terraform/internal/tfplugin5/tfplugin5.proto

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// Terraform Plugin RPC protocol version 5.0
//
// This file defines version 5.0 of the RPC protocol. To implement a plugin
// against this protocol, copy this definition into your own codebase and
// use protoc to generate stubs for your target language.
//
// This file will be updated in-place in the source Terraform repository for
// any minor versions of protocol 5, but later minor versions will always be
// backwards compatible. Breaking changes, if any are required, will come
// in a subsequent major version with its own separate proto definition.
//
// Note that only the proto files included in a release tag of Terraform are
// official protocol releases. Proto files taken from other commits may include
// incomplete changes or features that did not make it into a final release.
// In all reasonable cases, plugin developers should take the proto file from
// the tag of the most recent release of Terraform, and not from the master
// branch or any other development branch.
//
syntax = "proto3";
package tfplugin5;
// DynamicValue is an opaque encoding of terraform data, with the field name
// indicating the encoding scheme used.
message DynamicValue {
bytes msgpack = 1;
bytes json = 2;
}
message Diagnostic {
enum Severity {
INVALID = 0;
ERROR = 1;
WARNING = 2;
}
Severity severity = 1;
string summary = 2;
string detail = 3;
AttributePath attribute = 4;
}
message AttributePath {
message Step {
oneof selector {
// Set "attribute_name" to represent looking up an attribute
// in the current object value.
string attribute_name = 1;
// Set "element_key_*" to represent looking up an element in
// an indexable collection type.
string element_key_string = 2;
int64 element_key_int = 3;
}
}
repeated Step steps = 1;
}
message Stop {
message Request {
}
message Response {
string Error = 1;
}
}
// RawState holds the stored state for a resource to be upgraded by the
// provider. It can be in one of two formats, the current json encoded format
// in bytes, or the legacy flatmap format as a map of strings.
message RawState {
bytes json = 1;
map<string, string> flatmap = 2;
}
// Schema is the configuration schema for a Resource, Provider, or Provisioner.
message Schema {
message Block {
int64 version = 1;
repeated Attribute attributes = 2;
repeated NestedBlock block_types = 3;
}
message Attribute {
string name = 1;
bytes type = 2;
string description = 3;
bool required = 4;
bool optional = 5;
bool computed = 6;
bool sensitive = 7;
}
message NestedBlock {
enum NestingMode {
INVALID = 0;
SINGLE = 1;
LIST = 2;
SET = 3;
MAP = 4;
configs/configschema: Introduce the NestingGroup mode for blocks In study of existing providers we've found a pattern we werent previously accounting for of using a nested block type to represent a group of arguments that relate to a particular feature that is always enabled but where it improves configuration readability to group all of its settings together in a nested block. The existing NestingSingle was not a good fit for this because it is designed under the assumption that the presence or absence of the block has some significance in enabling or disabling the relevant feature, and so for these always-active cases we'd generate a misleading plan where the settings for the feature appear totally absent, rather than showing the default values that will be selected. NestingGroup is, therefore, a slight variation of NestingSingle where presence vs. absence of the block is not distinguishable (it's never null) and instead its contents are treated as unset when the block is absent. This then in turn causes any default values associated with the nested arguments to be honored and displayed in the plan whenever the block is not explicitly configured. The current SDK cannot activate this mode, but that's okay because its "legacy type system" opt-out flag allows it to force a block to be processed in this way anyway. We're adding this now so that we can introduce the feature in a future SDK without causing a breaking change to the protocol, since the set of possible block nesting modes is not extensible.
2019-04-09 00:32:53 +02:00
GROUP = 5;
}
string type_name = 1;
Block block = 2;
NestingMode nesting = 3;
int64 min_items = 4;
int64 max_items = 5;
}
// The version of the schema.
// Schemas are versioned, so that providers can upgrade a saved resource
// state when the schema is changed.
int64 version = 1;
// Block is the top level configuration block for this schema.
Block block = 2;
}
service Provider {
//////// Information about what a provider supports/expects
rpc GetSchema(GetProviderSchema.Request) returns (GetProviderSchema.Response);
rpc PrepareProviderConfig(PrepareProviderConfig.Request) returns (PrepareProviderConfig.Response);
rpc ValidateResourceTypeConfig(ValidateResourceTypeConfig.Request) returns (ValidateResourceTypeConfig.Response);
rpc ValidateDataSourceConfig(ValidateDataSourceConfig.Request) returns (ValidateDataSourceConfig.Response);
rpc UpgradeResourceState(UpgradeResourceState.Request) returns (UpgradeResourceState.Response);
//////// One-time initialization, called before other functions below
rpc Configure(Configure.Request) returns (Configure.Response);
//////// Managed Resource Lifecycle
rpc ReadResource(ReadResource.Request) returns (ReadResource.Response);
rpc PlanResourceChange(PlanResourceChange.Request) returns (PlanResourceChange.Response);
rpc ApplyResourceChange(ApplyResourceChange.Request) returns (ApplyResourceChange.Response);
rpc ImportResourceState(ImportResourceState.Request) returns (ImportResourceState.Response);
rpc ReadDataSource(ReadDataSource.Request) returns (ReadDataSource.Response);
//////// Graceful Shutdown
rpc Stop(Stop.Request) returns (Stop.Response);
}
message GetProviderSchema {
message Request {
}
message Response {
Schema provider = 1;
map<string, Schema> resource_schemas = 2;
map<string, Schema> data_source_schemas = 3;
repeated Diagnostic diagnostics = 4;
}
}
message PrepareProviderConfig {
message Request {
DynamicValue config = 1;
}
message Response {
DynamicValue prepared_config = 1;
repeated Diagnostic diagnostics = 2;
}
}
message UpgradeResourceState {
message Request {
string type_name = 1;
// version is the schema_version number recorded in the state file
int64 version = 2;
// raw_state is the raw states as stored for the resource. Core does
// not have access to the schema of prior_version, so it's the
// provider's responsibility to interpret this value using the
// appropriate older schema. The raw_state will be the json encoded
// state, or a legacy flat-mapped format.
