback_ == nullptr && callback != nullptr); incoming_packet_callback_ = callback; } void unregisterIncomingPacketCallback() override { std::lock_guard lock(mutex_); incoming_packet_callback_ = nullptr; } void sendHciCommand(HciPacket command) override { std::lock_guard lock(mutex_); ASSERT(sock_fd_ != INVALID_FD); std::vector packet = std::move(command); btsnoop_logger_->capture(packet, SnoopLogger::Direction::OUTGOING, SnoopLogger::PacketType::CMD); packet.insert(packet.cbegin(), kH4Command); write_to_rootcanal_fd(packet); } void sendAclData(HciPacket data) override { std::lock_guard lock(mutex_); ASSERT(sock_fd_ != INVALID_FD); std::vector packet = std::move(data); btsnoop_logger_->capture(packet, SnoopLogger::Direction::OUTGOING, SnoopLogger::PacketType::ACL); packet.insert(packet.cbegin(), kH4Acl); write_to_rootcanal_fd(packet); } void sendScoData(HciPacket data) override { std::lock_guard lock(mutex_); ASSERT(sock_fd_ != INVALID_FD); std::vector packet = std::move(data); btsnoop_logger_->capture(packet, SnoopLogger::Direction::OUTGOING, SnoopLogger::PacketType::SCO); packet.insert(packet.cbegin(), kH4Sco); write_to_rootcanal_fd(packet); } protected: void ListDependencies(ModuleList* list) override { list->add(); } void Start() override { std::lock_guard lock(mutex_); ASSERT(sock_fd_ == INVALID_FD); sock_fd_ = ConnectToRootCanal(config_->GetServerAddress(), config_->GetPort()); ASSERT(sock_fd_ != INVALID_FD); reactable_ = hci_incoming_thread_.GetReactor()->Register( sock_fd_, common::Bind(&HciHalHostRootcanal::incoming_packet_received, common::Unretained(this)), common::Closure()); btsnoop_logger_ = GetDependency(); LOG_INFO("Rootcanal HAL opened successfully"); } void Stop() override { std::lock_guard lock(mutex_); if (reactable_ != nullptr) { hci_incoming_thread_.GetReactor()->Unregister(reactable_); ASSERT(sock_fd_ != INVALID_FD); } reactable_ = nullptr; incoming_packet_callback_ = nullptr; ::close(sock_fd_); sock_fd_ = INVALID_FD; LOG_INFO("Rootcanal HAL is closed"); } private: std::mutex mutex_; HciHalHostRootcanalConfig* config_ = HciHalHostRootcanalConfig::Get(); HciHalCallbacks* incoming_packet_callback_ = nullptr; int sock_fd_ = INVALID_FD; bluetooth::os::Thread hci_incoming_thread_ = bluetooth::os::Thread("hci_incoming_thread", bluetooth::os::Thread::Priority::NORMAL); bluetooth::os::Reactor::Reactable* reactable_ = nullptr; std::queue> hci_outgoing_queue_; SnoopLogger* btsnoop_logger_; void write_to_rootcanal_fd(HciPacket packet) { // TODO: replace this with new queue when it's ready hci_outgoing_queue_.emplace(packet); if (hci_outgoing_queue_.size() == 1) { hci_incoming_thread_.GetReactor()->ModifyRegistration( reactable_, common::Bind(&HciHalHostRootcanal::incoming_packet_received, common::Unretained(this)), common::Bind(&HciHalHostRootcanal::send_packet_ready, common::Unretained(this))); } } void send_packet_ready() { std::lock_guard lock(this->mutex_); auto packet_to_send = this->hci_outgoing_queue_.front(); auto bytes_written = write(this->sock_fd_, (void*)packet_to_send.data(), packet_to_send.size()); this->hci_outgoing_queue_.pop(); if (bytes_written == -1) { abort(); } if (hci_outgoing_queue_.empty()) { this->hci_incoming_thread_.GetReactor()->ModifyRegistration( this->reactable_, common::Bind(&HciHalHostRootcanal::incoming_packet_received, common::Unretained(this)), common::Closure()); } } void incoming_packet_received() { if (incoming_packet_callback_ == nullptr) { LOG_INFO("Dropping a packet"); return; } uint8_t buf[kBufSize] = {}; ssize_t