#pragma once
#include <atomic>
#include <chrono>
#include <condition_variable>
#include <map>
#include <memory>
#include <queue>
#include "db.hh"
#include "counter.hh"
#include "token-server.hh"
#include "derivations.hh"
#include "pathlocks.hh"
#include "pool.hh"
#include "store-api.hh"
#include "sync.hh"
typedef unsigned int BuildID;
typedef std::chrono::time_point<std::chrono::system_clock> system_time;
typedef enum {
bsSuccess = 0,
bsFailed = 1,
bsDepFailed = 2, // builds only
bsAborted = 3,
bsCancelled = 4,
bsFailedWithOutput = 6, // builds only
bsTimedOut = 7,
bsCachedFailure = 8, // steps only
bsUnsupported = 9,
bsLogLimitExceeded = 10,
bsNarSizeLimitExceeded = 11,
bsNotDeterministic = 12,
bsBusy = 100, // not stored
} BuildStatus;
struct RemoteResult
{
BuildStatus stepStatus = bsAborted;
bool canRetry = false; // for bsAborted
bool isCached = false; // for bsSucceed
bool canCache = false; // for bsFailed
std::string errorMsg; // for bsAborted
unsigned int timesBuilt = 0;
bool isNonDeterministic = false;
time_t startTime = 0, stopTime = 0;
unsigned int overhead = 0;
nix::Path logFile;
std::unique_ptr<nix::TokenServer::Token> tokens;
std::shared_ptr<nix::FSAccessor> accessor;
BuildStatus buildStatus()
{
return stepStatus == bsCachedFailure ? bsFailed : stepStatus;
}
};
struct Step;
struct BuildOutput;
class Jobset
{
public:
typedef std::shared_ptr<Jobset> ptr;
typedef std::weak_ptr<Jobset> wptr;
static const time_t schedulingWindow = 24 * 60 * 60;
private:
std::atomic<time_t> seconds{0};
std::atomic<unsigned int> shares{1};
/* The start time and duration of the most recent build steps. */
nix::Sync<std::map<time_t, time_t>> steps;
public:
double shareUsed()
{
return (double) seconds / shares;
}
void setShares(int shares_)
{
assert(shares_ > 0);
shares = shares_;
}
time_t getSeconds() { return seconds; }
void addStep(time_t startTime, time_t duration);
void pruneSteps();
};
struct Build
{
typedef std::shared_ptr<Build> ptr;
typedef std::weak_ptr<Build> wptr;
BuildID id;
nix::Path drvPath;
std::map<std::string, nix::Path> outputs;
std::string projectName, jobsetName, jobName;
time_t timestamp;
unsigned int maxSilentTime, buildTimeout;
int localPriority, globalPriority;
std::shared_ptr<Step> toplevel;
Jobset::ptr jobset;
std::atomic_bool finishedInDB{false};
std::string fullJobName()
{
return projectName + ":" + jobsetName + ":" + jobName;
}
void propagatePriorities();
};
struct Step
{
typedef std::shared_ptr<Step> ptr;
typedef std::weak_ptr<Step> wptr;
nix::Path drvPath;
nix::Derivation drv;
std::set<std::string> requiredSystemFeatures;
bool preferLocalBuild;
bool isDeterministic;
std::string systemType; // concatenation of drv.platform and requiredSystemFeatures
struct State
{
/* Whether the step has finished initialisation. */
bool created = false;
/* The build steps on which this step depends. */
std::set<Step::ptr> deps;
/* The build steps that depend on this step. */
std::vector<Step::wptr> rdeps;
/* Builds that have this step as the top-level derivation. */
std::vector<Build::wptr> builds;
/* Jobsets to which this step belongs. Used for determining
scheduling priority. */
std::set<Jobset::ptr> jobsets;
/* Number of times we've tried this step. */
unsigned int tries = 0;
/* Point in time after which the step can be retried. */
system_time after;
/* The highest global priority of any build depending on this
step. */
int highestGlobalPriority{0};
/* The highest local priority of any build depending on this
step. */
int highestLocalPriority{0};
/* The lowest ID of any build depending on this step. */
BuildID lowestBuildID{std::numeric_limits<BuildID>::max()};
/* The time at which this step became runnable. */
system_time runnableSince;
};
std::atomic_bool finished{false}; // debugging
nix::Sync<State> state;
~Step()
{
//printMsg(lvlError, format("destroying step %1%") % drvPath);
}
};
void getDependents(Step::ptr step, std::set<Build::ptr> & builds, std::set<Step::ptr> & steps);
/* Call ‘visitor’ for a step and all its dependencies. */
void visitDependencies(std::function<void(Step::ptr)> visitor, Step::ptr step);
struct Machine
{
typedef std::shared_ptr<Machine> ptr;
bool enabled{true};
std::string sshName, sshKey;
std::set<std::string> systemTypes, supportedFeatures, mandatoryFeatures;
unsigned int maxJobs = 1;
float speedFactor = 1.0;
std::string sshPublicHostKey;
struct State {
typedef std::shared_ptr<State> ptr;
counter currentJobs{0};
counter nrStepsDone{0};
counter totalStepTime{0}; // total time for steps, including closure copying
counter totalStepBuildTime{0}; // total build time for steps
std::atomic<time_t> idleSince{0};
struct ConnectInfo
{
system_time lastFailure, disabledUntil;
unsigned int consecutiveFailures;
};
nix::Sync<ConnectInfo> connectInfo;
/* Mutex to prevent multiple threads from sending data to the
same machine (which would be inefficient). */
std::mutex sendLock;
};
State::ptr state;
bool supportsStep(Step::ptr step)
{
if (systemTypes.find(step->drv.platform) == systemTypes.end()) return false;
for (auto & f : mandatoryFeatures)
if (step->requiredSystemFeatures.find(f) == step->requiredSystemFeatures.end()
&& !(step->preferLocalBuild && f == "local"))
return false;
for (auto & f : step->requiredSystemFeatures)
if (supportedFeatures.find(f) == supportedFeatures.end()) return false;
return true;
}
};
class Config;
class State
{
private:
std::unique_ptr<Config> config;
// FIXME: Make configurable.
