bluez

BlueZ user space daemons , utilities , and configuration files

BlueZ用户空间后台进程、实用程序以及配置文件

The BlueZ stack supports both of those transport mechanisms ( drivers / Bluetooth / ) .

BlueZ栈对这两个传输机制（drivers/Bluetooth/）都支持。

Additionally , you need to configure the headset 's PIN with BlueZ on the Linux device .

另外，您需要通过Linux设备上的BlueZ配置耳机的PIN。

An application on the Linux Bluetooth device that uses BlueZ SCO APIs can now send audio data to the headset .

LinuxBluetooth设备上使用BlueZSCOAPI的应用程序现在可以发送音频数据到耳机上。

The list below shows the BlueZ modules , utilities , daemons , and configuration files necessary to configure various protocol services over Bluetooth .

下面的列表给出了配置Bluetooth上的各种协议服务所必需的BlueZ模块、实用程序、后台进程以及配置文件。

The legacy serial driver that drives this board 's UART channels can send and receive data from the BlueZ UART transport driver .

这个母板的UART通道使用的传统串行驱动程序可以从BlueZUART传输驱动程序上收发数据。

Hci_uart now talks to the CSR chip and passes on Bluetooth data to and from the BlueZ stack .

现在hciuart与CSR芯片交互并且传送Bluetooth数据往返于BlueZ栈。

BlueZ BNEP ( Bluetooth Network Encapsulation Protocol ) implements Ethernet emulation over Bluetooth , which lets TCP / IP run directly over Bluetooth .

BlueZBNEP（Bluetooth网络封装协议）实现了Bluetooth上的以太网仿真，这使TCP/IP可以直接运行于Bluetooth之上。

Therefore , the Linux USB layer , the BlueZ USB transport driver , and the BlueZ protocol stack are the main kernel layers that get the device working .

因此，LinuxUSB层、BlueZUSB传输器驱动程序以及BlueZ协议栈是使设备工作的主要内核层。

The BlueZ hci_uart link driver talks with Bluetooth UART channels and connects the emulated serial port to the BlueZ stack .

BlueZhciuart链接驱动程序与BluetoothUART通道交互并将模拟的串行端口连接到BlueZ栈。

The HCI , ACL , and SCO data read by the hci_usb driver from the various endpoints described above are transparently passed on to the BlueZ protocol stack .

由hciusb驱动程序从以上描述的各个端点读取的HCI、ACL和SCO数据被透明传送到BlueZ协议栈。