// GetWork requests one or more work units to perform. The work unit // attempts are associated with workerID, which need not have been // previously registered. If there is no work to do, may return // neither work nor an error. // // Each work unit is returned as a cborrpc.PythonTuple holding the // work spec name, work unit key as a byte slice, and work unit data // dictionary. If options does not contain "max_jobs" or if that // value is 1, returns a tuple or nil, otherwise returns a slice of // tuples (maybe 1 or none). func (jobs *JobServer) GetWork(workerID string, options map[string]interface{}) (interface{}, string, error) { // This is the Big Kahuna. The Python Coordinate server tries // to be extra clever with its return value, returning None if // there is no work, a concrete value if one work unit was // requested, and a list if more than one was requested, and // this same rule is enforced in the client code. So, this will // return either exactly one PythonTuple or a list of PythonTuple. var ( attempts []coordinate.Attempt err error gwOptions GetWorkOptions worker coordinate.Worker ) err = decode(&gwOptions, options) if err == nil { worker, err = jobs.Namespace.Worker(workerID) } if err == nil { if gwOptions.MaxJobs < 1 { gwOptions.MaxJobs = 1 } req := coordinate.AttemptRequest{ NumberOfWorkUnits: gwOptions.MaxJobs, } attempts, err = worker.RequestAttempts(req) } if err != nil { return nil, "", err } // successful return if gwOptions.MaxJobs == 1 { if len(attempts) == 0 { tuple := cborrpc.PythonTuple{ Items: []interface{}{nil, nil, nil}, } return tuple, "", nil } if len(attempts) == 1 { tuple, err := getWorkTuple(attempts[0]) if err != nil { return nil, "", err } return tuple, "", nil } } result := make([]cborrpc.PythonTuple, len(attempts)) for i, attempt := range attempts { tuple, err := getWorkTuple(attempt) if err != nil { return nil, "", err } result[i] = tuple } return result, "", nil }
// TestChainingExpiry tests that, if an attempt finishes but is no // longer the active attempt, then its successor work units will not // be created. func (s *Suite) TestChainingExpiry(c *check.C) { var ( one, two coordinate.WorkSpec err error worker coordinate.Worker unit coordinate.WorkUnit attempts []coordinate.Attempt ) one, err = s.Namespace.SetWorkSpec(map[string]interface{}{ "name": "one", "then": "two", }) c.Assert(err, check.IsNil) two, err = s.Namespace.SetWorkSpec(map[string]interface{}{ "name": "two", "disabled": true, }) c.Assert(err, check.IsNil) worker, err = s.Namespace.Worker("worker") c.Assert(err, check.IsNil) // Create and perform a work unit, with no output unit, err = one.AddWorkUnit("a", map[string]interface{}{}, 0.0) c.Assert(err, check.IsNil) attempts, err = worker.RequestAttempts(coordinate.AttemptRequest{}) c.Assert(err, check.IsNil) c.Assert(attempts, check.HasLen, 1) attempt := attempts[0] // But wait! We got preempted err = unit.ClearActiveAttempt() c.Assert(err, check.IsNil) attempts, err = worker.RequestAttempts(coordinate.AttemptRequest{}) c.Assert(err, check.IsNil) c.Assert(attempts, check.HasLen, 1) // Now, let the original attempt finish, trying to generate // more outputs err = attempt.Finish(map[string]interface{}{ "output": []string{"unit"}, }) c.Assert(err, check.IsNil) // Since attempt is no longer active, this shouldn't generate // new outputs units, err := two.WorkUnits(coordinate.WorkUnitQuery{}) c.Assert(err, check.IsNil) c.Check(units, check.HasLen, 0) }
