open-consul/agent/structs/structs.go

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2013-12-19 20:03:57 +00:00
package structs
import (
"bytes"
"encoding/json"
"fmt"
"math/rand"
"net"
"reflect"
"regexp"
"sort"
"strconv"
"strings"
"time"
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"github.com/hashicorp/go-msgpack/codec"
"github.com/hashicorp/go-multierror"
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"github.com/hashicorp/serf/coordinate"
"github.com/mitchellh/hashstructure"
"github.com/hashicorp/consul/agent/cache"
"github.com/hashicorp/consul/api"
"github.com/hashicorp/consul/types"
)
type MessageType uint8
// RaftIndex is used to track the index used while creating
// or modifying a given struct type.
type RaftIndex struct {
CreateIndex uint64 `bexpr:"-"`
ModifyIndex uint64 `bexpr:"-"`
}
// These are serialized between Consul servers and stored in Consul snapshots,
// so entries must only ever be added.
const (
RegisterRequestType MessageType = 0
DeregisterRequestType = 1
KVSRequestType = 2
SessionRequestType = 3
ACLRequestType = 4 // DEPRECATED (ACL-Legacy-Compat)
TombstoneRequestType = 5
CoordinateBatchUpdateType = 6
PreparedQueryRequestType = 7
TxnRequestType = 8
AutopilotRequestType = 9
AreaRequestType = 10
ACLBootstrapRequestType = 11
IntentionRequestType = 12
ConnectCARequestType = 13
ConnectCAProviderStateType = 14
ConnectCAConfigType = 15 // FSM snapshots only.
IndexRequestType = 16 // FSM snapshots only.
ACLTokenSetRequestType = 17
ACLTokenDeleteRequestType = 18
ACLPolicySetRequestType = 19
ACLPolicyDeleteRequestType = 20
ConnectCALeafRequestType = 21
ConfigEntryRequestType = 22
ACLRoleSetRequestType = 23
ACLRoleDeleteRequestType = 24
ACLBindingRuleSetRequestType = 25
ACLBindingRuleDeleteRequestType = 26
ACLAuthMethodSetRequestType = 27
ACLAuthMethodDeleteRequestType = 28
ChunkingStateType = 29
)
const (
// IgnoreUnknownTypeFlag is set along with a MessageType
// to indicate that the message type can be safely ignored
// if it is not recognized. This is for future proofing, so
// that new commands can be added in a way that won't cause
// old servers to crash when the FSM attempts to process them.
IgnoreUnknownTypeFlag MessageType = 128
// NodeMaint is the special key set by a node in maintenance mode.
NodeMaint = "_node_maintenance"
// ServiceMaintPrefix is the prefix for a service in maintenance mode.
ServiceMaintPrefix = "_service_maintenance:"
// The meta key prefix reserved for Consul's internal use
metaKeyReservedPrefix = "consul-"
// metaMaxKeyPairs is maximum number of metadata key pairs allowed to be registered
metaMaxKeyPairs = 64
// metaKeyMaxLength is the maximum allowed length of a metadata key
metaKeyMaxLength = 128
// metaValueMaxLength is the maximum allowed length of a metadata value
metaValueMaxLength = 512
// MetaSegmentKey is the node metadata key used to store the node's network segment
MetaSegmentKey = "consul-network-segment"
// MaxLockDelay provides a maximum LockDelay value for
// a session. Any value above this will not be respected.
MaxLockDelay = 60 * time.Second
)
// metaKeyFormat checks if a metadata key string is valid
var metaKeyFormat = regexp.MustCompile(`^[a-zA-Z0-9_-]+$`).MatchString
func ValidStatus(s string) bool {
return s == api.HealthPassing || s == api.HealthWarning || s == api.HealthCritical
}
// RPCInfo is used to describe common information about query
type RPCInfo interface {
RequestDatacenter() string
IsRead() bool
AllowStaleRead() bool
New ACLs (#4791) This PR is almost a complete rewrite of the ACL system within Consul. It brings the features more in line with other HashiCorp products. Obviously there is quite a bit left to do here but most of it is related docs, testing and finishing the last few commands in the CLI. I will update the PR description and check off the todos as I finish them over the next few days/week. Description At a high level this PR is mainly to split ACL tokens from Policies and to split the concepts of Authorization from Identities. A lot of this PR is mostly just to support CRUD operations on ACLTokens and ACLPolicies. These in and of themselves are not particularly interesting. The bigger conceptual changes are in how tokens get resolved, how backwards compatibility is handled and the separation of policy from identity which could lead the way to allowing for alternative identity providers. On the surface and with a new cluster the ACL system will look very similar to that of Nomads. Both have tokens and policies. Both have local tokens. The ACL management APIs for both are very similar. I even ripped off Nomad's ACL bootstrap resetting procedure. There are a few key differences though. Nomad requires token and policy replication where Consul only requires policy replication with token replication being opt-in. In Consul local tokens only work with token replication being enabled though. All policies in Nomad are globally applicable. In Consul all policies are stored and replicated globally but can be scoped to a subset of the datacenters. This allows for more granular access management. Unlike Nomad, Consul has legacy baggage in the form of the original ACL system. The ramifications of this are: A server running the new system must still support other clients using the legacy system. A client running the new system must be able to use the legacy RPCs when the servers in its datacenter are running the legacy system. The primary ACL DC's servers running in legacy mode needs to be a gate that keeps everything else in the entire multi-DC cluster running in legacy mode. So not only does this PR implement the new ACL system but has a legacy mode built in for when the cluster isn't ready for new ACLs. Also detecting that new ACLs can be used is automatic and requires no configuration on the part of administrators. This process is detailed more in the "Transitioning from Legacy to New ACL Mode" section below.
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TokenSecret() string
}
// QueryOptions is used to specify various flags for read queries
type QueryOptions struct {
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// Token is the ACL token ID. If not provided, the 'anonymous'
// token is assumed for backwards compatibility.
Token string
// If set, wait until query exceeds given index. Must be provided
// with MaxQueryTime.
MinQueryIndex uint64
// Provided with MinQueryIndex to wait for change.
MaxQueryTime time.Duration
// If set, any follower can service the request. Results
// may be arbitrarily stale.
AllowStale bool
// If set, the leader must verify leadership prior to
// servicing the request. Prevents a stale read.
RequireConsistent bool
// If set, the local agent may respond with an arbitrarily stale locally
// cached response. The semantics differ from AllowStale since the agent may
// be entirely partitioned from the servers and still considered "healthy" by
// operators. Stale responses from Servers are also arbitrarily stale, but can
// provide additional bounds on the last contact time from the leader. It's
// expected that servers that are partitioned are noticed and replaced in a
// timely way by operators while the same may not be true for client agents.
UseCache bool
// If set and AllowStale is true, will try first a stale
// read, and then will perform a consistent read if stale
// read is older than value.
MaxStaleDuration time.Duration
// MaxAge limits how old a cached value will be returned if UseCache is true.
// If there is a cached response that is older than the MaxAge, it is treated
// as a cache miss and a new fetch invoked. If the fetch fails, the error is
// returned. Clients that wish to allow for stale results on error can set
// StaleIfError to a longer duration to change this behavior. It is ignored
// if the endpoint supports background refresh caching. See
// https://www.consul.io/api/index.html#agent-caching for more details.
MaxAge time.Duration
// MustRevalidate forces the agent to fetch a fresh version of a cached
// resource or at least validate that the cached version is still fresh. It is
// implied by either max-age=0 or must-revalidate Cache-Control headers. It
// only makes sense when UseCache is true. We store it since MaxAge = 0 is the
// default unset value.
MustRevalidate bool
// StaleIfError specifies how stale the client will accept a cached response
// if the servers are unavailable to fetch a fresh one. Only makes sense when
// UseCache is true and MaxAge is set to a lower, non-zero value. It is
// ignored if the endpoint supports background refresh caching. See
// https://www.consul.io/api/index.html#agent-caching for more details.
StaleIfError time.Duration
// Filter specifies the go-bexpr filter expression to be used for
// filtering the data prior to returning a response
Filter string
}
// IsRead is always true for QueryOption.
func (q QueryOptions) IsRead() bool {
return true
}
// ConsistencyLevel display the consistency required by a request
func (q QueryOptions) ConsistencyLevel() string {
if q.RequireConsistent {
return "consistent"
} else if q.AllowStale {
return "stale"
} else {
return "leader"
}
}
func (q QueryOptions) AllowStaleRead() bool {
return q.AllowStale
}
New ACLs (#4791) This PR is almost a complete rewrite of the ACL system within Consul. It brings the features more in line with other HashiCorp products. Obviously there is quite a bit left to do here but most of it is related docs, testing and finishing the last few commands in the CLI. I will update the PR description and check off the todos as I finish them over the next few days/week. Description At a high level this PR is mainly to split ACL tokens from Policies and to split the concepts of Authorization from Identities. A lot of this PR is mostly just to support CRUD operations on ACLTokens and ACLPolicies. These in and of themselves are not particularly interesting. The bigger conceptual changes are in how tokens get resolved, how backwards compatibility is handled and the separation of policy from identity which could lead the way to allowing for alternative identity providers. On the surface and with a new cluster the ACL system will look very similar to that of Nomads. Both have tokens and policies. Both have local tokens. The ACL management APIs for both are very similar. I even ripped off Nomad's ACL bootstrap resetting procedure. There are a few key differences though. Nomad requires token and policy replication where Consul only requires policy replication with token replication being opt-in. In Consul local tokens only work with token replication being enabled though. All policies in Nomad are globally applicable. In Consul all policies are stored and replicated globally but can be scoped to a subset of the datacenters. This allows for more granular access management. Unlike Nomad, Consul has legacy baggage in the form of the original ACL system. The ramifications of this are: A server running the new system must still support other clients using the legacy system. A client running the new system must be able to use the legacy RPCs when the servers in its datacenter are running the legacy system. The primary ACL DC's servers running in legacy mode needs to be a gate that keeps everything else in the entire multi-DC cluster running in legacy mode. So not only does this PR implement the new ACL system but has a legacy mode built in for when the cluster isn't ready for new ACLs. Also detecting that new ACLs can be used is automatic and requires no configuration on the part of administrators. This process is detailed more in the "Transitioning from Legacy to New ACL Mode" section below.
