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Merge pull request #1275 from Ma27/nix-2.13

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Nix 2.13 + nixpkgs input update
This commit is contained in:
Eelco Dolstra 2023-03-27 13:30:13 +02:00 committed by GitHub
parent 399b61ff67 f44d3d6ec9
commit 082495e34e
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GPG key ID: 4AEE18F83AFDEB23
4 changed files with 134 additions and 153 deletions
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20
flake.lock
View file

@ -23,32 +23,32 @@
"nixpkgs-regression": "nixpkgs-regression"
},
"locked": {
"lastModified": 1661606874,
"narHash": "sha256-9+rpYzI+SmxJn+EbYxjGv68Ucp22bdFUSy/4LkHkkDQ=",
"owner": "NixOS",
"lastModified": 1677045134,
"narHash": "sha256-jUc2ccTR8f6MGY2pUKgujm+lxSPNGm/ZAP+toX+nMNc=",
"owner": "nixos",
"repo": "nix",
"rev": "11e45768b34fdafdcf019ddbd337afa16127ff0f",
"rev": "4acc684ef7b3117c6d6ac12837398a0008a53d85",
"type": "github"
},
"original": {
"owner": "NixOS",
"ref": "2.11.0",
"owner": "nixos",
"ref": "2.13.3",
"repo": "nix",
"type": "github"
}
},
"nixpkgs": {
"locked": {
"lastModified": 1657693803,
"narHash": "sha256-G++2CJ9u0E7NNTAi9n5G8TdDmGJXcIjkJ3NF8cetQB8=",
"lastModified": 1670461440,
"narHash": "sha256-jy1LB8HOMKGJEGXgzFRLDU1CBGL0/LlkolgnqIsF0D8=",
"owner": "NixOS",
"repo": "nixpkgs",
"rev": "365e1b3a859281cf11b94f87231adeabbdd878a2",
"rev": "04a75b2eecc0acf6239acf9dd04485ff8d14f425",
"type": "github"
},
"original": {
"owner": "NixOS",
"ref": "nixos-22.05-small",
"ref": "nixos-22.11-small",
"repo": "nixpkgs",
"type": "github"
}

11
flake.nix
View file

@ -2,7 +2,7 @@
description = "A Nix-based continuous build system";
inputs.nixpkgs.follows = "nix/nixpkgs";
inputs.nix.url = "github:NixOS/nix/2.11.0";
inputs.nix.url = "github:nixos/nix/2.13.3";
outputs = { self, nixpkgs, nix }:
let
@ -272,6 +272,7 @@
tests.install = forEachSystem (system:
with import (nixpkgs + "/nixos/lib/testing-python.nix") { inherit system; };
simpleTest {
name = "hydra-install";
nodes.machine = hydraServer;
testScript =
''
@ -279,7 +280,7 @@
machine.wait_for_job("hydra-server")
machine.wait_for_job("hydra-evaluator")
machine.wait_for_job("hydra-queue-runner")
machine.wait_for_open_port("3000")
machine.wait_for_open_port(3000)
machine.succeed("curl --fail http://localhost:3000/")
'';
});
@ -288,6 +289,7 @@
let pkgs = pkgsBySystem.${system}; in
with import (nixpkgs + "/nixos/lib/testing-python.nix") { inherit system; };
simpleTest {
name = "hydra-notifications";
nodes.machine = { pkgs, ... }: {
imports = [ hydraServer ];
services.hydra-dev.extraConfig = ''
@ -315,7 +317,7 @@
# Wait until InfluxDB can receive web requests
machine.wait_for_job("influxdb")
machine.wait_for_open_port("8086")
machine.wait_for_open_port(8086)
# Create an InfluxDB database where hydra will write to
machine.succeed(
@ -325,7 +327,7 @@
# Wait until hydra-server can receive HTTP requests
machine.wait_for_job("hydra-server")
machine.wait_for_open_port("3000")
machine.wait_for_open_port(3000)
# Setup the project and jobset
machine.succeed(
@ -346,6 +348,7 @@