// checkWorkUnitOrder verifies that getting all of the work possible // retrieves work units in a specific order. func checkWorkUnitOrder( c *check.C, worker coordinate.Worker, spec coordinate.WorkSpec, unitNames ...string, ) { var processedUnits []string for { attempts, err := worker.RequestAttempts(coordinate.AttemptRequest{}) c.Assert(err, check.IsNil) if len(attempts) == 0 { break } c.Assert(attempts, check.HasLen, 1) attempt := attempts[0] c.Check(attempt.WorkUnit().WorkSpec().Name(), check.Equals, spec.Name()) processedUnits = append(processedUnits, attempt.WorkUnit().Name()) err = attempt.Finish(nil) c.Assert(err, check.IsNil) } c.Check(processedUnits, check.DeepEquals, unitNames) }
// TestChainingTwoStep separately renews an attempt to insert an output // key, then finishes the work unit; it should still chain. func (s *Suite) TestChainingTwoStep(c *check.C) { var ( one, two coordinate.WorkSpec worker coordinate.Worker attempts []coordinate.Attempt units map[string]coordinate.WorkUnit unit coordinate.WorkUnit data map[string]interface{} priority float64 ok bool err error ) one, err = s.Namespace.SetWorkSpec(map[string]interface{}{ "name": "one", "then": "two", }) c.Assert(err, check.IsNil) two, err = s.Namespace.SetWorkSpec(map[string]interface{}{ "name": "two", }) c.Assert(err, check.IsNil) worker, err = s.Namespace.Worker("worker") c.Assert(err, check.IsNil) _, err = one.AddWorkUnit("a", map[string]interface{}{}, 0.0) c.Assert(err, check.IsNil) attempts, err = worker.RequestAttempts(coordinate.AttemptRequest{}) c.Assert(err, check.IsNil) c.Assert(attempts, check.HasLen, 1) err = attempts[0].Renew(time.Duration(900)*time.Second, map[string]interface{}{ "output": []interface{}{ []byte{1, 2, 3, 4}, cborrpc.PythonTuple{Items: []interface{}{ []byte{1, 2, 3, 4}, map[interface{}]interface{}{}, map[interface{}]interface{}{ "priority": 0, }, }}, }, }) c.Assert(err, check.IsNil) err = attempts[0].Finish(nil) units, err = two.WorkUnits(coordinate.WorkUnitQuery{}) c.Assert(err, check.IsNil) c.Check(units, HasKeys, []string{"\x01\x02\x03\x04"}) if unit, ok = units["\x01\x02\x03\x04"]; ok { data, err = unit.Data() c.Assert(err, check.IsNil) c.Check(data, check.DeepEquals, map[string]interface{}{}) priority, err = unit.Priority() c.Assert(err, check.IsNil) c.Check(priority, check.Equals, 0.0) } }
// TestChainingMixed uses a combination of strings and tuples in its // "output" data. func (s *Suite) TestChainingMixed(c *check.C) { var ( one, two coordinate.WorkSpec worker coordinate.Worker attempts []coordinate.Attempt units map[string]coordinate.WorkUnit unit coordinate.WorkUnit data map[string]interface{} priority float64 ok bool err error ) one, err = s.Namespace.SetWorkSpec(map[string]interface{}{ "name": "one", "then": "two", }) c.Assert(err, check.IsNil) two, err = s.Namespace.SetWorkSpec(map[string]interface{}{ "name": "two", }) c.Assert(err, check.IsNil) worker, err = s.Namespace.Worker("worker") c.Assert(err, check.IsNil) _, err = one.AddWorkUnit("a", map[string]interface{}{}, 0.0) c.Assert(err, check.IsNil) attempts, err = worker.RequestAttempts(coordinate.AttemptRequest{}) c.Assert(err, check.IsNil) c.Assert(attempts, check.HasLen, 1) err = attempts[0].Finish(map[string]interface{}{ "output": []interface{}{ "key", cborrpc.PythonTuple{Items: []interface{}{ "key", map[string]interface{}{ "data": "x", }, map[string]interface{}{ "priority": 10.0, }, }}, }, }) c.Assert(err, check.IsNil) units, err = two.WorkUnits(coordinate.WorkUnitQuery{}) c.Assert(err, check.IsNil) c.Check(units, HasKeys, []string{"key"}) if unit, ok = units["key"]; ok { data, err = unit.Data() c.Assert(err, check.IsNil) c.Check(data, check.DeepEquals, map[string]interface{}{"data": "x"}) priority, err = unit.Priority() c.Assert(err, check.IsNil) c.Check(priority, check.Equals, 10.0) } }
