refactor(build-image): Do not assemble image layers in Nix

This is the first step towards a more granular build process where
some of the build responsibility moves into the server component.

Rather than assembling all layers inside of Nix, it will only create
the symlink forest and return information about the runtime paths
required by the image.

The server is then responsible for grouping these paths into layers,
and assembling the layers themselves.

Relates to #50.
This commit is contained in:
Vincent Ambo 2019-09-29 22:49:50 +01:00 committed by Vincent Ambo
parent ad9b3eb262
commit 712b38cbbc

View file

@ -12,43 +12,38 @@
# See the License for the specific language governing permissions and
# limitations under the License.
# This file contains a modified version of dockerTools.buildImage that, instead
# of outputting a single tarball which can be imported into a running Docker
# daemon, builds a manifest file that can be used for serving the image over a
# registry API.
# This file contains a derivation that outputs structured information
# about the runtime dependencies of an image with a given set of
# packages. This is used by Nixery to determine the layer grouping and
# assemble each layer.
#
# In addition it creates and outputs a meta-layer with the symlink
# structure required for using the image together with the individual
# package layers.
{
# Package set to used (this will usually be loaded by load-pkgs.nix)
pkgs,
# Image Name
name,
# Image tag, the Nix output's hash will be used if null
tag ? null,
# Tool used to determine layer grouping
groupLayers,
# Files to put on the image (a nix store path or list of paths).
contents ? [],
# Description of the package set to be used (will be loaded by load-pkgs.nix)
srcType ? "nixpkgs",
srcArgs ? "nixos-19.03",
importArgs ? { },
# Packages to install by name (which must refer to top-level attributes of
# nixpkgs). This is passed in as a JSON-array in string form.
packages ? "[]",
# Docker's modern image storage mechanisms have a maximum of 125
# layers. To allow for some extensibility (via additional layers),
# the default here is set to something a little less than that.
maxLayers ? 96,
# Popularity data for layer solving is fetched from the URL passed
# in here.
popularityUrl ? "https://storage.googleapis.com/nixery-layers/popularity/popularity-19.03.173490.5271f8dddc0.json",
...
packages ? "[]"
}:
with builtins;
let
inherit (builtins)
foldl'
fromJSON
hasAttr
length
readFile
toFile
toJSON;
inherit (pkgs) lib runCommand writeText;
tarLayer = "application/vnd.docker.image.rootfs.diff.tar";
baseName = baseNameOf name;
pkgs = import ./load-pkgs.nix { inherit srcType srcArgs importArgs; };
# deepFetch traverses the top-level Nix package set to retrieve an item via a
# path specified in string form.
@ -87,11 +82,11 @@ let
fetchLower = attrByPath caseAmendedPath err s;
in attrByPath path fetchLower s;
# allContents is the combination of all derivations and store paths passed in
# directly, as well as packages referred to by name.
# allContents contains all packages successfully retrieved by name
# from the package set, as well as any errors encountered while
# attempting to fetch a package.
#
# It accumulates potential errors about packages that could not be found to
# return this information back to the server.
# Accumulated error information is returned back to the server.
allContents =
# Folds over the results of 'deepFetch' on all requested packages to
# separate them into errors and content. This allows the program to
@ -100,157 +95,57 @@ let
if hasAttr "error" res
then attrs // { errors = attrs.errors ++ [ res ]; }
else attrs // { contents = attrs.contents ++ [ res ]; };
init = { inherit contents; errors = []; };
init = { contents = []; errors = []; };
fetched = (map (deepFetch pkgs) (fromJSON packages));
in foldl' splitter init fetched;
popularity = builtins.fetchurl popularityUrl;
# Before actually creating any image layers, the store paths that need to be
# included in the image must be sorted into the layers that they should go
# into.
# Contains the export references graph of all retrieved packages,
# which has information about all runtime dependencies of the image.
#
# How contents are allocated to each layer is decided by the `group-layers.go`
# program. The mechanism used is described at the top of the program's source
# code, or alternatively in the layering design document:
#
# https://storage.googleapis.com/nixdoc/nixery-layers.html
#
# To invoke the program, a graph of all runtime references is created via
# Nix's exportReferencesGraph feature - the resulting layers are read back
# into Nix using import-from-derivation.
groupedLayers = fromJSON (readFile (runCommand "grouped-layers.json" {
# This is used by Nixery to group closures into image layers.
runtimeGraph = runCommand "runtime-graph.json" {
__structuredAttrs = true;
exportReferencesGraph.graph = allContents.contents;
PATH = "${groupLayers}/bin";
PATH = "${pkgs.coreutils}/bin";
builder = toFile "builder" ''
. .attrs.sh
group-layers --budget ${toString (maxLayers - 1)} --pop ${popularity} --out ''${outputs[out]}
cp .attrs.json ''${outputs[out]}
'';
} ""));
} "";
# Given a list of store paths, create an image layer tarball with
# their contents.
pathsToLayer = paths: runCommand "layer.tar" {
} ''
tar --no-recursion -Prf "$out" \
