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modifié : kea-dhcp4.conf.j2

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Adam Alphonso 2025-01-23 08:14:23 +01:00
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commit f38c7978cc
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roles/kea/templates/kea-dhcp4.conf.j2
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@ -1,145 +1,51 @@
// This is an example configuration of the Kea DHCPv4 server 1:
//
// - uses High Availability hook library and Lease Commands hook library
// to enable High Availability function for the DHCP server. This config
// file is for the primary (the active) server.
// - uses memfile, which stores lease data in a local CSV file
// - it assumes a single /24 addressing over a link that is directly reachable
// (no DHCP relays)
// - there is a handful of IP reservations
//
// It is expected to run with a standby (the passive) server, which has a very similar
// configuration. The only difference is that "this-server-name" must be set to "server2" on the
// other server. Also, the interface configuration depends on the network settings of the
// particular machine.
{
"Dhcp4": {
// Add names of your network interfaces to listen on.
"interfaces-config": {
// The DHCPv4 server listens on this interface. When changing this to
// the actual name of your interface, make sure to also update the
// interface parameter in the subnet definition below.
"interfaces": ["{{ kea_dhcp_int }}"]
},
// Control socket is required for communication between the Control
// Agent and the DHCP server. High Availability requires Control Agent
// to be running because lease updates are sent over the RESTful
// API between the HA peers.
"control-socket": {
"socket-type": "unix",
"socket-name": "/tmp/kea4-ctrl-socket"
},
// Use Memfile lease database backend to store leases in a CSV file.
// Depending on how Kea was compiled, it may also support SQL databases
// (MySQL and/or PostgreSQL). Those database backends require more
// parameters, like name, host and possibly user and password.
// There are dedicated examples for each backend. See Section 7.2.2 "Lease
// Storage" for details.
"lease-database": {
// Memfile is the simplest and easiest backend to use. It's an in-memory
// database with data being written to a CSV file. It is very similar to
// what ISC DHCP does.
"type": "memfile"
},
// Let's configure some global parameters. The home network is not very dynamic
// and there's no shortage of addresses, so no need to recycle aggressively.
"valid-lifetime": 43200, // leases will be valid for 12h
"renew-timer": 21600, // clients should renew every 6h
"rebind-timer": 32400, // clients should start looking for other servers after 9h
// Kea will clean up its database of expired leases once per hour. However, it
// will keep the leases in expired state for 2 days. This greatly increases the
// chances for returning devices to get the same address again. To guarantee that,
// use host reservation.
// If both "flush-reclaimed-timer-wait-time" and "hold-reclaimed-time" are
// not 0, when the client sends a release message the lease is expired
// instead of being deleted from lease storage.
"valid-lifetime": 43200,
"renew-timer": 21600,
"rebind-timer": 32400,
"expired-leases-processing": {
"reclaim-timer-wait-time": 3600,
"hold-reclaimed-time": 172800,
"max-reclaim-leases": 0,
"max-reclaim-time": 0
},
// HA requires two hook libraries to be loaded: libdhcp_lease_cmds.so and
// libdhcp_ha.so. The former handles incoming lease updates from the HA peers.
// The latter implements high availability feature for Kea. Note the library name
// should be the same, but the path is OS specific.
"hooks-libraries": [
// The lease_cmds library must be loaded because HA makes use of it to
// deliver lease updates to the server as well as synchronize the
// lease database after failure.
{
"library": "/usr/lib/x86_64-linux-gnu/kea/hooks/libdhcp_lease_cmds.so"
},
{
"library": "/usr/lib/x86_64-linux-gnu/kea/hooks/libdhcp_stat_cmds.so"
},
{
// The HA hook library should be loaded.
"library": "/usr/lib/x86_64-linux-gnu/kea/hooks/libdhcp_ha.so",
"parameters": {
// Each server should have the same HA configuration, except for the
// "this-server-name" parameter.
"high-availability": [ {
// This parameter points to this server instance. The respective
// HA peers must have this parameter set to their own names.
"this-server-name": "{{ kea_this_server }}",
// The HA mode is set to hot-standby. In this mode, the active server handles
// all the traffic. The standby takes over if the primary becomes unavailable.
