// Copyright 2022 Google LLC // // Licensed under the Apache License, Version 2.0 (the "License"); // you may not use this file except in compliance with the License. // You may obtain a copy of the License at // // http://www.apache.org/licenses/LICENSE-2.0 // // Unless required by applicable law or agreed to in writing, software // distributed under the License is distributed on an "AS IS" BASIS, // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. // See the License for the specific language governing permissions and // limitations under the License. syntax = "proto3"; package google.cloud.visionai.v1; import "google/api/annotations.proto"; import "google/api/client.proto"; import "google/api/field_behavior.proto"; import "google/api/resource.proto"; import "google/longrunning/operations.proto"; import "google/protobuf/any.proto"; import "google/protobuf/duration.proto"; import "google/protobuf/empty.proto"; import "google/protobuf/field_mask.proto"; import "google/protobuf/struct.proto"; import "google/protobuf/timestamp.proto"; import "google/rpc/status.proto"; import "google/type/datetime.proto"; option csharp_namespace = "Google.Cloud.VisionAI.V1"; option go_package = "cloud.google.com/go/visionai/apiv1/visionaipb;visionaipb"; option java_multiple_files = true; option java_outer_classname = "WarehouseProto"; option java_package = "com.google.cloud.visionai.v1"; option php_namespace = "Google\\Cloud\\VisionAI\\V1"; option ruby_package = "Google::Cloud::VisionAI::V1"; // Service that manages media content + metadata for streaming. service Warehouse { option (google.api.default_host) = "visionai.googleapis.com"; option (google.api.oauth_scopes) = "https://www.googleapis.com/auth/cloud-platform"; // Creates an asset inside corpus. rpc CreateAsset(CreateAssetRequest) returns (Asset) { option (google.api.http) = { post: "/v1/{parent=projects/*/locations/*/corpora/*}/assets" body: "asset" }; option (google.api.method_signature) = "parent,asset,asset_id"; } // Updates an asset inside corpus. rpc UpdateAsset(UpdateAssetRequest) returns (Asset) { option (google.api.http) = { patch: "/v1/{asset.name=projects/*/locations/*/corpora/*/assets/*}" body: "asset" }; option (google.api.method_signature) = "asset,update_mask"; } // Reads an asset inside corpus. rpc GetAsset(GetAssetRequest) returns (Asset) { option (google.api.http) = { get: "/v1/{name=projects/*/locations/*/corpora/*/assets/*}" }; option (google.api.method_signature) = "name"; } // Lists an list of assets inside corpus. rpc ListAssets(ListAssetsRequest) returns (ListAssetsResponse) { option (google.api.http) = { get: "/v1/{parent=projects/*/locations/*/corpora/*}/assets" }; option (google.api.method_signature) = "parent"; } // Deletes asset inside corpus. rpc DeleteAsset(DeleteAssetRequest) returns (google.longrunning.Operation) { option (google.api.http) = { delete: "/v1/{name=projects/*/locations/*/corpora/*/assets/*}" }; option (google.api.method_signature) = "name"; option (google.longrunning.operation_info) = { response_type: "google.protobuf.Empty" metadata_type: "DeleteAssetMetadata" }; } // Creates a corpus inside a project. rpc CreateCorpus(CreateCorpusRequest) returns (google.longrunning.Operation) { option (google.api.http) = { post: "/v1/{parent=projects/*/locations/*}/corpora" body: "corpus" }; option (google.api.method_signature) = "parent,corpus"; option (google.longrunning.operation_info) = { response_type: "Corpus" metadata_type: "CreateCorpusMetadata" }; } // Gets corpus details inside a project. rpc GetCorpus(GetCorpusRequest) returns (Corpus) { option (google.api.http) = { get: "/v1/{name=projects/*/locations/*/corpora/*}" }; option (google.api.method_signature) = "name"; } // Updates a corpus in a project. rpc UpdateCorpus(UpdateCorpusRequest) returns (Corpus) { option (google.api.http) = { patch: "/v1/{corpus.name=projects/*/locations/*/corpora/*}" body: "corpus" }; option (google.api.method_signature) = "corpus,update_mask"; } // Lists all corpora in a project. rpc ListCorpora(ListCorporaRequest) returns (ListCorporaResponse) { option (google.api.http) = { get: "/v1/{parent=projects/*/locations/*}/corpora" }; option (google.api.method_signature) = "parent"; } // Deletes a corpus only if its empty. // Returns empty response. rpc DeleteCorpus(DeleteCorpusRequest) returns (google.protobuf.Empty) { option (google.api.http) = { delete: "/v1/{name=projects/*/locations/*/corpora/*}" }; option (google.api.method_signature) = "name"; } // Creates data schema inside corpus. rpc CreateDataSchema(CreateDataSchemaRequest) returns (DataSchema) { option (google.api.http) = { post: "/v1/{parent=projects/*/locations/*/corpora/*}/dataSchemas" body: "data_schema" }; option (google.api.method_signature) = "parent,data_schema"; } // Updates data schema inside corpus. rpc UpdateDataSchema(UpdateDataSchemaRequest) returns (DataSchema) { option (google.api.http) = { patch: "/v1/{data_schema.name=projects/*/locations/*/corpora/*/dataSchemas/*}" body: "data_schema" }; option (google.api.method_signature) = "data_schema,update_mask"; } // Gets data schema inside corpus. rpc GetDataSchema(GetDataSchemaRequest) returns (DataSchema) { option (google.api.http) = { get: "/v1/{name=projects/*/locations/*/corpora/*/dataSchemas/*}" }; option (google.api.method_signature) = "name"; } // Deletes data schema inside corpus. rpc DeleteDataSchema(DeleteDataSchemaRequest) returns (google.protobuf.Empty) { option (google.api.http) = { delete: "/v1/{name=projects/*/locations/*/corpora/*/dataSchemas/*}" }; option (google.api.method_signature) = "name"; } // Lists a list of data schemas inside corpus. rpc ListDataSchemas(ListDataSchemasRequest) returns (ListDataSchemasResponse) { option (google.api.http) = { get: "/v1/{parent=projects/*/locations/*/corpora/*}/dataSchemas" }; option (google.api.method_signature) = "parent"; } // Creates annotation inside asset. rpc CreateAnnotation(CreateAnnotationRequest) returns (Annotation) { option (google.api.http) = { post: "/v1/{parent=projects/*/locations/*/corpora/*/assets/*}/annotations" body: "annotation" }; option (google.api.method_signature) = "parent,annotation,annotation_id"; } // Reads annotation inside asset. rpc GetAnnotation(GetAnnotationRequest) returns (Annotation) { option (google.api.http) = { get: "/v1/{name=projects/*/locations/*/corpora/*/assets/*/annotations/*}" }; option (google.api.method_signature) = "name"; } // Lists a list of annotations inside asset. rpc ListAnnotations(ListAnnotationsRequest) returns (ListAnnotationsResponse) { option (google.api.http) = { get: "/v1/{parent=projects/*/locations/*/corpora/*/assets/*}/annotations" }; option (google.api.method_signature) = "parent"; } // Updates annotation inside asset. rpc UpdateAnnotation(UpdateAnnotationRequest) returns (Annotation) { option (google.api.http) = { patch: "/v1/{annotation.name=projects/*/locations/*/corpora/*/assets/*/annotations/*}" body: "annotation" }; option (google.api.method_signature) = "annotation,update_mask"; } // Deletes annotation inside asset. rpc DeleteAnnotation(DeleteAnnotationRequest) returns (google.protobuf.Empty) { option (google.api.http) = { delete: "/v1/{name=projects/*/locations/*/corpora/*/assets/*/annotations/*}" }; option (google.api.method_signature) = "name"; } // Ingests data for the asset. It is not allowed to ingest a data chunk which // is already expired according to TTL. // This method is only available via the gRPC API (not HTTP since // bi-directional streaming is not supported via HTTP). rpc IngestAsset(stream IngestAssetRequest) returns (stream IngestAssetResponse) { } // Generates clips for downloading. The api takes in a time range, and // generates a clip of the first content available after start_time and // before end_time, which may overflow beyond these bounds. // Returned clips are truncated if the total size of the clips are larger // than 100MB. rpc ClipAsset(ClipAssetRequest) returns (ClipAssetResponse) { option (google.api.http) = { post: "/v1/{name=projects/*/locations/*/corpora/*/assets/*}:clip" body: "*" }; } // Generates a uri for an HLS manifest. The api takes in a collection of time // ranges, and generates a URI for an HLS manifest that covers all