Morph is a tool for managing existing NixOS hosts - basically a fancy wrapper around nix-build
, nix copy
, nix-env
, /nix/store/.../bin/switch-to-configuration
, scp
and more.
Morph supports updating multiple hosts in a row, and with support for health checks makes it fairly safe to do so.
- multi host support
- health checks
- no state
Morph requires nix
(at least v2), ssh
and scp
to be available on $PATH
.
It should work on any modern Linux distribution, but NixOS is the only one we test on.
Pre-built binaries are not provided, since we install morph through an overlay.
The easiest way to get morph up and running is to fork this repository and run nix-build
, which should result in a store path containing the morph binary.
Consider checking out a specific tag, or at least pin the version of morph you're using somehow.
All commands support a --help
flag; morph --help
as of v1.0.0:
$ morph --help
usage: morph [<flags>] <command> [<args> ...]
NixOS host manager
Flags:
--help Show context-sensitive help (also try --help-long and --help-man).
--version Show application version.
--dry-run Don't do anything, just eval and print changes
Commands:
help [<command>...]
Show help.
build [<flags>] <deployment>
Evaluate and build deployment configuration to the local Nix store
push [<flags>] <deployment>
Build and transfer items from the local Nix store to target machines
deploy [<flags>] <deployment> <switch-action>
Build, push and activate new configuration on machines according to switch-action
check-health [<flags>] <deployment>
Run health checks
upload-secrets [<flags>] <deployment>
Upload secrets
exec [<flags>] <deployment> <command>...
Execute arbitrary commands on machines
Notably, morph deploy
requires a <switch-action>
.
The switch-action must be one of dry-activate
, test
, switch
or boot
corresponding to nixos-rebuild
arguments of the same name.
Refer to the NixOS manual for a detailed description of switch-actions.
For help on this and other commands, run morph <cmd> --help
.
Example deployments can be found in the examples
directory, and built as follows:
$ morph build examples/simple.nix
Selected 2/2 hosts (name filter:-0, limits:-0):
0: db01 (secrets: 0, health checks: 0)
1: web01 (secrets: 0, health checks: 0)
<probably lots of nix-build output>
/nix/store/grvny5ga2i6jdxjjbh2ipdz7h50swi1n-morph
nix result path:
/nix/store/grvny5ga2i6jdxjjbh2ipdz7h50swi1n-morph
The result path is written twice, which is a bit silly, but the reason is that only the result path is written to stdout, and everything else (including nix-build
output) is redirected to stderr.
This makes it easy to use morph for scripting, e.g. if one want to build using morph and then nix copy
the result path somewhere else.
Note that examples/simple.nix
contain two different hosts definitions, and a lot of copy paste.
All the usual nix tricks can of course be used to avoid duplication.
Hosts can be deployed with the deploy
command as follows:
morph deploy examples/simple.nix
(this will fail without modifying examples/simple.nix
).
All hosts defined in a deployment file is returned to morph as a list of hosts, which can be manipulated with the following flags:
--on glob
can be used to select hosts by name, with support for glob patterns--limit n
puts an upper limit on the number of hosts--skip n
ignore the firstn
hosts--every n
selects every n'th host, useful for e.g. selecting all even (or odd) numbered hosts
(all relevant commands should already support these flags.)
The ordering currently can't be changed, but should be deterministic because of nix.
Most commands output a header like this:
Selected 4/17 hosts (name filter:-6, limits:-7):
0: foo-p02 (secrets: 0, health checks: 1)
1: foo-p05 (secrets: 0, health checks: 1)
2: foo-p08 (secrets: 0, health checks: 1)
3: foo-p11 (secrets: 0, health checks: 1)
The output is pretty self explanatory, except probably for the last bit of the first line.
name filter
shows the change in number of hosts after glob matching on the hosts name, and limits
shows the change after applying --limit
, --skip
and --every
.
Each host can be tagged with an arbitrary amount of tags, which can be used to select and sort hosts.
To tag a host, use the deployment.tags
option, e.g. deployment.tags = [ "prod" "master" "rack-17" ]
. Hosts can now be selected with the --tagged
option, e.g.--tagged="prod,master"
will only select hosts tagged both prod
and master
.
To sort hosts based on tags, use the network.ordering.tags
option, e.g. network.ordering.tags = [ "master" "slave"]
. This ordering can be changed at runtime using the --order-by-tags
option, eg. --order-by-tags="slave,master"
(this also works when network.ordering.tags
isn't defined). Hosts without matching tags will end up at the end of the list.
