.. _networking_with_host: Networking with the host system ############################### .. toctree:: :maxdepth: 1 :hidden: native_sim_setup.rst qemu_eth_setup.rst qemu_setup.rst usbnet_setup.rst qemu_user_setup.rst networking_with_multiple_instances.rst eth_bridge_native_sim_setup.rst qemu_802154_setup.rst armfvp_user_networking_setup.rst While developing networking software, it is usually necessary to connect and exchange data with the host system like a Linux desktop computer. Depending on what board is used for development, the following options are possible: * QEMU using SLIP (Serial Line Internet Protocol). * Here IP packets are exchanged between Zephyr and the host system via serial port. This is the legacy way of transferring data. It is also quite slow so use it only when necessary. See :ref:`networking_with_qemu` for details. * QEMU using built-in Ethernet driver. * Here IP packets are exchanged between Zephyr and the host system via QEMU's built-in Ethernet driver. Not all QEMU boards support built-in Ethernet so in some cases, you might need to use the SLIP method for host connectivity. See :ref:`networking_with_eth_qemu` for details. * QEMU using SLIRP (Qemu User Networking). * QEMU User Networking is implemented using "slirp", which provides a full TCP/IP stack within QEMU and uses that stack to implement a virtual NAT'd network. As this support is built into QEMU, it can be used with any model and requires no admin privileges on the host machine, unlike TAP. However, it has several limitations including performance which makes it less valuable for practical purposes. See :ref:`networking_with_user_qemu` for details. * Arm FVP (User Mode Networking). * User mode networking emulates a built-in IP router and DHCP server, and routes TCP and UDP traffic between the guest and host. It uses the user mode socket layer of the host to communicate with other hosts. This allows the use of a significant number of IP network services without requiring administrative privileges, or the installation of a separate driver on the host on which the model is running. See :ref:`networking_with_armfvp` for details. * native_sim board. * The Zephyr instance can be executed as a user space process in the host system. This is the most convenient way to debug the Zephyr system as one can attach host debugger directly to the running Zephyr instance. This requires that there is an adaptation driver in Zephyr for interfacing with the host system. Two possible network drivers can be used for this purpose, a TAP virtual Ethernet driver and an offloaded sockets driver. See :ref:`networking_with_native_sim` for details. * USB device networking. * Here, the Zephyr instance is run on a real board and the connectivity to the host system is done via USB. See :ref:`usb_device_networking_setup` for details. * Connecting multiple Zephyr instances together. * If you have multiple Zephyr instances, either QEMU or native_sim ones, and want to create a connection between them, see :ref:`networking_with_multiple_instances` for details. * Simulating IEEE 802.15.4 network between two QEMUs. * Here, two Zephyr instances are running and there is IEEE 802.15.4 link layer run over an UART between them. See :ref:`networking_with_ieee802154_qemu` for details. * Simulating Ethernet bridge network with native_sim. * Here, one Zephyr instance is running with Ethernet bridge enabled via :kconfig:option:`CONFIG_NET_ETHERNET_BRIDGE` Kconfig option. There exists two host network interfaces ``zeth0`` and ``zeth1`` and the network packets are bridged between those two interfaces. See :ref:`networking_with_native_sim_eth_bridge` for details.