本文整理汇总了Golang中github.com/coreos/fleet/job.Job.RequiredTarget方法的典型用法代码示例。如果您正苦于以下问题:Golang Job.RequiredTarget方法的具体用法?Golang Job.RequiredTarget怎么用?Golang Job.RequiredTarget使用的例子?那么恭喜您, 这里精选的方法代码示例或许可以为您提供帮助。您也可以进一步了解该方法所在类github.com/coreos/fleet/job.Job
的用法示例。
在下文中一共展示了Job.RequiredTarget方法的6个代码示例,这些例子默认根据受欢迎程度排序。您可以为喜欢或者感觉有用的代码点赞,您的评价将有助于系统推荐出更棒的Golang代码示例。
示例1: AbleToRun
// AbleToRun determines if an Agent can run the provided Job based on
// the Agent's current state. A boolean indicating whether this is the
// case or not is returned. The following criteria is used:
// - Agent must meet the Job's machine target requirement (if any)
// - Agent must have all of the Job's required metadata (if any)
// - Agent must have all required Peers of the Job scheduled locally (if any)
// - Job must not conflict with any other Jobs scheduled to the agent
func (as *AgentState) AbleToRun(j *job.Job) (bool, string) {
if tgt, ok := j.RequiredTarget(); ok && !as.MState.MatchID(tgt) {
return false, fmt.Sprintf("agent ID %q does not match required %q", as.MState.ID, tgt)
}
metadata := j.RequiredTargetMetadata()
if len(metadata) != 0 {
if !machine.HasMetadata(as.MState, metadata) {
return false, "local Machine metadata insufficient"
}
}
peers := j.Peers()
if len(peers) != 0 {
for _, peer := range peers {
if !as.jobScheduled(peer) {
return false, fmt.Sprintf("required peer Job(%s) is not scheduled locally", peer)
}
}
}
if cExists, cJobName := as.hasConflict(j.Name, j.Conflicts()); cExists {
return false, fmt.Sprintf("found conflict with locally-scheduled Job(%s)", cJobName)
}
return true, ""
}
示例2: partitionCluster
// partitionCluster returns a slice of IDs from a subset of active machines
// that should be considered for scheduling the specified job.
// The returned slice is sorted by ascending lexicographical string value of machine boot id.
func (eg *Engine) partitionCluster(j *job.Job) ([]string, error) {
if machID, ok := j.RequiredTarget(); ok {
return []string{machID}, nil
}
// TODO(uwedeportivo): for now punt on jobs with requirements and offer to all machines
// because agents are decoding the requirements
if len(j.Requirements()) > 0 {
machines, _ := eg.registry.Machines()
machineIDs := make([]string, len(machines))
for i, mach := range machines {
machineIDs[i] = mach.ID
}
sort.Strings(machineIDs)
return machineIDs, nil
}
// this is usually a cheap no-op
eg.refreshCluster(false)
// as an initial heuristic, choose the k least loaded, with k = partitionSize
machineIDs := eg.clust.kLeastLoaded(partitionSize)
sort.Strings(machineIDs)
return machineIDs, nil
}
示例3: AbleToRun
// AbleToRun determines if an Agent can run the provided Job based on
// the Agent's current state. A boolean indicating whether this is the
// case or not is returned. The following criteria is used:
// - Agent must meet the Job's machine target requirement (if any)
// - Agent must have all of the Job's required metadata (if any)
// - Agent must have all required Peers of the Job scheduled locally (if any)
// - Job must not conflict with any other Units scheduled to the agent
// - Job must specially handle replaced units to be rescheduled
func (as *AgentState) AbleToRun(j *job.Job) (jobAction job.JobAction, errstr string) {
if tgt, ok := j.RequiredTarget(); ok && !as.MState.MatchID(tgt) {
return job.JobActionUnschedule, fmt.Sprintf("agent ID %q does not match required %q", as.MState.ID, tgt)
}
metadata := j.RequiredTargetMetadata()
if len(metadata) != 0 {
if !machine.HasMetadata(as.MState, metadata) {
return job.JobActionUnschedule, "local Machine metadata insufficient"
}
}
peers := j.Peers()
if len(peers) != 0 {
for _, peer := range peers {
if !as.unitScheduled(peer) {
return job.JobActionUnschedule, fmt.Sprintf("required peer Unit(%s) is not scheduled locally", peer)
}
}
}
if cExists, cJobName := as.HasConflict(j.Name, j.Conflicts()); cExists {
return job.JobActionUnschedule, fmt.Sprintf("found conflict with locally-scheduled Unit(%s)", cJobName)
}
// Handle Replace option specially for rescheduling the unit
if cExists, cJobName := as.hasReplace(j.Name, j.Replaces()); cExists {
return job.JobActionReschedule, fmt.Sprintf("found replace with locally-scheduled Unit(%s)", cJobName)
}
return job.JobActionSchedule, ""
}
示例4: ableToRun
// Determine if the Agent can run the provided Job
func (a *Agent) ableToRun(j *job.Job) bool {
if !a.verifyJob(j) {
log.V(1).Infof("Failed to verify Job(%s)", j.Name)
return false
}
requirements := j.Requirements()
if len(requirements) == 0 {
log.V(1).Infof("Job(%s) has no requirements", j.Name)
}
log.Infof("Job(%s) has requirements: %s", j.Name, requirements)
metadata := j.RequiredTargetMetadata()