the // requested time ranges. rpc GenerateHlsUri(GenerateHlsUriRequest) returns (GenerateHlsUriResponse) { option (google.api.http) = { post: "/v1/{name=projects/*/locations/*/corpora/*/assets/*}:generateHlsUri" body: "*" }; } // Creates a search configuration inside a corpus. // // Please follow the rules below to create a valid CreateSearchConfigRequest. // --- General Rules --- // 1. Request.search_config_id must not be associated with an existing // SearchConfig. // 2. Request must contain at least one non-empty search_criteria_property or // facet_property. // 3. mapped_fields must not be empty, and must map to existing UGA keys. // 4. All mapped_fields must be of the same type. // 5. All mapped_fields must share the same granularity. // 6. All mapped_fields must share the same semantic SearchConfig match // options. // For property-specific rules, please reference the comments for // FacetProperty and SearchCriteriaProperty. rpc CreateSearchConfig(CreateSearchConfigRequest) returns (SearchConfig) { option (google.api.http) = { post: "/v1/{parent=projects/*/locations/*/corpora/*}/searchConfigs" body: "search_config" }; option (google.api.method_signature) = "parent,search_config,search_config_id"; } // Updates a search configuration inside a corpus. // // Please follow the rules below to create a valid UpdateSearchConfigRequest. // --- General Rules --- // 1. Request.search_configuration.name must already exist. // 2. Request must contain at least one non-empty search_criteria_property or // facet_property. // 3. mapped_fields must not be empty, and must map to existing UGA keys. // 4. All mapped_fields must be of the same type. // 5. All mapped_fields must share the same granularity. // 6. All mapped_fields must share the same semantic SearchConfig match // options. // For property-specific rules, please reference the comments for // FacetProperty and SearchCriteriaProperty. rpc UpdateSearchConfig(UpdateSearchConfigRequest) returns (SearchConfig) { option (google.api.http) = { patch: "/v1/{search_config.name=projects/*/locations/*/corpora/*/searchConfigs/*}" body: "search_config" }; option (google.api.method_signature) = "search_config,update_mask"; } // Gets a search configuration inside a corpus. rpc GetSearchConfig(GetSearchConfigRequest) returns (SearchConfig) { option (google.api.http) = { get: "/v1/{name=projects/*/locations/*/corpora/*/searchConfigs/*}" }; option (google.api.method_signature) = "name"; } // Deletes a search configuration inside a corpus. // // For a DeleteSearchConfigRequest to be valid, // Request.search_configuration.name must already exist. rpc DeleteSearchConfig(DeleteSearchConfigRequest) returns (google.protobuf.Empty) { option (google.api.http) = { delete: "/v1/{name=projects/*/locations/*/corpora/*/searchConfigs/*}" }; option (google.api.method_signature) = "name"; } // Lists all search configurations inside a corpus. rpc ListSearchConfigs(ListSearchConfigsRequest) returns (ListSearchConfigsResponse) { option (google.api.http) = { get: "/v1/{parent=projects/*/locations/*/corpora/*}/searchConfigs" }; option (google.api.method_signature) = "parent"; } // Search media asset. rpc SearchAssets(SearchAssetsRequest) returns (SearchAssetsResponse) { option (google.api.http) = { post: "/v1/{corpus=projects/*/locations/*/corpora/*}:searchAssets" body: "*" }; } } // Different types for a facet bucket. enum FacetBucketType { // Unspecified type. FACET_BUCKET_TYPE_UNSPECIFIED = 0; // Value type. FACET_BUCKET_TYPE_VALUE = 1; // Datetime type. FACET_BUCKET_TYPE_DATETIME = 2; // Fixed Range type. FACET_BUCKET_TYPE_FIXED_RANGE = 3; // Custom Range type. FACET_BUCKET_TYPE_CUSTOM_RANGE = 4; } // Request message for CreateAssetRequest. message CreateAssetRequest { // Required. The parent resource where this asset will be created. // Format: projects/*/locations/*/corpora/* string parent = 1 [ (google.api.field_behavior) = REQUIRED, (google.api.resource_reference) = { type: "visionai.googleapis.com/Corpus" } ]; // Required. The asset to create. Asset asset = 2 [(google.api.field_behavior) = REQUIRED]; // Optional. The ID to