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Allow determinism checking for entire jobsets

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Setting

  xxx-jobset-repeats = patchelf:master:2

will cause Hydra to perform every build step in the specified jobset 2
additional times (i.e. 3 times in total). Non-determinism is not fatal
unless the derivation has the attribute "isDeterministic = true"; we
just note the lack of determinism in the Hydra database. This will
allow us to get stats about the (lack of) reproducibility of all of
Nixpkgs.
This commit is contained in:
Eelco Dolstra 2016-12-07 15:57:13 +01:00
parent 8bb36e79bd
commit f6081668dc
No known key found for this signature in database
GPG key ID: 8170B4726D7198DE
9 changed files with 98 additions and 36 deletions
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13
src/hydra-queue-runner/build-remote.cc
View file

@ -116,7 +116,7 @@ static void copyClosureTo(ref<Store> destStore,
void State::buildRemote(ref<Store> destStore, void State::buildRemote(ref<Store> destStore,
Machine::ptr machine, Step::ptr step, Machine::ptr machine, Step::ptr step,
unsigned int maxSilentTime, unsigned int buildTimeout, unsigned int maxSilentTime, unsigned int buildTimeout, unsigned int repeats,
RemoteResult & result, std::shared_ptr<ActiveStep> activeStep) RemoteResult & result, std::shared_ptr<ActiveStep> activeStep)
{ {
assert(BuildResult::TimedOut == 8); assert(BuildResult::TimedOut == 8);
@ -263,9 +263,10 @@ void State::buildRemote(ref<Store> destStore,
to << maxSilentTime << buildTimeout; to << maxSilentTime << buildTimeout;
if (GET_PROTOCOL_MINOR(remoteVersion) >= 2) if (GET_PROTOCOL_MINOR(remoteVersion) >= 2)
to << 64 * 1024 * 1024; // == maxLogSize to << 64 * 1024 * 1024; // == maxLogSize
if (GET_PROTOCOL_MINOR(remoteVersion) >= 3) if (GET_PROTOCOL_MINOR(remoteVersion) >= 3) {
// FIXME: make the number of repeats configurable. to << repeats // == build-repeat
to << (step->isDeterministic ? 1 : 0); << step->isDeterministic; // == enforce-determinism
}
to.flush(); to.flush();
result.startTime = time(0); result.startTime = time(0);
@ -295,6 +296,10 @@ void State::buildRemote(ref<Store> destStore,
result.stepStatus = bsSuccess; result.stepStatus = bsSuccess;
} else { } else {
result.errorMsg = readString(from); result.errorMsg = readString(from);
if (GET_PROTOCOL_MINOR(remoteVersion) >= 3) {
result.timesBuilt = readInt(from);
result.isNonDeterministic = readInt(from);
}
switch ((BuildResult::Status) res) { switch ((BuildResult::Status) res) {
case BuildResult::Built: case BuildResult::Built:
result.stepStatus = bsSuccess; result.stepStatus = bsSuccess;

