2020-07-22 18:27:23 +00:00
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# Introduction
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2020-07-22 11:51:11 +00:00
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Nix is a _purely functional package manager_. This means that it
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treats packages like values in purely functional programming languages
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such as Haskell — they are built by functions that don’t have
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side-effects, and they never change after they have been built. Nix
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stores packages in the _Nix store_, usually the directory
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`/nix/store`, where each package has its own unique subdirectory such
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as
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/nix/store/b6gvzjyb2pg0kjfwrjmg1vfhh54ad73z-firefox-33.1/
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where `b6gvzjyb2pg0…` is a unique identifier for the package that
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captures all its dependencies (it’s a cryptographic hash of the
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package’s build dependency graph). This enables many powerful
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features.
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## Multiple versions
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You can have multiple versions or variants of a package
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installed at the same time. This is especially important when
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different applications have dependencies on different versions of the
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same package — it prevents the “DLL hell”. Because of the hashing
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scheme, different versions of a package end up in different paths in
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the Nix store, so they don’t interfere with each other.
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An important consequence is that operations like upgrading or
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uninstalling an application cannot break other applications, since
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these operations never “destructively” update or delete files that are
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used by other packages.
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## Complete dependencies
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Nix helps you make sure that package dependency specifications are
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complete. In general, when you’re making a package for a package
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management system like RPM, you have to specify for each package what
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its dependencies are, but there are no guarantees that this
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specification is complete. If you forget a dependency, then the
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package will build and work correctly on _your_ machine if you have
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the dependency installed, but not on the end user's machine if it's
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not there.
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Since Nix on the other hand doesn’t install packages in “global”
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locations like `/usr/bin` but in package-specific directories, the
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risk of incomplete dependencies is greatly reduced. This is because
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tools such as compilers don’t search in per-packages directories such
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as `/nix/store/5lbfaxb722zp…-openssl-0.9.8d/include`, so if a package
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builds correctly on your system, this is because you specified the
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dependency explicitly. This takes care of the build-time dependencies.
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Once a package is built, runtime dependencies are found by scanning
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binaries for the hash parts of Nix store paths (such as `r8vvq9kq…`).
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This sounds risky, but it works extremely well.
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## Multi-user support
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Nix has multi-user support. This means that non-privileged users can
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securely install software. Each user can have a different _profile_,
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a set of packages in the Nix store that appear in the user’s `PATH`.
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If a user installs a package that another user has already installed
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previously, the package won’t be built or downloaded a second time.
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At the same time, it is not possible for one user to inject a Trojan
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horse into a package that might be used by another user.
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## Atomic upgrades and rollbacks
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Since package management operations never overwrite packages in the
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Nix store but just add new versions in different paths, they are
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_atomic_. So during a package upgrade, there is no time window in
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which the package has some files from the old version and some files
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from the new version — which would be bad because a program might well
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crash if it’s started during that period.
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And since packages aren’t overwritten, the old versions are still
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there after an upgrade. This means that you can _roll back_ to the
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old version:
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2020-07-31 13:43:25 +00:00
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```console
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2021-11-17 15:30:39 +00:00
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$ nix-env --upgrade -A nixpkgs.some-package
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2020-07-31 13:43:25 +00:00
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$ nix-env --rollback
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```
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2020-07-22 11:51:11 +00:00
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## Garbage collection
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When you uninstall a package like this…
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2020-07-31 13:43:25 +00:00
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```console
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$ nix-env --uninstall firefox
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```
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2020-07-22 11:51:11 +00:00
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the package isn’t deleted from the system right away (after all, you
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might want to do a rollback, or it might be in the profiles of other
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users). Instead, unused packages can be deleted safely by running the
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_garbage collector_:
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2020-07-31 13:43:25 +00:00
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```console
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$ nix-collect-garbage
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```
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2020-07-22 11:51:11 +00:00
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This deletes all packages that aren’t in use by any user profile or by
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a currently running program.
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## Functional package language
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Packages are built from _Nix expressions_, which is a simple
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functional language. A Nix expression describes everything that goes
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into a package build action (a “derivation”): other packages, sources,
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the build script, environment variables for the build script, etc.
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Nix tries very hard to ensure that Nix expressions are
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_deterministic_: building a Nix expression twice should yield the same
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result.
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Because it’s a functional language, it’s easy to support
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building variants of a package: turn the Nix expression into a
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function and call it any number of times with the appropriate
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arguments. Due to the hashing scheme, variants don’t conflict with
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each other in the Nix store.
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## Transparent source/binary deployment
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Nix expressions generally describe how to build a package from
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source, so an installation action like
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2020-07-31 13:43:25 +00:00
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```console
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2021-11-17 15:30:39 +00:00
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$ nix-env --install -A nixpkgs.firefox
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2020-07-31 13:43:25 +00:00
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```
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2020-07-22 11:51:11 +00:00
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_could_ cause quite a bit of build activity, as not only Firefox but
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also all its dependencies (all the way up to the C library and the
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2021-11-03 16:11:20 +00:00
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compiler) would have to be built, at least if they are not already in the
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2020-07-22 11:51:11 +00:00
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Nix store. This is a _source deployment model_. For most users,
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building from source is not very pleasant as it takes far too long.
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However, Nix can automatically skip building from source and instead
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use a _binary cache_, a web server that provides pre-built
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binaries. For instance, when asked to build
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`/nix/store/b6gvzjyb2pg0…-firefox-33.1` from source, Nix would first
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check if the file `https://cache.nixos.org/b6gvzjyb2pg0….narinfo`
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exists, and if so, fetch the pre-built binary referenced from there;
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otherwise, it would fall back to building from source.
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## Nix Packages collection
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We provide a large set of Nix expressions containing hundreds of
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existing Unix packages, the _Nix Packages collection_ (Nixpkgs).
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## Managing build environments
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Nix is extremely useful for developers as it makes it easy to
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automatically set up the build environment for a package. Given a Nix
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expression that describes the dependencies of your package, the
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command `nix-shell` will build or download those dependencies if
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they’re not already in your Nix store, and then start a Bash shell in
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which all necessary environment variables (such as compiler search
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paths) are set.
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For example, the following command gets all dependencies of the
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Pan newsreader, as described by [its
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Nix expression](https://github.com/NixOS/nixpkgs/blob/master/pkgs/applications/networking/newsreaders/pan/default.nix):
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2020-07-31 13:43:25 +00:00
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```console
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$ nix-shell '<nixpkgs>' -A pan
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```
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You’re then dropped into a shell where you can edit, build and test
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the package:
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2020-07-31 13:43:25 +00:00
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```console
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2021-01-01 01:17:37 +00:00
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[nix-shell]$ unpackPhase
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[nix-shell]$ cd pan-*
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2021-01-01 01:17:37 +00:00
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[nix-shell]$ configurePhase
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[nix-shell]$ buildPhase
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[nix-shell]$ ./pan/gui/pan
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```
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2020-07-22 11:51:11 +00:00
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## Portability
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Nix runs on Linux and macOS.
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## NixOS
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NixOS is a Linux distribution based on Nix. It uses Nix not just for
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package management but also to manage the system configuration (e.g.,
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to build configuration files in `/etc`). This means, among other
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things, that it is easy to roll back the entire configuration of the
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system to an earlier state. Also, users can install software without
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root privileges. For more information and downloads, see the [NixOS
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homepage](https://nixos.org/).
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## License
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Nix is released under the terms of the [GNU LGPLv2.1 or (at your
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option) any later
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version](http://www.gnu.org/licenses/old-licenses/lgpl-2.1.html).
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