Introduce mkBinaryCache function

This commit is contained in:
Tom McLaughlin 2022-10-03 22:06:28 -06:00
parent c5ce8986df
commit d1a2a16a3a
7 changed files with 198 additions and 0 deletions

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@ -11,4 +11,5 @@
<xi:include href="images/snaptools.section.xml" />
<xi:include href="images/portableservice.section.xml" />
<xi:include href="images/makediskimage.section.xml" />
<xi:include href="images/binarycache.section.xml" />
</chapter>

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# pkgs.mkBinaryCache {#sec-pkgs-binary-cache}
`pkgs.mkBinaryCache` is a function for creating Nix flat-file binary caches. Such a cache exists as a directory on disk, and can be used as a Nix substituter by passing `--substituter file:///path/to/cache` to Nix commands.
Nix packages are most commonly shared between machines using [HTTP, SSH, or S3](https://nixos.org/manual/nix/stable/package-management/sharing-packages.html), but a flat-file binary cache can still be useful in some situations. For example, you can copy it directly to another machine, or make it available on a network file system. It can also be a convenient way to make some Nix packages available inside a container via bind-mounting.
Note that this function is meant for advanced use-cases. The more idiomatic way to work with flat-file binary caches is via the [nix-copy-closure](https://nixos.org/manual/nix/stable/command-ref/nix-copy-closure.html) command. You may also want to consider [dockerTools](#sec-pkgs-dockerTools) for your containerization needs.
## Example
The following derivation will construct a flat-file binary cache containing the closure of `hello`.
```nix
mkBinaryCache {
rootPaths = [hello];
}
```
- `rootPaths` specifies a list of root derivations. The transitive closure of these derivations' outputs will be copied into the cache.
Here's an example of building and using the cache.
Build the cache on one machine, `host1`:
```shellSession
nix-build -E 'with import <nixpkgs> {}; mkBinaryCache { rootPaths = [hello]; }'
```
```shellSession
/nix/store/cc0562q828rnjqjyfj23d5q162gb424g-binary-cache
```
Copy the resulting directory to the other machine, `host2`:
```shellSession
scp result host2:/tmp/hello-cache
```
Build the derivation using the flat-file binary cache on the other machine, `host2`:
```shellSession
nix-build -A hello '<nixpkgs>' \
--option require-sigs false \
--option trusted-substituters file:///tmp/hello-cache \
--option substituters file:///tmp/hello-cache
```
```shellSession
/nix/store/gl5a41azbpsadfkfmbilh9yk40dh5dl0-hello-2.12.1
```

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@ -92,6 +92,7 @@ in {
bcachefs = handleTestOn ["x86_64-linux" "aarch64-linux"] ./bcachefs.nix {};
beanstalkd = handleTest ./beanstalkd.nix {};
bees = handleTest ./bees.nix {};
binary-cache = handleTest ./binary-cache.nix {};
bind = handleTest ./bind.nix {};
bird = handleTest ./bird.nix {};
bitcoind = handleTest ./bitcoind.nix {};

