func validateHostDir(hostDir *HostDirectory) errs.ErrorList {
	allErrs := errs.ErrorList{}
	if hostDir.Path == "" {
		allErrs.Append(errs.NewNotFound("HostDir.Path", hostDir.Path))
	}
	return allErrs
}
Exemple #2
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func validatePorts(ports []api.Port) errs.ErrorList {
	allErrs := errs.ErrorList{}

	allNames := util.StringSet{}
	for i := range ports {
		pErrs := errs.ErrorList{}
		port := &ports[i] // so we can set default values
		if len(port.Name) > 0 {
			if len(port.Name) > 63 || !util.IsDNSLabel(port.Name) {
				pErrs = append(pErrs, errs.NewFieldInvalid("name", port.Name))
			} else if allNames.Has(port.Name) {
				pErrs = append(pErrs, errs.NewFieldDuplicate("name", port.Name))
			} else {
				allNames.Insert(port.Name)
			}
		}
		if port.ContainerPort == 0 {
			pErrs = append(pErrs, errs.NewFieldRequired("containerPort", port.ContainerPort))
		} else if !util.IsValidPortNum(port.ContainerPort) {
			pErrs = append(pErrs, errs.NewFieldInvalid("containerPort", port.ContainerPort))
		}
		if port.HostPort != 0 && !util.IsValidPortNum(port.HostPort) {
			pErrs = append(pErrs, errs.NewFieldInvalid("hostPort", port.HostPort))
		}
		if len(port.Protocol) == 0 {
			port.Protocol = "TCP"
		} else if !supportedPortProtocols.Has(strings.ToUpper(port.Protocol)) {
			pErrs = append(pErrs, errs.NewFieldNotSupported("protocol", port.Protocol))
		}
		allErrs = append(allErrs, pErrs.PrefixIndex(i)...)
	}
	return allErrs
}
Exemple #3
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func validateVolumes(volumes []api.Volume) (util.StringSet, errs.ErrorList) {
	allErrs := errs.ErrorList{}

	allNames := util.StringSet{}
	for i := range volumes {
		vol := &volumes[i] // so we can set default values
		el := errs.ErrorList{}
		// TODO(thockin) enforce that a source is set once we deprecate the implied form.
		if vol.Source != nil {
			el = validateSource(vol.Source).Prefix("source")
		}
		if len(vol.Name) == 0 {
			el = append(el, errs.NewFieldRequired("name", vol.Name))
		} else if !util.IsDNSLabel(vol.Name) {
			el = append(el, errs.NewFieldInvalid("name", vol.Name))
		} else if allNames.Has(vol.Name) {
			el = append(el, errs.NewFieldDuplicate("name", vol.Name))
		}
		if len(el) == 0 {
			allNames.Insert(vol.Name)
		} else {
			allErrs = append(allErrs, el.PrefixIndex(i)...)
		}
	}
	return allNames, allErrs
}
Exemple #4
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func validateContainers(containers []api.Container, volumes util.StringSet) errs.ErrorList {
	allErrs := errs.ErrorList{}

	allNames := util.StringSet{}
	for i := range containers {
		cErrs := errs.ErrorList{}
		ctr := &containers[i] // so we can set default values
		if len(ctr.Name) == 0 {
			cErrs = append(cErrs, errs.NewFieldRequired("name", ctr.Name))
		} else if !util.IsDNSLabel(ctr.Name) {
			cErrs = append(cErrs, errs.NewFieldInvalid("name", ctr.Name))
		} else if allNames.Has(ctr.Name) {
			cErrs = append(cErrs, errs.NewFieldDuplicate("name", ctr.Name))
		} else {
			allNames.Insert(ctr.Name)
		}
		if len(ctr.Image) == 0 {
			cErrs = append(cErrs, errs.NewFieldRequired("image", ctr.Image))
		}
		cErrs = append(cErrs, validatePorts(ctr.Ports).Prefix("ports")...)
		cErrs = append(cErrs, validateEnv(ctr.Env).Prefix("env")...)
		cErrs = append(cErrs, validateVolumeMounts(ctr.VolumeMounts, volumes).Prefix("volumeMounts")...)
		allErrs = append(allErrs, cErrs.PrefixIndex(i)...)
	}
	// Check for colliding ports across all containers.
	// TODO(thockin): This really is dependent on the network config of the host (IP per pod?)
	// and the config of the new manifest.  But we have not specced that out yet, so we'll just
	// make some assumptions for now.  As of now, pods share a network namespace, which means that
	// every Port.HostPort across the whole pod must be unique.
	allErrs = append(allErrs, checkHostPortConflicts(containers)...)