RawState raw_state = 3;
}
message Response {
// new_state is a msgpack-encoded data structure that, when interpreted with
// the _current_ schema for this resource type, is functionally equivalent to
// that which was given in prior_state_raw.
DynamicValue upgraded_state = 1;
// diagnostics describes any errors encountered during migration that could not
// be safely resolved, and warnings about any possibly-risky assumptions made
// in the upgrade process.
repeated Diagnostic diagnostics = 2;
}
}
message ValidateResourceTypeConfig {
message Request {
string type_name = 1;
DynamicValue config = 2;
}
message Response {
repeated Diagnostic diagnostics = 1;
}
}
message ValidateDataSourceConfig {
message Request {
string type_name = 1;
DynamicValue config = 2;
}
message Response {
repeated Diagnostic diagnostics = 1;
}
}
message Configure {
message Request {
string terraform_version = 1;
DynamicValue config = 2;
}
message Response {
repeated Diagnostic diagnostics = 1;
}
}
message ReadResource {
message Request {
string type_name = 1;
DynamicValue current_state = 2;
bytes private = 3;
}
message Response {
DynamicValue new_state = 1;
repeated Diagnostic diagnostics = 2;
bytes private = 3;
}
}
message PlanResourceChange {
message Request {
string type_name = 1;
DynamicValue prior_state = 2;
DynamicValue proposed_new_state = 3;
DynamicValue config = 4;
bytes prior_private = 5;
}
message Response {
DynamicValue planned_state = 1;
repeated AttributePath requires_replace = 2;
bytes planned_private = 3;
repeated Diagnostic diagnostics = 4;
// This may be set only by the helper/schema "SDK" in the main Terraform
// repository, to request that Terraform Core >=0.12 permit additional
// inconsistencies that can result from the legacy SDK type system
// and its imprecise mapping to the >=0.12 type system.
// The change in behavior implied by this flag makes sense only for the
// specific details of the legacy SDK type system, and are not a general
// mechanism to avoid proper type handling in providers.
//
// ==== DO NOT USE THIS ====
// ==== THIS MUST BE LEFT UNSET IN ALL OTHER SDKS ====
// ==== DO NOT USE THIS ====
bool legacy_type_system = 5;
}
}
message ApplyResourceChange {
message Request {
string type_name = 1;
DynamicValue prior_state = 2;
DynamicValue planned_state = 3;
DynamicValue config = 4;
bytes planned_private = 5;
}
message Response {
DynamicValue new_state = 1;
bytes private = 2;
repeated Diagnostic diagnostics = 3;
// This may be set only by the helper/schema "SDK" in the main Terraform
// repository, to request that Terraform Core >=0.12 permit additional
// inconsistencies that can result from the legacy SDK type system
// and its imprecise mapping to the >=0.12 type system.
// The change in behavior implied by this flag makes sense only for the
// specific details of the legacy SDK type system, and are not a general
// mechanism to avoid proper type handling in providers.
//
// ==== DO NOT USE THIS ====
// ==== THIS MUST BE LEFT UNSET IN ALL OTHER SDKS ====
// ==== DO NOT USE THIS ====
bool legacy_type_system = 4;
}
}
message ImportResourceState {
message Request {
string type_name = 1;
string id = 2;
}
message ImportedResource {
string type_name = 1;
DynamicValue state = 2;
bytes private = 3;
}
message Response {
repeated ImportedResource imported_resources = 1;
repeated Diagnostic diagnostics = 2;
}
}
message ReadDataSource {
message Request {
string type_name = 1;
DynamicValue config = 2;
}
message Response {
DynamicValue state = 1;
repeated Diagnostic diagnostics = 2;
}
}
service Provisioner {
rpc GetSchema(GetProvisionerSchema.Request) returns (GetProvisionerSchema.Response);
rpc ValidateProvisionerConfig(ValidateProvisionerConfig.Request) returns (ValidateProvisionerConfig.Response);
rpc ProvisionResource(ProvisionResource.Request) returns (stream ProvisionResource.Response);
rpc Stop(Stop.Request) returns (Stop.Response);
}
message GetProvisionerSchema {
message Request {
}
message Response {
Schema provisioner = 1;
repeated Diagnostic diagnostics = 2;
}
}
message ValidateProvisionerConfig {
message Request {
DynamicValue config = 1;
}
message Response {
repeated Diagnostic diagnostics = 1;
}
}
message ProvisionResource {
message Request {
DynamicValue config = 1;
DynamicValue connection = 2;
}
message Response {
string output = 1;
repeated Diagnostic diagnostics = 2;
}
}