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func (q QueryOptions) TokenSecret() string {
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return q.Token
}
type WriteRequest struct {
// Token is the ACL token ID. If not provided, the 'anonymous'
// token is assumed for backwards compatibility.
Token string
}
// WriteRequest only applies to writes, always false
func (w WriteRequest) IsRead() bool {
return false
}
func (w WriteRequest) AllowStaleRead() bool {
return false
}
New ACLs (#4791) This PR is almost a complete rewrite of the ACL system within Consul. It brings the features more in line with other HashiCorp products. Obviously there is quite a bit left to do here but most of it is related docs, testing and finishing the last few commands in the CLI. I will update the PR description and check off the todos as I finish them over the next few days/week. Description At a high level this PR is mainly to split ACL tokens from Policies and to split the concepts of Authorization from Identities. A lot of this PR is mostly just to support CRUD operations on ACLTokens and ACLPolicies. These in and of themselves are not particularly interesting. The bigger conceptual changes are in how tokens get resolved, how backwards compatibility is handled and the separation of policy from identity which could lead the way to allowing for alternative identity providers. On the surface and with a new cluster the ACL system will look very similar to that of Nomads. Both have tokens and policies. Both have local tokens. The ACL management APIs for both are very similar. I even ripped off Nomad's ACL bootstrap resetting procedure. There are a few key differences though. Nomad requires token and policy replication where Consul only requires policy replication with token replication being opt-in. In Consul local tokens only work with token replication being enabled though. All policies in Nomad are globally applicable. In Consul all policies are stored and replicated globally but can be scoped to a subset of the datacenters. This allows for more granular access management. Unlike Nomad, Consul has legacy baggage in the form of the original ACL system. The ramifications of this are: A server running the new system must still support other clients using the legacy system. A client running the new system must be able to use the legacy RPCs when the servers in its datacenter are running the legacy system. The primary ACL DC's servers running in legacy mode needs to be a gate that keeps everything else in the entire multi-DC cluster running in legacy mode. So not only does this PR implement the new ACL system but has a legacy mode built in for when the cluster isn't ready for new ACLs. Also detecting that new ACLs can be used is automatic and requires no configuration on the part of administrators. This process is detailed more in the "Transitioning from Legacy to New ACL Mode" section below.
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func (w WriteRequest) TokenSecret() string {
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return w.Token
}
// QueryMeta allows a query response to include potentially
// useful metadata about a query
type QueryMeta struct {
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// This is the index associated with the read
Index uint64
// If AllowStale is used, this is time elapsed since
// last contact between the follower and leader. This
// can be used to gauge staleness.
LastContact time.Duration
// Used to indicate if there is a known leader node
KnownLeader bool
// Consistencylevel returns the consistency used to serve the query
// Having `discovery_max_stale` on the agent can affect whether
// the request was served by a leader.
ConsistencyLevel string
}
Add support for implementing new requests with protobufs instea… (#6502) * Add build system support for protobuf generation This is done generically so that we don’t have to keep updating the makefile to add another proto generation. Note: anything not in the vendor directory and with a .proto extension will be run through protoc if the corresponding namespace.pb.go file is not up to date. If you want to rebuild just a single proto file you can do so with: make proto-rebuild PROTOFILES=<list of proto files to rebuild> Providing the PROTOFILES var will override the default behavior of finding all the .proto files. * Start adding types to the agent/proto package These will be needed for some other work and are by no means comprehensive. * Add ability to resolve/fixup the agentpb.ACLLinks structure in the state store. * Use protobuf marshalling of raft requests instead of msgpack for protoc generated types. This does not change any encoding of existing types. * Removed structs package automatically encoding with protobuf marshalling Instead the caller of raftApply that wants to opt-in to protobuf encoding will have to call `raftApplyProtobuf` * Run update-vendor to fixup modules.txt Nothing changed as far as dependencies go but the ordering of modules in that file depends on the time they are first seen and its not alphabetical. * Rename some things and implement the structs.RPCInfo interface bits agentpb.QueryOptions and agentpb.WriteRequest implement 3 of the 4 RPCInfo funcs and the new TargetDatacenter message type implements the fourth. * Use the right encoding function. * Renamed agent/proto package to agent/agentpb to prevent package name conflicts * Update modules.txt to fix ordering * Change blockingQuery to take in interfaces for the query options and meta * Add %T to error output. * Add/Update some comments
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// RegisterRequest is used for the Catalog.Register endpoint
// to register a node as providing a service. If no service
// is provided, the node is registered.
type RegisterRequest struct {
Datacenter string
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ID types.NodeID
Node string
Address string
TaggedAddresses map[string]string
NodeMeta map[string]string
Service *NodeService
Check *HealthCheck
Checks HealthChecks
// SkipNodeUpdate can be used when a register request is intended for
// updating a service and/or checks, but doesn't want to overwrite any
// node information if the node is already registered. If the node
// doesn't exist, it will still be created, but if the node exists, any
// node portion of this update will not apply.
SkipNodeUpdate bool
WriteRequest
}
func (r *RegisterRequest) RequestDatacenter() string {
return r.Datacenter
}
// ChangesNode returns true if the given register request changes the given
// node, which can be nil. This only looks for changes to the node record itself,
// not any of the health checks.
func (r *RegisterRequest) ChangesNode(node *Node) bool {
// This means it's creating the node.
if node == nil {
return true
}
// If we've been asked to skip the node update, then say there are no
// changes.
if r.SkipNodeUpdate {
return false
}
// Check if any of the node-level fields are being changed.
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if r.ID != node.ID ||
r.Node != node.Node ||
r.Address != node.Address ||
r.Datacenter != node.Datacenter ||
!reflect.DeepEqual(r.TaggedAddresses, node.TaggedAddresses) ||
!reflect.DeepEqual(r.NodeMeta, node.Meta) {
return true
}
return false
}
// DeregisterRequest is used for the Catalog.Deregister endpoint
// to deregister a node as providing a service. If no service is
// provided the entire node is deregistered.
type DeregisterRequest struct {
Datacenter string
Node string
ServiceID string
CheckID types.CheckID
WriteRequest
}
func (r *DeregisterRequest) RequestDatacenter() string {
return r.Datacenter
}
// QuerySource is used to pass along information about the source node
// in queries so that we can adjust the response based on its network
// coordinates.
type QuerySource struct {
Datacenter string
Segment string
Node string
Ip string
}
type DatacentersRequest struct {
QueryOptions
}
func (r *DatacentersRequest) CacheInfo() cache.RequestInfo {
return cache.RequestInfo{
Token: "",
Datacenter: "",
MinIndex: 0,
Timeout: r.MaxQueryTime,
MaxAge: r.MaxAge,
MustRevalidate: r.MustRevalidate,
Key: "catalog-datacenters", // must not be empty for cache to work
}
}
// DCSpecificRequest is used to query about a specific DC
type DCSpecificRequest struct {
Datacenter string
NodeMetaFilters map[string]string
Source QuerySource
QueryOptions
}
func (r *DCSpecificRequest) RequestDatacenter() string {
return r.Datacenter
}
func (r *DCSpecificRequest) CacheInfo() cache.RequestInfo {
info := cache.RequestInfo{
Token: r.Token,
Datacenter: r.Datacenter,
MinIndex: r.MinQueryIndex,
Timeout: r.MaxQueryTime,
MaxAge: r.MaxAge,
MustRevalidate: r.MustRevalidate,
}
// To calculate the cache key we only hash the node meta filters and the bexpr filter.
// The datacenter is handled by the cache framework. The other fields are
// not, but should not be used in any cache types.
v, err := hashstructure.Hash([]interface{}{
r.NodeMetaFilters,
r.Filter,
}, nil)
if err == nil {
// If there is an error, we don't set the key. A blank key forces
// no cache for this request so the request is forwarded directly
// to the server.
info.Key = strconv.FormatUint(v, 10)
}
return info
}
func (r *DCSpecificRequest) CacheMinIndex() uint64 {
return r.QueryOptions.MinQueryIndex
}
type ServiceDumpRequest struct {
Datacenter string
ServiceKind ServiceKind
UseServiceKind bool
Source QuerySource
QueryOptions
}
func (r *ServiceDumpRequest) RequestDatacenter() string {
return r.Datacenter
}
func (r *ServiceDumpRequest) CacheInfo() cache.RequestInfo {
info := cache.RequestInfo{
Token: r.Token,
Datacenter: r.Datacenter,
MinIndex: r.MinQueryIndex,
Timeout: r.MaxQueryTime,
MaxAge: r.MaxAge,
MustRevalidate: r.MustRevalidate,
}
// When we are not using the service kind we want to normalize the ServiceKind
keyKind := ServiceKindTypical
if r.UseServiceKind {
keyKind = r.ServiceKind
}
// To calculate the cache key we only hash the node meta filters and the bexpr filter.