Morph supports the following (optional) environment variables:
SSH_IDENTITY_FILE
the (local) path to the SSH private key file that should be usedSSH_USER
specifies the user that should be used to connect to the remote systemSSH_SKIP_HOST_KEY_CHECK
if set disables host key verificationSSH_CONFIG_FILE
allows to change the location of the ~/.ssh/config fileMORPH_NIX_EVAL_CMD
morph will invoke this command instead of default: "nix-instantiate" on PATHMORPH_NIX_BUILD_CMD
morph will invoke this command instead of default: "nix-build" on PATHMORPH_NIX_SHELL_CMD
morph will invoke this command instead of default: "nix-shell" on PATHMORPH_NIX_EVAL_MACHINES
path to a custom eval-machines.nix. Defaults to the eval-machines.nix bundled with morph
Files can be uploaded without ever ending up in the nix store, by specifying each file as a secret. This will use scp for copying a local file to the remote host.
See examples/secrets.nix
or the type definitions in data/options.nix
.
To upload secrets, use the morph upload-secrets
subcommand, or pass --upload-secrets
to morph deploy
.
Note:
Morph will automatically create directories parent to secret.Destination
if they don't exist.
New dirs will be owned by root:root and have mode 755 (drwxr-xr-x).
Automatic directory creation can be disabled by setting secret.mkDirs = false
.
Morph has support for two types of health checks:
- command based health checks, which are run on the target host (success defined as exit code == 0)
- HTTP based health checks, which are run from the host Morph is running on (success defined as HTTP response codes in the 2xx range)
See examples/healthchecks.nix
for an example.
There are no guarantees about the order health checks are run in, so if you need something complex you should write a script for it (e.g. using pkgs.writeScript
).
Health checks will be repeated until success, and the interval can be configured with the period
option (see data/options.nix
for details).
It is currently possible to have expressions like "test \"$(systemctl list-units --failed --no-legend --no-pager |wc -l)\" -eq 0"
(count number of failed systemd units, fail if non-zero) as the first argument in a cmd-healthcheck. This works, but is discouraged, and might break at any time.
Morph supports running checks before changing the target host (note: files will still be pushed to the host). These checks work exactly like health checks, which means they will run forever until they have all succeeded. This is an experimental feature that is very likely to change in the future. Comments and feedback welcome :).
Pre-deploy checks can be defined using deployment.preDeployChecks
.
nix.conf-options: The "network"-attrset supports a sub-attrset named "nixConfig". Options configured here will pass --option <name> <value>
to all nix commands.
Note: these options apply to an entire deployment and are not configurable on per-host basis.
The default is an empty set, meaning that the nix configuration is inherited from the build environment. See man nix.conf
.
network.buildShell
By passing --allow-build-shell
and setting network.buildShell
to a nix-shell compatible derivation (eg. pkgs.mkShell ...
), it's possible to make morph execute builds from within the defined shell. This makes it possible to have arbitrary dependencies available during the build, say for use with nix build hooks. Be aware that the shell can potentially execute any command on the local system.
special deployment options:
(per-host granularity)
buildOnly
makes morph skip the "push" and "switch" steps for the given host, even if "morph deploy" or "morph push" is executed. (default: false)
substituteOnDestination
Sets the --substitute-on-destination
flag on nix copy, allowing for the deployment target to use substitutes. See nix copy --help
. (default: false)
Example usage of nixConfig
and deployment module options:
network = {
nixConfig = {
"extra-sandbox-paths" = "/foo/bar";
};
};
machine1 = { ... }: {
deployment.buildOnly = true;
};
machine2 = { ... }: {
deployment.substituteOnDestination = true;
};
mutually recursive configurations
Each host's configuration has access to a nodes
argument, which contains the compiled configurations of all hosts.
machine1 = { nodes, ... }: {
hostnames.machine2 =
(builtins.head nodes.machine2.networking.interfaces.foo.ipv4.addresses).address;
networking.interfaces.foo.ipv4.addresses = [
{
address = "10.0.0.10";
prefixLength = 32;
}
];
}
machine2 = { nodes, ... }: {
hostnames.machine1 =
(builtins.head nodes.machine1.networking.interfaces.foo.ipv4.addresses).address;
networking.interfaces.foo.ipv4.addresses = [
{
address = "10.0.0.20";
prefixLength = 32;
}
];
}
All commands mentioned below is available in the nix-shell, if you run nix-shell
with working dir = project root. The included shell.nix
uses the latest nixos-unstable
from GitHub by default, but you can override this by passing in another, eg. nix-shell --arg nixpkgs '<nixpkgs>'
for your $NIX_PATH
nixpkgs.
From within nix-shell
, go get -u
updates all go modules. Remember to update the vendorSha256
in ./default.nix
$ nix-build --arg nixpkgs "builtins.fetchTarball https://github.com/NixOS/nixpkgs/archive/<rev>.tar.gz"
We needed a tool for managing our NixOS servers, and ended up writing one ourself. This is it. We use it on a daily basis to build and deploy our NixOS fleet, and when we need a feature we add it.
Morph is by no means done. The CLI UI might (and probably will) change once in a while. The code is written by humans with an itch to scratch, and we're discussing a complete rewrite (so feel free to complain about the source code since we don't like it either). It probably wont accidentally switch your local machine, so you should totally try it out, but do consider pinning to a specific git revision.