let pkgs = pkgsBySystem.${system}; in
with import (nixpkgs + "/nixos/lib/testing-python.nix") { inherit system; };
makeTest {
name = "hydra-gitea";
nodes.machine = { pkgs, ... }: {
imports = [ hydraServer ];
services.hydra-dev.extraConfig = ''

2
src/hydra-eval-jobs/hydra-eval-jobs.cc
View file

@ -129,7 +129,7 @@ static void worker(
LockFlags {
.updateLockFile = false,
.useRegistries = false,
.allowMutable = false,
.allowUnlocked = false,
});
callFlake(state, lockedFlake, *vFlake);

254
src/hydra-queue-runner/hydra-queue-runner.cc
View file

@ -8,6 +8,8 @@
#include <prometheus/exposer.h>
#include <nlohmann/json.hpp>
#include "state.hh"
#include "hydra-build-result.hh"
#include "store-api.hh"
@ -15,20 +17,11 @@
#include "globals.hh"
#include "hydra-config.hh"
#include "json.hh"
#include "s3-binary-cache-store.hh"
#include "shared.hh"
using namespace nix;
namespace nix {
template<> void toJSON<std::atomic<long>>(std::ostream & str, const std::atomic<long> & n) { str << n; }
template<> void toJSON<std::atomic<uint64_t>>(std::ostream & str, const std::atomic<uint64_t> & n) { str << n; }
template<> void toJSON<double>(std::ostream & str, const double & n) { str << n; }
}
using nlohmann::json;
std::string getEnvOrDie(const std::string & key)
@ -542,181 +535,166 @@ std::shared_ptr<PathLocks> State::acquireGlobalLock()
void State::dumpStatus(Connection & conn)
{
std::ostringstream out;
time_t now = time(0);
json statusJson = {
{"status", "up"},
{"time", time(0)},
{"uptime", now - startedAt},
{"pid", getpid()},
{"nrQueuedBuilds", builds.lock()->size()},
{"nrActiveSteps", activeSteps_.lock()->size()},
{"nrStepsBuilding", nrStepsBuilding.load()},
{"nrStepsCopyingTo", nrStepsCopyingTo.load()},
{"nrStepsCopyingFrom", nrStepsCopyingFrom.load()},
{"nrStepsWaiting", nrStepsWaiting.load()},
{"nrUnsupportedSteps", nrUnsupportedSteps.load()},
{"bytesSent", bytesSent.load()},
{"bytesReceived", bytesReceived.load()},
{"nrBuildsRead", nrBuildsRead.load()},
{"buildReadTimeMs", buildReadTimeMs.load()},
{"buildReadTimeAvgMs", nrBuildsRead == 0 ? 0.0 : (float) buildReadTimeMs / nrBuildsRead},
{"nrBuildsDone", nrBuildsDone.load()},
{"nrStepsStarted", nrStepsStarted.load()},
{"nrStepsDone", nrStepsDone.load()},
{"nrRetries", nrRetries.load()},
{"maxNrRetries", maxNrRetries.load()},
{"nrQueueWakeups", nrQueueWakeups.load()},
{"nrDispatcherWakeups", nrDispatcherWakeups.load()},
{"dispatchTimeMs", dispatchTimeMs.load()},
{"dispatchTimeAvgMs", nrDispatcherWakeups == 0 ? 0.0 : (float) dispatchTimeMs / nrDispatcherWakeups},
{"nrDbConnections", dbPool.count()},
{"nrActiveDbUpdates", nrActiveDbUpdates.load()},
};
{
JSONObject root(out);
time_t now = time(0);
root.attr("status", "up");
root.attr("time", time(0));
root.attr("uptime", now - startedAt);
root.attr("pid", getpid());
{
auto builds_(builds.lock());
root.attr("nrQueuedBuilds", builds_->size());
}
{
auto steps_(steps.lock());
for (auto i = steps_->begin(); i != steps_->end(); )
if (i->second.lock()) ++i; else i = steps_->erase(i);
root.attr("nrUnfinishedSteps", steps_->size());
statusJson["nrUnfinishedSteps"] = steps_->size();
}
{