	return allErrs
}
// Pod tests if required fields in the pod are set.
func ValidatePod(pod *Pod) []error {
	allErrs := errs.ErrorList{}
	if pod.ID == "" {
		allErrs.Append(errs.NewInvalid("Pod.ID", pod.ID))
	}
	allErrs.Append(ValidatePodState(&pod.DesiredState)...)
	return []error(allErrs)
}
func validateEnv(vars []EnvVar) errs.ErrorList {
	allErrs := errs.ErrorList{}

	for i := range vars {
		ev := &vars[i] // so we can set default values
		if len(ev.Name) == 0 {
			allErrs.Append(errs.NewInvalid("EnvVar.Name", ev.Name))
		}
		if !util.IsCIdentifier(ev.Name) {
			allErrs.Append(errs.NewInvalid("EnvVar.Name", ev.Name))
		}
	}
	return allErrs
}
Exemple #7
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func validateEnv(vars []api.EnvVar) errs.ErrorList {
	allErrs := errs.ErrorList{}

	for i := range vars {
		vErrs := errs.ErrorList{}
		ev := &vars[i] // so we can set default values
		if len(ev.Name) == 0 {
			vErrs = append(vErrs, errs.NewFieldRequired("name", ev.Name))
		}
		if !util.IsCIdentifier(ev.Name) {
			vErrs = append(vErrs, errs.NewFieldInvalid("name", ev.Name))
		}
		allErrs = append(allErrs, vErrs.PrefixIndex(i)...)
	}
	return allErrs
}
func validateSource(source *VolumeSource) errs.ErrorList {
	numVolumes := 0
	allErrs := errs.ErrorList{}
	if source.HostDirectory != nil {
		numVolumes++
		allErrs.Append(validateHostDir(source.HostDirectory)...)
	}
	if source.EmptyDirectory != nil {
		numVolumes++
		//EmptyDirs have nothing to validate
	}
	if numVolumes != 1 {
		allErrs.Append(errs.NewInvalid("Volume.Source", source))
	}
	return allErrs
}
// AccumulateUniquePorts runs an extraction function on each Port of each Container,
// accumulating the results and returning an error if any ports conflict.
func AccumulateUniquePorts(containers []Container, accumulator map[int]bool, extract func(*Port) int) errs.ErrorList {
	allErrs := errs.ErrorList{}

	for ci := range containers {
		ctr := &containers[ci]
		for pi := range ctr.Ports {
			port := extract(&ctr.Ports[pi])
			if accumulator[port] {
				allErrs.Append(errs.NewDuplicate("Port", port))
			} else {
				accumulator[port] = true
			}
		}
	}
	return allErrs
}
func validateVolumeMounts(mounts []VolumeMount, volumes util.StringSet) errs.ErrorList {
	allErrs := errs.ErrorList{}

	for i := range mounts {
		mnt := &mounts[i] // so we can set default values
		if len(mnt.Name) == 0 {
			allErrs.Append(errs.NewInvalid("VolumeMount.Name", mnt.Name))
		} else if !volumes.Has(mnt.Name) {
			allErrs.Append(errs.NewNotFound("VolumeMount.Name", mnt.Name))
		}
		if len(mnt.MountPath) == 0 {
			// Backwards compat.
			if len(mnt.Path) == 0 {
				allErrs.Append(errs.NewInvalid("VolumeMount.MountPath", mnt.MountPath))
			} else {
				glog.Warning("DEPRECATED: VolumeMount.Path has been replaced by VolumeMount.MountPath")
				mnt.MountPath = mnt.Path
				mnt.Path = ""
			}
		}
		if len(mnt.MountType) != 0 {
			glog.Warning("DEPRECATED: VolumeMount.MountType will be removed. The Volume struct will handle types")
		}
	}
	return allErrs
}
Exemple #11
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func validateVolumeMounts(mounts []api.VolumeMount, volumes util.StringSet) errs.ErrorList {
	allErrs := errs.ErrorList{}

	for i := range mounts {
		mErrs := errs.ErrorList{}
		mnt := &mounts[i] // so we can set default values
		if len(mnt.Name) == 0 {
			mErrs = append(mErrs, errs.NewFieldRequired("name", mnt.Name))
		} else if !volumes.Has(mnt.Name) {
			mErrs = append(mErrs, errs.NewNotFound("name", mnt.Name))
		}
		if len(mnt.MountPath) == 0 {
			mErrs = append(mErrs, errs.NewFieldRequired("mountPath", mnt.MountPath))
		}
		allErrs = append(allErrs, mErrs.PrefixIndex(i)...)
	}
	return allErrs
}
// ValidateManifest tests that the specified ContainerManifest has valid data.
// This includes checking formatting and uniqueness.  It also canonicalizes the
// structure by setting default values and implementing any backwards-compatibility
// tricks.
func ValidateManifest(manifest *ContainerManifest) []error {
	allErrs := errs.ErrorList{}