const unsigned int maxTries = 5;
const unsigned int retryInterval = 60; // seconds
const float retryBackoff = 3.0;
const unsigned int maxParallelCopyClosure = 4;
nix::Path hydraData, logDir;
bool useSubstitutes = false;
/* The queued builds. */
typedef std::map<BuildID, Build::ptr> Builds;
nix::Sync<Builds> builds;
/* The jobsets. */
typedef std::map<std::pair<std::string, std::string>, Jobset::ptr> Jobsets;
nix::Sync<Jobsets> jobsets;
/* All active or pending build steps (i.e. dependencies of the
queued builds). Note that these are weak pointers. Steps are
kept alive by being reachable from Builds or by being in
progress. */
typedef std::map<nix::Path, Step::wptr> Steps;
nix::Sync<Steps> steps;
/* Build steps that have no unbuilt dependencies. */
typedef std::list<Step::wptr> Runnable;
nix::Sync<Runnable> runnable;
/* CV for waking up the dispatcher. */
nix::Sync<bool> dispatcherWakeup;
std::condition_variable dispatcherWakeupCV;
/* PostgreSQL connection pool. */
nix::Pool<Connection> dbPool;
/* The build machines. */
typedef std::map<std::string, Machine::ptr> Machines;
nix::Sync<Machines> machines; // FIXME: use atomic_shared_ptr
/* Various stats. */
time_t startedAt;
counter nrBuildsRead{0};
counter buildReadTimeMs{0};
counter nrBuildsDone{0};
counter nrStepsStarted{0};
counter nrStepsDone{0};
counter nrStepsBuilding{0};
counter nrStepsCopyingTo{0};
counter nrStepsCopyingFrom{0};
counter nrStepsWaiting{0};
counter nrRetries{0};
counter maxNrRetries{0};
counter totalStepTime{0}; // total time for steps, including closure copying
counter totalStepBuildTime{0}; // total build time for steps
counter nrQueueWakeups{0};
counter nrDispatcherWakeups{0};
counter dispatchTimeMs{0};
counter bytesSent{0};
counter bytesReceived{0};
counter nrActiveDbUpdates{0};
/* Notification sender work queue. FIXME: if hydra-queue-runner is
killed before it has finished sending notifications about a
build, then the notifications may be lost. It would be better
to mark builds with pending notification in the database. */
struct NotificationItem
{
enum class Type : char {
BuildStarted,
BuildFinished,
StepFinished,
};
Type type;
BuildID id;
std::vector<BuildID> dependentIds;
unsigned int stepNr;
nix::Path logPath;
};
nix::Sync<std::queue<NotificationItem>> notificationSenderQueue;
std::condition_variable notificationSenderWakeup;
void enqueueNotificationItem(const NotificationItem && item)
{
{
auto notificationSenderQueue_(notificationSenderQueue.lock());
notificationSenderQueue_->emplace(item);
}
notificationSenderWakeup.notify_one();
}
/* Specific build to do for --build-one (testing only). */
BuildID buildOne;
/* Statistics per machine type for the Hydra auto-scaler. */
struct MachineType
{
unsigned int runnable{0}, running{0};
system_time lastActive;
std::chrono::seconds waitTime; // time runnable steps have been waiting
};
nix::Sync<std::map<std::string, MachineType>> machineTypes;
struct MachineReservation
{
typedef std::shared_ptr<MachineReservation> ptr;
State & state;
Step::ptr step;
Machine::ptr machine;
MachineReservation(State & state, Step::ptr step, Machine::ptr machine);
~MachineReservation();
};
struct ActiveStep
{
Step::ptr step;
struct State
{
pid_t pid = -1;
bool cancelled = false;
};
nix::Sync<State> state_;
};
nix::Sync<std::set<std::shared_ptr<ActiveStep>>> activeSteps_;
std::atomic<time_t> lastDispatcherCheck{0};
std::shared_ptr<nix::Store> localStore;
std::shared_ptr<nix::Store> _destStore;
/* Token server to prevent threads from allocating too many big
strings concurrently while importing NARs from the build
machines. When a thread imports a NAR of size N, it will first
acquire N memory tokens, causing it to block until that many