// TestWorkUnitChaining tests that completing work units in one work spec // will cause work units to appear in another, if so configured. func (s *Suite) TestWorkUnitChaining(c *check.C) { var ( err error worker coordinate.Worker one, two coordinate.WorkSpec units map[string]coordinate.WorkUnit attempts []coordinate.Attempt data map[string]interface{} ok bool ) one, err = s.Namespace.SetWorkSpec(map[string]interface{}{ "name": "one", "then": "two", }) c.Assert(err, check.IsNil) two, err = s.Namespace.SetWorkSpec(map[string]interface{}{ "name": "two", "disabled": true, }) c.Assert(err, check.IsNil) worker, err = s.Namespace.Worker("worker") c.Assert(err, check.IsNil) // Create and perform a work unit, with no output _, err = one.AddWorkUnit("a", map[string]interface{}{}, 0.0) c.Assert(err, check.IsNil) attempts, err = worker.RequestAttempts(coordinate.AttemptRequest{}) c.Assert(err, check.IsNil) c.Assert(attempts, check.HasLen, 1) err = attempts[0].Finish(nil) c.Assert(err, check.IsNil) units, err = two.WorkUnits(coordinate.WorkUnitQuery{}) c.Assert(err, check.IsNil) c.Check(units, HasKeys, []string{}) // Create and perform a work unit, with a map output _, err = one.AddWorkUnit("b", map[string]interface{}{}, 0.0) c.Assert(err, check.IsNil) attempts, err = worker.RequestAttempts(coordinate.AttemptRequest{}) c.Assert(err, check.IsNil) c.Assert(attempts, check.HasLen, 1) err = attempts[0].Finish(map[string]interface{}{ "output": map[string]interface{}{ "two_b": map[string]interface{}{"k": "v"}, }, }) c.Assert(err, check.IsNil) units, err = two.WorkUnits(coordinate.WorkUnitQuery{}) c.Assert(err, check.IsNil) c.Check(units, HasKeys, []string{"two_b"}) if _, ok = units["two_b"]; ok { data, err = units["two_b"].Data() c.Assert(err, check.IsNil) c.Check(data, check.DeepEquals, map[string]interface{}{"k": "v"}) } // Create and perform a work unit, with a slice output _, err = one.AddWorkUnit("c", map[string]interface{}{}, 0.0) c.Assert(err, check.IsNil) attempts, err = worker.RequestAttempts(coordinate.AttemptRequest{}) c.Assert(err, check.IsNil) c.Assert(attempts, check.HasLen, 1) err = attempts[0].Finish(map[string]interface{}{ "output": []string{"two_c", "two_cc"}, }) c.Assert(err, check.IsNil) units, err = two.WorkUnits(coordinate.WorkUnitQuery{}) c.Assert(err, check.IsNil) c.Check(units, HasKeys, []string{"two_b", "two_c", "two_cc"}) if _, ok = units["two_c"]; ok { data, err = units["two_c"].Data() c.Assert(err, check.IsNil) c.Check(data, check.DeepEquals, map[string]interface{}{}) } // Put the output in the original work unit data _, err = one.AddWorkUnit("d", map[string]interface{}{ "output": []string{"two_d"}, }, 0.0) c.Assert(err, check.IsNil) attempts, err = worker.RequestAttempts(coordinate.AttemptRequest{}) c.Assert(err, check.IsNil) c.Assert(attempts, check.HasLen, 1) err = attempts[0].Finish(nil) c.Assert(err, check.IsNil) units, err = two.WorkUnits(coordinate.WorkUnitQuery{}) c.Assert(err, check.IsNil) c.Check(units, HasKeys, []string{"two_b", "two_c", "two_cc", "two_d"}) }
