213 lines
8.3 KiB
Markdown
213 lines
8.3 KiB
Markdown
# ndhc
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Copyright 2004-2020 Nicholas J. Kain.
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See LICENSE for licensing information. In short: Two-clause / New BSD.
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## Introduction
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ndhc is a multi-process, privilege-separated DHCP client. Each subprocess
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runs with the minimal necessary privileges in order to perform its task.
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Currently, ndhc consists of three subprocesses: the ndhc-master,
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ndhc-ifch, and ndhc-sockd.
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ndhc-master communicates with DHCP servers and handles the vagaries of
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the DHCP client protocol. It runs as a non-root user inside a chroot.
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ndhc runs as a normal user with no special privileges and is restricted
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to a chroot that contains nothing more than a domain socket filesystem
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object (if using syslog), a urandom device node, and a null device node.
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ndhc-ifch handles interface change requests. It listens on a unix
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socket for such requests. ndhc-ifch runs as a non-root user inside
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a chroot, and retains only the power to configure network interfaces.
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ndhc-ifch automatically forks from ndhc-master to perform its job.
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ndhc-sockd plays a similar role to ndhc-ifch, but it instead has the
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ability to bind to a low port, the ability to open a raw socket, and the
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ability to communicate on broadcast channels. ndhc communicates with
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ndhc-sockd over a unix socket, and the file descriptors that ndhc-sockd
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creates are passed back to ndhc over the unix socket.
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ndhc fully implements RFC5227's address conflict detection and defense.
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Great care is taken to ensure that address conflicts will be detected,
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and ndhc also has extensive support for address defense. Care is taken
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to prevent unintentional ARP flooding under any circumstance.
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ndhc also monitors hardware link status via netlink events and reacts
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appropriately when interface carrier status changes or an interface
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is explicitly deconfigured. This functionality can be useful on wired
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networks when transient carrier downtimes occur (or cables are changed),
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but it is particularly useful on wireless networks.
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RFC3927's IPv4 Link Local Addressing is not supported. I have found v4
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LLAs to be more of an annoyance than a help. v6 LLAs work much better
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in practice.
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## Features
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*Privilege-separated*. ndhc does not run as root after initial startup,
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and capabilities are divided between the subprocesses. All processes
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run in a chroot.
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*Robust*. ndhc performs no runtime heap allocations -- `malloc()` (more
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specifically, `brk()`, `mmap()`, etc) is never called after initialization
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(libc behavior during initialization time will vary), and ndhc never
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performs recursive calls and only stack-allocates fixed-length types,
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so stack depth is bounded, too.
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*Active defense of IP address and IP collision avoidance*. ndhc fully
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implements RFC5227. It is capable of both a normal level of tenacity in
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defense, where it will eventually back off and request a new lease if a
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peer won't relent in the case of a conflict, and of relentlessly defending
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a lease forever. In either mode, it rate-limits defense messages, so it
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can't be tricked into flooding by a hostile peer or DHCP server, either.
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*Small*. ndhc avoids unnecessary outside dependencies and is written
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in plain C.
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*Fast*. ndhc filters input using the BPF/LPF mechanism so that
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uninteresting packets are dropped by the operating system before ndhc
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even sees the data. ndhc also only listens to DHCP traffic when it's
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necessary.
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*Flexible*. ndhc can request particular IPs, send user-specified client
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IDs, write a file that contains the current lease IP, write PID files,
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etc.
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*Self-contained*. ndhc does not exec other processes, or rely on the shell.
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Further, ndhc relies on no external libraries aside from the system libc.
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*Aware of the hardware link status*. If you disconnect an interface on
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which ndhc is providing DHCP service, it will be aware. When the link
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status returns, ndhc will fingerprint the reconnected network and make
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sure that it corresponds to the one on which it has a lease. If the new
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network is different, it will forget about the old lease and request a
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new one.
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## Requirements
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* Linux kernel
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* GNU Make or CMake
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* [Ragel 6](https://www.colm.net/open-source/ragel)
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## Installation
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Compile and install ndhc.
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* Create a build directory: `mkdir build && cd build`
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* Create the makefiles: `cmake ..`
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* Build ndhc: `make`
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* Install the `ndhc/ndhc` executable in a normal place. I would
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suggest `/usr/sbin` or `/usr/local/sbin`.
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Time to create the jail in which ndhc will run. Become root and create new group `ndhc`.
