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aws.go
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aws.go
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/*
Copyright 2014 The Kubernetes Authors.
Licensed under the Apache License, Version 2.0 (the "License");
you may not use this file except in compliance with the License.
You may obtain a copy of the License at
http://www.apache.org/licenses/LICENSE-2.0
Unless required by applicable law or agreed to in writing, software
distributed under the License is distributed on an "AS IS" BASIS,
WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
See the License for the specific language governing permissions and
limitations under the License.
*/
package aws
import (
"context"
"errors"
"fmt"
"io"
"net"
"strconv"
"strings"
"sync"
"time"
gcfg "gopkg.in/gcfg.v1"
"github.com/aws/aws-sdk-go/aws"
"github.com/aws/aws-sdk-go/aws/awserr"
"github.com/aws/aws-sdk-go/aws/credentials"
"github.com/aws/aws-sdk-go/aws/credentials/ec2rolecreds"
"github.com/aws/aws-sdk-go/aws/credentials/stscreds"
"github.com/aws/aws-sdk-go/aws/ec2metadata"
"github.com/aws/aws-sdk-go/aws/request"
"github.com/aws/aws-sdk-go/aws/session"
"github.com/aws/aws-sdk-go/service/autoscaling"
"github.com/aws/aws-sdk-go/service/ec2"
"github.com/aws/aws-sdk-go/service/elb"
"github.com/aws/aws-sdk-go/service/elbv2"
"github.com/aws/aws-sdk-go/service/kms"
"github.com/aws/aws-sdk-go/service/sts"
"github.com/golang/glog"
"github.com/prometheus/client_golang/prometheus"
clientset "k8s.io/client-go/kubernetes"
"k8s.io/client-go/tools/record"
"path"
"k8s.io/api/core/v1"
"k8s.io/apimachinery/pkg/api/resource"
metav1 "k8s.io/apimachinery/pkg/apis/meta/v1"
"k8s.io/apimachinery/pkg/types"
"k8s.io/apimachinery/pkg/util/sets"
"k8s.io/apimachinery/pkg/util/wait"
"k8s.io/client-go/kubernetes/scheme"
v1core "k8s.io/client-go/kubernetes/typed/core/v1"
"k8s.io/kubernetes/pkg/api/v1/service"
"k8s.io/kubernetes/pkg/cloudprovider"
"k8s.io/kubernetes/pkg/controller"
kubeletapis "k8s.io/kubernetes/pkg/kubelet/apis"
"k8s.io/kubernetes/pkg/volume"
volumeutil "k8s.io/kubernetes/pkg/volume/util"
)
// NLBHealthCheckRuleDescription is the comment used on a security group rule to
// indicate that it is used for health checks
const NLBHealthCheckRuleDescription = "kubernetes.io/rule/nlb/health"
// NLBClientRuleDescription is the comment used on a security group rule to
// indicate that it is used for client traffic
const NLBClientRuleDescription = "kubernetes.io/rule/nlb/client"
// NLBMtuDiscoveryRuleDescription is the comment used on a security group rule
// to indicate that it is used for mtu discovery
const NLBMtuDiscoveryRuleDescription = "kubernetes.io/rule/nlb/mtu"
// ProviderName is the name of this cloud provider.
const ProviderName = "aws"
// TagNameKubernetesService is the tag name we use to differentiate multiple
// services. Used currently for ELBs only.
const TagNameKubernetesService = "kubernetes.io/service-name"
// TagNameSubnetInternalELB is the tag name used on a subnet to designate that
// it should be used for internal ELBs
const TagNameSubnetInternalELB = "kubernetes.io/role/internal-elb"
// TagNameSubnetPublicELB is the tag name used on a subnet to designate that
// it should be used for internet ELBs
const TagNameSubnetPublicELB = "kubernetes.io/role/elb"
// ServiceAnnotationLoadBalancerType is the annotation used on the service
// to indicate what type of Load Balancer we want. Right now, the only accepted
// value is "nlb"
const ServiceAnnotationLoadBalancerType = "service.beta.kubernetes.io/aws-load-balancer-type"
// ServiceAnnotationLoadBalancerInternal is the annotation used on the service
// to indicate that we want an internal ELB.
const ServiceAnnotationLoadBalancerInternal = "service.beta.kubernetes.io/aws-load-balancer-internal"
// ServiceAnnotationLoadBalancerProxyProtocol is the annotation used on the
// service to enable the proxy protocol on an ELB. Right now we only accept the
// value "*" which means enable the proxy protocol on all ELB backends. In the
// future we could adjust this to allow setting the proxy protocol only on
// certain backends.
const ServiceAnnotationLoadBalancerProxyProtocol = "service.beta.kubernetes.io/aws-load-balancer-proxy-protocol"
// ServiceAnnotationLoadBalancerAccessLogEmitInterval is the annotation used to
// specify access log emit interval.
const ServiceAnnotationLoadBalancerAccessLogEmitInterval = "service.beta.kubernetes.io/aws-load-balancer-access-log-emit-interval"
// ServiceAnnotationLoadBalancerAccessLogEnabled is the annotation used on the
// service to enable or disable access logs.
const ServiceAnnotationLoadBalancerAccessLogEnabled = "service.beta.kubernetes.io/aws-load-balancer-access-log-enabled"
// ServiceAnnotationLoadBalancerAccessLogS3BucketName is the annotation used to
// specify access log s3 bucket name.
const ServiceAnnotationLoadBalancerAccessLogS3BucketName = "service.beta.kubernetes.io/aws-load-balancer-access-log-s3-bucket-name"
// ServiceAnnotationLoadBalancerAccessLogS3BucketPrefix is the annotation used
// to specify access log s3 bucket prefix.