// The datacenter is handled by the cache framework. The other fields are
// not, but should not be used in any cache types.
v, err := hashstructure.Hash([]interface{}{
keyKind,
r.UseServiceKind,
r.Filter,
}, nil)
if err == nil {
// If there is an error, we don't set the key. A blank key forces
// no cache for this request so the request is forwarded directly
// to the server.
info.Key = strconv.FormatUint(v, 10)
}
return info
}
func (r *ServiceDumpRequest) CacheMinIndex() uint64 {
return r.QueryOptions.MinQueryIndex
}
// ServiceSpecificRequest is used to query about a specific service
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type ServiceSpecificRequest struct {
Datacenter string
NodeMetaFilters map[string]string
ServiceName string
// DEPRECATED (singular-service-tag) - remove this when backwards RPC compat
// with 1.2.x is not required.
ServiceTag string
ServiceTags []string
ServiceAddress string
TagFilter bool // Controls tag filtering
Source QuerySource
// Connect if true will only search for Connect-compatible services.
Connect bool
QueryOptions
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}
func (r *ServiceSpecificRequest) RequestDatacenter() string {
return r.Datacenter
}
func (r *ServiceSpecificRequest) CacheInfo() cache.RequestInfo {
info := cache.RequestInfo{
Token: r.Token,
Datacenter: r.Datacenter,
MinIndex: r.MinQueryIndex,
Timeout: r.MaxQueryTime,
MaxAge: r.MaxAge,
MustRevalidate: r.MustRevalidate,
}
// To calculate the cache key we hash over all the fields that affect the
// output other than Datacenter and Token which are dealt with in the cache
// framework already. Note the order here is important for the outcome - if we
// ever care about cache-invalidation on updates e.g. because we persist
// cached results, we need to be careful we maintain the same order of fields
// here. We could alternatively use `hash:set` struct tag on an anonymous
// struct to make it more robust if it becomes significant.
sort.Strings(r.ServiceTags)
v, err := hashstructure.Hash([]interface{}{
r.NodeMetaFilters,
r.ServiceName,
// DEPRECATED (singular-service-tag) - remove this when upgrade RPC compat
// with 1.2.x is not required. We still need this in because <1.3 agents
// might still send RPCs with singular tag set. In fact the only place we
// use this method is in agent cache so if the agent is new enough to have
// this code this should never be set, but it's safer to include it until we
// completely remove this field just in case it's erroneously used anywhere
// (e.g. until this change DNS still used it).
r.ServiceTag,
r.ServiceTags,
r.ServiceAddress,
r.TagFilter,
r.Connect,
r.Filter,
}, nil)
if err == nil {
// If there is an error, we don't set the key. A blank key forces
// no cache for this request so the request is forwarded directly
// to the server.
info.Key = strconv.FormatUint(v, 10)
}
return info
}
func (r *ServiceSpecificRequest) CacheMinIndex() uint64 {
return r.QueryOptions.MinQueryIndex
}
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// NodeSpecificRequest is used to request the information about a single node
type NodeSpecificRequest struct {
Datacenter string
Node string
QueryOptions
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}
func (r *NodeSpecificRequest) RequestDatacenter() string {
return r.Datacenter
}
func (r *NodeSpecificRequest) CacheInfo() cache.RequestInfo {
info := cache.RequestInfo{
Token: r.Token,
Datacenter: r.Datacenter,
MinIndex: r.MinQueryIndex,
Timeout: r.MaxQueryTime,
MaxAge: r.MaxAge,
MustRevalidate: r.MustRevalidate,
}
v, err := hashstructure.Hash([]interface{}{
r.Node,
r.Filter,
}, nil)
if err == nil {
// If there is an error, we don't set the key. A blank key forces
// no cache for this request so the request is forwarded directly
// to the server.
info.Key = strconv.FormatUint(v, 10)
}
return info
}
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// ChecksInStateRequest is used to query for nodes in a state
type ChecksInStateRequest struct {
Datacenter string
NodeMetaFilters map[string]string
State string
Source QuerySource
QueryOptions
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}
func (r *ChecksInStateRequest) RequestDatacenter() string {
return r.Datacenter
}
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// Used to return information about a node
type Node struct {
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ID types.NodeID
Node string
Address string
Datacenter string
TaggedAddresses map[string]string
Meta map[string]string
RaftIndex `bexpr:"-"`
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}
func (n *Node) BestAddress(wan bool) string {
if wan {
if addr, ok := n.TaggedAddresses["wan"]; ok {
return addr
}
}
return n.Address
}
type Nodes []*Node
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// IsSame return whether nodes are similar without taking into account
// RaftIndex fields.
func (n *Node) IsSame(other *Node) bool {
return n.ID == other.ID &&
n.Node == other.Node &&
n.Address == other.Address &&
n.Datacenter == other.Datacenter &&
reflect.DeepEqual(n.TaggedAddresses, other.TaggedAddresses) &&
reflect.DeepEqual(n.Meta, other.Meta)
}
// ValidateMeta validates a set of key/value pairs from the agent config
func ValidateMetadata(meta map[string]string, allowConsulPrefix bool) error {
if len(meta) > metaMaxKeyPairs {
return fmt.Errorf("Node metadata cannot contain more than %d key/value pairs", metaMaxKeyPairs)
}
for key, value := range meta {
if err := validateMetaPair(key, value, allowConsulPrefix); err != nil {
return fmt.Errorf("Couldn't load metadata pair ('%s', '%s'): %s", key, value, err)
}
}
return nil
}
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// ValidateWeights checks the definition of DNS weight is valid
func ValidateWeights(weights *Weights) error {
if weights == nil {
return nil
}
if weights.Passing < 1 {
return fmt.Errorf("Passing must be greater than 0")
}
if weights.Warning < 0 {
return fmt.Errorf("Warning must be greater or equal than 0")
}
if weights.Passing > 65535 || weights.Warning > 65535 {
return fmt.Errorf("DNS Weight must be between 0 and 65535")
}
return nil
}
// validateMetaPair checks that the given key/value pair is in a valid format
func validateMetaPair(key, value string, allowConsulPrefix bool) error {
if key == "" {
return fmt.Errorf("Key cannot be blank")
}
if !metaKeyFormat(key) {
return fmt.Errorf("Key contains invalid characters")
}
if len(key) > metaKeyMaxLength {
return fmt.Errorf("Key is too long (limit: %d characters)", metaKeyMaxLength)
}
if strings.HasPrefix(key, metaKeyReservedPrefix) && !allowConsulPrefix {
return fmt.Errorf("Key prefix '%s' is reserved for internal use", metaKeyReservedPrefix)
}
if len(value) > metaValueMaxLength {
return fmt.Errorf("Value is too long (limit: %d characters)", metaValueMaxLength)
}
return nil
}
// SatisfiesMetaFilters returns true if the metadata map contains the given filters
func SatisfiesMetaFilters(meta map[string]string, filters map[string]string) bool {
for key, value := range filters {
if v, ok := meta[key]; !ok || v != value {
return false
}
}
return true
}
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// Used to return information about a provided services.
// Maps service name to available tags
type Services map[string][]string
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// ServiceNode represents a node that is part of a service. ID, Address,
// TaggedAddresses, and NodeMeta are node-related fields that are always empty
// in the state store and are filled in on the way out by parseServiceNodes().
// This is also why PartialClone() skips them, because we know they are blank
// already so it would be a waste of time to copy them.
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type ServiceNode struct {
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ID types.NodeID
Node string
Address string
Datacenter string
TaggedAddresses map[string]string
NodeMeta map[string]string
ServiceKind ServiceKind
ServiceID string
ServiceName string
ServiceTags []string
ServiceAddress string
ServiceTaggedAddresses map[string]ServiceAddress `json:",omitempty"`
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ServiceWeights Weights
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ServiceMeta map[string]string
ServicePort int
ServiceEnableTagOverride bool
ServiceProxy ConnectProxyConfig
ServiceConnect ServiceConnect
RaftIndex `bexpr:"-"`
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}
// PartialClone() returns a clone of the given service node, minus the node-
// related fields that get filled in later, Address and TaggedAddresses.
func (s *ServiceNode) PartialClone() *ServiceNode {
tags := make([]string, len(s.ServiceTags))
copy(tags, s.ServiceTags)
nsmeta := make(map[string]string)
for k, v := range s.ServiceMeta {
nsmeta[k] = v
}
var svcTaggedAddrs map[string]ServiceAddress
if len(s.ServiceTaggedAddresses) > 0 {
svcTaggedAddrs = make(map[string]ServiceAddress)
for k, v := range s.ServiceTaggedAddresses {
svcTaggedAddrs[k] = v
}
}
return &ServiceNode{
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// Skip ID, see above.
Node: s.Node,
// Skip Address, see above.
// Skip TaggedAddresses, see above.