auto runnable_(runnable.lock());
for (auto i = runnable_->begin(); i != runnable_->end(); )
if (i->lock()) ++i; else i = runnable_->erase(i);
root.attr("nrRunnableSteps", runnable_->size());
statusJson["nrRunnableSteps"] = runnable_->size();
}
root.attr("nrActiveSteps", activeSteps_.lock()->size());
root.attr("nrStepsBuilding", nrStepsBuilding);
root.attr("nrStepsCopyingTo", nrStepsCopyingTo);
root.attr("nrStepsCopyingFrom", nrStepsCopyingFrom);
root.attr("nrStepsWaiting", nrStepsWaiting);
root.attr("nrUnsupportedSteps", nrUnsupportedSteps);
root.attr("bytesSent", bytesSent);
root.attr("bytesReceived", bytesReceived);
root.attr("nrBuildsRead", nrBuildsRead);
root.attr("buildReadTimeMs", buildReadTimeMs);
root.attr("buildReadTimeAvgMs", nrBuildsRead == 0 ? 0.0 : (float) buildReadTimeMs / nrBuildsRead);
root.attr("nrBuildsDone", nrBuildsDone);
root.attr("nrStepsStarted", nrStepsStarted);
root.attr("nrStepsDone", nrStepsDone);
root.attr("nrRetries", nrRetries);
root.attr("maxNrRetries", maxNrRetries);
if (nrStepsDone) {
root.attr("totalStepTime", totalStepTime);
root.attr("totalStepBuildTime", totalStepBuildTime);
root.attr("avgStepTime", (float) totalStepTime / nrStepsDone);
root.attr("avgStepBuildTime", (float) totalStepBuildTime / nrStepsDone);
statusJson["totalStepTime"] = totalStepTime.load();
statusJson["totalStepBuildTime"] = totalStepBuildTime.load();
statusJson["avgStepTime"] = (float) totalStepTime / nrStepsDone;
statusJson["avgStepBuildTime"] = (float) totalStepBuildTime / nrStepsDone;
}
root.attr("nrQueueWakeups", nrQueueWakeups);
root.attr("nrDispatcherWakeups", nrDispatcherWakeups);
root.attr("dispatchTimeMs", dispatchTimeMs);
root.attr("dispatchTimeAvgMs", nrDispatcherWakeups == 0 ? 0.0 : (float) dispatchTimeMs / nrDispatcherWakeups);
root.attr("nrDbConnections", dbPool.count());
root.attr("nrActiveDbUpdates", nrActiveDbUpdates);
{
auto nested = root.object("machines");
auto machines_(machines.lock());
for (auto & i : *machines_) {
auto & m(i.second);
auto & s(m->state);
auto nested2 = nested.object(m->sshName);
nested2.attr("enabled", m->enabled);
{
auto list = nested2.list("systemTypes");
for (auto & s : m->systemTypes)
list.elem(s);
}
{
auto list = nested2.list("supportedFeatures");
for (auto & s : m->supportedFeatures)
list.elem(s);
}
{
auto list = nested2.list("mandatoryFeatures");
for (auto & s : m->mandatoryFeatures)
list.elem(s);
}
nested2.attr("currentJobs", s->currentJobs);
if (s->currentJobs == 0)
nested2.attr("idleSince", s->idleSince);
nested2.attr("nrStepsDone", s->nrStepsDone);
if (m->state->nrStepsDone) {
nested2.attr("totalStepTime", s->totalStepTime);
nested2.attr("totalStepBuildTime", s->totalStepBuildTime);
nested2.attr("avgStepTime", (float) s->totalStepTime / s->nrStepsDone);
nested2.attr("avgStepBuildTime", (float) s->totalStepBuildTime / s->nrStepsDone);
}
auto info(m->state->connectInfo.lock());
nested2.attr("disabledUntil", std::chrono::system_clock::to_time_t(info->disabledUntil));
nested2.attr("lastFailure", std::chrono::system_clock::to_time_t(info->lastFailure));
nested2.attr("consecutiveFailures", info->consecutiveFailures);