21
src/hydra-queue-runner/builder.cc
View file

@ -86,6 +86,7 @@ State::StepResult State::doBuildStep(nix::ref<Store> destStore,
BuildID buildId; BuildID buildId;
Path buildDrvPath; Path buildDrvPath;
unsigned int maxSilentTime, buildTimeout; unsigned int maxSilentTime, buildTimeout;
unsigned int repeats = step->isDeterministic ? 1 : 0;
{ {
std::set<Build::ptr> dependents; std::set<Build::ptr> dependents;
@ -113,6 +114,11 @@ State::StepResult State::doBuildStep(nix::ref<Store> destStore,
build = build2; build = build2;
enqueueNotificationItem({NotificationItem::Type::BuildStarted, build->id}); enqueueNotificationItem({NotificationItem::Type::BuildStarted, build->id});
} }
{
auto i = jobsetRepeats.find(std::make_pair(build2->projectName, build2->jobsetName));
if (i != jobsetRepeats.end())
repeats = std::max(repeats, i->second);
}
} }
if (!build) build = *dependents.begin(); if (!build) build = *dependents.begin();
@ -121,8 +127,8 @@ State::StepResult State::doBuildStep(nix::ref<Store> destStore,
maxSilentTime = build->maxSilentTime; maxSilentTime = build->maxSilentTime;
buildTimeout = build->buildTimeout; buildTimeout = build->buildTimeout;
printMsg(lvlInfo, format("performing step %1% on %2% (needed by build %3% and %4% others)") printInfo("performing step %s %d times on %s (needed by build %d and %d others)",
% step->drvPath % machine->sshName % buildId % (dependents.size() - 1)); step->drvPath, repeats + 1, machine->sshName, buildId, (dependents.size() - 1));
} }
bool quit = buildId == buildOne && step->drvPath == buildDrvPath; bool quit = buildId == buildOne && step->drvPath == buildDrvPath;
@ -162,7 +168,7 @@ State::StepResult State::doBuildStep(nix::ref<Store> destStore,
/* Do the build. */ /* Do the build. */
try { try {
/* FIXME: referring builds may have conflicting timeouts. */ /* FIXME: referring builds may have conflicting timeouts. */
buildRemote(destStore, machine, step, maxSilentTime, buildTimeout, result, activeStep); buildRemote(destStore, machine, step, maxSilentTime, buildTimeout, repeats, result, activeStep);
} catch (NoTokens & e) { } catch (NoTokens & e) {
result.stepStatus = bsNarSizeLimitExceeded; result.stepStatus = bsNarSizeLimitExceeded;
} catch (Error & e) { } catch (Error & e) {
@ -224,8 +230,7 @@ State::StepResult State::doBuildStep(nix::ref<Store> destStore,
auto mc = startDbUpdate(); auto mc = startDbUpdate();
{ {
pqxx::work txn(*conn); pqxx::work txn(*conn);
finishBuildStep(txn, result.startTime, result.stopTime, result.overhead, buildId, finishBuildStep(txn, result, buildId, stepNr, machine->sshName);
stepNr, machine->sshName, result.stepStatus, result.errorMsg);
txn.commit(); txn.commit();
} }
stepFinished = true; stepFinished = true;
@ -279,8 +284,7 @@ State::StepResult State::doBuildStep(nix::ref<Store> destStore,
pqxx::work txn(*conn); pqxx::work txn(*conn);
finishBuildStep(txn, result.startTime, result.stopTime, result.overhead, finishBuildStep(txn, result, buildId, stepNr, machine->sshName);
buildId, stepNr, machine->sshName, bsSuccess);
for (auto & b : direct) { for (auto & b : direct) {
printMsg(lvlInfo, format("marking build %1% as succeeded") % b->id); printMsg(lvlInfo, format("marking build %1% as succeeded") % b->id);
@ -386,8 +390,7 @@ State::StepResult State::doBuildStep(nix::ref<Store> destStore,
if (result.stepStatus != bsCachedFailure && !stepFinished) { if (result.stepStatus != bsCachedFailure && !stepFinished) {
assert(stepNr); assert(stepNr);
finishBuildStep(txn, result.startTime, result.stopTime, result.overhead, finishBuildStep(txn, result, buildId, stepNr, machine->sshName);
buildId, stepNr, machine->sshName, result.stepStatus, result.errorMsg);
} }
/* Mark all builds that depend on this derivation as failed. */ /* Mark all builds that depend on this derivation as failed. */

30
src/hydra-queue-runner/hydra-queue-runner.cc
View file

@ -264,20 +264,21 @@ unsigned int State::createBuildStep(pqxx::work & txn, time_t startTime, BuildID
} }
void State::finishBuildStep(pqxx::work & txn, time_t startTime, time_t stopTime, unsigned int overhead, void State::finishBuildStep(pqxx::work & txn, const RemoteResult & result,
BuildID buildId, unsigned int stepNr, const std::string & machine, BuildStatus status, BuildID buildId, unsigned int stepNr, const std::string & machine)
const std::string & errorMsg, BuildID propagatedFrom)
{ {
assert(startTime); assert(result.startTime);
assert(stopTime); assert(result.stopTime);
txn.parameterized txn.parameterized
("update BuildSteps set busy = 0, status = $1, propagatedFrom = $4, errorMsg = $5, startTime = $6, stopTime = $7, machine = $8, overhead = $9 where build = $2 and stepnr = $3") ("update BuildSteps set busy = 0, status = $1, errorMsg = $4, startTime = $5, stopTime = $6, machine = $7, overhead = $8, timesBuilt = $9, isNonDeterministic = $10 where build = $2 and stepnr = $3")
((int) status)(buildId)(stepNr) ((int) result.stepStatus)(buildId)(stepNr)
(propagatedFrom, propagatedFrom != 0) (result.errorMsg, result.errorMsg != "")
(errorMsg, errorMsg != "") (result.startTime)(result.stopTime)
(startTime)(stopTime)
(machine, machine != "") (machine, machine != "")
(overhead, overhead != 0).exec(); (result.overhead, result.overhead != 0)
(result.timesBuilt, result.timesBuilt > 0)
(result.isNonDeterministic, result.timesBuilt > 1)
.exec();
} }
@ -809,6 +810,13 @@ void State::run(BuildID buildOne)
useSubstitutes = isTrue(hydraConfig["use-substitutes"]); useSubstitutes = isTrue(hydraConfig["use-substitutes"]);
// FIXME: hacky mechanism for configuring determinism checks.
for (auto & s : tokenizeString<Strings>(hydraConfig["xxx-jobset-repeats"])) {
auto s2 = tokenizeString<std::vector<std::string>>(s, ":");
if (s2.size() != 3) throw Error("bad value in xxx-jobset-repeats");
jobsetRepeats.emplace(std::make_pair(s2[0], s2[1]), std::stoi(s2[2]));
}
{ {
auto conn(dbPool.get()); auto conn(dbPool.get());
clearBusy(*conn, 0); clearBusy(*conn, 0);