tokens are available. */
nix::TokenServer memoryTokens;
size_t maxOutputSize;
time_t lastStatusLogged = 0;
const int statusLogInterval = 300;
/* Steps that were busy while we encounted a PostgreSQL
error. These need to be cleared at a later time to prevent them
from showing up as busy until the queue runner is restarted. */
nix::Sync<std::set<std::pair<BuildID, int>>> orphanedSteps;
/* How often the build steps of a jobset should be repeated in
order to detect non-determinism. */
std::map<std::pair<std::string, std::string>, unsigned int> jobsetRepeats;
public:
State();
private:
MaintainCount startDbUpdate();
/* Return a store object to store build results. */
nix::ref<nix::Store> getDestStore();
void clearBusy(Connection & conn, time_t stopTime);
void parseMachines(const std::string & contents);
/* Thread to reload /etc/nix/machines periodically. */
void monitorMachinesFile();
unsigned int allocBuildStep(pqxx::work & txn, BuildID buildId);
unsigned int createBuildStep(pqxx::work & txn, time_t startTime, BuildID buildId, Step::ptr step,
const std::string & machine, BuildStatus status, const std::string & errorMsg = "",
BuildID propagatedFrom = 0);
void finishBuildStep(pqxx::work & txn, const RemoteResult & result, BuildID buildId, unsigned int stepNr,
const std::string & machine);
int createSubstitutionStep(pqxx::work & txn, time_t startTime, time_t stopTime,
Build::ptr build, const nix::Path & drvPath, const std::string & outputName, const nix::Path & storePath);
void updateBuild(pqxx::work & txn, Build::ptr build, BuildStatus status);
void queueMonitor();
void queueMonitorLoop();
/* Check the queue for new builds. */
bool getQueuedBuilds(Connection & conn,
nix::ref<nix::Store> destStore, unsigned int & lastBuildId);
/* Handle cancellation, deletion and priority bumps. */
void processQueueChange(Connection & conn);
BuildOutput getBuildOutputCached(Connection & conn, nix::ref<nix::Store> destStore,
const nix::Derivation & drv);
Step::ptr createStep(nix::ref<nix::Store> store,
Connection & conn, Build::ptr build, const nix::Path & drvPath,
Build::ptr referringBuild, Step::ptr referringStep, std::set<nix::Path> & finishedDrvs,
std::set<Step::ptr> & newSteps, std::set<Step::ptr> & newRunnable);
Jobset::ptr createJobset(pqxx::work & txn,
const std::string & projectName, const std::string & jobsetName);
void processJobsetSharesChange(Connection & conn);
void makeRunnable(Step::ptr step);
/* The thread that selects and starts runnable builds. */
void dispatcher();
system_time doDispatch();
void wakeDispatcher();
void builder(MachineReservation::ptr reservation);
/* Perform the given build step. Return true if the step is to be
retried. */
enum StepResult { sDone, sRetry, sMaybeCancelled };
StepResult doBuildStep(nix::ref<nix::Store> destStore,
MachineReservation::ptr reservation,
std::shared_ptr<ActiveStep> activeStep);
void buildRemote(nix::ref<nix::Store> destStore,
Machine::ptr machine, Step::ptr step,
unsigned int maxSilentTime, unsigned int buildTimeout,
unsigned int repeats,
RemoteResult & result, std::shared_ptr<ActiveStep> activeStep);
void markSucceededBuild(pqxx::work & txn, Build::ptr build,
const BuildOutput & res, bool isCachedBuild, time_t startTime, time_t stopTime);
bool checkCachedFailure(Step::ptr step, Connection & conn);
/* Thread that asynchronously invokes hydra-notify to send build
notifications. */
void notificationSender();
/* Acquire the global queue runner lock, or null if somebody else
has it. */
std::shared_ptr<nix::PathLocks> acquireGlobalLock();
void dumpStatus(Connection & conn, bool log);
public:
void showStatus();
void unlock();
void run(BuildID buildOne = 0);
};