Module Tcpip_stack_direct.Make

Parameters

module Time : Mirage_time.S
module Random : Mirage_random.S
module Netif : Mirage_net.S
module Ethernet : Mirage_protocols.ETHERNET
module Arpv4 : Mirage_protocols.ARP
module Ipv4 : Mirage_protocols.IP with type ipaddr = Ipaddr.V4.t
module Icmpv4 : Mirage_protocols.ICMP with type ipaddr = Ipaddr.V4.t
module Udpv4 : UDPV4_DIRECT
module Tcpv4 : TCPV4_DIRECT

Signature

include Mirage_stack.V4 with module IPV4 = Ipv4 and module TCPV4 = Tcpv4 and module UDPV4 = Udpv4
include Mirage_device.S
type t

The type representing the internal state of the device

val disconnect : t -> unit Lwt.t

Disconnect from the device. While this might take some time to complete, it can never result in an error.

module UDPV4 = Udpv4
module TCPV4 = Tcpv4
module IPV4 = Ipv4
val udpv4 : t -> UDPV4.t

udpv4 t obtains a descriptor for use with the UDPV4 module, usually to transmit traffic.

val tcpv4 : t -> TCPV4.t

tcpv4 t obtains a descriptor for use with the TCPV4 module, usually to initiate outgoing connections.

val ipv4 : t -> IPV4.t

ipv4 t obtains a descriptor for use with the IPV4 module, which can handle raw IPv4 frames, or manipulate IP address configuration on the stack interface.

val listen_udpv4 : t -> port:int -> UDPV4.callback -> unit

listen_udpv4 t ~port cb registers the cb callback on the UDPv4 port and immediately return. If port is invalid (not between 0 and 65535 inclusive), it raises Invalid_argument. Multiple bindings to the same port will overwrite previous bindings, so callbacks will not chain if ports clash.

val listen_tcpv4 : ?⁠keepalive:Mirage_protocols.Keepalive.t -> t -> port:int -> (TCPV4.flow -> unit Lwt.t) -> unit

listen_tcpv4 ~keepalive t ~port cb registers the cb callback on the TCPv4 port and immediatey return. If port is invalid (not between 0 and 65535 inclusive), it raises Invalid_argument. Multiple bindings to the same port will overwrite previous bindings, so callbacks will not chain if ports clash. If ~keepalive is provided then these keepalive settings will be applied to the accepted connections before the callback is called.

val listen : t -> unit Lwt.t

listen t requests that the stack listen for traffic on the network interface associated with the stack, and demultiplex traffic to the appropriate callbacks.

val connect : Netif.t -> Ethernet.t -> Arpv4.t -> Ipv4.t -> Icmpv4.t -> Udpv4.t -> Tcpv4.t -> t Lwt.t

connect assembles the arguments into a network stack, then calls `listen` on the assembled stack before returning it to the caller. The initial `listen` functions to ensure that the lower-level layers (e.g. ARP) are functioning, so that if the user wishes to establish outbound connections, they will be able to do so.