const ServiceAnnotationLoadBalancerAccessLogS3BucketPrefix = "service.beta.kubernetes.io/aws-load-balancer-access-log-s3-bucket-prefix"
// ServiceAnnotationLoadBalancerConnectionDrainingEnabled is the annnotation
// used on the service to enable or disable connection draining.
const ServiceAnnotationLoadBalancerConnectionDrainingEnabled = "service.beta.kubernetes.io/aws-load-balancer-connection-draining-enabled"
// ServiceAnnotationLoadBalancerConnectionDrainingTimeout is the annotation
// used on the service to specify a connection draining timeout.
const ServiceAnnotationLoadBalancerConnectionDrainingTimeout = "service.beta.kubernetes.io/aws-load-balancer-connection-draining-timeout"
// ServiceAnnotationLoadBalancerConnectionIdleTimeout is the annotation used
// on the service to specify the idle connection timeout.
const ServiceAnnotationLoadBalancerConnectionIdleTimeout = "service.beta.kubernetes.io/aws-load-balancer-connection-idle-timeout"
// ServiceAnnotationLoadBalancerCrossZoneLoadBalancingEnabled is the annotation
// used on the service to enable or disable cross-zone load balancing.
const ServiceAnnotationLoadBalancerCrossZoneLoadBalancingEnabled = "service.beta.kubernetes.io/aws-load-balancer-cross-zone-load-balancing-enabled"
// ServiceAnnotationLoadBalancerExtraSecurityGroups is the annotation used
// one the service to specify additional security groups to be added to ELB created
const ServiceAnnotationLoadBalancerExtraSecurityGroups = "service.beta.kubernetes.io/aws-load-balancer-extra-security-groups"
// ServiceAnnotationLoadBalancerCertificate is the annotation used on the
// service to request a secure listener. Value is a valid certificate ARN.
// For more, see http://docs.aws.amazon.com/ElasticLoadBalancing/latest/DeveloperGuide/elb-listener-config.html
// CertARN is an IAM or CM certificate ARN, e.g. arn:aws:acm:us-east-1:123456789012:certificate/12345678-1234-1234-1234-123456789012
const ServiceAnnotationLoadBalancerCertificate = "service.beta.kubernetes.io/aws-load-balancer-ssl-cert"
// ServiceAnnotationLoadBalancerSSLPorts is the annotation used on the service
// to specify a comma-separated list of ports that will use SSL/HTTPS
// listeners. Defaults to '*' (all).
const ServiceAnnotationLoadBalancerSSLPorts = "service.beta.kubernetes.io/aws-load-balancer-ssl-ports"
// ServiceAnnotationLoadBalancerSSLNegotiationPolicy is the annotation used on
// the service to specify a SSL negotiation settings for the HTTPS/SSL listeners
// of your load balancer. Defaults to AWS's default
const ServiceAnnotationLoadBalancerSSLNegotiationPolicy = "service.beta.kubernetes.io/aws-load-balancer-ssl-negotiation-policy"
// ServiceAnnotationLoadBalancerBEProtocol is the annotation used on the service
// to specify the protocol spoken by the backend (pod) behind a listener.
// If `http` (default) or `https`, an HTTPS listener that terminates the
// connection and parses headers is created.
// If set to `ssl` or `tcp`, a "raw" SSL listener is used.
// If set to `http` and `aws-load-balancer-ssl-cert` is not used then
// a HTTP listener is used.
const ServiceAnnotationLoadBalancerBEProtocol = "service.beta.kubernetes.io/aws-load-balancer-backend-protocol"
// ServiceAnnotationLoadBalancerAdditionalTags is the annotation used on the service
// to specify a comma-separated list of key-value pairs which will be recorded as
// additional tags in the ELB.
// For example: "Key1=Val1,Key2=Val2,KeyNoVal1=,KeyNoVal2"
const ServiceAnnotationLoadBalancerAdditionalTags = "service.beta.kubernetes.io/aws-load-balancer-additional-resource-tags"
// ServiceAnnotationLoadBalancerHCHealthyThreshold is the annotation used on
// the service to specify the number of successive successful health checks
// required for a backend to be considered healthy for traffic.
const ServiceAnnotationLoadBalancerHCHealthyThreshold = "service.beta.kubernetes.io/aws-load-balancer-healthcheck-healthy-threshold"
// ServiceAnnotationLoadBalancerHCUnhealthyThreshold is the annotation used
// on the service to specify the number of unsuccessful health checks
// required for a backend to be considered unhealthy for traffic
const ServiceAnnotationLoadBalancerHCUnhealthyThreshold = "service.beta.kubernetes.io/aws-load-balancer-healthcheck-unhealthy-threshold"
// ServiceAnnotationLoadBalancerHCTimeout is the annotation used on the
// service to specify, in seconds, how long to wait before marking a health
// check as failed.
const ServiceAnnotationLoadBalancerHCTimeout = "service.beta.kubernetes.io/aws-load-balancer-healthcheck-timeout"
// ServiceAnnotationLoadBalancerHCInterval is the annotation used on the
// service to specify, in seconds, the interval between health checks.