ServiceKind: s.ServiceKind,
ServiceID: s.ServiceID,
ServiceName: s.ServiceName,
ServiceTags: tags,
ServiceAddress: s.ServiceAddress,
ServiceTaggedAddresses: svcTaggedAddrs,
ServicePort: s.ServicePort,
ServiceMeta: nsmeta,
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ServiceWeights: s.ServiceWeights,
ServiceEnableTagOverride: s.ServiceEnableTagOverride,
ServiceProxy: s.ServiceProxy,
ServiceConnect: s.ServiceConnect,
RaftIndex: RaftIndex{
CreateIndex: s.CreateIndex,
ModifyIndex: s.ModifyIndex,
},
}
}
// ToNodeService converts the given service node to a node service.
func (s *ServiceNode) ToNodeService() *NodeService {
return &NodeService{
Kind: s.ServiceKind,
ID: s.ServiceID,
Service: s.ServiceName,
Tags: s.ServiceTags,
Address: s.ServiceAddress,
TaggedAddresses: s.ServiceTaggedAddresses,
Port: s.ServicePort,
Meta: s.ServiceMeta,
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Weights: &s.ServiceWeights,
EnableTagOverride: s.ServiceEnableTagOverride,
Add Proxy Upstreams to Service Definition (#4639) * Refactor Service Definition ProxyDestination. This includes: - Refactoring all internal structs used - Updated tests for both deprecated and new input for: - Agent Services endpoint response - Agent Service endpoint response - Agent Register endpoint - Unmanaged deprecated field - Unmanaged new fields - Managed deprecated upstreams - Managed new - Catalog Register - Unmanaged deprecated field - Unmanaged new fields - Managed deprecated upstreams - Managed new - Catalog Services endpoint response - Catalog Node endpoint response - Catalog Service endpoint response - Updated API tests for all of the above too (both deprecated and new forms of register) TODO: - config package changes for on-disk service definitions - proxy config endpoint - built-in proxy support for new fields * Agent proxy config endpoint updated with upstreams * Config file changes for upstreams. * Add upstream opaque config and update all tests to ensure it works everywhere. * Built in proxy working with new Upstreams config * Command fixes and deprecations * Fix key translation, upstream type defaults and a spate of other subtele bugs found with ned to end test scripts... TODO: tests still failing on one case that needs a fix. I think it's key translation for upstreams nested in Managed proxy struct. * Fix translated keys in API registration. ≈ * Fixes from docs - omit some empty undocumented fields in API - Bring back ServiceProxyDestination in Catalog responses to not break backwards compat - this was removed assuming it was only used internally. * Documentation updates for Upstreams in service definition * Fixes for tests broken by many refactors. * Enable travis on f-connect branch in this branch too. * Add consistent Deprecation comments to ProxyDestination uses * Update version number on deprecation notices, and correct upstream datacenter field with explanation in docs
2018-09-12 16:07:47 +00:00
Proxy: s.ServiceProxy,
Connect: s.ServiceConnect,
RaftIndex: RaftIndex{
CreateIndex: s.CreateIndex,
ModifyIndex: s.ModifyIndex,
},
}
}
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// Weights represent the weight used by DNS for a given status
type Weights struct {
Passing int
Warning int
}
type ServiceNodes []*ServiceNode
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// ServiceKind is the kind of service being registered.
type ServiceKind string
const (
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// ServiceKindTypical is a typical, classic Consul service. This is
// represented by the absence of a value. This was chosen for ease of
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// backwards compatibility: existing services in the catalog would
// default to the typical service.
ServiceKindTypical ServiceKind = ""
// ServiceKindConnectProxy is a proxy for the Connect feature. This
// service proxies another service within Consul and speaks the connect
// protocol.
ServiceKindConnectProxy ServiceKind = "connect-proxy"
// ServiceKindMeshGateway is a Mesh Gateway for the Connect feature. This
// service will proxy connections based off the SNI header set by other
// connect proxies
ServiceKindMeshGateway ServiceKind = "mesh-gateway"
)
func ServiceKindFromString(kind string) (ServiceKind, error) {
switch kind {
case string(ServiceKindTypical):
return ServiceKindTypical, nil
case string(ServiceKindConnectProxy):
return ServiceKindConnectProxy, nil
case string(ServiceKindMeshGateway):
return ServiceKindMeshGateway, nil
default:
// have to return something and it may as well be typical
return ServiceKindTypical, fmt.Errorf("Invalid service kind: %s", kind)
}
}
// Type to hold a address and port of a service
type ServiceAddress struct {
Address string
Port int
}
func (a ServiceAddress) ToAPIServiceAddress() api.ServiceAddress {
return api.ServiceAddress{Address: a.Address, Port: a.Port}
}
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// NodeService is a service provided by a node
type NodeService struct {
// Kind is the kind of service this is. Different kinds of services may
// have differing validation, DNS behavior, etc. An empty kind will default
// to the Default kind. See ServiceKind for the full list of kinds.
Kind ServiceKind `json:",omitempty"`
ID string
Service string
Tags []string
Address string
TaggedAddresses map[string]ServiceAddress `json:",omitempty"`
Meta map[string]string
Port int
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Weights *Weights
EnableTagOverride bool
Add Proxy Upstreams to Service Definition (#4639) * Refactor Service Definition ProxyDestination. This includes: - Refactoring all internal structs used - Updated tests for both deprecated and new input for: - Agent Services endpoint response - Agent Service endpoint response - Agent Register endpoint - Unmanaged deprecated field - Unmanaged new fields - Managed deprecated upstreams - Managed new - Catalog Register - Unmanaged deprecated field - Unmanaged new fields - Managed deprecated upstreams - Managed new - Catalog Services endpoint response - Catalog Node endpoint response - Catalog Service endpoint response - Updated API tests for all of the above too (both deprecated and new forms of register) TODO: - config package changes for on-disk service definitions - proxy config endpoint - built-in proxy support for new fields * Agent proxy config endpoint updated with upstreams * Config file changes for upstreams. * Add upstream opaque config and update all tests to ensure it works everywhere. * Built in proxy working with new Upstreams config * Command fixes and deprecations * Fix key translation, upstream type defaults and a spate of other subtele bugs found with ned to end test scripts... TODO: tests still failing on one case that needs a fix. I think it's key translation for upstreams nested in Managed proxy struct. * Fix translated keys in API registration. ≈ * Fixes from docs - omit some empty undocumented fields in API - Bring back ServiceProxyDestination in Catalog responses to not break backwards compat - this was removed assuming it was only used internally. * Documentation updates for Upstreams in service definition * Fixes for tests broken by many refactors. * Enable travis on f-connect branch in this branch too. * Add consistent Deprecation comments to ProxyDestination uses * Update version number on deprecation notices, and correct upstream datacenter field with explanation in docs
2018-09-12 16:07:47 +00:00
// Proxy is the configuration set for Kind = connect-proxy. It is mandatory in
// that case and an error to be set for any other kind. This config is part of
// a proxy service definition. ProxyConfig may be a more natural name here, but
// it's confusing for the UX because one of the fields in ConnectProxyConfig is
Add Proxy Upstreams to Service Definition (#4639) * Refactor Service Definition ProxyDestination. This includes: - Refactoring all internal structs used - Updated tests for both deprecated and new input for: - Agent Services endpoint response - Agent Service endpoint response - Agent Register endpoint - Unmanaged deprecated field - Unmanaged new fields - Managed deprecated upstreams - Managed new - Catalog Register - Unmanaged deprecated field - Unmanaged new fields - Managed deprecated upstreams - Managed new - Catalog Services endpoint response - Catalog Node endpoint response - Catalog Service endpoint response - Updated API tests for all of the above too (both deprecated and new forms of register) TODO: - config package changes for on-disk service definitions - proxy config endpoint - built-in proxy support for new fields * Agent proxy config endpoint updated with upstreams * Config file changes for upstreams. * Add upstream opaque config and update all tests to ensure it works everywhere. * Built in proxy working with new Upstreams config * Command fixes and deprecations * Fix key translation, upstream type defaults and a spate of other subtele bugs found with ned to end test scripts... TODO: tests still failing on one case that needs a fix. I think it's key translation for upstreams nested in Managed proxy struct. * Fix translated keys in API registration. ≈ * Fixes from docs - omit some empty undocumented fields in API - Bring back ServiceProxyDestination in Catalog responses to not break backwards compat - this was removed assuming it was only used internally. * Documentation updates for Upstreams in service definition * Fixes for tests broken by many refactors. * Enable travis on f-connect branch in this branch too. * Add consistent Deprecation comments to ProxyDestination uses * Update version number on deprecation notices, and correct upstream datacenter field with explanation in docs
2018-09-12 16:07:47 +00:00
// also called just "Config"
Proxy ConnectProxyConfig
// Connect are the Connect settings for a service. This is purposely NOT
// a pointer so that we never have to nil-check this.
Connect ServiceConnect
// LocallyRegisteredAsSidecar is private as it is only used by a local agent
// state to track if the service was registered from a nested sidecar_service
// block. We need to track that so we can know whether we need to deregister
// it automatically too if it's removed from the service definition or if the
// parent service is deregistered. Relying only on ID would cause us to
// deregister regular services if they happen to be registered using the same
// ID scheme as our sidecars do by default. We could use meta but that gets
// unpleasant because we can't use the consul- prefix from an agent (reserved
// for use internally but in practice that means within the state store or in
// responses only), and it leaks the detail publicly which people might rely
// on which is a bit unpleasant for something that is meant to be config-file
// syntax sugar. Note this is not translated to ServiceNode and friends and
// may not be set on a NodeService that isn't the one the agent registered and
// keeps in it's local state. We never want this rendered in JSON as it's
// internal only. Right now our agent endpoints return api structs which don't
// include it but this is a safety net incase we change that or there is
// somewhere this is used in API output.
LocallyRegisteredAsSidecar bool `json:"-" bexpr:"-"`
RaftIndex `bexpr:"-"`
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}
func (ns *NodeService) BestAddress(wan bool) (string, int) {
addr := ns.Address
port := ns.Port
if wan {
if wan, ok := ns.TaggedAddresses["wan"]; ok {
addr = wan.Address
if wan.Port != 0 {
port = wan.Port
}
}
}
return addr, port
}
// ServiceConnect are the shared Connect settings between all service
// definitions from the agent to the state store.
type ServiceConnect struct {
// Native is true when this service can natively understand Connect.
Native bool `json:",omitempty"`
// SidecarService is a nested Service Definition to register at the same time.