14
src/hydra-queue-runner/state.hh
View file

@ -48,6 +48,9 @@ struct RemoteResult
bool canCache = false; // for bsFailed bool canCache = false; // for bsFailed
std::string errorMsg; // for bsAborted std::string errorMsg; // for bsAborted
unsigned int timesBuilt = 0;
bool isNonDeterministic = false;
time_t startTime = 0, stopTime = 0; time_t startTime = 0, stopTime = 0;
unsigned int overhead = 0; unsigned int overhead = 0;
nix::Path logFile; nix::Path logFile;
@ -414,6 +417,10 @@ private:
from showing up as busy until the queue runner is restarted. */ from showing up as busy until the queue runner is restarted. */
nix::Sync<std::set<std::pair<BuildID, int>>> orphanedSteps; 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: public:
State(); State();
@ -437,10 +444,8 @@ private:
const std::string & machine, BuildStatus status, const std::string & errorMsg = "", const std::string & machine, BuildStatus status, const std::string & errorMsg = "",
BuildID propagatedFrom = 0); BuildID propagatedFrom = 0);
void finishBuildStep(pqxx::work & txn, time_t startTime, time_t stopTime, void finishBuildStep(pqxx::work & txn, const RemoteResult & result, BuildID buildId, unsigned int stepNr,
unsigned int overhead, BuildID buildId, unsigned int stepNr, const std::string & machine);
const std::string & machine, BuildStatus status, const std::string & errorMsg = "",
BuildID propagatedFrom = 0);
int createSubstitutionStep(pqxx::work & txn, time_t startTime, time_t stopTime, 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); Build::ptr build, const nix::Path & drvPath, const std::string & outputName, const nix::Path & storePath);
@ -492,6 +497,7 @@ private:
void buildRemote(nix::ref<nix::Store> destStore, void buildRemote(nix::ref<nix::Store> destStore,
Machine::ptr machine, Step::ptr step, Machine::ptr machine, Step::ptr step,
unsigned int maxSilentTime, unsigned int buildTimeout, unsigned int maxSilentTime, unsigned int buildTimeout,
unsigned int repeats,
RemoteResult & result, std::shared_ptr<ActiveStep> activeStep); RemoteResult & result, std::shared_ptr<ActiveStep> activeStep);
void markSucceededBuild(pqxx::work & txn, Build::ptr build, void markSucceededBuild(pqxx::work & txn, Build::ptr build,

18
src/lib/Hydra/Schema/BuildSteps.pm
View file

@ -103,6 +103,16 @@ __PACKAGE__->table("BuildSteps");
data_type: 'integer' data_type: 'integer'
is_nullable: 1 is_nullable: 1
=head2 timesbuilt
data_type: 'integer'
is_nullable: 1
=head2 isnondeterministic
data_type: 'boolean'
is_nullable: 1
=cut =cut
__PACKAGE__->add_columns( __PACKAGE__->add_columns(
@ -132,6 +142,10 @@ __PACKAGE__->add_columns(
{ data_type => "integer", is_foreign_key => 1, is_nullable => 1 }, { data_type => "integer", is_foreign_key => 1, is_nullable => 1 },
"overhead", "overhead",
{ data_type => "integer", is_nullable => 1 }, { data_type => "integer", is_nullable => 1 },
"timesbuilt",
{ data_type => "integer", is_nullable => 1 },
"isnondeterministic",
{ data_type => "boolean", is_nullable => 1 },
); );
=head1 PRIMARY KEY =head1 PRIMARY KEY
@ -201,8 +215,8 @@ __PACKAGE__->belongs_to(
); );
# Created by DBIx::Class::Schema::Loader v0.07043 @ 2016-02-16 18:04:52 # Created by DBIx::Class::Schema::Loader v0.07045 @ 2016-12-07 13:48:19
# DO NOT MODIFY THIS OR ANYTHING ABOVE! md5sum:TRALbEoaF/OIOyERYCyxkw # DO NOT MODIFY THIS OR ANYTHING ABOVE! md5sum:3FYkqSUfgWmiqZzmX8J4TA
my %hint = ( my %hint = (
columns => [ columns => [