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```
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$ su -
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# umask 077
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# groupadd ndhc
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```
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Create new users `dhcpsockd`, `dhcpifch` and `dhcp`. The primary group of
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these users should be `ndhc`.
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```
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# useradd -d /var/lib/ndhc -s /sbin/nologin -g ndhc dhcpsockd
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# useradd -d /var/lib/ndhc -s /sbin/nologin -g ndhc dhcpifch
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# useradd -d /var/lib/ndhc -s /sbin/nologin -g ndhc dhcp
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```
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Create the state directory where DUIDs and IAIDs will be stored.
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```
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# mkdir /etc/ndhc
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# chown root.root /etc/ndhc
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# chmod 0755 /etc/ndhc
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```
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Create the jail directory and set its ownership properly.
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```
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# mkdir /var/lib/ndhc
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# chown root.root /var/lib/ndhc
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# chmod a+rx /var/lib/ndhc
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# cd /var/lib/ndhc
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# mkdir var
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# mkdir var/state
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# mkdir var/run
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# chown -R dhcp.ndhc var
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# chmod -R a+rx var
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# chmod g+w var/run
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```
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Create a urandom device for ndhc to use within the jail.
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```
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# mkdir dev
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# mknod dev/urandom c 1 9
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# mknod dev/null c 1 3
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# chown -R root.root dev
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# chmod a+rx dev
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# chmod a+r dev/urandom
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# chmod a+rw dev/null
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```
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(_optional_) If you wish for logging to properly work, you will need
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to properly configure your logging daemon so that it opens a domain
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socket in the proper location within the jail. Since this varies
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per-daemon, I cannot provide a general configuration.
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At this point the jail is usable; ndhc is ready to be used. It should
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be invoked as the root user so that it can spawn its processes with the
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proper permissions. An example of invoking ndhc: `ndhc -i wan0 -u dhcp -U dhcpifch -D dhcpsockd -C /var/lib/ndhc`
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If you encounter problems, I suggest running ndhc in the foreground
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and examining the printed output.
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I suggest running ndhc under some sort of process
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supervision such as [runit](http://smarden.org/runit) or
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[s6](http://www.skarnet.org/software/s6). This will allow for reliable
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functioning in the case of unforseen or unrecoverable errors.
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## Behavior Notes
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ndhc does not enable updates of the local `hostname` and `resolv.conf` by
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default. If you wish to enable these functions, use the `--resolve`
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(`-R`) and `--hostname` (`-H`) flags. See `ndhc --help`.
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## State Storage Notes
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ndhc requires a read/writable directory to store the DUID/IAID states.
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By default this directory is `/etc/ndhc`. It exists outside the
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chroot. The DUID will be stored in a single file, DUID. The IAIDs
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exist per-interface and are stored in files with names similar to
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`IAID-xx:xx:xx:xx:xx:xx`, where the `xx` values are replaced by the
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Ethernet hardware address of the interface.
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If it is impossible to read or store the DUIDs or IAIDs, ndhc will
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fail at start time before it performs any network activity or forks
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any subprocesses.
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If the host system lacks volatile storage, then a clientid should manually
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be specified using the `-I` or `--clientid` command arguments.
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## Downloads
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* [GitLab](https://gitlab.com/niklata/ndhc)
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* [BitBucket](https://bitbucket.com/niklata/ndhc)
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* [GitHub](https://github.com/niklata/ndhc)
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## Porting Notes
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DHCP clients aren't naturally very portable. It's necessary to
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perform a lot of tasks that are platform-specific. ndhc is rather
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platform-dependent, and it uses many Linux-specific features.
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The following list is not intended to be exhaustive:
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* ndhc takes advantage of Linux capabilities so that it does not need
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full root privileges. Capabilities were a proposed POSIX feature that
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was not made part of the official standard, so any implemention that
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may exist will be system-dependent.
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* ndhc configures network interfaces and routes. Interface and route
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configuration is entirely non-portable.
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* ndhc uses netlink sockets for fetching data, setting data, and hardware
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link state change notification events.
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* ndhc uses the Berkeley Packet Filter / Linux Packet Filter interfaces
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to drop unwanted packets in kernelspace. This functionality is available
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on most modern unix systems, but it is not standard.
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* Numerous socket options are used, and the `AF_PACKET` socket family
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is used for raw sockets and ARP. These are largely Linux-specific, too.
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