const ServiceAnnotationLoadBalancerHCInterval = "service.beta.kubernetes.io/aws-load-balancer-healthcheck-interval"
// Event key when a volume is stuck on attaching state when being attached to a volume
const volumeAttachmentStuck = "VolumeAttachmentStuck"
// Indicates that a node has volumes stuck in attaching state and hence it is not fit for scheduling more pods
const nodeWithImpairedVolumes = "NodeWithImpairedVolumes"
const (
// volumeAttachmentConsecutiveErrorLimit is the number of consecutive errors we will ignore when waiting for a volume to attach/detach
volumeAttachmentStatusConsecutiveErrorLimit = 10
// most attach/detach operations on AWS finish within 1-4 seconds
// By using 1 second starting interval with a backoff of 1.8
// we get - [1, 1.8, 3.24, 5.832000000000001, 10.4976]
// in total we wait for 2601 seconds
volumeAttachmentStatusInitialDelay = 1 * time.Second
volumeAttachmentStatusFactor = 1.8
volumeAttachmentStatusSteps = 13
// createTag* is configuration of exponential backoff for CreateTag call. We
// retry mainly because if we create an object, we cannot tag it until it is
// "fully created" (eventual consistency). Starting with 1 second, doubling
// it every step and taking 9 steps results in 255 second total waiting
// time.
createTagInitialDelay = 1 * time.Second
createTagFactor = 2.0
createTagSteps = 9
// Number of node names that can be added to a filter. The AWS limit is 200
// but we are using a lower limit on purpose
filterNodeLimit = 150
)
// awsTagNameMasterRoles is a set of well-known AWS tag names that indicate the instance is a master
// The major consequence is that it is then not considered for AWS zone discovery for dynamic volume creation.
var awsTagNameMasterRoles = sets.NewString("kubernetes.io/role/master", "k8s.io/role/master")
// Maps from backend protocol to ELB protocol
var backendProtocolMapping = map[string]string{
"https": "https",
"http": "https",
"ssl": "ssl",
"tcp": "ssl",
}
// MaxReadThenCreateRetries sets the maximum number of attempts we will make when
// we read to see if something exists and then try to create it if we didn't find it.
// This can fail once in a consistent system if done in parallel
// In an eventually consistent system, it could fail unboundedly
const MaxReadThenCreateRetries = 30
// DefaultVolumeType specifies which storage to use for newly created Volumes
// TODO: Remove when user/admin can configure volume types and thus we don't
// need hardcoded defaults.
const DefaultVolumeType = "gp2"
// Used to call RecognizeWellKnownRegions just once
var once sync.Once
// AWS implements PVLabeler.
var _ cloudprovider.PVLabeler = (*Cloud)(nil)
// Services is an abstraction over AWS, to allow mocking/other implementations
type Services interface {
Compute(region string) (EC2, error)
LoadBalancing(region string) (ELB, error)
LoadBalancingV2(region string) (ELBV2, error)
Autoscaling(region string) (ASG, error)
Metadata() (EC2Metadata, error)
KeyManagement(region string) (KMS, error)
}
// EC2 is an abstraction over AWS', to allow mocking/other implementations
// Note that the DescribeX functions return a list, so callers don't need to deal with paging
// TODO: Should we rename this to AWS (EBS & ELB are not technically part of EC2)
type EC2 interface {
// Query EC2 for instances matching the filter
DescribeInstances(request *ec2.DescribeInstancesInput) ([]*ec2.Instance, error)
// Attach a volume to an instance
AttachVolume(*ec2.AttachVolumeInput) (*ec2.VolumeAttachment, error)
// Detach a volume from an instance it is attached to
DetachVolume(request *ec2.DetachVolumeInput) (resp *ec2.VolumeAttachment, err error)
// Lists volumes
DescribeVolumes(request *ec2.DescribeVolumesInput) ([]*ec2.Volume, error)
// Create an EBS volume
CreateVolume(request *ec2.CreateVolumeInput) (resp *ec2.Volume, err error)
// Delete an EBS volume
DeleteVolume(*ec2.DeleteVolumeInput) (*ec2.DeleteVolumeOutput, error)
ModifyVolume(*ec2.ModifyVolumeInput) (*ec2.ModifyVolumeOutput, error)
DescribeVolumeModifications(*ec2.DescribeVolumesModificationsInput) ([]*ec2.VolumeModification, error)
DescribeSecurityGroups(request *ec2.DescribeSecurityGroupsInput) ([]*ec2.SecurityGroup, error)
CreateSecurityGroup(*ec2.CreateSecurityGroupInput) (*ec2.CreateSecurityGroupOutput, error)
DeleteSecurityGroup(request *ec2.DeleteSecurityGroupInput) (*ec2.DeleteSecurityGroupOutput, error)
AuthorizeSecurityGroupIngress(*ec2.AuthorizeSecurityGroupIngressInput) (*ec2.AuthorizeSecurityGroupIngressOutput, error)
RevokeSecurityGroupIngress(*ec2.RevokeSecurityGroupIngressInput) (*ec2.RevokeSecurityGroupIngressOutput, error)
DescribeSubnets(*ec2.DescribeSubnetsInput) ([]*ec2.Subnet, error)
CreateTags(*ec2.CreateTagsInput) (*ec2.CreateTagsOutput, error)