// It's purely a convenience mechanism to allow specifying a sidecar service
// along with the application service definition. It's nested nature allows
// all of the fields to be defaulted which can reduce the amount of
// boilerplate needed to register a sidecar service separately, but the end
// result is identical to just making a second service registration via any
// other means.
SidecarService *ServiceDefinition `json:",omitempty" bexpr:"-"`
}
// IsSidecarProxy returns true if the NodeService is a sidecar proxy.
func (s *NodeService) IsSidecarProxy() bool {
return s.Kind == ServiceKindConnectProxy && s.Proxy.DestinationServiceID != ""
}
func (s *NodeService) IsMeshGateway() bool {
// TODO (mesh-gateway) any other things to check?
return s.Kind == ServiceKindMeshGateway
}
// Validate validates the node service configuration.
//
// NOTE(mitchellh): This currently only validates fields for a ConnectProxy.
// Historically validation has been directly in the Catalog.Register RPC.
// ConnectProxy validation was moved here for easier table testing, but
// other validation still exists in Catalog.Register.
func (s *NodeService) Validate() error {
var result error
// ConnectProxy validation
if s.Kind == ServiceKindConnectProxy {
Add Proxy Upstreams to Service Definition (#4639) * Refactor Service Definition ProxyDestination. This includes: - Refactoring all internal structs used - Updated tests for both deprecated and new input for: - Agent Services endpoint response - Agent Service endpoint response - Agent Register endpoint - Unmanaged deprecated field - Unmanaged new fields - Managed deprecated upstreams - Managed new - Catalog Register - Unmanaged deprecated field - Unmanaged new fields - Managed deprecated upstreams - Managed new - Catalog Services endpoint response - Catalog Node endpoint response - Catalog Service endpoint response - Updated API tests for all of the above too (both deprecated and new forms of register) TODO: - config package changes for on-disk service definitions - proxy config endpoint - built-in proxy support for new fields * Agent proxy config endpoint updated with upstreams * Config file changes for upstreams. * Add upstream opaque config and update all tests to ensure it works everywhere. * Built in proxy working with new Upstreams config * Command fixes and deprecations * Fix key translation, upstream type defaults and a spate of other subtele bugs found with ned to end test scripts... TODO: tests still failing on one case that needs a fix. I think it's key translation for upstreams nested in Managed proxy struct. * Fix translated keys in API registration. ≈ * Fixes from docs - omit some empty undocumented fields in API - Bring back ServiceProxyDestination in Catalog responses to not break backwards compat - this was removed assuming it was only used internally. * Documentation updates for Upstreams in service definition * Fixes for tests broken by many refactors. * Enable travis on f-connect branch in this branch too. * Add consistent Deprecation comments to ProxyDestination uses * Update version number on deprecation notices, and correct upstream datacenter field with explanation in docs
2018-09-12 16:07:47 +00:00
if strings.TrimSpace(s.Proxy.DestinationServiceName) == "" {
result = multierror.Append(result, fmt.Errorf(
Add Proxy Upstreams to Service Definition (#4639) * Refactor Service Definition ProxyDestination. This includes: - Refactoring all internal structs used - Updated tests for both deprecated and new input for: - Agent Services endpoint response - Agent Service endpoint response - Agent Register endpoint - Unmanaged deprecated field - Unmanaged new fields - Managed deprecated upstreams - Managed new - Catalog Register - Unmanaged deprecated field - Unmanaged new fields - Managed deprecated upstreams - Managed new - Catalog Services endpoint response - Catalog Node endpoint response - Catalog Service endpoint response - Updated API tests for all of the above too (both deprecated and new forms of register) TODO: - config package changes for on-disk service definitions - proxy config endpoint - built-in proxy support for new fields * Agent proxy config endpoint updated with upstreams * Config file changes for upstreams. * Add upstream opaque config and update all tests to ensure it works everywhere. * Built in proxy working with new Upstreams config * Command fixes and deprecations * Fix key translation, upstream type defaults and a spate of other subtele bugs found with ned to end test scripts... TODO: tests still failing on one case that needs a fix. I think it's key translation for upstreams nested in Managed proxy struct. * Fix translated keys in API registration. ≈ * Fixes from docs - omit some empty undocumented fields in API - Bring back ServiceProxyDestination in Catalog responses to not break backwards compat - this was removed assuming it was only used internally. * Documentation updates for Upstreams in service definition * Fixes for tests broken by many refactors. * Enable travis on f-connect branch in this branch too. * Add consistent Deprecation comments to ProxyDestination uses * Update version number on deprecation notices, and correct upstream datacenter field with explanation in docs
2018-09-12 16:07:47 +00:00
"Proxy.DestinationServiceName must be non-empty for Connect proxy "+
"services"))
}
if s.Port == 0 {
result = multierror.Append(result, fmt.Errorf(
"Port must be set for a Connect proxy"))
}
if s.Connect.Native {
result = multierror.Append(result, fmt.Errorf(
Add Proxy Upstreams to Service Definition (#4639) * Refactor Service Definition ProxyDestination. This includes: - Refactoring all internal structs used - Updated tests for both deprecated and new input for: - Agent Services endpoint response - Agent Service endpoint response - Agent Register endpoint - Unmanaged deprecated field - Unmanaged new fields - Managed deprecated upstreams - Managed new - Catalog Register - Unmanaged deprecated field - Unmanaged new fields - Managed deprecated upstreams - Managed new - Catalog Services endpoint response - Catalog Node endpoint response - Catalog Service endpoint response - Updated API tests for all of the above too (both deprecated and new forms of register) TODO: - config package changes for on-disk service definitions - proxy config endpoint - built-in proxy support for new fields * Agent proxy config endpoint updated with upstreams * Config file changes for upstreams. * Add upstream opaque config and update all tests to ensure it works everywhere. * Built in proxy working with new Upstreams config * Command fixes and deprecations * Fix key translation, upstream type defaults and a spate of other subtele bugs found with ned to end test scripts... TODO: tests still failing on one case that needs a fix. I think it's key translation for upstreams nested in Managed proxy struct. * Fix translated keys in API registration. ≈ * Fixes from docs - omit some empty undocumented fields in API - Bring back ServiceProxyDestination in Catalog responses to not break backwards compat - this was removed assuming it was only used internally. * Documentation updates for Upstreams in service definition * Fixes for tests broken by many refactors. * Enable travis on f-connect branch in this branch too. * Add consistent Deprecation comments to ProxyDestination uses * Update version number on deprecation notices, and correct upstream datacenter field with explanation in docs
2018-09-12 16:07:47 +00:00
"A Proxy cannot also be Connect Native, only typical services"))
}
// ensure we don't have multiple upstreams for the same service
var (
upstreamKeys = make(map[UpstreamKey]struct{})
bindAddrs = make(map[string]struct{})
)
for _, u := range s.Proxy.Upstreams {
if err := u.Validate(); err != nil {
result = multierror.Append(result, err)
continue
}
uk := u.ToKey()
if _, ok := upstreamKeys[uk]; ok {
result = multierror.Append(result, fmt.Errorf(
"upstreams cannot contain duplicates of %s", uk))
continue
}
upstreamKeys[uk] = struct{}{}
addr := u.LocalBindAddress
if addr == "" {
addr = "127.0.0.1"
}
addr = net.JoinHostPort(addr, fmt.Sprintf("%d", u.LocalBindPort))
if _, ok := bindAddrs[addr]; ok {
result = multierror.Append(result, fmt.Errorf(
"upstreams cannot contain duplicates by local bind address and port; %q is specified twice", addr))
continue
}
bindAddrs[addr] = struct{}{}
}
var knownPaths = make(map[string]bool)
var knownListeners = make(map[int]bool)
for _, path := range s.Proxy.Expose.Paths {
if path.Path == "" {
result = multierror.Append(result, fmt.Errorf("expose.paths: empty path exposed"))
}
if seen := knownPaths[path.Path]; seen {
result = multierror.Append(result, fmt.Errorf("expose.paths: duplicate paths exposed"))
}
knownPaths[path.Path] = true
if seen := knownListeners[path.ListenerPort]; seen {
result = multierror.Append(result, fmt.Errorf("expose.paths: duplicate listener ports exposed"))
}
knownListeners[path.ListenerPort] = true
if path.ListenerPort <= 0 || path.ListenerPort > 65535 {
result = multierror.Append(result, fmt.Errorf("expose.paths: invalid listener port: %d", path.ListenerPort))
}
path.Protocol = strings.ToLower(path.Protocol)
if ok := allowedExposeProtocols[path.Protocol]; !ok && path.Protocol != "" {
protocols := make([]string, 0)
for p, _ := range allowedExposeProtocols {
protocols = append(protocols, p)
}
result = multierror.Append(result,
fmt.Errorf("protocol '%s' not supported for path: %s, must be in: %v",
path.Protocol, path.Path, protocols))
}
}
}
// MeshGateway validation
if s.Kind == ServiceKindMeshGateway {
// Gateways must have a port
if s.Port == 0 {
result = multierror.Append(result, fmt.Errorf("Port must be non-zero for a Mesh Gateway"))
}
// Gateways cannot have sidecars
if s.Connect.SidecarService != nil {
result = multierror.Append(result, fmt.Errorf("Mesh Gateways cannot have a sidecar service defined"))
}
if s.Proxy.DestinationServiceName != "" {
result = multierror.Append(result, fmt.Errorf("The Proxy.DestinationServiceName configuration is invalid for Mesh Gateways"))
}
if s.Proxy.DestinationServiceID != "" {
result = multierror.Append(result, fmt.Errorf("The Proxy.DestinationServiceID configuration is invalid for Mesh Gateways"))
}
if s.Proxy.LocalServiceAddress != "" {
result = multierror.Append(result, fmt.Errorf("The Proxy.LocalServiceAddress configuration is invalid for Mesh Gateways"))
}
if s.Proxy.LocalServicePort != 0 {
result = multierror.Append(result, fmt.Errorf("The Proxy.LocalServicePort configuration is invalid for Mesh Gateways"))
}
if len(s.Proxy.Upstreams) != 0 {
result = multierror.Append(result, fmt.Errorf("The Proxy.Upstreams configuration is invalid for Mesh Gateways"))
}
}
// Nested sidecar validation
if s.Connect.SidecarService != nil {
if s.Connect.SidecarService.ID != "" {
result = multierror.Append(result, fmt.Errorf(
"A SidecarService cannot specify an ID as this is managed by the "+
"agent"))
}
if s.Connect.SidecarService.Connect != nil {
if s.Connect.SidecarService.Connect.SidecarService != nil {
result = multierror.Append(result, fmt.Errorf(
"A SidecarService cannot have a nested SidecarService"))
}
}
}
return result
}
// IsSame checks if one NodeService is the same as another, without looking
// at the Raft information (that's why we didn't call it IsEqual). This is
// useful for seeing if an update would be idempotent for all the functional
// parts of the structure.