received_size; RUN_NO_INTR(received_size = recv(sock_fd_, buf, kH4HeaderSize, 0)); ASSERT_LOG(received_size != -1, "Can't receive from socket: %s", strerror(errno)); if (received_size == 0) { LOG_WARN("Can't read H4 header."); raise(SIGINT); return; } if (buf[0] == kH4Event) { RUN_NO_INTR(received_size = recv(sock_fd_, buf + kH4HeaderSize, kHciEvtHeaderSize, 0)); ASSERT_LOG(received_size != -1, "Can't receive from socket: %s", strerror(errno)); ASSERT_LOG(received_size == kHciEvtHeaderSize, "malformed HCI event header received"); uint8_t hci_evt_parameter_total_length = buf[2]; ssize_t payload_size; RUN_NO_INTR(payload_size = recv(sock_fd_, buf + kH4HeaderSize + kHciEvtHeaderSize, hci_evt_parameter_total_length, 0)); ASSERT_LOG(payload_size != -1, "Can't receive from socket: %s", strerror(errno)); ASSERT_LOG(payload_size == hci_evt_parameter_total_length, "malformed HCI event total parameter size received: %zu != %d", payload_size, hci_evt_parameter_total_length); HciPacket receivedHciPacket; receivedHciPacket.assign(buf + kH4HeaderSize, buf + kH4HeaderSize + kHciEvtHeaderSize + payload_size); btsnoop_logger_->capture(receivedHciPacket, SnoopLogger::Direction::INCOMING, SnoopLogger::PacketType::EVT); incoming_packet_callback_->hciEventReceived(receivedHciPacket); } if (buf[0] == kH4Acl) { RUN_NO_INTR(received_size = recv(sock_fd_, buf + kH4HeaderSize, kHciAclHeaderSize, 0)); ASSERT_LOG(received_size != -1, "Can't receive from socket: %s", strerror(errno)); ASSERT_LOG(received_size == kHciAclHeaderSize, "malformed ACL header received"); uint16_t hci_acl_data_total_length = buf[4] * 256 + buf[3]; int payload_size; RUN_NO_INTR(payload_size = recv(sock_fd_, buf + kH4HeaderSize + kHciAclHeaderSize, hci_acl_data_total_length, 0)); ASSERT_LOG(payload_size != -1, "Can't receive from socket: %s", strerror(errno)); ASSERT_LOG(payload_size == hci_acl_data_total_length, "malformed ACL length received: %d != %d", payload_size, hci_acl_data_total_length); ASSERT_LOG(hci_acl_data_total_length <= kBufSize - kH4HeaderSize - kHciAclHeaderSize, "packet too long"); HciPacket receivedHciPacket; receivedHciPacket.assign(buf + kH4HeaderSize, buf + kH4HeaderSize + kHciAclHeaderSize + payload_size); btsnoop_logger_->capture(receivedHciPacket, SnoopLogger::Direction::INCOMING, SnoopLogger::PacketType::ACL); incoming_packet_callback_->aclDataReceived(receivedHciPacket); } if (buf[0] == kH4Sco) { RUN_NO_INTR(received_size = recv(sock_fd_, buf + kH4HeaderSize, kHciScoHeaderSize, 0)); ASSERT_LOG(received_size != -1, "Can't receive from socket: %s", strerror(errno)); ASSERT_LOG(received_size == kHciScoHeaderSize, "malformed SCO header received"); uint8_t hci_sco_data_total_length = buf[3]; int payload_size; RUN_NO_INTR(payload_size = recv(sock_fd_, buf + kH4HeaderSize + kHciScoHeaderSize, hci_sco_data_total_length, 0)); ASSERT_LOG(payload_size != -1, "Can't receive from socket: %s", strerror(errno)); ASSERT_LOG(payload_size == hci_sco_data_total_length, "malformed SCO packet received: size mismatch"); HciPacket receivedHciPacket; receivedHciPacket.assign(buf + kH4HeaderSize, buf + kH4HeaderSize + kHciScoHeaderSize + payload_size); btsnoop_logger_->capture(receivedHciPacket, SnoopLogger::Direction::INCOMING, SnoopLogger::PacketType::SCO); incoming_packet_callback_->scoDataReceived(receivedHciPacket); } memset(buf, 0, kBufSize); } }; const ModuleFactory HciHal::Factory = ModuleFactory([]() { return new HciHalHostRootcanal(); }); } // namespace hal } // namespace bluetooth