log.V(1).Infof("Job(%s) requires machine metadata: %v", j.Name, metadata)
ms := a.Machine.State()
if !machine.HasMetadata(&ms, metadata) {
log.Infof("Unable to run Job(%s), local Machine metadata insufficient", j.Name)
return false
}
if tgt, ok := j.RequiredTarget(); ok && !a.Machine.State().MatchID(tgt) {
log.Infof("Agent does not meet machine target requirement for Job(%s)", j.Name)
return false
}
peers := j.Peers()
if len(peers) > 0 {
log.V(1).Infof("Asserting required Peers %v of Job(%s) are scheduled locally", peers, j.Name)
for _, peer := range peers {
if !a.peerScheduledHere(j.Name, peer) {
log.Infof("Required Peer(%s) of Job(%s) is not scheduled locally", peer, j.Name)
return false
}
}
} else {
log.V(1).Infof("Job(%s) has no peers to worry about", j.Name)
}
if conflicted, conflictedJobName := a.HasConflict(j.Name, j.Conflicts()); conflicted {
log.Infof("Job(%s) has conflict with Job(%s)", j.Name, conflictedJobName)
return false
}
return true
}
示例5: ableToRun
// ableToRun determines if the Agent can run the provided Job, and returns a boolean indicating
// whether this is the case. There are five criteria for an Agent to be eligible to run a Job:
// - Job must pass signature verification
// - agent must have all of the Job's required metadata (if any)
// - agent must meet the Job's machine target requirement (if any)
// - agent must have all required Peers of the Job scheduled locally (if any)
// - Job must not conflict with any other Jobs scheduled to the agent
func (a *Agent) ableToRun(j *job.Job) bool {
if !a.verifyJobSignature(j) {
log.V(1).Infof("Failed to verify Job(%s)", j.Name)
return false
}
log.Infof("Job(%s) has requirements: %s", j.Name, j.Requirements())
metadata := j.RequiredTargetMetadata()
if len(metadata) == 0 {
log.V(1).Infof("Job(%s) has no required machine metadata", j.Name)
} else {
log.V(1).Infof("Job(%s) requires machine metadata: %v", j.Name, metadata)
ms := a.Machine.State()
if !machine.HasMetadata(&ms, metadata) {
log.Infof("Unable to run Job(%s): local Machine metadata insufficient", j.Name)
return false
}
}
if tgt, ok := j.RequiredTarget(); ok && !a.Machine.State().MatchID(tgt) {
log.Infof("Unable to run Job(%s): agent does not meet machine target requirement (%s)", j.Name, tgt)
return false
}
peers := j.Peers()
if len(peers) == 0 {
log.V(1).Infof("Job(%s) has no required peers", j.Name)
} else {
log.V(1).Infof("Job(%s) requires peers: %v", j.Name, peers)
for _, peer := range peers {
if !a.peerScheduledHere(j.Name, peer) {
log.Infof("Unable to run Job(%s): required Peer(%s) is not scheduled locally", j.Name, peer)
return false
}
}
}
if conflicted, conflictedJobName := a.HasConflict(j.Name, j.Conflicts()); conflicted {
log.Infof("Unable to run Job(%s): conflict with Job(%s)", j.Name, conflictedJobName)
return false
}
return true
}
示例6: ableToRun
// ableToRun determines if the Agent can run the provided Job based on
// the Agent's desired state. A boolean indicating whether this is the
// case or not is returned. The following criteria is used:
// - Agent must meet the Job's machine target requirement (if any)
// - Job must pass signature verification
// - Agent must have all of the Job's required metadata (if any)
// - Agent must have all required Peers of the Job scheduled locally (if any)
// - Job must not conflict with any other Jobs scheduled to the agent
func (ar *AgentReconciler) ableToRun(as *agentState, ms *machine.MachineState, j *job.Job) (bool, string) {
log.V(1).Infof("Attempting to determine if able to run Job(%s)", j.Name)
if tgt, ok := j.RequiredTarget(); ok && !ms.MatchID(tgt) {
return false, fmt.Sprintf("Agent ID %q does not match required %q", ms.ID, tgt)
}
if !ar.verifyJobSignature(j) {
return false, "unable to verify signature"
}
log.V(1).Infof("Job(%s) has requirements: %s", j.Name, j.Requirements())
metadata := j.RequiredTargetMetadata()
if len(metadata) == 0 {
log.V(1).Infof("Job(%s) has no required machine metadata", j.Name)
} else {
log.V(1).Infof("Job(%s) requires machine metadata: %v", j.Name, metadata)
if !machine.HasMetadata(ms, metadata) {
return false, "local Machine metadata insufficient"
}
}
peers := j.Peers()
if len(peers) == 0 {
log.V(1).Infof("Job(%s) has no required peers", j.Name)
} else {
log.V(1).Infof("Job(%s) requires peers: %v", j.Name, peers)
for _, peer := range peers {
if !as.jobScheduled(peer) {
return false, fmt.Sprintf("required peer Job(%s) is not scheduled locally", peer)
}
}
}
if cExists, cJobName := as.hasConflict(j.Name, j.Conflicts()); cExists {
return false, fmt.Sprintf("found conflict with locally-scheduled Job(%s)", cJobName)
}
log.V(1).Infof("Determined local Agent is able to run Job(%s)", j.Name)
return true, ""
}