func (s *NodeService) IsSame(other *NodeService) bool {
if s.ID != other.ID ||
s.Service != other.Service ||
!reflect.DeepEqual(s.Tags, other.Tags) ||
s.Address != other.Address ||
s.Port != other.Port ||
!reflect.DeepEqual(s.TaggedAddresses, other.TaggedAddresses) ||
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!reflect.DeepEqual(s.Weights, other.Weights) ||
!reflect.DeepEqual(s.Meta, other.Meta) ||
s.EnableTagOverride != other.EnableTagOverride ||
s.Kind != other.Kind ||
Add Proxy Upstreams to Service Definition (#4639) * Refactor Service Definition ProxyDestination. This includes: - Refactoring all internal structs used - Updated tests for both deprecated and new input for: - Agent Services endpoint response - Agent Service endpoint response - Agent Register endpoint - Unmanaged deprecated field - Unmanaged new fields - Managed deprecated upstreams - Managed new - Catalog Register - Unmanaged deprecated field - Unmanaged new fields - Managed deprecated upstreams - Managed new - Catalog Services endpoint response - Catalog Node endpoint response - Catalog Service endpoint response - Updated API tests for all of the above too (both deprecated and new forms of register) TODO: - config package changes for on-disk service definitions - proxy config endpoint - built-in proxy support for new fields * Agent proxy config endpoint updated with upstreams * Config file changes for upstreams. * Add upstream opaque config and update all tests to ensure it works everywhere. * Built in proxy working with new Upstreams config * Command fixes and deprecations * Fix key translation, upstream type defaults and a spate of other subtele bugs found with ned to end test scripts... TODO: tests still failing on one case that needs a fix. I think it's key translation for upstreams nested in Managed proxy struct. * Fix translated keys in API registration. ≈ * Fixes from docs - omit some empty undocumented fields in API - Bring back ServiceProxyDestination in Catalog responses to not break backwards compat - this was removed assuming it was only used internally. * Documentation updates for Upstreams in service definition * Fixes for tests broken by many refactors. * Enable travis on f-connect branch in this branch too. * Add consistent Deprecation comments to ProxyDestination uses * Update version number on deprecation notices, and correct upstream datacenter field with explanation in docs
2018-09-12 16:07:47 +00:00
!reflect.DeepEqual(s.Proxy, other.Proxy) ||
s.Connect != other.Connect {
return false
}
return true
}
// IsSameService checks if one Service of a ServiceNode is the same as another,
// without looking at the Raft information or Node information (that's why we
// didn't call it IsEqual).
// This is useful for seeing if an update would be idempotent for all the functional
// parts of the structure.
// In a similar fashion as ToNodeService(), fields related to Node are ignored
// see ServiceNode for more information.
func (s *ServiceNode) IsSameService(other *ServiceNode) bool {
// Skip the following fields, see ServiceNode definition
// Address string
// Datacenter string
// TaggedAddresses map[string]string
// NodeMeta map[string]string
if s.ID != other.ID ||
s.Node != other.Node ||
s.ServiceKind != other.ServiceKind ||
s.ServiceID != other.ServiceID ||
s.ServiceName != other.ServiceName ||
!reflect.DeepEqual(s.ServiceTags, other.ServiceTags) ||
s.ServiceAddress != other.ServiceAddress ||
!reflect.DeepEqual(s.ServiceTaggedAddresses, other.ServiceTaggedAddresses) ||
s.ServicePort != other.ServicePort ||
!reflect.DeepEqual(s.ServiceMeta, other.ServiceMeta) ||
!reflect.DeepEqual(s.ServiceWeights, other.ServiceWeights) ||
s.ServiceEnableTagOverride != other.ServiceEnableTagOverride ||
!reflect.DeepEqual(s.ServiceProxy, other.ServiceProxy) ||
!reflect.DeepEqual(s.ServiceConnect, other.ServiceConnect) {
return false
}
return true
}
// ToServiceNode converts the given node service to a service node.
func (s *NodeService) ToServiceNode(node string) *ServiceNode {
2018-09-07 14:30:47 +00:00
theWeights := Weights{
Passing: 1,
Warning: 1,
}
if s.Weights != nil {
if err := ValidateWeights(s.Weights); err == nil {
theWeights = *s.Weights
}
}
return &ServiceNode{
2017-01-18 22:26:42 +00:00
// Skip ID, see ServiceNode definition.
Node: node,
// Skip Address, see ServiceNode definition.
// Skip TaggedAddresses, see ServiceNode definition.
ServiceKind: s.Kind,
ServiceID: s.ID,
ServiceName: s.Service,
ServiceTags: s.Tags,
ServiceAddress: s.Address,
ServiceTaggedAddresses: s.TaggedAddresses,
ServicePort: s.Port,
ServiceMeta: s.Meta,
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ServiceWeights: theWeights,
ServiceEnableTagOverride: s.EnableTagOverride,
Add Proxy Upstreams to Service Definition (#4639) * Refactor Service Definition ProxyDestination. This includes: - Refactoring all internal structs used - Updated tests for both deprecated and new input for: - Agent Services endpoint response - Agent Service endpoint response - Agent Register endpoint - Unmanaged deprecated field - Unmanaged new fields - Managed deprecated upstreams - Managed new - Catalog Register - Unmanaged deprecated field - Unmanaged new fields - Managed deprecated upstreams - Managed new - Catalog Services endpoint response - Catalog Node endpoint response - Catalog Service endpoint response - Updated API tests for all of the above too (both deprecated and new forms of register) TODO: - config package changes for on-disk service definitions - proxy config endpoint - built-in proxy support for new fields * Agent proxy config endpoint updated with upstreams * Config file changes for upstreams. * Add upstream opaque config and update all tests to ensure it works everywhere. * Built in proxy working with new Upstreams config * Command fixes and deprecations * Fix key translation, upstream type defaults and a spate of other subtele bugs found with ned to end test scripts... TODO: tests still failing on one case that needs a fix. I think it's key translation for upstreams nested in Managed proxy struct. * Fix translated keys in API registration. ≈ * Fixes from docs - omit some empty undocumented fields in API - Bring back ServiceProxyDestination in Catalog responses to not break backwards compat - this was removed assuming it was only used internally. * Documentation updates for Upstreams in service definition * Fixes for tests broken by many refactors. * Enable travis on f-connect branch in this branch too. * Add consistent Deprecation comments to ProxyDestination uses * Update version number on deprecation notices, and correct upstream datacenter field with explanation in docs
2018-09-12 16:07:47 +00:00
ServiceProxy: s.Proxy,
ServiceConnect: s.Connect,
RaftIndex: RaftIndex{
CreateIndex: s.CreateIndex,
ModifyIndex: s.ModifyIndex,
},
}
}
type NodeServices struct {
Node *Node
Services map[string]*NodeService
}
2013-12-12 19:46:25 +00:00
// HealthCheck represents a single check on a given node
type HealthCheck struct {
Node string
CheckID types.CheckID // Unique per-node ID
Name string // Check name
Status string // The current check status
Notes string // Additional notes with the status
Output string // Holds output of script runs
ServiceID string // optional associated service
ServiceName string // optional service name
ServiceTags []string // optional service tags
Definition HealthCheckDefinition `bexpr:"-"`
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RaftIndex `bexpr:"-"`
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}
type HealthCheckDefinition struct {
HTTP string `json:",omitempty"`
TLSSkipVerify bool `json:",omitempty"`
Header map[string][]string `json:",omitempty"`
Method string `json:",omitempty"`
TCP string `json:",omitempty"`
Interval time.Duration `json:",omitempty"`
OutputMaxSize uint `json:",omitempty"`
Timeout time.Duration `json:",omitempty"`
DeregisterCriticalServiceAfter time.Duration `json:",omitempty"`
ScriptArgs []string `json:",omitempty"`
DockerContainerID string `json:",omitempty"`
Shell string `json:",omitempty"`
GRPC string `json:",omitempty"`
GRPCUseTLS bool `json:",omitempty"`
AliasNode string `json:",omitempty"`
AliasService string `json:",omitempty"`
TTL time.Duration `json:",omitempty"`
}
func (d *HealthCheckDefinition) MarshalJSON() ([]byte, error) {
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type Alias HealthCheckDefinition
exported := &struct {
Interval string `json:",omitempty"`
OutputMaxSize uint `json:",omitempty"`
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Timeout string `json:",omitempty"`
DeregisterCriticalServiceAfter string `json:",omitempty"`
*Alias
}{
Interval: d.Interval.String(),
OutputMaxSize: d.OutputMaxSize,
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Timeout: d.Timeout.String(),
DeregisterCriticalServiceAfter: d.DeregisterCriticalServiceAfter.String(),
Alias: (*Alias)(d),
}
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if d.Interval == 0 {
exported.Interval = ""
}
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if d.Timeout == 0 {
exported.Timeout = ""
}
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if d.DeregisterCriticalServiceAfter == 0 {
exported.DeregisterCriticalServiceAfter = ""
}
return json.Marshal(exported)
}
func (d *HealthCheckDefinition) UnmarshalJSON(data []byte) error {
type Alias HealthCheckDefinition
aux := &struct {
Interval string
Timeout string
DeregisterCriticalServiceAfter string
*Alias
}{
Alias: (*Alias)(d),
}
if err := json.Unmarshal(data, &aux); err != nil {
return err
}
var err error
if aux.Interval != "" {
if d.Interval, err = time.ParseDuration(aux.Interval); err != nil {
return err
}
}
if aux.Timeout != "" {
if d.Timeout, err = time.ParseDuration(aux.Timeout); err != nil {
return err
}
}
if aux.DeregisterCriticalServiceAfter != "" {
if d.DeregisterCriticalServiceAfter, err = time.ParseDuration(aux.DeregisterCriticalServiceAfter); err != nil {
return err
}
}
return nil
}
// IsSame checks if one HealthCheck is the same as another, without looking
// at the Raft information (that's why we didn't call it IsEqual). This is
// useful for seeing if an update would be idempotent for all the functional
// parts of the structure.