// TestAttemptLifetime validates a basic attempt lifetime. func (s *Suite) TestAttemptLifetime(c *check.C) { var ( err error data map[string]interface{} attempt, attempt2 coordinate.Attempt aStatus coordinate.AttemptStatus spec coordinate.WorkSpec unit coordinate.WorkUnit worker coordinate.Worker uStatus coordinate.WorkUnitStatus ) spec, worker = s.makeWorkSpecAndWorker(c) // Create a work unit unit, err = spec.AddWorkUnit("a", map[string]interface{}{}, 0.0) c.Assert(err, check.IsNil) // The work unit should be "available" uStatus, err = unit.Status() c.Assert(err, check.IsNil) c.Check(uStatus, check.Equals, coordinate.AvailableUnit) // The work unit data should be defined but empty data, err = unit.Data() c.Assert(err, check.IsNil) c.Check(data, check.HasLen, 0) // Get an attempt for it attempts, err := worker.RequestAttempts(coordinate.AttemptRequest{}) c.Assert(err, check.IsNil) c.Assert(attempts, check.HasLen, 1) attempt = attempts[0] // The work unit should be "pending" uStatus, err = unit.Status() c.Assert(err, check.IsNil) c.Check(uStatus, check.Equals, coordinate.PendingUnit) // The attempt should be "pending" too aStatus, err = attempt.Status() c.Assert(err, check.IsNil) c.Check(aStatus, check.Equals, coordinate.Pending) // The active attempt for the unit should match this attempt2, err = unit.ActiveAttempt() c.Assert(err, check.IsNil) c.Check(attempt2, AttemptMatches, attempt) // There should be one active attempt for the worker and it should // also match attempts, err = worker.ActiveAttempts() c.Assert(err, check.IsNil) c.Check(attempts, check.HasLen, 1) if len(attempts) > 0 { c.Check(attempts[0], AttemptMatches, attempt) } // The work unit data should (still) be defined but empty data, err = unit.Data() c.Assert(err, check.IsNil) c.Check(data, check.HasLen, 0) // Now finish the attempt with some updated data err = attempt.Finish(map[string]interface{}{ "outputs": []string{"yes"}, }) c.Assert(err, check.IsNil) // The unit should report "finished" uStatus, err = unit.Status() c.Assert(err, check.IsNil) c.Check(uStatus, check.Equals, coordinate.FinishedUnit) // The attempt should report "finished" aStatus, err = attempt.Status() c.Assert(err, check.IsNil) c.Check(aStatus, check.Equals, coordinate.Finished) // The attempt should still be the active attempt for the unit attempt2, err = unit.ActiveAttempt() c.Assert(err, check.IsNil) c.Check(attempt2, AttemptMatches, attempt) // The attempt should not be in the active attempt list for the worker attempts, err = worker.ActiveAttempts() c.Assert(err, check.IsNil) c.Check(attempts, check.HasLen, 0) // Both the unit and the worker should have one archived attempt attempts, err = unit.Attempts() c.Assert(err, check.IsNil) c.Check(attempts, check.HasLen, 1) if len(attempts) > 0 { c.Check(attempts[0], AttemptMatches, attempt) } attempts, err = worker.AllAttempts() c.Assert(err, check.IsNil) c.Check(attempts, check.HasLen, 1) if len(attempts) > 0 { c.Check(attempts[0], AttemptMatches, attempt) } // This should have updated the visible work unit data too data, err = unit.Data() c.Assert(err, check.IsNil) c.Check(data, check.HasLen, 1) c.Check(data["outputs"], check.HasLen, 1) c.Check(reflect.ValueOf(data["outputs"]).Index(0).Interface(), check.Equals, "yes") // For bonus points, force-clear the active attempt err = unit.ClearActiveAttempt() c.Assert(err, check.IsNil) // This should have pushed the unit back to available uStatus, err = unit.Status() c.Assert(err, check.IsNil) c.Check(uStatus, check.Equals, coordinate.AvailableUnit) // This also should have reset the work unit data data, err = unit.Data() c.Assert(err, check.IsNil) c.Check(data, check.HasLen, 0) // But, this should not have reset the historical attempts attempts, err = unit.Attempts() c.Assert(err, check.IsNil) c.Check(attempts, check.HasLen, 1) if len(attempts) > 0 { c.Check(attempts[0], AttemptMatches, attempt) } attempts, err = worker.AllAttempts() c.Assert(err, check.IsNil) c.Check(attempts, check.HasLen, 1) if len(attempts) > 0 { c.Check(attempts[0], AttemptMatches, attempt) } }