use for the asset, which will become the final component of // the asset's resource name if user choose to specify. Otherwise, asset id // will be generated by system. // // This value should be up to 63 characters, and valid characters // are /[a-z][0-9]-/. The first character must be a letter, the last could be // a letter or a number. optional string asset_id = 3 [(google.api.field_behavior) = OPTIONAL]; } // Request message for GetAsset. message GetAssetRequest { // Required. The name of the asset to retrieve. // Format: // projects/{project_number}/locations/{location}/corpora/{corpus}/assets/{asset} string name = 1 [ (google.api.field_behavior) = REQUIRED, (google.api.resource_reference) = { type: "visionai.googleapis.com/Asset" } ]; } // Request message for ListAssets. message ListAssetsRequest { // Required. The parent, which owns this collection of assets. // Format: // projects/{project_number}/locations/{location}/corpora/{corpus} string parent = 1 [ (google.api.field_behavior) = REQUIRED, (google.api.resource_reference) = { child_type: "visionai.googleapis.com/Asset" } ]; // The maximum number of assets to return. The service may return fewer than // this value. // If unspecified, at most 50 assets will be returned. // The maximum value is 1000; values above 1000 will be coerced to 1000. int32 page_size = 2; // A page token, received from a previous `ListAssets` call. // Provide this to retrieve the subsequent page. // // When paginating, all other parameters provided to `ListAssets` must match // the call that provided the page token. string page_token = 3; } // Response message for ListAssets. message ListAssetsResponse { // The assets from the specified corpus. repeated Asset assets = 1; // A token, which can be sent as `page_token` to retrieve the next page. // If this field is omitted, there are no subsequent pages. string next_page_token = 2; } // Response message for UpdateAsset. message UpdateAssetRequest { // Required. The asset to update. // // The asset's `name` field is used to identify the asset to be updated. // Format: // projects/{project_number}/locations/{location}/corpora/{corpus}/assets/{asset} Asset asset = 1 [(google.api.field_behavior) = REQUIRED]; // The list of fields to be updated. google.protobuf.FieldMask update_mask = 2; } // Request message for DeleteAsset. message DeleteAssetRequest { // Required. The name of the asset to delete. // Format: // projects/{project_number}/locations/{location}/corpora/{corpus}/assets/{asset} string name = 1 [ (google.api.field_behavior) = REQUIRED, (google.api.resource_reference) = { type: "visionai.googleapis.com/Asset" } ]; } // An asset is a resource in corpus. It represents a media object inside corpus, // contains metadata and another resource annotation. Different feature could be // applied to the asset to generate annotations. User could specified annotation // related to the target asset. message Asset { option (google.api.resource) = { type: "visionai.googleapis.com/Asset" pattern: "projects/{project_number}/locations/{location}/corpora/{corpus}/assets/{asset}" }; // Resource name of the asset. // Form: // `projects/{project_number}/locations/{location_id}/corpora/{corpus_id}/assets/{asset_id}` string name = 1; // The duration for which all media assets, associated metadata, and search // documents can exist. If not set, then it will using the default ttl in the // parent corpus resource. google.protobuf.Duration ttl = 2; } // Request message of CreateCorpus API. message CreateCorpusRequest { // Required. Form: `projects/{project_number}/locations/{location_id}` string parent = 1 [(google.api.field_behavior) = REQUIRED]; // Required. The corpus to be created. Corpus corpus = 2 [(google.api.field_behavior) = REQUIRED]; } // Metadata for CreateCorpus API. message CreateCorpusMetadata { } // Corpus is a set of video contents for management. Within a corpus, videos // share the same data schema. Search is also restricted within a single corpus. message Corpus { option (google.api.resource) = { type: "visionai.googleapis.com/Corpus" pattern: "projects/{project_number}/locations/{location}/corpora/{corpus}" }; // Resource name of the corpus. // Form: // `projects/{project_number}/locations/{location_id}/corpora/{corpus_id}` string name = 1; // Required. The corpus name to shown in the UI. The name can be up to 32 characters // long. string display_name = 2 [(google.api.field_behavior) = REQUIRED]; // Optional. Description of the corpus. Can be up to 25000 characters long. string description = 3 [(google.api.field_behavior) = OPTIONAL]; // Required. The default TTL value for all assets under the corpus without a asset level // user-defined TTL with a maximum of 10 years. This is required for all // corpora. google.protobuf.Duration default_ttl = 5 [(google.api.field_behavior) = REQUIRED]; } // Request message for GetCorpus. message GetCorpusRequest { // Required. The resource name of the corpus to retrieve. string name = 1 [ (google.api.field_behavior) = REQUIRED, (google.api.resource_reference) = { type: "visionai.googleapis.com/Corpus" } ]; } // Request message for UpdateCorpus. message UpdateCorpusRequest { // Required. The corpus which replaces the resource on the server. Corpus corpus = 1 [(google.api.field_behavior) = REQUIRED]; // The list of fields to be updated. google.protobuf.FieldMask update_mask = 2; } // Request message for ListCorpora. message ListCorporaRequest { // Required. The resource name of the project from which to list corpora. string parent = 1 [(google.api.field_behavior) = REQUIRED]; // Requested page size. API may return fewer results than requested. // If negative, INVALID_ARGUMENT error will be returned. // If unspecified or 0, API will pick a default size, which is 10. // If the requested page size is larger than the maximum size, API will pick // use the maximum size, which is 20. int32 page_size = 2; // A token identifying a page of results for the server to return. // Typically obtained via [ListCorpora.next_page_token][] of the previous // [Warehouse.ListCorpora][google.cloud.visionai.v1.Warehouse.ListCorpora] call. string page_token = 3; } // Response message for ListCorpora. message ListCorporaResponse { // The corpora in the project. repeated Corpus corpora = 1; // A token to retrieve next page of results. // Pass to [ListCorporaRequest.page_token][google.cloud.visionai.v1.ListCorporaRequest.page_token] to obtain that page. string next_page_token = 2; } // Request message for DeleteCorpus. message DeleteCorpusRequest { // Required. The resource name of the corpus to delete. string name = 1 [ (google.api.field_behavior) = REQUIRED, (google.api.resource_reference) = { type: "visionai.googleapis.com/Corpus" } ]; } // Request message for CreateDataSchema. message CreateDataSchemaRequest { // Required. The parent resource where this data schema will be created. // Format: projects/*/locations/*/corpora/* string parent = 1 [ (google.api.field_behavior) = REQUIRED, (google.api.resource_reference) = { type: "visionai.googleapis.com/Corpus" } ]; // Required. The data schema to create. DataSchema data_schema = 2 [(google.api.field_behavior) = REQUIRED]; } // Data schema indicates how the user specified annotation is interpreted in the // system. message DataSchema { option (google.api.resource) = { type: "visionai.googleapis.com/DataSchema" pattern: "projects/{project_number}/locations/{location}/corpora/{corpus}/dataSchemas/{data_schema}" }; // Resource name of the data schema in the form of: // `projects/{project_number}/locations/{location}/corpora/{corpus}/dataSchemas/{data_schema}` // where {data_schema} part should be the same as the `key` field below. string name = 1; // Required. The key of this data schema. This key should be matching the key of user // specified annotation and unique inside corpus. This value can be up to // 63 characters, and valid characters are /[a-z][0-9]-/. The first character // must be a letter, the last could be a letter or a number. string key = 2 [(google.api.field_behavior) = REQUIRED]; // The schema details mapping to the key. DataSchemaDetails schema_details = 3; } // Data schema details indicates the data type and the data struct