json machine = {
{"enabled", m->enabled},
{"systemTypes", m->systemTypes},
{"supportedFeatures", m->supportedFeatures},
{"mandatoryFeatures", m->mandatoryFeatures},
{"nrStepsDone", s->nrStepsDone.load()},
{"currentJobs", s->currentJobs.load()},
{"disabledUntil", std::chrono::system_clock::to_time_t(info->disabledUntil)},
{"lastFailure", std::chrono::system_clock::to_time_t(info->lastFailure)},
{"consecutiveFailures", info->consecutiveFailures},
};
if (s->currentJobs == 0)
machine["idleSince"] = s->idleSince.load();
if (m->state->nrStepsDone) {
machine["totalStepTime"] = s->totalStepTime.load();
machine["totalStepBuildTime"] = s->totalStepBuildTime.load();
machine["avgStepTime"] = (float) s->totalStepTime / s->nrStepsDone;
machine["avgStepBuildTime"] = (float) s->totalStepBuildTime / s->nrStepsDone;
}
statusJson["machines"][m->sshName] = machine;
}
}
{
auto nested = root.object("jobsets");
auto jobsets_json = statusJson["jobsets"] = json::object();
auto jobsets_(jobsets.lock());
for (auto & jobset : *jobsets_) {
auto nested2 = nested.object(jobset.first.first + ":" + jobset.first.second);
nested2.attr("shareUsed", jobset.second->shareUsed());
nested2.attr("seconds", jobset.second->getSeconds());
jobsets_json[jobset.first.first + ":" + jobset.first.second] = {
{"shareUsed", jobset.second->shareUsed()},
{"seconds", jobset.second->getSeconds()},
};
}
}
{
auto nested = root.object("machineTypes");
auto machineTypesJson = statusJson["machineTypes"] = json::object();
auto machineTypes_(machineTypes.lock());
for (auto & i : *machineTypes_) {
auto nested2 = nested.object(i.first);
nested2.attr("runnable", i.second.runnable);
nested2.attr("running", i.second.running);
auto machineTypeJson = machineTypesJson[i.first] = {
{"runnable", i.second.runnable},
{"running", i.second.running},
};
if (i.second.runnable > 0)
nested2.attr("waitTime", i.second.waitTime.count() +
i.second.runnable * (time(0) - lastDispatcherCheck));
machineTypeJson["waitTime"] = i.second.waitTime.count() +
i.second.runnable * (time(0) - lastDispatcherCheck);
if (i.second.running == 0)
nested2.attr("lastActive", std::chrono::system_clock::to_time_t(i.second.lastActive));
machineTypeJson["lastActive"] = std::chrono::system_clock::to_time_t(i.second.lastActive);
}
}
auto store = getDestStore();
auto nested = root.object("store");
auto & stats = store->getStats();
nested.attr("narInfoRead", stats.narInfoRead);
nested.attr("narInfoReadAverted", stats.narInfoReadAverted);
nested.attr("narInfoMissing", stats.narInfoMissing);
nested.attr("narInfoWrite", stats.narInfoWrite);
nested.attr("narInfoCacheSize", stats.pathInfoCacheSize);
nested.attr("narRead", stats.narRead);
nested.attr("narReadBytes", stats.narReadBytes);
nested.attr("narReadCompressedBytes", stats.narReadCompressedBytes);
nested.attr("narWrite", stats.narWrite);
nested.attr("narWriteAverted", stats.narWriteAverted);
nested.attr("narWriteBytes", stats.narWriteBytes);
nested.attr("narWriteCompressedBytes", stats.narWriteCompressedBytes);
nested.attr("narWriteCompressionTimeMs", stats.narWriteCompressionTimeMs);
nested.attr("narCompressionSavings",
