core/pkg/dhcp4c/doc.go - monogon - Gitiles

 // Copyright 2020 The Monogon Project Authors.
 //
 // SPDX-License-Identifier: Apache-2.0
 //
 // 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.

 // Package dhcp4c provides a client implementation of the DHCPv4 protocol (RFC2131) and a few extensions for Linux-based
 // systems.
 // The code is split into three main parts:
 // - The core DHCP state machine, which lives in dhcpc.go
 // - Mechanisms to send and receive DHCP messages, which live in transport/
 // - Standard callbacks which implement necessary kernel configuration steps in a simple and standalone way living in
 //   callback/
 //
 // Since the DHCP protocol is ugly and underspecified (see https://tools.ietf.org/html/draft-ietf-dhc-implementation-02
 // for a subset of known issues), this client slightly bends the specification in the following cases:
 // - IP fragmentation for DHCP messages is not supported for both sending and receiving messages
 //   This is because the major servers (ISC, dnsmasq, ...) do not implement it and just drop fragmented packets, so it
 //   would be counterproductive to try to send them. The client just attempts to send the full message and hopes it
 //   passes through to the server.
 // - The suggested timeouts and wait periods have been tightened significantly. When the standard was written 10Mbps
 //   Ethernet with hubs was a common interconnect. Using these would make the client extremely slow on today's
 //   1Gbps+ networks.
 // - Wrong data in DHCP responses is fixed up if possible. This fixing includes dropping prohibited options, clamping
 //   semantically invalid data and defaulting not set options as far as it's possible. Non-recoverable responses
 //   (for example because a non-Unicast IP is handed out or lease time is not set or zero) are still ignored.
 //   All data which can be stored in both DHCP fields and options is also normalized to the corresponding option.
 // - Duplicate Address Detection is not implemented by default. It's slow, hard to implement correctly and generally
 //   not necessary on modern networks as the servers already waste time checking for duplicate addresses. It's possible
 //   to hook it in via a LeaseCallback if necessary in a given application.
 //
 // Operationally, there's one known caveat to using this client: If the lease offered during the select phase (in a
 // DHCPOFFER) is not the same as the one sent in the following DHCPACK the first one might be acceptable, but the second
 // one might not be. This can cause pathological behavior where the client constantly switches between discovering and
 // requesting states. Depending on the reuse policies on the DHCP server this can cause the client to consume all
 // available IP addresses. Sadly there's no good way of fixing this within the boundaries of the protocol. A DHCPRELEASE
 // for the adresse would need to be unicasted so the unaccepable address would need to be configured which can be either
 // impossible if it's not valid or not acceptable from a security standpoint (for example because it overlaps with a
 // prefix used internally) and a DHCPDECLINE would cause the server to blacklist the IP thus also depleting the IP pool.
 // This could be potentially avoided by originating DHCPRELEASE packages from a userspace transport, but said transport
 // would need to be routing- and PMTU-aware which would make it even more complicated than the existing
 // BroadcastTransport.
 package dhcp4c
	// Copyright 2020 The Monogon Project Authors.
	//
	// SPDX-License-Identifier: Apache-2.0
	//
	// 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.

	// Package dhcp4c provides a client implementation of the DHCPv4 protocol (RFC2131) and a few extensions for Linux-based
	// systems.
	// The code is split into three main parts:
	// - The core DHCP state machine, which lives in dhcpc.go
	// - Mechanisms to send and receive DHCP messages, which live in transport/
	// - Standard callbacks which implement necessary kernel configuration steps in a simple and standalone way living in
	// callback/
	//
	// Since the DHCP protocol is ugly and underspecified (see https://tools.ietf.org/html/draft-ietf-dhc-implementation-02
	// for a subset of known issues), this client slightly bends the specification in the following cases:
	// - IP fragmentation for DHCP messages is not supported for both sending and receiving messages
	// This is because the major servers (ISC, dnsmasq, ...) do not implement it and just drop fragmented packets, so it
	// would be counterproductive to try to send them. The client just attempts to send the full message and hopes it
	// passes through to the server.
	// - The suggested timeouts and wait periods have been tightened significantly. When the standard was written 10Mbps
	// Ethernet with hubs was a common interconnect. Using these would make the client extremely slow on today's
	// 1Gbps+ networks.
	// - Wrong data in DHCP responses is fixed up if possible. This fixing includes dropping prohibited options, clamping
	// semantically invalid data and defaulting not set options as far as it's possible. Non-recoverable responses
	// (for example because a non-Unicast IP is handed out or lease time is not set or zero) are still ignored.
	// All data which can be stored in both DHCP fields and options is also normalized to the corresponding option.
	// - Duplicate Address Detection is not implemented by default. It's slow, hard to implement correctly and generally
	// not necessary on modern networks as the servers already waste time checking for duplicate addresses. It's possible
	// to hook it in via a LeaseCallback if necessary in a given application.
	//
	// Operationally, there's one known caveat to using this client: If the lease offered during the select phase (in a
	// DHCPOFFER) is not the same as the one sent in the following DHCPACK the first one might be acceptable, but the second
	// one might not be. This can cause pathological behavior where the client constantly switches between discovering and
	// requesting states. Depending on the reuse policies on the DHCP server this can cause the client to consume all
	// available IP addresses. Sadly there's no good way of fixing this within the boundaries of the protocol. A DHCPRELEASE
	// for the adresse would need to be unicasted so the unaccepable address would need to be configured which can be either
	// impossible if it's not valid or not acceptable from a security standpoint (for example because it overlaps with a
	// prefix used internally) and a DHCPDECLINE would cause the server to blacklist the IP thus also depleting the IP pool.
	// This could be potentially avoided by originating DHCPRELEASE packages from a userspace transport, but said transport
	// would need to be routing- and PMTU-aware which would make it even more complicated than the existing
	// BroadcastTransport.
	package dhcp4c