--mtime="@$SOURCE_DATE_EPOCH" \
--owner=0 --group=0 /nix /nix/store
tar -Prpf "$out" --hard-dereference --sort=name \
--mtime="@$SOURCE_DATE_EPOCH" \
--owner=0 --group=0 ${lib.concatStringsSep " " paths}
'';
bulkLayers = writeText "bulk-layers"
(lib.concatStringsSep "\n" (map (layer: pathsToLayer layer.contents)
groupedLayers));
# Create a symlink forest into all top-level store paths.
# Create a symlink forest into all top-level store paths of the
# image contents.
contentsEnv = pkgs.symlinkJoin {
name = "bulk-layers";
paths = allContents.contents;
};
# This customisation layer which contains the symlink forest
# required at container runtime is assembled with a simplified
# version of dockerTools.mkCustomisationLayer.
#
# No metadata creation (such as layer hashing) is required when
# serving images over the API.
customisationLayer = runCommand "customisation-layer.tar" {} ''
# Image layer that contains the symlink forest created above. This
# must be included in the image to ensure that the filesystem has a
# useful layout at runtime.
symlinkLayer = runCommand "symlink-layer.tar" {} ''
cp -r ${contentsEnv}/ ./layer
tar --transform='s|^\./||' -C layer --sort=name --mtime="@$SOURCE_DATE_EPOCH" --owner=0 --group=0 -cf $out .
'';
# Inspect the returned bulk layers to determine which layers belong to the
# image and how to serve them.
#
# This computes both an MD5 and a SHA256 hash of each layer, which are used
# for different purposes. See the registry server implementation for details.
allLayersJson = runCommand "fs-layer-list.json" {
# Metadata about the symlink layer which is required for serving it.
# Two different hashes are computed for different usages (inclusion
# in manifest vs. content-checking in the layer cache).
symlinkLayerMeta = fromJSON (readFile (runCommand "symlink-layer-meta.json" {
buildInputs = with pkgs; [ coreutils jq openssl ];
} ''
cat ${bulkLayers} | sort -t/ -k5 -n > layer-list
echo ${customisationLayer} >> layer-list
}''
layerSha256=$(sha256sum ${symlinkLayer} | cut -d ' ' -f1)
layerMd5=$(openssl dgst -md5 -binary ${symlinkLayer} | openssl enc -base64)
layerSize=$(stat --printf '%s' ${symlinkLayer})
for layer in $(cat layer-list); do
layerSha256=$(sha256sum $layer | cut -d ' ' -f1)
# The server application compares binary MD5 hashes and expects base64
# encoding instead of hex.
layerMd5=$(openssl dgst -md5 -binary $layer | openssl enc -base64)
layerSize=$(stat --printf '%s' $layer)
jq -n -c --arg sha256 $layerSha256 --arg md5 $layerMd5 --arg size $layerSize --arg path $layer \
'{ size: ($size | tonumber), sha256: $sha256, md5: $md5, path: $path }' >> fs-layers
done
cat fs-layers | jq -s -c '.' > $out
'';
allLayers = fromJSON (readFile allLayersJson);
# Image configuration corresponding to the OCI specification for the file type
# 'application/vnd.oci.image.config.v1+json'
config = {
architecture = "amd64";
os = "linux";
rootfs.type = "layers";
rootfs.diff_ids = map (layer: "sha256:${layer.sha256}") allLayers;
# Required to let Kubernetes import Nixery images
config = {};
};
configJson = writeText "${baseName}-config.json" (toJSON config);
configMetadata = fromJSON (readFile (runCommand "config-meta" {
buildInputs = with pkgs; [ jq openssl ];
} ''
size=$(stat --printf '%s' ${configJson})
sha256=$(sha256sum ${configJson} | cut -d ' ' -f1)
md5=$(openssl dgst -md5 -binary ${configJson} | openssl enc -base64)
jq -n -c --arg size $size --arg sha256 $sha256 --arg md5 $md5 \
'{ size: ($size | tonumber), sha256: $sha256, md5: $md5 }' \
>> $out
jq -n -c --arg sha256 $layerSha256 --arg md5 $layerMd5 --arg size $layerSize --arg path ${symlinkLayer} \
'{ size: ($size | tonumber), sha256: $sha256, md5: $md5, path: $path }' >> $out
''));
# Corresponds to the manifest JSON expected by the Registry API.
#
# This is Docker's "Image Manifest V2, Schema 2":
# https://docs.docker.com/registry/spec/manifest-v2-2/
manifest = {
schemaVersion = 2;
mediaType = "application/vnd.docker.distribution.manifest.v2+json";
config = {
mediaType = "application/vnd.docker.container.image.v1+json";
size = configMetadata.size;
digest = "sha256:${configMetadata.sha256}";
};
layers = map (layer: {
mediaType = tarLayer;
digest = "sha256:${layer.sha256}";
size = layer.size;
}) allLayers;
};
# This structure maps each layer digest to the actual tarball that will need
# to be served. It is used by the controller to cache the paths during a pull.
layerLocations = {
"${configMetadata.sha256}" = {
path = configJson;
md5 = configMetadata.md5;
};
} // (listToAttrs (map (layer: {
name = "${layer.sha256}";
value = {
path = layer.path;
md5 = layer.md5;
};
}) allLayers));
# Final output structure returned to the controller in the case of a
# successful build.
manifestOutput = {
inherit manifest layerLocations;
# Final output structure returned to Nixery if the build succeeded
buildOutput = {
runtimeGraph = fromJSON (readFile runtimeGraph);
symlinkLayer = symlinkLayerMeta;
};
# Output structure returned if errors occured during the build. Currently the
@ -259,7 +154,7 @@ let
error = "not_found";
pkgs = map (err: err.pkg) allContents.errors;
};
in writeText "manifest-output.json" (if (length allContents.errors) == 0
then toJSON manifestOutput
in writeText "build-output.json" (if (length allContents.errors) == 0
then toJSON buildOutput
else toJSON errorOutput
)