DescribeRouteTables(request *ec2.DescribeRouteTablesInput) ([]*ec2.RouteTable, error)
CreateRoute(request *ec2.CreateRouteInput) (*ec2.CreateRouteOutput, error)
DeleteRoute(request *ec2.DeleteRouteInput) (*ec2.DeleteRouteOutput, error)
ModifyInstanceAttribute(request *ec2.ModifyInstanceAttributeInput) (*ec2.ModifyInstanceAttributeOutput, error)
DescribeVpcs(input *ec2.DescribeVpcsInput) (*ec2.DescribeVpcsOutput, error)
}
// ELB is a simple pass-through of AWS' ELB client interface, which allows for testing
type ELB interface {
CreateLoadBalancer(*elb.CreateLoadBalancerInput) (*elb.CreateLoadBalancerOutput, error)
DeleteLoadBalancer(*elb.DeleteLoadBalancerInput) (*elb.DeleteLoadBalancerOutput, error)
DescribeLoadBalancers(*elb.DescribeLoadBalancersInput) (*elb.DescribeLoadBalancersOutput, error)
AddTags(*elb.AddTagsInput) (*elb.AddTagsOutput, error)
RegisterInstancesWithLoadBalancer(*elb.RegisterInstancesWithLoadBalancerInput) (*elb.RegisterInstancesWithLoadBalancerOutput, error)
DeregisterInstancesFromLoadBalancer(*elb.DeregisterInstancesFromLoadBalancerInput) (*elb.DeregisterInstancesFromLoadBalancerOutput, error)
CreateLoadBalancerPolicy(*elb.CreateLoadBalancerPolicyInput) (*elb.CreateLoadBalancerPolicyOutput, error)
SetLoadBalancerPoliciesForBackendServer(*elb.SetLoadBalancerPoliciesForBackendServerInput) (*elb.SetLoadBalancerPoliciesForBackendServerOutput, error)
SetLoadBalancerPoliciesOfListener(input *elb.SetLoadBalancerPoliciesOfListenerInput) (*elb.SetLoadBalancerPoliciesOfListenerOutput, error)
DescribeLoadBalancerPolicies(input *elb.DescribeLoadBalancerPoliciesInput) (*elb.DescribeLoadBalancerPoliciesOutput, error)
DetachLoadBalancerFromSubnets(*elb.DetachLoadBalancerFromSubnetsInput) (*elb.DetachLoadBalancerFromSubnetsOutput, error)
AttachLoadBalancerToSubnets(*elb.AttachLoadBalancerToSubnetsInput) (*elb.AttachLoadBalancerToSubnetsOutput, error)
CreateLoadBalancerListeners(*elb.CreateLoadBalancerListenersInput) (*elb.CreateLoadBalancerListenersOutput, error)
DeleteLoadBalancerListeners(*elb.DeleteLoadBalancerListenersInput) (*elb.DeleteLoadBalancerListenersOutput, error)
ApplySecurityGroupsToLoadBalancer(*elb.ApplySecurityGroupsToLoadBalancerInput) (*elb.ApplySecurityGroupsToLoadBalancerOutput, error)
ConfigureHealthCheck(*elb.ConfigureHealthCheckInput) (*elb.ConfigureHealthCheckOutput, error)
DescribeLoadBalancerAttributes(*elb.DescribeLoadBalancerAttributesInput) (*elb.DescribeLoadBalancerAttributesOutput, error)
ModifyLoadBalancerAttributes(*elb.ModifyLoadBalancerAttributesInput) (*elb.ModifyLoadBalancerAttributesOutput, error)
}
// ELBV2 is a simple pass-through of AWS' ELBV2 client interface, which allows for testing
type ELBV2 interface {
AddTags(input *elbv2.AddTagsInput) (*elbv2.AddTagsOutput, error)
CreateLoadBalancer(*elbv2.CreateLoadBalancerInput) (*elbv2.CreateLoadBalancerOutput, error)
DescribeLoadBalancers(*elbv2.DescribeLoadBalancersInput) (*elbv2.DescribeLoadBalancersOutput, error)
DeleteLoadBalancer(*elbv2.DeleteLoadBalancerInput) (*elbv2.DeleteLoadBalancerOutput, error)
ModifyLoadBalancerAttributes(*elbv2.ModifyLoadBalancerAttributesInput) (*elbv2.ModifyLoadBalancerAttributesOutput, error)
DescribeLoadBalancerAttributes(*elbv2.DescribeLoadBalancerAttributesInput) (*elbv2.DescribeLoadBalancerAttributesOutput, error)
CreateTargetGroup(*elbv2.CreateTargetGroupInput) (*elbv2.CreateTargetGroupOutput, error)
DescribeTargetGroups(*elbv2.DescribeTargetGroupsInput) (*elbv2.DescribeTargetGroupsOutput, error)
ModifyTargetGroup(*elbv2.ModifyTargetGroupInput) (*elbv2.ModifyTargetGroupOutput, error)
DeleteTargetGroup(*elbv2.DeleteTargetGroupInput) (*elbv2.DeleteTargetGroupOutput, error)
DescribeTargetHealth(input *elbv2.DescribeTargetHealthInput) (*elbv2.DescribeTargetHealthOutput, error)
DescribeTargetGroupAttributes(*elbv2.DescribeTargetGroupAttributesInput) (*elbv2.DescribeTargetGroupAttributesOutput, error)
ModifyTargetGroupAttributes(*elbv2.ModifyTargetGroupAttributesInput) (*elbv2.ModifyTargetGroupAttributesOutput, error)
RegisterTargets(*elbv2.RegisterTargetsInput) (*elbv2.RegisterTargetsOutput, error)
DeregisterTargets(*elbv2.DeregisterTargetsInput) (*elbv2.DeregisterTargetsOutput, error)
CreateListener(*elbv2.CreateListenerInput) (*elbv2.CreateListenerOutput, error)
DescribeListeners(*elbv2.DescribeListenersInput) (*elbv2.DescribeListenersOutput, error)
DeleteListener(*elbv2.DeleteListenerInput) (*elbv2.DeleteListenerOutput, error)
ModifyListener(*elbv2.ModifyListenerInput) (*elbv2.ModifyListenerOutput, error)
WaitUntilLoadBalancersDeleted(*elbv2.DescribeLoadBalancersInput) error
}
// ASG is a simple pass-through of the Autoscaling client interface, which
// allows for testing.