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import ./make-test-python.nix ({ lib, ... }:
with lib;
{
name = "binary-cache";
meta.maintainers = with maintainers; [ thomasjm ];
nodes.machine =
{ pkgs, ... }: {
imports = [ ../modules/installer/cd-dvd/channel.nix ];
environment.systemPackages = with pkgs; [python3];
system.extraDependencies = with pkgs; [hello.inputDerivation];
nix.extraOptions = ''
experimental-features = nix-command
'';
};
testScript = ''
# Build the cache, then remove it from the store
cachePath = machine.succeed("nix-build --no-out-link -E 'with import <nixpkgs> {}; mkBinaryCache { rootPaths = [hello]; }'").strip()
machine.succeed("cp -r %s/. /tmp/cache" % cachePath)
machine.succeed("nix-store --delete " + cachePath)
# Sanity test of cache structure
status, stdout = machine.execute("ls /tmp/cache")
cache_files = stdout.split()
assert ("nix-cache-info" in cache_files)
assert ("nar" in cache_files)
# Nix store ping should work
machine.succeed("nix store ping --store file:///tmp/cache")
# Cache should contain a .narinfo referring to "hello"
grepLogs = machine.succeed("grep -l 'StorePath: /nix/store/[[:alnum:]]*-hello-.*' /tmp/cache/*.narinfo")
# Get the store path referenced by the .narinfo
narInfoFile = grepLogs.strip()
narInfoContents = machine.succeed("cat " + narInfoFile)
import re
match = re.match(r"^StorePath: (/nix/store/[a-z0-9]*-hello-.*)$", narInfoContents, re.MULTILINE)
if not match: raise Exception("Couldn't find hello store path in cache")
storePath = match[1]
# Delete the store path
machine.succeed("nix-store --delete " + storePath)
machine.succeed("[ ! -d %s ] || exit 1" % storePath)
# Should be able to build hello using the cache
logs = machine.succeed("nix-build -A hello '<nixpkgs>' --option require-sigs false --option trusted-substituters file:///tmp/cache --option substituters file:///tmp/cache 2>&1")
logLines = logs.split("\n")
if not "this path will be fetched" in logLines[0]: raise Exception("Unexpected first log line")
def shouldBe(got, desired):
if got != desired: raise Exception("Expected '%s' but got '%s'" % (desired, got))
shouldBe(logLines[1], " " + storePath)
shouldBe(logLines[2], "copying path '%s' from 'file:///tmp/cache'..." % storePath)
shouldBe(logLines[3], storePath)
# Store path should exist in the store now
machine.succeed("[ -d %s ] || exit 1" % storePath)
'';
})

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{ stdenv, buildPackages }:
# This function is for creating a flat-file binary cache, i.e. the kind created by
# nix copy --to file:///some/path and usable as a substituter (with the file:// prefix).
# For example, in the Nixpkgs repo:
# nix-build -E 'with import ./. {}; mkBinaryCache { rootPaths = [hello]; }'
{ name ? "binary-cache"
, rootPaths
}:
stdenv.mkDerivation {
inherit name;
__structuredAttrs = true;
exportReferencesGraph.closure = rootPaths;
preferLocalBuild = true;
PATH = "${buildPackages.coreutils}/bin:${buildPackages.jq}/bin:${buildPackages.python3}/bin:${buildPackages.nix}/bin:${buildPackages.xz}/bin";
builder = builtins.toFile "builder" ''
. .attrs.sh
export out=''${outputs[out]}
mkdir $out
mkdir $out/nar
python ${./make-binary-cache.py}
# These directories must exist, or Nix might try to create them in LocalBinaryCacheStore::init(),
# which fails if mounted read-only
mkdir $out/realisations
mkdir $out/debuginfo
mkdir $out/log
'';
}

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import json
import os
import subprocess
with open(".attrs.json", "r") as f:
closures = json.load(f)["closure"]
os.chdir(os.environ["out"])
nixPrefix = os.environ["NIX_STORE"] # Usually /nix/store
with open("nix-cache-info", "w") as f:
f.write("StoreDir: " + nixPrefix + "\n")
def dropPrefix(path):
return path[len(nixPrefix + "/"):]
for item in closures:
narInfoHash = dropPrefix(item["path"]).split("-")[0]
xzFile = "nar/" + narInfoHash + ".nar.xz"
with open(xzFile, "w") as f:
subprocess.run("nix-store --dump %s | xz -c" % item["path"], stdout=f, shell=True)
fileHash = subprocess.run(["nix-hash", "--base32", "--type", "sha256", item["path"]], capture_output=True).stdout.decode().strip()
fileSize = os.path.getsize(xzFile)
# Rename the .nar.xz file to its own hash to match "nix copy" behavior
finalXzFile = "nar/" + fileHash + ".nar.xz"
os.rename(xzFile, finalXzFile)
with open(narInfoHash + ".narinfo", "w") as f:
f.writelines((x + "\n" for x in [
"StorePath: " + item["path"],
"URL: " + finalXzFile,
"Compression: xz",
"FileHash: sha256:" + fileHash,
"FileSize: " + str(fileSize),
"NarHash: " + item["narHash"],
"NarSize: " + str(item["narSize"]),
"References: " + " ".join(dropPrefix(ref) for ref in item["references"]),
]))

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@ -1031,6 +1031,8 @@ with pkgs;
inherit kernel firmware rootModules allowMissing;
};
mkBinaryCache = callPackage ../build-support/binary-cache { };
mkShell = callPackage ../build-support/mkshell { };
mkShellNoCC = mkShell.override { stdenv = stdenvNoCC; };