"mode": "hot-standby",
// Heartbeat is to be sent every 10 seconds if no other control
// commands are transmitted.
"heartbeat-delay": 10000,
// Maximum time for partner's response to a heartbeat, after which
// failure detection is started. This is specified in milliseconds.
// If we don't hear from the partner in 60 seconds, it's time to
// start worrying.
"max-response-delay": 30000,
// The following parameters control how the server detects the
// partner's failure. The ACK delay sets the threshold for the
// 'secs' field of the received discovers. This is specified in
// milliseconds.
"max-ack-delay": 5000,
// This specifies the number of clients which send messages to
// the partner but appear to not receive any response.
"max-unacked-clients": 0,
// This specifies the maximum timeout (in milliseconds) for the server
// to complete sync. If you have a large deployment (high tens or
// hundreds of thousands of clients), you may need to increase it
// further. The default value is 60000ms (60 seconds).
"sync-timeout": 60000,
"peers": [
// This is the configuration of this server instance.
{
"name": "{{ kea_srv1 }}",
// This specifies the URL of this server instance. The
// Control Agent must run along with this DHCPv4 server
// instance and the "http-host" and "http-port" must be
// set to the corresponding values.
"url": "http://{{ kea_ctrl_address1 }}:8000/",
// This server is primary. The other one must be
// secondary.
"role": "primary"
},
// This is the configuration of the secondary server.
{
"name": "{{ kea_srv2 }}",
// Specifies the URL on which the partner's control
// channel can be reached. The Control Agent is required
// to run on the partner's machine with "http-host" and
// "http-port" values set to the corresponding values.
"url": "http://{{ kea_ctrl_address2 }}:8000/",
// The other server is secondary. This one must be
// primary.
"role": "standby"
}
]
@ -147,42 +53,22 @@
}
}
],
// This example contains a single subnet declaration.
"subnet4": [
{
// Subnet prefix.
"subnet": "172.16.64.0/24",
"id": 1,
// There are no relays in this network, so we need to tell Kea that this subnet
// is reachable directly via the specified interface.
"interface": "enp0s9",
// Specify a dynamic address pool.
"pools": [
{
"pool": "172.16.64.100-172.16.64.150"
}
],
// These are options that are subnet specific. In most cases, you need to define at
// least routers option, as without this option your clients will not be able to reach
// their default gateway and will not have Internet connectivity. If you have many
// subnets and they share the same options (e.g. DNS servers typically is the same
// everywhere), you may define options at the global scope, so you don't repeat them
// for every network.
"option-data": [
{
// For each IPv4 subnet you typically need to specify at least one router.
"name": "routers",
"data": "172.16.64.254"
},
{
// Using cloudflare or Quad9 is a reasonable option. Change this
// to your own DNS servers is you have them. Another popular
// choice is 8.8.8.8, owned by Google. Using third party DNS
// service raises some privacy concerns.
"name": "domain-name-servers",
"data": "172.16.0.1, 172.16.0.4"
},
@ -196,17 +82,7 @@
"name": "domain-search",
"data": "gsb.lan"
},
],
// Some devices should get a static address. Since the .100 - .199 range is dynamic,
// let's use the lower address space for this. There are many ways how reservation
// can be defined, but using MAC address (hw-address) is by far the most popular one.
// You can use client-id, duid and even custom defined flex-id that may use whatever
// parts of the packet you want to use as identifiers. Also, there are many more things
// you can specify in addition to just an IP address: extra options, next-server, hostname,
// assign device to client classes etc. See the Kea ARM, Section 8.3 for details.
// The reservations are subnet specific.
#"reservations": [
# {
# "hw-address": "1a:1b:1c:1d:1e:1f",
@ -219,13 +95,8 @@
#]
}
],
// fichier de logs
"loggers": [
{
// This section affects kea-dhcp4, which is the base logger for DHCPv4 component. It tells
// DHCPv4 server to write all log messages (on severity INFO or higher) to a file. The file
// will be rotated once it grows to 2MB and up to 4 files will be kept. The debuglevel
// (range 0 to 99) is used only when logging on DEBUG level.
"name": "kea-dhcp4",
"output_options": [
{