type ASG interface {
UpdateAutoScalingGroup(*autoscaling.UpdateAutoScalingGroupInput) (*autoscaling.UpdateAutoScalingGroupOutput, error)
DescribeAutoScalingGroups(*autoscaling.DescribeAutoScalingGroupsInput) (*autoscaling.DescribeAutoScalingGroupsOutput, error)
}
// KMS is a simple pass-through of the Key Management Service client interface,
// which allows for testing.
type KMS interface {
DescribeKey(*kms.DescribeKeyInput) (*kms.DescribeKeyOutput, error)
}
// EC2Metadata is an abstraction over the AWS metadata service.
type EC2Metadata interface {
// Query the EC2 metadata service (used to discover instance-id etc)
GetMetadata(path string) (string, error)
}
// AWS volume types
const (
// Provisioned IOPS SSD
VolumeTypeIO1 = "io1"
// General Purpose SSD
VolumeTypeGP2 = "gp2"
// Cold HDD (sc1)
VolumeTypeSC1 = "sc1"
// Throughput Optimized HDD
VolumeTypeST1 = "st1"
)
// AWS provisioning limits.
// Source: http://docs.aws.amazon.com/AWSEC2/latest/UserGuide/EBSVolumeTypes.html
const (
MinTotalIOPS = 100
MaxTotalIOPS = 20000
)
// VolumeOptions specifies capacity and tags for a volume.
type VolumeOptions struct {
CapacityGB int
Tags map[string]string
PVCName string
VolumeType string
ZonePresent bool
ZonesPresent bool
AvailabilityZone string
AvailabilityZones string
// IOPSPerGB x CapacityGB will give total IOPS of the volume to create.
// Calculated total IOPS will be capped at MaxTotalIOPS.
IOPSPerGB int
Encrypted bool
// fully qualified resource name to the key to use for encryption.
// example: arn:aws:kms:us-east-1:012345678910:key/abcd1234-a123-456a-a12b-a123b4cd56ef
KmsKeyId string
}
// Volumes is an interface for managing cloud-provisioned volumes
// TODO: Allow other clouds to implement this
type Volumes interface {
// Attach the disk to the node with the specified NodeName
// nodeName can be empty to mean "the instance on which we are running"
// Returns the device (e.g. /dev/xvdf) where we attached the volume
AttachDisk(diskName KubernetesVolumeID, nodeName types.NodeName, readOnly bool) (string, error)
// Detach the disk from the node with the specified NodeName
// nodeName can be empty to mean "the instance on which we are running"
// Returns the device where the volume was attached
DetachDisk(diskName KubernetesVolumeID, nodeName types.NodeName) (string, error)
// Create a volume with the specified options
CreateDisk(volumeOptions *VolumeOptions) (volumeName KubernetesVolumeID, err error)
// Delete the specified volume
// Returns true iff the volume was deleted
// If the was not found, returns (false, nil)
DeleteDisk(volumeName KubernetesVolumeID) (bool, error)
// Get labels to apply to volume on creation
GetVolumeLabels(volumeName KubernetesVolumeID) (map[string]string, error)
// Get volume's disk path from volume name
// return the device path where the volume is attached
GetDiskPath(volumeName KubernetesVolumeID) (string, error)
// Check if the volume is already attached to the node with the specified NodeName
DiskIsAttached(diskName KubernetesVolumeID, nodeName types.NodeName) (bool, error)
// Check if disks specified in argument map are still attached to their respective nodes.
DisksAreAttached(map[types.NodeName][]KubernetesVolumeID) (map[types.NodeName]map[KubernetesVolumeID]bool, error)
// Expand the disk to new size
ResizeDisk(diskName KubernetesVolumeID, oldSize resource.Quantity, newSize resource.Quantity) (resource.Quantity, error)
}
// InstanceGroups is an interface for managing cloud-managed instance groups / autoscaling instance groups
// TODO: Allow other clouds to implement this
type InstanceGroups interface {
// Set the size to the fixed size
ResizeInstanceGroup(instanceGroupName string, size int) error
// Queries the cloud provider for information about the specified instance group
DescribeInstanceGroup(instanceGroupName string) (InstanceGroupInfo, error)
}
// InstanceGroupInfo is returned by InstanceGroups.Describe, and exposes information about the group.
type InstanceGroupInfo interface {
// The number of instances currently running under control of this group
CurrentSize() (int, error)
}
// Cloud is an implementation of Interface, LoadBalancer and Instances for Amazon Web Services.
type Cloud struct {
ec2 EC2
elb ELB
elbv2 ELBV2
asg ASG
kms KMS
metadata EC2Metadata
cfg *CloudConfig
region string
vpcID string
tagging awsTagging
// The AWS instance that we are running on
// Note that we cache some state in awsInstance (mountpoints), so we must preserve the instance
selfAWSInstance *awsInstance
instanceCache instanceCache
clientBuilder controller.ControllerClientBuilder
kubeClient clientset.Interface
eventBroadcaster record.EventBroadcaster
eventRecorder record.EventRecorder
// We keep an active list of devices we have assigned but not yet
// attached, to avoid a race condition where we assign a device mapping
// and then get a second request before we attach the volume
attachingMutex sync.Mutex
attaching map[types.NodeName]map[mountDevice]awsVolumeID
// state of our device allocator for each node
deviceAllocators map[types.NodeName]DeviceAllocator
}
var _ Volumes = &Cloud{}
// CloudConfig wraps the settings for the AWS cloud provider.
type CloudConfig struct {
Global struct {
// TODO: Is there any use for this? We can get it from the instance metadata service
// Maybe if we're not running on AWS, e.g. bootstrap; for now it is not very useful
Zone string
// The AWS VPC flag enables the possibility to run the master components
// on a different aws account, on a different cloud provider or on-premises.
