consul/api/config_entry_intentions.go

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// Copyright (c) HashiCorp, Inc.
// SPDX-License-Identifier: MPL-2.0
connect: intentions are now managed as a new config entry kind "service-intentions" (#8834) - Upgrade the ConfigEntry.ListAll RPC to be kind-aware so that older copies of consul will not see new config entries it doesn't understand replicate down. - Add shim conversion code so that the old API/CLI method of interacting with intentions will continue to work so long as none of these are edited via config entry endpoints. Almost all of the read-only APIs will continue to function indefinitely. - Add new APIs that operate on individual intentions without IDs so that the UI doesn't need to implement CAS operations. - Add a new serf feature flag indicating support for intentions-as-config-entries. - The old line-item intentions way of interacting with the state store will transparently flip between the legacy memdb table and the config entry representations so that readers will never see a hiccup during migration where the results are incomplete. It uses a piece of system metadata to control the flip. - The primary datacenter will begin migrating intentions into config entries on startup once all servers in the datacenter are on a version of Consul with the intentions-as-config-entries feature flag. When it is complete the old state store representations will be cleared. We also record a piece of system metadata indicating this has occurred. We use this metadata to skip ALL of this code the next time the leader starts up. - The secondary datacenters continue to run the old intentions replicator until all servers in the secondary DC and primary DC support intentions-as-config-entries (via serf flag). Once this condition it met the old intentions replicator ceases. - The secondary datacenters replicate the new config entries as they are migrated in the primary. When they detect that the primary has zeroed it's old state store table it waits until all config entries up to that point are replicated and then zeroes its own copy of the old state store table. We also record a piece of system metadata indicating this has occurred. We use this metadata to skip ALL of this code the next time the leader starts up.
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package api
import "time"
type ServiceIntentionsConfigEntry struct {
Kind string
Name string
Partition string `json:",omitempty"`
connect: intentions are now managed as a new config entry kind "service-intentions" (#8834) - Upgrade the ConfigEntry.ListAll RPC to be kind-aware so that older copies of consul will not see new config entries it doesn't understand replicate down. - Add shim conversion code so that the old API/CLI method of interacting with intentions will continue to work so long as none of these are edited via config entry endpoints. Almost all of the read-only APIs will continue to function indefinitely. - Add new APIs that operate on individual intentions without IDs so that the UI doesn't need to implement CAS operations. - Add a new serf feature flag indicating support for intentions-as-config-entries. - The old line-item intentions way of interacting with the state store will transparently flip between the legacy memdb table and the config entry representations so that readers will never see a hiccup during migration where the results are incomplete. It uses a piece of system metadata to control the flip. - The primary datacenter will begin migrating intentions into config entries on startup once all servers in the datacenter are on a version of Consul with the intentions-as-config-entries feature flag. When it is complete the old state store representations will be cleared. We also record a piece of system metadata indicating this has occurred. We use this metadata to skip ALL of this code the next time the leader starts up. - The secondary datacenters continue to run the old intentions replicator until all servers in the secondary DC and primary DC support intentions-as-config-entries (via serf flag). Once this condition it met the old intentions replicator ceases. - The secondary datacenters replicate the new config entries as they are migrated in the primary. When they detect that the primary has zeroed it's old state store table it waits until all config entries up to that point are replicated and then zeroes its own copy of the old state store table. We also record a piece of system metadata indicating this has occurred. We use this metadata to skip ALL of this code the next time the leader starts up.
2020-10-06 18:24:05 +00:00
Namespace string `json:",omitempty"`
Sources []*SourceIntention
JWT *IntentionJWTRequirement `json:",omitempty"`
connect: intentions are now managed as a new config entry kind "service-intentions" (#8834) - Upgrade the ConfigEntry.ListAll RPC to be kind-aware so that older copies of consul will not see new config entries it doesn't understand replicate down. - Add shim conversion code so that the old API/CLI method of interacting with intentions will continue to work so long as none of these are edited via config entry endpoints. Almost all of the read-only APIs will continue to function indefinitely. - Add new APIs that operate on individual intentions without IDs so that the UI doesn't need to implement CAS operations. - Add a new serf feature flag indicating support for intentions-as-config-entries. - The old line-item intentions way of interacting with the state store will transparently flip between the legacy memdb table and the config entry representations so that readers will never see a hiccup during migration where the results are incomplete. It uses a piece of system metadata to control the flip. - The primary datacenter will begin migrating intentions into config entries on startup once all servers in the datacenter are on a version of Consul with the intentions-as-config-entries feature flag. When it is complete the old state store representations will be cleared. We also record a piece of system metadata indicating this has occurred. We use this metadata to skip ALL of this code the next time the leader starts up. - The secondary datacenters continue to run the old intentions replicator until all servers in the secondary DC and primary DC support intentions-as-config-entries (via serf flag). Once this condition it met the old intentions replicator ceases. - The secondary datacenters replicate the new config entries as they are migrated in the primary. When they detect that the primary has zeroed it's old state store table it waits until all config entries up to that point are replicated and then zeroes its own copy of the old state store table. We also record a piece of system metadata indicating this has occurred. We use this metadata to skip ALL of this code the next time the leader starts up.
