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Index ¶
Constants ¶
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const ( // DefaultArch is the default Arch for GenericLabels DefaultArch = "amd64" // DefaultOS is the default OS for GenericLabels DefaultOS = "linux" // KubeProxyCpuRequestMillis is the amount of cpu requested by Kubeproxy KubeProxyCpuRequestMillis = 100 )
Variables ¶
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var ErrAlreadyExist errors.AutoscalerError = errors.NewAutoscalerError(errors.InternalError, "Already exist")
ErrAlreadyExist is returned if a method is not implemented.
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var ErrNotImplemented errors.AutoscalerError = errors.NewAutoscalerError(errors.InternalError, "Not implemented")
ErrNotImplemented is returned if a method is not implemented.
Functions ¶
func BuildKubeProxy ¶
BuildKubeProxy builds a KubeProxy pod definition
func BuildReadyConditions ¶
func BuildReadyConditions() []apiv1.NodeCondition
BuildReadyConditions sets up mock NodeConditions
Types ¶
type CloudProvider ¶
type CloudProvider interface {
// Name returns name of the cloud provider.
Name() string
// NodeGroups returns all node groups configured for this cloud provider.
NodeGroups() []NodeGroup
// NodeGroupForNode returns the node group for the given node, nil if the node
// should not be processed by cluster autoscaler, or non-nil error if such
// occurred. Must be implemented.
NodeGroupForNode(*apiv1.Node) (NodeGroup, error)
// Pricing returns pricing model for this cloud provider or error if not available.
// Implementation optional.
Pricing() (PricingModel, errors.AutoscalerError)
// GetAvilableMachineTypes get all machine types that can be requested from the cloud provider.
// Implementation optional.
GetAvilableMachineTypes() ([]string, error)
// NewNodeGroup builds a theoretical node group based on the node definition provided. The node group is not automatically
// created on the cloud provider side. The node group is not returned by NodeGroups() until it is created.
// Implementation optional.
NewNodeGroup(name string, machineType string, labels map[string]string, extraResources map[string]resource.Quantity) (NodeGroup, error)
}
CloudProvider contains configuration info and functions for interacting with cloud provider (GCE, AWS, etc).
type NodeGroup ¶
type NodeGroup interface {
// MaxSize returns maximum size of the node group.
MaxSize() int
// MinSize returns minimum size of the node group.
MinSize() int
// TargetSize returns the current target size of the node group. It is possible that the
// number of nodes in Kubernetes is different at the moment but should be equal
// to Size() once everything stabilizes (new nodes finish startup and registration or
// removed nodes are deleted completely). Implementation required.
TargetSize() (int, error)
// IncreaseSize increases the size of the node group. To delete a node you need
// to explicitly name it and use DeleteNode. This function should wait until
// node group size is updated. Implementation required.
IncreaseSize(delta int) error
// DeleteNodes deletes nodes from this node group. Error is returned either on
// failure or if the given node doesn't belong to this node group. This function
// should wait until node group size is updated. Implementation required.
DeleteNodes([]*apiv1.Node) error
// DecreaseTargetSize decreases the target size of the node group. This function
// doesn't permit to delete any existing node and can be used only to reduce the
// request for new nodes that have not been yet fulfilled. Delta should be negative.
// It is assumed that cloud provider will not delete the existing nodes when there
// is an option to just decrease the target. Implementation required.
DecreaseTargetSize(delta int) error
// Id returns an unique identifier of the node group.
Id() string
// Debug returns a string containing all information regarding this node group.
Debug() string
// Nodes returns a list of all nodes that belong to this node group.
Nodes() ([]string, error)
// TemplateNodeInfo returns a schedulercache.NodeInfo structure of an empty
// (as if just started) node. This will be used in scale-up simulations to
// predict what would a new node look like if a node group was expanded. The returned
// NodeInfo is expected to have a fully populated Node object, with all of the labels,
// capacity and allocatable information as well as all pods that are started on
// the node by default, using manifest (most likely only kube-proxy). Implementation optional.
TemplateNodeInfo() (*schedulercache.NodeInfo, error)
// Exist checks if the node group really exists on the cloud provider side. Allows to tell the
// theoretical node group from the real one. Implementation required.
Exist() (bool, error)
// Create creates the node group on the cloud provider side. Implementation optional.
Create() error
// Delete deletes the node group on the cloud provider side.
// This will be executed only for autoprovisioned node groups, once their size drops to 0.
// Implementation optional.
Delete() error
}
NodeGroup contains configuration info and functions to control a set of nodes that have the same capacity and set of labels.
type NodeGroupDiscoveryOptions ¶
type NodeGroupDiscoveryOptions struct {
// NodeGroupSpecs is specified to statically discover node groups listed in it
NodeGroupSpecs []string
// NodeGroupAutoDiscoverySpec is specified for automatically discovering node groups according to the specs
NodeGroupAutoDiscoverySpec string
}
NodeGroupDiscoveryOptions contains various options to configure how a cloud provider discovers node groups
func (NodeGroupDiscoveryOptions) AutoDiscoverySpecified ¶
func (o NodeGroupDiscoveryOptions) AutoDiscoverySpecified() bool
AutoDiscoverySpecified returns true only when there is --node-group-auto-discovery specified
func (NodeGroupDiscoveryOptions) StaticDiscoverySpecified ¶
func (o NodeGroupDiscoveryOptions) StaticDiscoverySpecified() bool
StaticDiscoverySpecified returns true only when there are 1 or more --nodes flags are specified
func (NodeGroupDiscoveryOptions) Validate ¶
func (o NodeGroupDiscoveryOptions) Validate() error
Validate returns and error when both --nodes and --node-group-auto-discovery are specified
type PricingModel ¶
type PricingModel interface {
// NodePrice returns a price of running the given node for a given period of time.
// All prices returned by the structure should be in the same currency.
NodePrice(node *apiv1.Node, startTime time.Time, endTime time.Time) (float64, error)
// PodePrice returns a theoretical minimum priece of running a pod for a given
// period of time on a perfectly matching machine.
PodPrice(pod *apiv1.Pod, startTime time.Time, endTime time.Time) (float64, error)
}
PricingModel contains information about the node price and how it changes in time.
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