// If the flag is set also the KubernetesClusterTag must be provided
VPC string
// SubnetID enables using a specific subnet to use for ELB's
SubnetID string
// RouteTableID enables using a specific RouteTable
RouteTableID string
// RoleARN is the IAM role to assume when interaction with AWS APIs.
RoleARN string
// KubernetesClusterTag is the legacy cluster id we'll use to identify our cluster resources
KubernetesClusterTag string
// KubernetesClusterID is the cluster id we'll use to identify our cluster resources
KubernetesClusterID string
//The aws provider creates an inbound rule per load balancer on the node security
//group. However, this can run into the AWS security group rule limit of 50 if
//many LoadBalancers are created.
//
//This flag disables the automatic ingress creation. It requires that the user
//has setup a rule that allows inbound traffic on kubelet ports from the
//local VPC subnet (so load balancers can access it). E.g. 10.82.0.0/16 30000-32000.
DisableSecurityGroupIngress bool
//AWS has a hard limit of 500 security groups. For large clusters creating a security group for each ELB
//can cause the max number of security groups to be reached. If this is set instead of creating a new
//Security group for each ELB this security group will be used instead.
ElbSecurityGroup string
//During the instantiation of an new AWS cloud provider, the detected region
//is validated against a known set of regions.
//
//In a non-standard, AWS like environment (e.g. Eucalyptus), this check may
//be undesirable. Setting this to true will disable the check and provide
//a warning that the check was skipped. Please note that this is an
//experimental feature and work-in-progress for the moment. If you find
//yourself in an non-AWS cloud and open an issue, please indicate that in the
//issue body.
DisableStrictZoneCheck bool
}
}
// awsSdkEC2 is an implementation of the EC2 interface, backed by aws-sdk-go
type awsSdkEC2 struct {
ec2 *ec2.EC2
}
type awsSDKProvider struct {
creds *credentials.Credentials
mutex sync.Mutex
regionDelayers map[string]*CrossRequestRetryDelay
}
func newAWSSDKProvider(creds *credentials.Credentials) *awsSDKProvider {
return &awsSDKProvider{
creds: creds,
regionDelayers: make(map[string]*CrossRequestRetryDelay),
}
}
func (p *awsSDKProvider) addHandlers(regionName string, h *request.Handlers) {
h.Sign.PushFrontNamed(request.NamedHandler{
Name: "k8s/logger",
Fn: awsHandlerLogger,
})
delayer := p.getCrossRequestRetryDelay(regionName)
if delayer != nil {
h.Sign.PushFrontNamed(request.NamedHandler{
Name: "k8s/delay-presign",
Fn: delayer.BeforeSign,
})
h.AfterRetry.PushFrontNamed(request.NamedHandler{
Name: "k8s/delay-afterretry",
Fn: delayer.AfterRetry,
})
}
p.addAPILoggingHandlers(h)
}
func (p *awsSDKProvider) addAPILoggingHandlers(h *request.Handlers) {
h.Send.PushBackNamed(request.NamedHandler{
Name: "k8s/api-request",
Fn: awsSendHandlerLogger,
})
h.ValidateResponse.PushFrontNamed(request.NamedHandler{
Name: "k8s/api-validate-response",
Fn: awsValidateResponseHandlerLogger,
})
}
// Get a CrossRequestRetryDelay, scoped to the region, not to the request.
// This means that when we hit a limit on a call, we will delay _all_ calls to the API.
// We do this to protect the AWS account from becoming overloaded and effectively locked.
// We also log when we hit request limits.
// Note that this delays the current goroutine; this is bad behaviour and will
// likely cause k8s to become slow or unresponsive for cloud operations.
// However, this throttle is intended only as a last resort. When we observe
// this throttling, we need to address the root cause (e.g. add a delay to a
// controller retry loop)
func (p *awsSDKProvider) getCrossRequestRetryDelay(regionName string) *CrossRequestRetryDelay {
p.mutex.Lock()
defer p.mutex.Unlock()
delayer, found := p.regionDelayers[regionName]
if !found {
delayer = NewCrossRequestRetryDelay()
p.regionDelayers[regionName] = delayer
}
return delayer
}
func (p *awsSDKProvider) Compute(regionName string) (EC2, error) {
awsConfig := &aws.Config{
Region: ®ionName,
Credentials: p.creds,
}
awsConfig = awsConfig.WithCredentialsChainVerboseErrors(true)
service := ec2.New(session.New(awsConfig))
p.addHandlers(regionName, &service.Handlers)
ec2 := &awsSdkEC2{
ec2: service,
}
return ec2, nil
}
func (p *awsSDKProvider) LoadBalancing(regionName string) (ELB, error) {
awsConfig := &aws.Config{
Region: ®ionName,
Credentials: p.creds,
}
awsConfig = awsConfig.WithCredentialsChainVerboseErrors(true)
elbClient := elb.New(session.New(awsConfig))
p.addHandlers(regionName, &elbClient.Handlers)
return elbClient, nil
}
func (p *awsSDKProvider) LoadBalancingV2(regionName string) (ELBV2, error) {
awsConfig := &aws.Config{
Region: ®ionName,
Credentials: p.creds,
}
awsConfig = awsConfig.WithCredentialsChainVerboseErrors(true)
elbClient := elbv2.New(session.New(awsConfig))
p.addHandlers(regionName, &elbClient.Handlers)
return elbClient, nil
}
func (p *awsSDKProvider) Autoscaling(regionName string) (ASG, error) {
awsConfig := &aws.Config{
Region: ®ionName,
Credentials: p.creds,
}
awsConfig = awsConfig.WithCredentialsChainVerboseErrors(true)
client := autoscaling.New(session.New(awsConfig))
p.addHandlers(regionName, &client.Handlers)
return client, nil
}
func (p *awsSDKProvider) Metadata() (EC2Metadata, error) {
client := ec2metadata.New(session.New(&aws.Config{}))
p.addAPILoggingHandlers(&client.Handlers)
return client, nil
}
func (p *awsSDKProvider) KeyManagement(regionName string) (KMS, error) {
awsConfig := &aws.Config{
Region: ®ionName,
Credentials: p.creds,
}
awsConfig = awsConfig.WithCredentialsChainVerboseErrors(true)
kmsClient := kms.New(session.New(awsConfig))
p.addHandlers(regionName, &kmsClient.Handlers)
return kmsClient, nil
}
// stringPointerArray creates a slice of string pointers from a slice of strings
// Deprecated: consider using aws.StringSlice - but note the slightly different behaviour with a nil input
func stringPointerArray(orig []string) []*string {
if orig == nil {
return nil
}
return aws.StringSlice(orig)
}
func newEc2Filter(name string, values ...string) *ec2.Filter {
filter := &ec2.Filter{
Name: aws.String(name),
}
for _, value := range values {
filter.Values = append(filter.Values, aws.String(value))
}
return filter
}
// AddSSHKeyToAllInstances is currently not implemented.
