depot/third_party/tvl/nix/buildkite/default.nix

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Nix

# Logic for generating Buildkite pipelines from Nix build targets read
# by //nix/readTree.
#
# It outputs a "YAML" (actually JSON) file which is evaluated and
# submitted to Buildkite at the start of each build.
#
# The structure of the file that is being created is documented here:
# https://buildkite.com/docs/pipelines/defining-steps
{ depot, pkgs, ... }:
let
inherit (builtins)
attrValues
concatMap
concatStringsSep
filter
foldl'
getEnv
hasAttr
hashString
isNull
isString
length
listToAttrs
mapAttrs
partition
pathExists
toJSON
unsafeDiscardStringContext;
inherit (pkgs) lib runCommand writeText;
inherit (depot.nix.readTree) mkLabel;
in
rec {
# Creates a Nix expression that yields the target at the specified
# location in the repository.
#
# This makes a distinction between normal targets (which physically
# exist in the repository) and subtargets (which are "virtual"
# targets exposed by a physical one) to make it clear in the build
# output which is which.
mkBuildExpr = target:
let
descend = expr: attr: "builtins.getAttr \"${attr}\" (${expr})";
targetExpr = foldl' descend "import ./. {}" target.__readTree;
subtargetExpr = descend targetExpr target.__subtarget;
in
if target ? __subtarget then subtargetExpr else targetExpr;
# Determine whether to skip a target if it has not diverged from the
# HEAD branch.
shouldSkip = parentTargetMap: label: drvPath:
if (hasAttr label parentTargetMap) && parentTargetMap."${label}".drvPath == drvPath
then "Target has not changed."
else false;
# Create build command for a derivation target.
mkBuildCommand = target: drvPath: concatStringsSep " " [
# First try to realise the drvPath of the target so we don't evaluate twice.
# Nix has no concept of depending on a derivation file without depending on
# at least one of its `outPath`s, so we need to discard the string context
# if we don't want to build everything during pipeline construction.
"(nix-store --realise '${drvPath}' --add-root result --indirect && readlink result)"
# Since we don't gcroot the derivation files, they may be deleted by the
# garbage collector. In that case we can reevaluate and build the attribute
# using nix-build.
"|| (test ! -f '${drvPath}' && nix-build -E '${mkBuildExpr target}' --show-trace)"
];
# Create a pipeline step from a single target.
mkStep = headBranch: parentTargetMap: target:
let
label = mkLabel target;
drvPath = unsafeDiscardStringContext target.drvPath;
shouldSkip' = shouldSkip parentTargetMap;
in
{
label = ":nix: " + label;
key = hashString "sha1" label;
skip = shouldSkip' label drvPath;
command = mkBuildCommand target drvPath;
env.READTREE_TARGET = label;
# Add a dependency on the initial static pipeline step which
# always runs. This allows build steps uploaded in batches to
# start running before all batches have been uploaded.
depends_on = ":init:";
};
# Helper function to inelegantly divide a list into chunks of at
# most n elements.
#
# This works by assigning each element a chunk ID based on its
# index, and then grouping all elements by their chunk ID.
chunksOf = n: list:
let
chunkId = idx: toString (idx / n + 1);
assigned = lib.imap1 (idx: value: { inherit value; chunk = chunkId idx; }) list;
unchunk = mapAttrs (_: elements: map (e: e.value) elements);
in
unchunk (lib.groupBy (e: e.chunk) assigned);
# Define a build pipeline chunk as a JSON file, using the pipeline
# format documented on
# https://buildkite.com/docs/pipelines/defining-steps.
makePipelineChunk = name: chunkId: chunk: rec {
filename = "${name}-chunk-${chunkId}.json";
path = writeText filename (toJSON {
steps = chunk;
});
};
# Split the pipeline into chunks of at most 256 steps at once, which
# are uploaded sequentially. This is because of a limitation in the
# Buildkite backend which struggles to process more than a specific
# number of chunks at once.
pipelineChunks = name: steps:
attrValues (mapAttrs (makePipelineChunk name) (chunksOf 192 steps));
# Create a pipeline structure for the given targets.
mkPipeline =
{
# HEAD branch of the repository on which release steps, GC
# anchoring and other "mainline only" steps should run.
headBranch
, # List of derivations as read by readTree (in most cases just the
# output of readTree.gather) that should be built in Buildkite.
#
# These are scheduled as the first build steps and run as fast as
# possible, in order, without any concurrency restrictions.
drvTargets
, # Derivation map of a parent commit. Only targets which no longer
# correspond to the content of this map will be built. Passing an
# empty map will always build all targets.
parentTargetMap ? { }
, # A list of plain Buildkite step structures to run alongside the
# build for all drvTargets, but before proceeding with any
# post-build actions such as status reporting.
#
# Can be used for things like code formatting checks.
additionalSteps ? [ ]
, # A list of plain Buildkite step structures to run after all
# previous steps succeeded.
#
# Can be used for status reporting steps and the like.
postBuildSteps ? [ ]
}:
let
# Convert a target into all of its build and post-build steps,
# treated separately as they need to be in different chunks.
targetToSteps = target:
let
step = mkStep headBranch parentTargetMap target;