func (c *HealthCheck) IsSame(other *HealthCheck) bool {
if c.Node != other.Node ||
c.CheckID != other.CheckID ||
c.Name != other.Name ||
c.Status != other.Status ||
c.Notes != other.Notes ||
c.Output != other.Output ||
c.ServiceID != other.ServiceID ||
c.ServiceName != other.ServiceName ||
!reflect.DeepEqual(c.ServiceTags, other.ServiceTags) ||
!reflect.DeepEqual(c.Definition, other.Definition) {
return false
}
return true
}
agent: fix several data races and bugs related to node-local alias checks (#5876) The observed bug was that a full restart of a consul datacenter (servers and clients) in conjunction with a restart of a connect-flavored application with bring-your-own-service-registration logic would very frequently cause the envoy sidecar service check to never reflect the aliased service. Over the course of investigation several bugs and unfortunate interactions were corrected: (1) local.CheckState objects were only shallow copied, but the key piece of data that gets read and updated is one of the things not copied (the underlying Check with a Status field). When the stock code was run with the race detector enabled this highly-relevant-to-the-test-scenario field was found to be racy. Changes: a) update the existing Clone method to include the Check field b) copy-on-write when those fields need to change rather than incrementally updating them in place. This made the observed behavior occur slightly less often. (2) If anything about how the runLocal method for node-local alias check logic was ever flawed, there was no fallback option. Those checks are purely edge-triggered and failure to properly notice a single edge transition would leave the alias check incorrect until the next flap of the aliased check. The change was to introduce a fallback timer to act as a control loop to double check the alias check matches the aliased check every minute (borrowing the duration from the non-local alias check logic body). This made the observed behavior eventually go away when it did occur. (3) Originally I thought there were two main actions involved in the data race: A. The act of adding the original check (from disk recovery) and its first health evaluation. B. The act of the HTTP API requests coming in and resetting the local state when re-registering the same services and checks. It took awhile for me to realize that there's a third action at work: C. The goroutines associated with the original check and the later checks. The actual sequence of actions that was causing the bad behavior was that the API actions result in the original check to be removed and re-added _without waiting for the original goroutine to terminate_. This means for brief windows of time during check definition edits there are two goroutines that can be sending updates for the alias check status. In extremely unlikely scenarios the original goroutine sees the aliased check start up in `critical` before being removed but does not get the notification about the nearly immediate update of that check to `passing`. This is interlaced wit the new goroutine coming up, initializing its base case to `passing` from the current state and then listening for new notifications of edge triggers. If the original goroutine "finishes" its update, it then commits one more write into the local state of `critical` and exits leaving the alias check no longer reflecting the underlying check. The correction here is to enforce that the old goroutines must terminate before spawning the new one for alias checks.
2019-05-24 18:36:56 +00:00
// Clone returns a distinct clone of the HealthCheck. Note that the
// "ServiceTags" and "Definition.Header" field are not deep copied.
func (c *HealthCheck) Clone() *HealthCheck {
clone := new(HealthCheck)
*clone = *c
return clone
}
// HealthChecks is a collection of HealthCheck structs.
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type HealthChecks []*HealthCheck
// CheckServiceNode is used to provide the node, its service
// definition, as well as a HealthCheck that is associated.
type CheckServiceNode struct {
Node *Node
Service *NodeService
Checks HealthChecks
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}
func (csn *CheckServiceNode) BestAddress(wan bool) (string, int) {
// TODO (mesh-gateway) needs a test
// best address
// wan
// wan svc addr
// svc addr
// wan node addr
// node addr
// lan
// svc addr
// node addr
addr, port := csn.Service.BestAddress(wan)
if addr == "" {
addr = csn.Node.BestAddress(wan)
}
return addr, port
}
type CheckServiceNodes []CheckServiceNode
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// Shuffle does an in-place random shuffle using the Fisher-Yates algorithm.
func (nodes CheckServiceNodes) Shuffle() {
for i := len(nodes) - 1; i > 0; i-- {
j := rand.Int31n(int32(i + 1))
nodes[i], nodes[j] = nodes[j], nodes[i]
}
}
// Filter removes nodes that are failing health checks (and any non-passing
// check if that option is selected). Note that this returns the filtered
// results AND modifies the receiver for performance.
func (nodes CheckServiceNodes) Filter(onlyPassing bool) CheckServiceNodes {
return nodes.FilterIgnore(onlyPassing, nil)
}
// FilterIgnore removes nodes that are failing health checks just like Filter.
// It also ignores the status of any check with an ID present in ignoreCheckIDs
// as if that check didn't exist. Note that this returns the filtered results
// AND modifies the receiver for performance.
func (nodes CheckServiceNodes) FilterIgnore(onlyPassing bool,
ignoreCheckIDs []types.CheckID) CheckServiceNodes {
n := len(nodes)
OUTER:
for i := 0; i < n; i++ {
node := nodes[i]
INNER:
for _, check := range node.Checks {
for _, ignore := range ignoreCheckIDs {
if check.CheckID == ignore {
// Skip this _check_ but keep looking at other checks for this node.
continue INNER
}
}
if check.Status == api.HealthCritical ||
(onlyPassing && check.Status != api.HealthPassing) {
nodes[i], nodes[n-1] = nodes[n-1], CheckServiceNode{}
n--
i--
// Skip this _node_ now we've swapped it off the end of the list.
continue OUTER
}
}
}
return nodes[:n]
}
// NodeInfo is used to dump all associated information about
// a node. This is currently used for the UI only, as it is
// rather expensive to generate.
type NodeInfo struct {
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ID types.NodeID
Node string
Address string
TaggedAddresses map[string]string
Meta map[string]string
Services []*NodeService
Checks HealthChecks
}
// NodeDump is used to dump all the nodes with all their
// associated data. This is currently used for the UI only,
// as it is rather expensive to generate.
type NodeDump []*NodeInfo
type IndexedNodes struct {
Nodes Nodes
QueryMeta
}
type IndexedServices struct {
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Services Services
QueryMeta
}
type IndexedServiceNodes struct {
ServiceNodes ServiceNodes
QueryMeta
}
type IndexedNodeServices struct {
// TODO: This should not be a pointer, see comments in
// agent/catalog_endpoint.go.
NodeServices *NodeServices
QueryMeta
}
type IndexedHealthChecks struct {
HealthChecks HealthChecks
QueryMeta
}
type IndexedCheckServiceNodes struct {
Nodes CheckServiceNodes
QueryMeta
}
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type IndexedNodeDump struct {
Dump NodeDump
QueryMeta
}
// IndexedConfigEntries has its own encoding logic which differs from
// ConfigEntryRequest as it has to send a slice of ConfigEntry.
type IndexedConfigEntries struct {
Kind string
Entries []ConfigEntry
QueryMeta
}
func (c *IndexedConfigEntries) MarshalBinary() (data []byte, err error) {
// bs will grow if needed but allocate enough to avoid reallocation in common
// case.
bs := make([]byte, 128)
enc := codec.NewEncoderBytes(&bs, msgpackHandle)
// Encode length.
err = enc.Encode(len(c.Entries))
if err != nil {
return nil, err
}
// Encode kind.
err = enc.Encode(c.Kind)
if err != nil {
return nil, err
}
// Then actual value using alias trick to avoid infinite recursion
type Alias IndexedConfigEntries
err = enc.Encode(struct {
*Alias
}{
Alias: (*Alias)(c),
})
if err != nil {
return nil, err
}
return bs, nil
}
func (c *IndexedConfigEntries) UnmarshalBinary(data []byte) error {
// First decode the number of entries.
var numEntries int
dec := codec.NewDecoderBytes(data, msgpackHandle)
if err := dec.Decode(&numEntries); err != nil {
return err
}
// Next decode the kind.
var kind string
if err := dec.Decode(&kind); err != nil {
return err
}
// Then decode the slice of ConfigEntries
c.Entries = make([]ConfigEntry, numEntries)
for i := 0; i < numEntries; i++ {
entry, err := MakeConfigEntry(kind, "")
if err != nil {
return err
}
c.Entries[i] = entry
}
// Alias juggling to prevent infinite recursive calls back to this decode
// method.
