# # For a description of the syntax of this configuration file, # see the file kconfig-language.txt in the NuttX tools repository. # config ARCH_HAVE_NET bool default n config ARCH_HAVE_PHY bool default n config NET_WRITE_BUFFERS bool default n config NET_READAHEAD bool default n config NET bool "Networking support" default n select ARCH_HAVE_NET ---help--- Enable or disable all network features if NET config NET_PROMISCUOUS bool "Promiscuous mode" default n ---help--- Force the Ethernet driver to operate in promiscuous mode (if supported by the Ethernet driver). menu "Driver buffer configuration" config NET_ETH_PKTSIZE int "Ethernet packet buffer size" default 1294 if NET_IPv6 default 590 if !NET_IPv6 depends on NET_ETHERNET range 590 1518 ---help--- Packet buffer size. This size includes the TCP/UDP payload plus the size of TCP/UDP header, the IP header, and the Ethernet header. This value is related to the MTU (Maximum Transmission Unit), except that it includes the size of the link layer header; the payload is the MSS (Maximum Segment Size). IPv4 hosts are required to be able to handle an MSS of at least 536 octets, resulting in a minimum buffer size of 536+20+20+14 = 590. IPv6 hosts are required to be able to handle an MSS of 1220 octets, resulting in a minimum buffer size of of 1220+20+40+14 = 1294 To get an MTU of 1500, for example, you would need packet buffer of size 1514. config NET_SLIP_PKTSIZE int # "SLIP packet buffer size" default 296 depends on NET_SLIP range 296 1518 ---help--- Provides the size of the SLIP packet buffers. This size includes the TCP/UDP payload plus the size of TCP/UDP header and the IP header. This value is related to the MTU (Maximum Transmission Unit), except that it includes the size of the link layer header; the payload is the MSS (Maximum Segment Size). SLIP has no link layer header so for SLIP the MTU is the same as the PKTSIZE. SLIP is required to support at least 256+20+20 = 296. Values other than 296 are not recommended. The Linux slip module hard-codes its MTU size to 296 (40 bytes for the IP+TPC headers plus 256 bytes of data). So you might as well set CONFIG_NET_SLIP_PKTSIZE to 296 as well. There may be an issue with this setting, however. I see that Linux uses a MTU of 296 and window of 256, but actually only sends 168 bytes of data: 40 + 128. I believe that is to allow for the 2x worst cast packet expansion. Ideally we would like to advertise the 256 MSS, but restrict transfers to 128 bytes (possibly by modifying the MSS value in the TCP connection structure). config NET_GUARDSIZE int "Driver I/O guard size" default 2 ---help--- Network drivers often receive packets with garbage at the end and are longer than the size of packet in the TCP header. The following "fudge" factor increases the size of the I/O buffering by a small amount to allocate slightly oversize packets. After receipt, the packet size will be chopped down to the size indicated in the TCP header. endmenu # Driver buffer configuration menu "Link layer support" config NET_ETHERNET bool "Ethernet support" default y ---help--- If NET_SLIP is not selected, then Ethernet will be used (there is no need to define anything special in the configuration file to use Ethernet -- it is the default). config NET_LOOPBACK bool "Local loopback" default n ---help--- Add support for the local network loopback device, lo. menuconfig NET_SLIP bool "SLIP support" default n ---help--- Enables building of the SLIP driver. SLIP requires at least one IP protocol selected. SLIP supports point-to-point IP communications over a serial port. The default data link layer for network layer is Ethernet. If NET_SLIP is defined in the NuttX configuration file, then SLIP will be supported. The basic differences between the SLIP and Ethernet configurations is that when SLIP is selected: * The link level header (that comes before the IP header) is omitted. * All MAC address processing is suppressed. * ARP is disabled. If NET_SLIP is not selected, then Ethernet will be used (there is no need to define anything special in the configuration file to use Ethernet -- it is the default). if NET_SLIP config SLIP_NINTERFACES int "Number of SLIP interfaces" default 1 ---help--- Selects the number of physical SLIP interfaces to support. Default: 1 config SLIP_STACKSIZE int "SLIP stack size" default 2048 ---help--- Select the stack size of the SLIP RX and TX tasks. Default: 2048 config SLIP_DEFPRIO int "SLIP priority" default 128 ---help--- The priority of the SLIP RX and TX tasks. Default: 128 endif # NET_SLIP menuconfig NET_TUN bool "TUN Virtual Network Device support" default n select ARCH_HAVE_NETDEV_STATISTICS if NET_TUN config TUN_NINTERFACES int "Number of TUN interfaces" default 1 range 1 8 ---help--- Selects the number of TUN interfaces to support. Default: 1 config NET_TUN_PKTSIZE int "TUN packet buffer size" default 296 range 296 1518 ---help--- Provides the size of the TUN packet buffers. This size