func (c *Cloud) AddSSHKeyToAllInstances(ctx context.Context, user string, keyData []byte) error {
return cloudprovider.NotImplemented
}
// CurrentNodeName returns the name of the current node
func (c *Cloud) CurrentNodeName(ctx context.Context, hostname string) (types.NodeName, error) {
return c.selfAWSInstance.nodeName, nil
}
// Implementation of EC2.Instances
func (s *awsSdkEC2) DescribeInstances(request *ec2.DescribeInstancesInput) ([]*ec2.Instance, error) {
// Instances are paged
results := []*ec2.Instance{}
var nextToken *string
requestTime := time.Now()
for {
response, err := s.ec2.DescribeInstances(request)
if err != nil {
recordAwsMetric("describe_instance", 0, err)
return nil, fmt.Errorf("error listing AWS instances: %q", err)
}
for _, reservation := range response.Reservations {
results = append(results, reservation.Instances...)
}
nextToken = response.NextToken
if aws.StringValue(nextToken) == "" {
break
}
request.NextToken = nextToken
}
timeTaken := time.Since(requestTime).Seconds()
recordAwsMetric("describe_instance", timeTaken, nil)
return results, nil
}
// Implements EC2.DescribeSecurityGroups
func (s *awsSdkEC2) DescribeSecurityGroups(request *ec2.DescribeSecurityGroupsInput) ([]*ec2.SecurityGroup, error) {
// Security groups are not paged
response, err := s.ec2.DescribeSecurityGroups(request)
if err != nil {
return nil, fmt.Errorf("error listing AWS security groups: %q", err)
}
return response.SecurityGroups, nil
}
func (s *awsSdkEC2) AttachVolume(request *ec2.AttachVolumeInput) (*ec2.VolumeAttachment, error) {
requestTime := time.Now()
resp, err := s.ec2.AttachVolume(request)
timeTaken := time.Since(requestTime).Seconds()
recordAwsMetric("attach_volume", timeTaken, err)
return resp, err
}
func (s *awsSdkEC2) DetachVolume(request *ec2.DetachVolumeInput) (*ec2.VolumeAttachment, error) {
requestTime := time.Now()
resp, err := s.ec2.DetachVolume(request)
timeTaken := time.Since(requestTime).Seconds()
recordAwsMetric("detach_volume", timeTaken, err)
return resp, err
}
func (s *awsSdkEC2) DescribeVolumes(request *ec2.DescribeVolumesInput) ([]*ec2.Volume, error) {
// Volumes are paged
results := []*ec2.Volume{}
var nextToken *string
requestTime := time.Now()
for {
response, err := s.ec2.DescribeVolumes(request)
if err != nil {
recordAwsMetric("describe_volume", 0, err)
return nil, err
}
results = append(results, response.Volumes...)
nextToken = response.NextToken
if aws.StringValue(nextToken) == "" {
break
}
request.NextToken = nextToken
}
timeTaken := time.Since(requestTime).Seconds()
recordAwsMetric("describe_volume", timeTaken, nil)
return results, nil
}
func (s *awsSdkEC2) CreateVolume(request *ec2.CreateVolumeInput) (*ec2.Volume, error) {
requestTime := time.Now()
resp, err := s.ec2.CreateVolume(request)
timeTaken := time.Since(requestTime).Seconds()
recordAwsMetric("create_volume", timeTaken, err)
return resp, err
}
func (s *awsSdkEC2) DeleteVolume(request *ec2.DeleteVolumeInput) (*ec2.DeleteVolumeOutput, error) {
requestTime := time.Now()
resp, err := s.ec2.DeleteVolume(request)
timeTaken := time.Since(requestTime).Seconds()
recordAwsMetric("delete_volume", timeTaken, err)
return resp, err
}
func (s *awsSdkEC2) ModifyVolume(request *ec2.ModifyVolumeInput) (*ec2.ModifyVolumeOutput, error) {
requestTime := time.Now()
resp, err := s.ec2.ModifyVolume(request)
timeTaken := time.Since(requestTime).Seconds()
recordAwsMetric("modify_volume", timeTaken, err)
return resp, err
}
func (s *awsSdkEC2) DescribeVolumeModifications(request *ec2.DescribeVolumesModificationsInput) ([]*ec2.VolumeModification, error) {
requestTime := time.Now()
results := []*ec2.VolumeModification{}
var nextToken *string
for {
resp, err := s.ec2.DescribeVolumesModifications(request)
if err != nil {
recordAwsMetric("describe_volume_modification", 0, err)
return nil, fmt.Errorf("error listing volume modifictions : %v", err)
}
results = append(results, resp.VolumesModifications...)