# Same step, but with an override function applied. This is
# used in mkExtraStep if the extra step needs to modify the
# parent derivation somehow.
#
# Note that this will never affect the label.
overridable = f: mkStep headBranch parentTargetMap (f target);
# Split build/post-build steps
splitExtraSteps = partition ({ postStep, ... }: postStep)
(attrValues (mapAttrs
(name: value: {
inherit name value;
postStep = (value ? prompt) || (value.postBuild or false);
})
(target.meta.ci.extraSteps or { })));
mkExtraStep' = { name, value, ... }: mkExtraStep overridable name value;
extraBuildSteps = map mkExtraStep' splitExtraSteps.wrong; # 'wrong' -> no prompt
extraPostSteps = map mkExtraStep' splitExtraSteps.right; # 'right' -> has prompt
in
{
buildSteps = [ step ] ++ extraBuildSteps;
postSteps = extraPostSteps;
};
# Combine all target steps into separate build and post-build step lists.
steps = foldl'
(acc: t: {
buildSteps = acc.buildSteps ++ t.buildSteps;
postSteps = acc.postSteps ++ t.postSteps;
})
{ buildSteps = [ ]; postSteps = [ ]; }
(map targetToSteps drvTargets);
buildSteps =
# Add build steps for each derivation target and their extra
# steps.
steps.buildSteps
# Add additional steps (if set).
++ additionalSteps;
postSteps =
# Add post-build steps for each derivation target.
steps.postSteps
# Add any globally defined post-build steps.
++ postBuildSteps;
buildChunks = pipelineChunks "build" buildSteps;
postBuildChunks = pipelineChunks "post" postSteps;
chunks = buildChunks ++ postBuildChunks;
in
runCommand "buildkite-pipeline" { } ''
mkdir $out
echo "Generated ${toString (length chunks)} pipeline chunks"
${
lib.concatMapStringsSep "\n"
(chunk: "cp ${chunk.path} $out/${chunk.filename}") chunks
}
'';
# Create a drvmap structure for the given targets, containing the
# mapping of all target paths to their derivations. The mapping can
# be persisted for future use.
mkDrvmap = drvTargets: writeText "drvmap.json" (toJSON (listToAttrs (map
(target: {
name = mkLabel target;
value = {
drvPath = unsafeDiscardStringContext target.drvPath;
# Include the attrPath in the output to reconstruct the drv
# without parsing the human-readable label.
attrPath = target.__readTree ++ lib.optionals (target ? __subtarget) [
target.__subtarget
];
};
})
drvTargets)));
# Implementation of extra step logic.
#
# Each target extra step is an attribute specified in
# `meta.ci.extraSteps`. Its attribute name will be used as the step
# name on Buildkite.
#
# command (required): A command that will be run in the depot
# checkout when this step is executed. Should be a derivation
# resulting in a single executable file, e.g. through
# pkgs.writeShellScript.
#
# label (optional): Human-readable label for this step to display
# in the Buildkite UI instead of the attribute name.
#
# prompt (optional): Setting this blocks the step until confirmed
# by a human. Should be a string which is displayed for
# confirmation. These steps always run after the main build is
# done and have no influence on CI status.
#
# postBuild (optional): If set to true, this step will run after
# all primary build steps (that is, after status has been reported
# back to CI).
#
# needsOutput (optional): If set to true, the parent derivation
# will be built in the working directory before running the
# command. Output will be available as 'result'.
# TODO: Figure out multiple-output derivations.
#
# parentOverride (optional): A function (drv -> drv) to override
# the parent's target definition when preparing its output. Only
# used in extra steps that use needsOutput.
#
# branches (optional): Git references (branches, tags ... ) on
# which this step should be allowed to run. List of strings.
#
# alwaysRun (optional): If set to true, this step will always run,
# even if its parent has not been rebuilt.
#
# Note that gated steps are independent of each other.
# Create a gated step in a step group, independent from any other
# steps.
mkGatedStep = { step, label, parent, prompt }: {
inherit (step) depends_on;
group = label;
skip = parent.skip or false;
steps = [
{
inherit (step) branches;
inherit prompt;
block = ":radio_button: Run ${label}? (from ${parent.env.READTREE_TARGET})";
}
# The explicit depends_on of the wrapped step must be removed,
# otherwise its dependency relationship with the gate step will
# break.
(builtins.removeAttrs step [ "depends_on" ])
];
};
# Create the Buildkite configuration for an extra step, optionally
# wrapping it in a gate group.
mkExtraStep = overridableParent: key:
{ command
, label ? key
, prompt ? false
, needsOutput ? false
, parentOverride ? (x: x)
, branches ? null
, alwaysRun ? false
, postBuild ? false
}@cfg:
let
parent = overridableParent parentOverride;
parentLabel = parent.env.READTREE_TARGET;
step = {
label = ":gear: ${label} (from ${parentLabel})";
skip = if alwaysRun then false else parent.skip or false;
depends_on = lib.optional (!alwaysRun && !needsOutput) parent.key;
branches = if branches != null then lib.concatStringsSep " " branches else null;
command = pkgs.writeShellScript "${key}-script" ''
set -ueo pipefail
${lib.optionalString needsOutput "echo '~~~ Preparing build output of ${parentLabel}'"}
${lib.optionalString needsOutput parent.command}
echo '+++ Running extra step command'
exec ${command}
'';
};
in
if (isString prompt)
then
mkGatedStep
{
inherit step label parent prompt;
}
else step;
}