stats.narWriteBytes
? 1.0 - (double) stats.narWriteCompressedBytes / stats.narWriteBytes
: 0.0);
nested.attr("narCompressionSpeed", // MiB/s
statusJson["store"] = {
{"narInfoRead", stats.narInfoRead.load()},
{"narInfoReadAverted", stats.narInfoReadAverted.load()},
{"narInfoMissing", stats.narInfoMissing.load()},
{"narInfoWrite", stats.narInfoWrite.load()},
{"narInfoCacheSize", stats.pathInfoCacheSize.load()},
{"narRead", stats.narRead.load()},
{"narReadBytes", stats.narReadBytes.load()},
{"narReadCompressedBytes", stats.narReadCompressedBytes.load()},
{"narWrite", stats.narWrite.load()},
{"narWriteAverted", stats.narWriteAverted.load()},
{"narWriteBytes", stats.narWriteBytes.load()},
{"narWriteCompressedBytes", stats.narWriteCompressedBytes.load()},
{"narWriteCompressionTimeMs", stats.narWriteCompressionTimeMs.load()},
{"narCompressionSavings",
stats.narWriteBytes
? 1.0 - (double) stats.narWriteCompressedBytes / stats.narWriteBytes
: 0.0},
{"narCompressionSpeed", // MiB/s
stats.narWriteCompressionTimeMs
? (double) stats.narWriteBytes / stats.narWriteCompressionTimeMs * 1000.0 / (1024.0 * 1024.0)
: 0.0);
: 0.0},
};
auto s3Store = dynamic_cast<S3BinaryCacheStore *>(&*store);
if (s3Store) {
auto nested2 = nested.object("s3");
auto & s3Stats = s3Store->getS3Stats();
nested2.attr("put", s3Stats.put);
nested2.attr("putBytes", s3Stats.putBytes);
nested2.attr("putTimeMs", s3Stats.putTimeMs);
nested2.attr("putSpeed",
s3Stats.putTimeMs
? (double) s3Stats.putBytes / s3Stats.putTimeMs * 1000.0 / (1024.0 * 1024.0)
: 0.0);
nested2.attr("get", s3Stats.get);
nested2.attr("getBytes", s3Stats.getBytes);
nested2.attr("getTimeMs", s3Stats.getTimeMs);
nested2.attr("getSpeed",
s3Stats.getTimeMs
? (double) s3Stats.getBytes / s3Stats.getTimeMs * 1000.0 / (1024.0 * 1024.0)
: 0.0);
nested2.attr("head", s3Stats.head);
nested2.attr("costDollarApprox",
(s3Stats.get + s3Stats.head) / 10000.0 * 0.004
+ s3Stats.put / 1000.0 * 0.005 +
+ s3Stats.getBytes / (1024.0 * 1024.0 * 1024.0) * 0.09);
auto jsonS3 = statusJson["s3"] = {
{"put", s3Stats.put.load()},
{"putBytes", s3Stats.putBytes.load()},
{"putTimeMs", s3Stats.putTimeMs.load()},
{"putSpeed",
s3Stats.putTimeMs
? (double) s3Stats.putBytes / s3Stats.putTimeMs * 1000.0 / (1024.0 * 1024.0)
: 0.0},
{"get", s3Stats.get.load()},
{"getBytes", s3Stats.getBytes.load()},
{"getTimeMs", s3Stats.getTimeMs.load()},
{"getSpeed",
s3Stats.getTimeMs
? (double) s3Stats.getBytes / s3Stats.getTimeMs * 1000.0 / (1024.0 * 1024.0)
: 0.0},
{"head", s3Stats.head.load()},
{"costDollarApprox",
(s3Stats.get + s3Stats.head) / 10000.0 * 0.004
+ s3Stats.put / 1000.0 * 0.005 +
+ s3Stats.getBytes / (1024.0 * 1024.0 * 1024.0) * 0.09},
};
}
}
@ -725,7 +703,7 @@ void State::dumpStatus(Connection & conn)
pqxx::work txn(conn);
// FIXME: use PostgreSQL 9.5 upsert.
txn.exec("delete from SystemStatus where what = 'queue-runner'");
txn.exec_params0("insert into SystemStatus values ('queue-runner', $1)", out.str());
txn.exec_params0("insert into SystemStatus values ('queue-runner', $1)", statusJson.dump());
txn.exec("notify status_dumped");
txn.commit();
}