	if len(manifest.Version) == 0 {
		allErrs.Append(errs.NewInvalid("ContainerManifest.Version", manifest.Version))
	} else if !supportedManifestVersions.Has(strings.ToLower(manifest.Version)) {
		allErrs.Append(errs.NewNotSupported("ContainerManifest.Version", manifest.Version))
	}
	allVolumes, errs := validateVolumes(manifest.Volumes)
	if len(errs) != 0 {
		allErrs.Append(errs...)
	}
	allErrs.Append(validateContainers(manifest.Containers, allVolumes)...)
	return []error(allErrs)
}
Exemple #13
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// AccumulateUniquePorts runs an extraction function on each Port of each Container,
// accumulating the results and returning an error if any ports conflict.
func AccumulateUniquePorts(containers []api.Container, accumulator map[int]bool, extract func(*api.Port) int) errs.ErrorList {
	allErrs := errs.ErrorList{}

	for ci := range containers {
		cErrs := errs.ErrorList{}
		ctr := &containers[ci]
		for pi := range ctr.Ports {
			port := extract(&ctr.Ports[pi])
			if port == 0 {
				continue
			}
			if accumulator[port] {
				cErrs = append(cErrs, errs.NewFieldDuplicate("Port", port))
			} else {
				accumulator[port] = true
			}
		}
		allErrs = append(allErrs, cErrs.PrefixIndex(ci)...)
	}
	return allErrs
}
// ValidateService tests if required fields in the service are set.
func ValidateService(service *Service) []error {
	allErrs := errs.ErrorList{}
	if service.ID == "" {
		allErrs.Append(errs.NewInvalid("Service.ID", service.ID))
	} else if !util.IsDNS952Label(service.ID) {
		allErrs.Append(errs.NewInvalid("Service.ID", service.ID))
	}
	if labels.Set(service.Selector).AsSelector().Empty() {
		allErrs.Append(errs.NewInvalid("Service.Selector", service.Selector))
	}
	return []error(allErrs)
}
Exemple #15
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// NewInvalidError returns an error indicating the item is invalid and cannot be processed.
func NewInvalidErr(kind, name string, errs errors.ErrorList) error {
	causes := make([]api.StatusCause, 0, len(errs))
	for i := range errs {
		if err, ok := errs[i].(errors.ValidationError); ok {
			causes = append(causes, api.StatusCause{
				Type:    api.CauseType(err.Type),
				Message: err.Error(),
				Field:   err.Field,
			})
		}
	}
	return &apiServerError{api.Status{
		Status: api.StatusFailure,
		Code:   422, // RFC 4918
		Reason: api.StatusReasonInvalid,
		Details: &api.StatusDetails{
			Kind:   kind,
			ID:     name,
			Causes: causes,
		},
		Message: fmt.Sprintf("%s %q is invalid: %s", kind, name, errs.ToError()),
	}}
}
func validateVolumes(volumes []Volume) (util.StringSet, errs.ErrorList) {
	allErrs := errs.ErrorList{}

	allNames := util.StringSet{}
	for i := range volumes {
		vol := &volumes[i] // so we can set default values
		el := errs.ErrorList{}
		// TODO(thockin) enforce that a source is set once we deprecate the implied form.
		if vol.Source != nil {
			el = validateSource(vol.Source)
		}
		if !util.IsDNSLabel(vol.Name) {
			el.Append(errs.NewInvalid("Volume.Name", vol.Name))
		} else if allNames.Has(vol.Name) {
			el.Append(errs.NewDuplicate("Volume.Name", vol.Name))
		}
		if len(el) == 0 {
			allNames.Insert(vol.Name)
		} else {
			allErrs.Append(el...)
		}
	}
	return allNames, allErrs
}
func validatePorts(ports []Port) errs.ErrorList {
	allErrs := errs.ErrorList{}

	allNames := util.StringSet{}
	for i := range ports {
		port := &ports[i] // so we can set default values
		if len(port.Name) > 0 {
			if len(port.Name) > 63 || !util.IsDNSLabel(port.Name) {
				allErrs.Append(errs.NewInvalid("Port.Name", port.Name))
			} else if allNames.Has(port.Name) {
				allErrs.Append(errs.NewDuplicate("Port.name", port.Name))
			} else {
				allNames.Insert(port.Name)
			}
		}
		if !util.IsValidPortNum(port.ContainerPort) {
			allErrs.Append(errs.NewInvalid("Port.ContainerPort", port.ContainerPort))
		}
		if port.HostPort == 0 {
			port.HostPort = port.ContainerPort
		} else if !util.IsValidPortNum(port.HostPort) {
			allErrs.Append(errs.NewInvalid("Port.HostPort", port.HostPort))
		}
		if len(port.Protocol) == 0 {
			port.Protocol = "TCP"
		} else if !supportedPortProtocols.Has(strings.ToUpper(port.Protocol)) {
			allErrs.Append(errs.NewNotSupported("Port.Protocol", port.Protocol))
		}
	}
	return allErrs
}