includes the TCP/UDP payload plus the size of TCP/UDP header and the IP header. This value is related to the MTU (Maximum Transmission Unit), except that it includes the size of the link layer header; the payload is the MSS (Maximum Segment Size). TUN has no link layer header so for TUN the MTU is the same as the PKTSIZE. choice prompt "Work queue" default TUN_LPWORK if SCHED_LPWORK default TUN_HPWORK if !SCHED_LPWORK && SCHED_HPWORK depends on SCHED_WORKQUEUE ---help--- Work queue support is required to use the TUN driver. If the low priority work queue is available, then it should be used by the TUN driver. config TUN_HPWORK bool "High priority" depends on SCHED_HPWORK config TUN_LPWORK bool "Low priority" depends on SCHED_LPWORK endchoice # Work queue endif # NET_TUN config NET_USRSOCK bool "User-space networking stack API" default n ---help--- Enable or disable user-space networking stack support. User-space networking stack API allows user-space daemon to provide TCP/IP stack implementation for NuttX network. Main use for this is to allow use and integration of HW-provided TCP/IP stacks for NuttX. For example, user-space daemon can translate /dev/usrsock API requests to HW TCP/IP API requests while rest of the user-space can access standard socket API, with socket descriptors that can be used with NuttX system calls. endmenu # Data link support source "net/netdev/Kconfig" menu "Internet Protocol Selection" config NET_IPv4 bool "IPv4" default y ---help--- Build in support for IPv4. config NET_IPv4_REASSEMBLY bool "IPv4 reassembly" default n depends on NET_IPv4 && EXPERIMENTAL && NET_ETHERNET ---help--- Enable support for IP packet reassembly of fragmented IP packets. This features requires an additional amount of RAM to hold a single reassembly buffer. The reassembly buffer is of the same size as the MTU of the selected device. REVISIT: There are multiple issues with the current implementation: 1. IPv4 reassembly in its current form is untested (and, hence, depends on CONFIG_EXPERIMENTAL). 2. Currently this feature can only work with Ethernet due to internal definitions that depend on Ethernet configuration settings (and, hence, depends on CONFIG_NET_ETHERNET). 3. Since there is only a single reassembly buffer, IPv4 reassembly cannot be used in a context where multiple network devices may be concurrently re-assemblying packets. if NET_IPv4_REASSEMBLY config NET_IPv4_REASS_MAXAGE int "IP fragment timeout" default 200 ---help--- The maximum time an IP fragment should wait in the reassembly buffer before it is dropped. Units are deci-seconds, the range of the timer is 8-bits. Default: 20 seconds. endif # NET_IPv4_REASSEMBLY config NET_IPv6 bool "IPv6" default n ---help--- Build in support for IPv6. source "net/neighbor/Kconfig" menuconfig NET_6LOWPAN bool "6LoWPAN support" default n select NETDEV_IOCTL select NET_HAVE_STAR depends on NET_IPv6 ---help--- Enable support for Low power Wireless Personal Area Networking (6LoWPAN) for IEEE 802.15.4 or other packet radios. source "net/sixlowpan/Kconfig" source "net/ipforward/Kconfig" endmenu # Internet Protocol Selection source "net/socket/Kconfig" source "net/inet/Kconfig" source "net/pkt/Kconfig" source "net/local/Kconfig" source "net/netlink/Kconfig" source "net/tcp/Kconfig" source "net/udp/Kconfig" source "net/bluetooth/Kconfig" source "net/ieee802154/Kconfig" source "net/icmp/Kconfig" source "net/icmpv6/Kconfig" source "net/igmp/Kconfig" source "net/arp/Kconfig" source "net/loopback/Kconfig" source "net/procfs/Kconfig" source "net/usrsock/Kconfig" source "net/utils/Kconfig" config NET_STATISTICS bool "Collect network statistics" default n ---help--- Network layer statistics on or off config NET_HAVE_STAR bool default n ---help--- Automatically enabled if at least one selected L2 protocol supports a STAR topology. In order to support the star topology, the L2 protocol must support relaying all packets to a well-known hub node. menu "Network Topologies" config NET_STAR bool "Enable star topology" default n depends on NET_HAVE_STAR && NET_IPv6 ---help--- Enable support for a star network topology. NOTE: Currently only supported by 6LoWPAN. NOTE: L2 forwarding only supported for IPv6. choice prompt "Node role" depends on NET_STAR default NET_STARPOINT ---help--- Specifies the role of this not in the star configuration. config NET_STARPOINT bool "Point node in star" ---help--- The node is a "point" in the star configuration and must send all packets to the star hub node. config NET_STARHUB bool "Hub node of star" select NET_IPFORWARD ---help--- This is the "hub" node in the star configurations. It will receive packets packets from all "point" nodes and perform L2 forwarding of the packets that are not destined for this node. endchoice # Node role endmenu # Network Topologies source "net/route/Kconfig" config NET_HOSTNAME string "Host name for this device" default "" ---help--- A unique name to identify device on the network endif # NET