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Meta map[string]string `json:",omitempty"`
CreateIndex uint64
ModifyIndex uint64
}
type SourceIntention struct {
Name string
Peer string `json:",omitempty"`
Partition string `json:",omitempty"`
Namespace string `json:",omitempty"`
SamenessGroup string `json:",omitempty" alias:"sameness_group"`
Action IntentionAction `json:",omitempty"`
Permissions []*IntentionPermission `json:",omitempty"`
Precedence int
Type IntentionSourceType
Description string `json:",omitempty"`
connect: intentions are now managed as a new config entry kind "service-intentions" (#8834) - Upgrade the ConfigEntry.ListAll RPC to be kind-aware so that older copies of consul will not see new config entries it doesn't understand replicate down. - Add shim conversion code so that the old API/CLI method of interacting with intentions will continue to work so long as none of these are edited via config entry endpoints. Almost all of the read-only APIs will continue to function indefinitely. - Add new APIs that operate on individual intentions without IDs so that the UI doesn't need to implement CAS operations. - Add a new serf feature flag indicating support for intentions-as-config-entries. - The old line-item intentions way of interacting with the state store will transparently flip between the legacy memdb table and the config entry representations so that readers will never see a hiccup during migration where the results are incomplete. It uses a piece of system metadata to control the flip. - The primary datacenter will begin migrating intentions into config entries on startup once all servers in the datacenter are on a version of Consul with the intentions-as-config-entries feature flag. When it is complete the old state store representations will be cleared. We also record a piece of system metadata indicating this has occurred. We use this metadata to skip ALL of this code the next time the leader starts up. - The secondary datacenters continue to run the old intentions replicator until all servers in the secondary DC and primary DC support intentions-as-config-entries (via serf flag). Once this condition it met the old intentions replicator ceases. - The secondary datacenters replicate the new config entries as they are migrated in the primary. When they detect that the primary has zeroed it's old state store table it waits until all config entries up to that point are replicated and then zeroes its own copy of the old state store table. We also record a piece of system metadata indicating this has occurred. We use this metadata to skip ALL of this code the next time the leader starts up.
2020-10-06 18:24:05 +00:00
LegacyID string `json:",omitempty" alias:"legacy_id"`
LegacyMeta map[string]string `json:",omitempty" alias:"legacy_meta"`
LegacyCreateTime *time.Time `json:",omitempty" alias:"legacy_create_time"`
LegacyUpdateTime *time.Time `json:",omitempty" alias:"legacy_update_time"`
}
func (e *ServiceIntentionsConfigEntry) GetKind() string { return e.Kind }
func (e *ServiceIntentionsConfigEntry) GetName() string { return e.Name }
func (e *ServiceIntentionsConfigEntry) GetPartition() string { return e.Partition }
func (e *ServiceIntentionsConfigEntry) GetNamespace() string { return e.Namespace }
func (e *ServiceIntentionsConfigEntry) GetMeta() map[string]string { return e.Meta }
func (e *ServiceIntentionsConfigEntry) GetCreateIndex() uint64 { return e.CreateIndex }
func (e *ServiceIntentionsConfigEntry) GetModifyIndex() uint64 { return e.ModifyIndex }
type IntentionPermission struct {
Action IntentionAction
HTTP *IntentionHTTPPermission `json:",omitempty"`
JWT *IntentionJWTRequirement `json:",omitempty"`
}
type IntentionHTTPPermission struct {
PathExact string `json:",omitempty" alias:"path_exact"`
PathPrefix string `json:",omitempty" alias:"path_prefix"`
PathRegex string `json:",omitempty" alias:"path_regex"`
Header []IntentionHTTPHeaderPermission `json:",omitempty"`
Methods []string `json:",omitempty"`
}
type IntentionHTTPHeaderPermission struct {
Name string
Present bool `json:",omitempty"`
Exact string `json:",omitempty"`
Prefix string `json:",omitempty"`
Suffix string `json:",omitempty"`
Regex string `json:",omitempty"`
Invert bool `json:",omitempty"`
}
type IntentionJWTRequirement struct {
// Providers is a list of providers to consider when verifying a JWT.
Providers []*IntentionJWTProvider `json:",omitempty"`
}
type IntentionJWTProvider struct {
// Name is the name of the JWT provider. There MUST be a corresponding
// "jwt-provider" config entry with this name.
Name string `json:",omitempty"`
// VerifyClaims is a list of additional claims to verify in a JWT's payload.
VerifyClaims []*IntentionJWTClaimVerification `json:",omitempty" alias:"verify_claims"`
}
type IntentionJWTClaimVerification struct {
// Path is the path to the claim in the token JSON.
Path []string `json:",omitempty"`
// Value is the expected value at the given path:
// - If the type at the path is a list then we verify
// that this value is contained in the list.
//
// - If the type at the path is a string then we verify
// that this value matches.
Value string `json:",omitempty"`
}