type Alias IndexedConfigEntries
as := struct {
*Alias
}{
Alias: (*Alias)(c),
}
if err := dec.Decode(&as); err != nil {
return err
}
return nil
}
type IndexedGenericConfigEntries struct {
Entries []ConfigEntry
QueryMeta
}
func (c *IndexedGenericConfigEntries) MarshalBinary() (data []byte, err error) {
// bs will grow if needed but allocate enough to avoid reallocation in common
// case.
bs := make([]byte, 128)
enc := codec.NewEncoderBytes(&bs, msgpackHandle)
if err := enc.Encode(len(c.Entries)); err != nil {
return nil, err
}
for _, entry := range c.Entries {
if err := enc.Encode(entry.GetKind()); err != nil {
return nil, err
}
if err := enc.Encode(entry); err != nil {
return nil, err
}
}
if err := enc.Encode(c.QueryMeta); err != nil {
return nil, err
}
return bs, nil
}
func (c *IndexedGenericConfigEntries) UnmarshalBinary(data []byte) error {
// First decode the number of entries.
var numEntries int
dec := codec.NewDecoderBytes(data, msgpackHandle)
if err := dec.Decode(&numEntries); err != nil {
return err
}
// Then decode the slice of ConfigEntries
c.Entries = make([]ConfigEntry, numEntries)
for i := 0; i < numEntries; i++ {
var kind string
if err := dec.Decode(&kind); err != nil {
return err
}
entry, err := MakeConfigEntry(kind, "")
if err != nil {
return err
}
if err := dec.Decode(entry); err != nil {
return err
}
c.Entries[i] = entry
}
if err := dec.Decode(&c.QueryMeta); err != nil {
return err
}
return nil
}
// DirEntry is used to represent a directory entry. This is
// used for values in our Key-Value store.
type DirEntry struct {
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LockIndex uint64
Key string
Flags uint64
Value []byte
Session string `json:",omitempty"`
RaftIndex
}
// Returns a clone of the given directory entry.
func (d *DirEntry) Clone() *DirEntry {
return &DirEntry{
LockIndex: d.LockIndex,
Key: d.Key,
Flags: d.Flags,
Value: d.Value,
Session: d.Session,
RaftIndex: RaftIndex{
CreateIndex: d.CreateIndex,
ModifyIndex: d.ModifyIndex,
},
}
}
func (d *DirEntry) Equal(o *DirEntry) bool {
return d.LockIndex == o.LockIndex &&
d.Key == o.Key &&
d.Flags == o.Flags &&
bytes.Equal(d.Value, o.Value) &&
d.Session == o.Session
}
type DirEntries []*DirEntry
// KVSRequest is used to operate on the Key-Value store
type KVSRequest struct {
Datacenter string
Op api.KVOp // Which operation are we performing
DirEnt DirEntry // Which directory entry
WriteRequest
}
func (r *KVSRequest) RequestDatacenter() string {
return r.Datacenter
}
// KeyRequest is used to request a key, or key prefix
type KeyRequest struct {
Datacenter string
Key string
QueryOptions
}
func (r *KeyRequest) RequestDatacenter() string {
return r.Datacenter
}
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// KeyListRequest is used to list keys
type KeyListRequest struct {
Datacenter string
Prefix string
Seperator string
QueryOptions
}
func (r *KeyListRequest) RequestDatacenter() string {
return r.Datacenter
}
type IndexedDirEntries struct {
Entries DirEntries
QueryMeta
}
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type IndexedKeyList struct {
Keys []string
QueryMeta
}
type SessionBehavior string
const (
SessionKeysRelease SessionBehavior = "release"
SessionKeysDelete = "delete"
)
const (
SessionTTLMax = 24 * time.Hour
SessionTTLMultiplier = 2
)
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// Session is used to represent an open session in the KV store.
// This issued to associate node checks with acquired locks.
type Session struct {
ID string
Name string
Node string
Checks []types.CheckID
LockDelay time.Duration
Behavior SessionBehavior // What to do when session is invalidated
TTL string
RaftIndex
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}
type Sessions []*Session
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type SessionOp string
const (
SessionCreate SessionOp = "create"
SessionDestroy = "destroy"
)
// SessionRequest is used to operate on sessions
type SessionRequest struct {
Datacenter string
Op SessionOp // Which operation are we performing
Session Session // Which session
WriteRequest
}
func (r *SessionRequest) RequestDatacenter() string {
return r.Datacenter
}
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// SessionSpecificRequest is used to request a session by ID
type SessionSpecificRequest struct {
Datacenter string
Session string
QueryOptions
}
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func (r *SessionSpecificRequest) RequestDatacenter() string {
return r.Datacenter
}
type IndexedSessions struct {
Sessions Sessions
QueryMeta
}
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// Coordinate stores a node name with its associated network coordinate.
2015-03-28 18:52:04 +00:00
type Coordinate struct {
Node string
Segment string
Coord *coordinate.Coordinate
2015-03-28 18:52:04 +00:00
}
type Coordinates []*Coordinate
// IndexedCoordinate is used to represent a single node's coordinate from the state
// store.
2015-04-18 21:05:29 +00:00
type IndexedCoordinate struct {
Coord *coordinate.Coordinate
QueryMeta
}
// IndexedCoordinates is used to represent a list of nodes and their
// corresponding raw coordinates.
type IndexedCoordinates struct {
Coordinates Coordinates
QueryMeta
}
// DatacenterMap is used to represent a list of nodes with their raw coordinates,
// associated with a datacenter. Coordinates are only compatible between nodes in
// the same area.
type DatacenterMap struct {
Datacenter string
AreaID types.AreaID
Coordinates Coordinates
}
// CoordinateUpdateRequest is used to update the network coordinate of a given
// node.
2015-03-28 18:52:04 +00:00
type CoordinateUpdateRequest struct {
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Datacenter string
Node string
Segment string
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Coord *coordinate.Coordinate
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WriteRequest
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}
// RequestDatacenter returns the datacenter for a given update request.
2015-04-18 21:05:29 +00:00
func (c *CoordinateUpdateRequest) RequestDatacenter() string {
return c.Datacenter
}
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// EventFireRequest is used to ask a server to fire
// a Serf event. It is a bit odd, since it doesn't depend on
// the catalog or leader. Any node can respond, so it's not quite
// like a standard write request. This is used only internally.
type EventFireRequest struct {
Datacenter string
Name string
Payload []byte
// Not using WriteRequest so that any server can process
// the request. It is a bit unusual...
QueryOptions
}
func (r *EventFireRequest) RequestDatacenter() string {
return r.Datacenter
}
// EventFireResponse is used to respond to a fire request.
type EventFireResponse struct {
QueryMeta
}
type TombstoneOp string
const (
TombstoneReap TombstoneOp = "reap"
)
// TombstoneRequest is used to trigger a reaping of the tombstones
type TombstoneRequest struct {
Datacenter string
Op TombstoneOp
ReapIndex uint64
WriteRequest
}
func (r *TombstoneRequest) RequestDatacenter() string {
return r.Datacenter
}
2014-06-08 21:02:42 +00:00
// msgpackHandle is a shared handle for encoding/decoding of structs
var msgpackHandle = &codec.MsgpackHandle{}
2014-06-07 07:59:27 +00:00
// Decode is used to decode a MsgPack encoded object
func Decode(buf []byte, out interface{}) error {
2014-06-08 21:02:42 +00:00
return codec.NewDecoder(bytes.NewReader(buf), msgpackHandle).Decode(out)
}
// Encode is used to encode a MsgPack object with type prefix
func Encode(t MessageType, msg interface{}) ([]byte, error) {
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var buf bytes.Buffer
buf.WriteByte(uint8(t))
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err := codec.NewEncoder(&buf, msgpackHandle).Encode(msg)
return buf.Bytes(), err
}
// CompoundResponse is an interface for gathering multiple responses. It is
// used in cross-datacenter RPC calls where more than 1 datacenter is
// expected to reply.
type CompoundResponse interface {
// Add adds a new response to the compound response
Add(interface{})
// New returns an empty response object which can be passed around by
// reference, and then passed to Add() later on.
New() interface{}
}
type KeyringOp string
const (
KeyringList KeyringOp = "list"
KeyringInstall = "install"
KeyringUse = "use"
KeyringRemove = "remove"
)
// KeyringRequest encapsulates a request to modify an encryption keyring.
// It can be used for install, remove, or use key type operations.
type KeyringRequest struct {
Operation KeyringOp
Key string
Datacenter string
Forwarded bool
RelayFactor uint8
LocalOnly bool
QueryOptions
}
func (r *KeyringRequest) RequestDatacenter() string {
return r.Datacenter
}
// KeyringResponse is a unified key response and can be used for install,
// remove, use, as well as listing key queries.
type KeyringResponse struct {
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WAN bool
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Datacenter string
Segment string
2016-11-15 02:54:37 +00:00
Messages map[string]string `json:",omitempty"`
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Keys map[string]int
NumNodes int
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Error string `json:",omitempty"`
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}
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// KeyringResponses holds multiple responses to keyring queries. Each
// datacenter replies independently, and KeyringResponses is used as a
// container for the set of all responses.
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type KeyringResponses struct {
Responses []*KeyringResponse
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QueryMeta
}
func (r *KeyringResponses) Add(v interface{}) {
val := v.(*KeyringResponses)
r.Responses = append(r.Responses, val.Responses...)
}
func (r *KeyringResponses) New() interface{} {
return new(KeyringResponses)
}