19
src/root/build.tt
View file

@ -50,13 +50,20 @@ FOR step IN steps; IF step.busy; busy = 1; END; END;
END %] END %]
</td> </td>
<td>[% IF step.busy == 1 || ((step.machine || step.starttime) && (step.status == 0 || step.status == 1 || step.status == 3 || step.status == 4 || step.status == 7)); INCLUDE renderMachineName machine=step.machine; ELSE; "<em>n/a</em>"; END %]</td> <td>[% IF step.busy == 1 || ((step.machine || step.starttime) && (step.status == 0 || step.status == 1 || step.status == 3 || step.status == 4 || step.status == 7)); INCLUDE renderMachineName machine=step.machine; ELSE; "<em>n/a</em>"; END %]</td>
<td> <td class="step-status">
[% IF step.busy == 1 %] [% IF step.busy == 1 %]
<strong>Building</strong> <strong>Building</strong>
[% ELSIF step.status == 0 %] [% ELSIF step.status == 0 %]
Succeeded [% IF step.isnondeterministic %]
<span class="warn">Succeeded with non-determistic result</span>
[% ELSE %]
Succeeded
[% END %]
[% IF step.timesbuilt > 1 %]
([% step.timesbuilt %] times)
[% END %]
[% ELSIF step.status == 3 %] [% ELSIF step.status == 3 %]
<span class="error"><strong>Aborted</strong>[% IF step.errormsg %]: [% HTML.escape(step.errormsg); END %]</span> <span class="error">Aborted</span>[% IF step.errormsg %]: <em>[% HTML.escape(step.errormsg) %]</em>[% END %]
[% ELSIF step.status == 4 %] [% ELSIF step.status == 4 %]
<span class="error">Cancelled</span> <span class="error">Cancelled</span>
[% ELSIF step.status == 7 %] [% ELSIF step.status == 7 %]
@ -70,9 +77,9 @@ FOR step IN steps; IF step.busy; busy = 1; END; END;
[% ELSIF step.status == 11 %] [% ELSIF step.status == 11 %]
<span class="error">Output limit exceeded</span> <span class="error">Output limit exceeded</span>
[% ELSIF step.status == 12 %] [% ELSIF step.status == 12 %]
<span class="error">Non-deterministic build</span> <span class="error">Non-determinism detected</span> [% IF step.timesbuilt %] after [% step.timesbuilt %] times[% END %]
[% ELSIF step.errormsg %] [% ELSIF step.errormsg %]
<span class="error">Failed: [% HTML.escape(step.errormsg) %]</span> <span class="error">Failed</span>: <em>[% HTML.escape(step.errormsg) %]</em>
[% ELSE %] [% ELSE %]
<span class="error">Failed</span> <span class="error">Failed</span>
[% END %] [% END %]
@ -137,7 +144,7 @@ FOR step IN steps; IF step.busy; busy = 1; END; END;
<table> <table>
<tr> <tr>
<td> <td>
[% INCLUDE renderBuildStatusIcon size=128, build=build %] [% INCLUDE renderBuildStatusIcon size=128 build=build %]
</td> </td>
<td> <td>
<table class="info-table"> <table class="info-table">

10
src/root/static/css/hydra.css
View file

@ -132,3 +132,13 @@ div.flot-tooltip {
opacity: 0.80; opacity: 0.80;
z-index: 100; z-index: 100;
} }
td.step-status span.error {
color: red;
font-weight: bold;
}
td.step-status span.warn {
color: #aaaa00;
font-weight: bold;
}

6
src/sql/hydra.sql
View file

@ -289,6 +289,12 @@ create table BuildSteps (
-- Time in milliseconds spend copying stuff from/to build machines. -- Time in milliseconds spend copying stuff from/to build machines.
overhead integer, overhead integer,
-- How many times this build step was done (for checking determinism).
timesBuilt integer,
-- Whether this build step produced different results when repeated.
isNonDeterministic boolean,
primary key (build, stepnr), primary key (build, stepnr),
foreign key (build) references Builds(id) on delete cascade, foreign key (build) references Builds(id) on delete cascade,
foreign key (propagatedFrom) references Builds(id) on delete cascade foreign key (propagatedFrom) references Builds(id) on delete cascade

3
src/sql/upgrade-52.sql Normal file
View file

@ -0,0 +1,3 @@
alter table BuildSteps
add column timesBuilt integer,
add column isNonDeterministic boolean;