nextToken = resp.NextToken
if aws.StringValue(nextToken) == "" {
break
}
request.NextToken = nextToken
}
timeTaken := time.Since(requestTime).Seconds()
recordAwsMetric("describe_volume_modification", timeTaken, nil)
return results, nil
}
func (s *awsSdkEC2) DescribeSubnets(request *ec2.DescribeSubnetsInput) ([]*ec2.Subnet, error) {
// Subnets are not paged
response, err := s.ec2.DescribeSubnets(request)
if err != nil {
return nil, fmt.Errorf("error listing AWS subnets: %q", err)
}
return response.Subnets, nil
}
func (s *awsSdkEC2) CreateSecurityGroup(request *ec2.CreateSecurityGroupInput) (*ec2.CreateSecurityGroupOutput, error) {
return s.ec2.CreateSecurityGroup(request)
}
func (s *awsSdkEC2) DeleteSecurityGroup(request *ec2.DeleteSecurityGroupInput) (*ec2.DeleteSecurityGroupOutput, error) {
return s.ec2.DeleteSecurityGroup(request)
}
func (s *awsSdkEC2) AuthorizeSecurityGroupIngress(request *ec2.AuthorizeSecurityGroupIngressInput) (*ec2.AuthorizeSecurityGroupIngressOutput, error) {
return s.ec2.AuthorizeSecurityGroupIngress(request)
}
func (s *awsSdkEC2) RevokeSecurityGroupIngress(request *ec2.RevokeSecurityGroupIngressInput) (*ec2.RevokeSecurityGroupIngressOutput, error) {
return s.ec2.RevokeSecurityGroupIngress(request)
}
func (s *awsSdkEC2) CreateTags(request *ec2.CreateTagsInput) (*ec2.CreateTagsOutput, error) {
requestTime := time.Now()
resp, err := s.ec2.CreateTags(request)
timeTaken := time.Since(requestTime).Seconds()
recordAwsMetric("create_tags", timeTaken, err)
return resp, err
}
func (s *awsSdkEC2) DescribeRouteTables(request *ec2.DescribeRouteTablesInput) ([]*ec2.RouteTable, error) {
// Not paged
response, err := s.ec2.DescribeRouteTables(request)
if err != nil {
return nil, fmt.Errorf("error listing AWS route tables: %q", err)
}
return response.RouteTables, nil
}
func (s *awsSdkEC2) CreateRoute(request *ec2.CreateRouteInput) (*ec2.CreateRouteOutput, error) {
return s.ec2.CreateRoute(request)
}
func (s *awsSdkEC2) DeleteRoute(request *ec2.DeleteRouteInput) (*ec2.DeleteRouteOutput, error) {
return s.ec2.DeleteRoute(request)
}
func (s *awsSdkEC2) ModifyInstanceAttribute(request *ec2.ModifyInstanceAttributeInput) (*ec2.ModifyInstanceAttributeOutput, error) {
return s.ec2.ModifyInstanceAttribute(request)
}
func (s *awsSdkEC2) DescribeVpcs(request *ec2.DescribeVpcsInput) (*ec2.DescribeVpcsOutput, error) {
return s.ec2.DescribeVpcs(request)
}
func init() {
registerMetrics()
cloudprovider.RegisterCloudProvider(ProviderName, func(config io.Reader) (cloudprovider.Interface, error) {
cfg, err := readAWSCloudConfig(config)
if err != nil {
return nil, fmt.Errorf("unable to read AWS cloud provider config file: %v", err)
}
sess, err := session.NewSession(&aws.Config{})
if err != nil {
return nil, fmt.Errorf("unable to initialize AWS session: %v", err)
}
var provider credentials.Provider
if cfg.Global.RoleARN == "" {
provider = &ec2rolecreds.EC2RoleProvider{
Client: ec2metadata.New(sess),
}
} else {
glog.Infof("Using AWS assumed role %v", cfg.Global.RoleARN)
provider = &stscreds.AssumeRoleProvider{
Client: sts.New(sess),
RoleARN: cfg.Global.RoleARN,
}
}
creds := credentials.NewChainCredentials(
[]credentials.Provider{
&credentials.EnvProvider{},
provider,
&credentials.SharedCredentialsProvider{},
})
aws := newAWSSDKProvider(creds)
return newAWSCloud(*cfg, aws)
})
}
// readAWSCloudConfig reads an instance of AWSCloudConfig from config reader.
func readAWSCloudConfig(config io.Reader) (*CloudConfig, error) {
var cfg CloudConfig
var err error
if config != nil {
err = gcfg.ReadInto(&cfg, config)
if err != nil {
return nil, err
}
}
return &cfg, nil
}
func updateConfigZone(cfg *CloudConfig, metadata EC2Metadata) error {
if cfg.Global.Zone == "" {
if metadata != nil {
glog.Info("Zone not specified in configuration file; querying AWS metadata service")
var err error
cfg.Global.Zone, err = getAvailabilityZone(metadata)
if err != nil {
return err
}
}
if cfg.Global.Zone == "" {
return fmt.Errorf("no zone specified in configuration file")
}
}
return nil