corresponding // to the key of user specified annotation. message DataSchemaDetails { // The configuration for `PROTO_ANY` data type. message ProtoAnyConfig { // The type URI of the proto message. string type_uri = 1; } // The search strategy for annotations value of the `key`. message SearchStrategy { // The types of search strategies to be applied on the annotation key. enum SearchStrategyType { // Annotatation values of the `key` above will not be searchable. NO_SEARCH = 0; // When searching with `key`, the value must be exactly as the annotation // value that has been ingested. EXACT_SEARCH = 1; // When searching with `key`, Warehouse will perform broad search based on // semantic of the annotation value. SMART_SEARCH = 2; } // The type of search strategy to be applied on the `key` above. // The allowed `search_strategy_type` is different for different data types, // which is documented in the DataSchemaDetails.DataType. Specifying // unsupported `search_strategy_type` for data types will result in // INVALID_ARGUMENT error. SearchStrategyType search_strategy_type = 1; } // Data type of the annotation. enum DataType { // Unspecified type. DATA_TYPE_UNSPECIFIED = 0; // Integer type. // Allowed search strategies: // - DataSchema.SearchStrategy.NO_SEARCH, // - DataSchema.SearchStrategy.EXACT_SEARCH. // Supports query by IntRangeArray. INTEGER = 1; // Float type. // Allowed search strategies: // - DataSchema.SearchStrategy.NO_SEARCH, // - DataSchema.SearchStrategy.EXACT_SEARCH. // Supports query by FloatRangeArray. FLOAT = 2; // String type. // Allowed search strategies: // - DataSchema.SearchStrategy.NO_SEARCH, // - DataSchema.SearchStrategy.EXACT_SEARCH, // - DataSchema.SearchStrategy.SMART_SEARCH. STRING = 3; // Supported formats: // %Y-%m-%dT%H:%M:%E*S%E*z (absl::RFC3339_full) // %Y-%m-%dT%H:%M:%E*S // %Y-%m-%dT%H:%M%E*z // %Y-%m-%dT%H:%M // %Y-%m-%dT%H%E*z // %Y-%m-%dT%H // %Y-%m-%d%E*z // %Y-%m-%d // %Y-%m // %Y // Allowed search strategies: // - DataSchema.SearchStrategy.NO_SEARCH, // - DataSchema.SearchStrategy.EXACT_SEARCH. // Supports query by DateTimeRangeArray. DATETIME = 5; // Geo coordinate type. // Allowed search strategies: // - DataSchema.SearchStrategy.NO_SEARCH, // - DataSchema.SearchStrategy.EXACT_SEARCH. // Supports query by GeoLocationArray. GEO_COORDINATE = 7; // Type to pass any proto as available in annotations.proto. Only use // internally. // Available proto types and its corresponding search behavior: // - ImageObjectDetectionPredictionResult, allows SMART_SEARCH on // display_names and NO_SEARCH. // - ClassificationPredictionResult, allows SMART_SEARCH on display_names // and NO_SEARCH. // - ImageSegmentationPredictionResult, allows NO_SEARCH. // - VideoActionRecognitionPredictionResult, allows SMART_SEARCH on // display_name and NO_SEARCH. // - VideoObjectTrackingPredictionResult, allows SMART_SEARCH on // display_name and NO_SEARCH. // - VideoClassificationPredictionResult, allows SMART_SEARCH on // display_name and NO_SEARCH. // - OccupancyCountingPredictionResult, allows EXACT_SEARCH on // stats.full_frame_count.count and NO_SEARCH. // - ObjectDetectionPredictionResult, allows SMART_SEARCH on // identified_boxes.entity.label_string and NO_SEARCH. PROTO_ANY = 8; // Boolean type. // Allowed search strategies: // - DataSchema.SearchStrategy.NO_SEARCH, // - DataSchema.SearchStrategy.EXACT_SEARCH. BOOLEAN = 9; } // The granularity of annotations under this DataSchema. enum Granularity { // Unspecified granularity. GRANULARITY_UNSPECIFIED = 0; // Asset-level granularity (annotations must not contain partition info). GRANULARITY_ASSET_LEVEL = 1; // Partition-level granularity (annotations must contain partition info). GRANULARITY_PARTITION_LEVEL = 2; } // Type of the annotation. DataType type = 1; // Config for protobuf any type. ProtoAnyConfig proto_any_config = 6; // The granularity associated with this DataSchema. Granularity granularity = 5; // The search strategy to be applied on the `key` above. SearchStrategy search_strategy = 7; } // Request message for UpdateDataSchema. message UpdateDataSchemaRequest { // Required. The data schema's `name` field is used to identify the data schema to be // updated. Format: // projects/{project_number}/locations/{location}/corpora/{corpus}/dataSchemas/{data_schema} DataSchema data_schema = 1 [(google.api.field_behavior) = REQUIRED]; // The list of fields to be updated. google.protobuf.FieldMask update_mask = 2; } // Request message for GetDataSchema. message GetDataSchemaRequest { // Required. The name of the data schema to retrieve. // Format: // projects/{project_number}/locations/{location_id}/corpora/{corpus_id}/dataSchemas/{data_schema_id} string name = 1 [ (google.api.field_behavior) = REQUIRED, (google.api.resource_reference) = { type: "visionai.googleapis.com/DataSchema" } ]; } // Request message for DeleteDataSchema. message DeleteDataSchemaRequest { // Required. The name of the data schema to delete. // Format: // projects/{project_number}/locations/{location_id}/corpora/{corpus_id}/dataSchemas/{data_schema_id} string name = 1 [ (google.api.field_behavior) = REQUIRED, (google.api.resource_reference) = { type: "visionai.googleapis.com/DataSchema" } ]; } // Request message for ListDataSchemas. message ListDataSchemasRequest { // Required. The parent, which owns this collection of data schemas. // Format: // projects/{project_number}/locations/{location_id}/corpora/{corpus_id} string parent = 1 [ (google.api.field_behavior) = REQUIRED, (google.api.resource_reference) = { child_type: "visionai.googleapis.com/DataSchema" } ]; // The maximum number of data schemas to return. The service may return fewer // than this value. If unspecified, at most 50 data schemas will be returned. // The maximum value is 1000; values above 1000 will be coerced to 1000. int32 page_size = 2; // A page token, received from a previous `ListDataSchemas` call. // Provide this to retrieve the subsequent page. // // When paginating, all other parameters provided to `ListDataSchemas` must // match the call that provided the page token. string page_token = 3; } // Response message for ListDataSchemas. message ListDataSchemasResponse { // The data schemas from the specified corpus. repeated DataSchema data_schemas = 1; // A token, which can be sent as `page_token` to retrieve the next page. // If this field is omitted, there are no subsequent pages. string next_page_token = 2; } // Request message for CreateAnnotation. message CreateAnnotationRequest { // Required. The parent resource where this annotation will be created. // Format: projects/*/locations/*/corpora/*/assets/* string parent = 1 [ (google.api.field_behavior) = REQUIRED, (google.api.resource_reference) = { type: "visionai.googleapis.com/Asset" } ]; // Required. The annotation to create. Annotation annotation = 2 [(google.api.field_behavior) = REQUIRED]; // Optional. The ID to use for the annotation, which will become the final component of // the annotation's resource name if user choose to specify. Otherwise, // annotation id will be generated by system. // // This value should be up to 63 characters, and valid characters // are /[a-z][0-9]-/. The first character must be a letter, the last could be // a letter or a number. optional string annotation_id = 3 [(google.api.field_behavior) = OPTIONAL]; } // An annotation is a resource in asset. It represents a key-value mapping of // content in asset. message Annotation { option (google.api.resource) = { type: "visionai.googleapis.com/Annotation" pattern: "projects/{project_number}/locations/{location}/corpora/{corpus}/assets/{asset}/annotations/{annotation}" }; // Resource name of the annotation. // Form: // `projects/{project_number}/locations/{location}/corpora/{corpus}/assets/{asset}/annotations/{annotation}` string name = 1; // User provided annotation. UserSpecifiedAnnotation user_specified_annotation = 2; } // Annotation provided by users. message UserSpecifiedAnnotation { // Required. Key of the annotation. The key must be set with type by CreateDataSchema. string key = 1 [(google.api.field_behavior) = REQUIRED]; // Value of the annotation. The value must be able to convert // to the type according to the data schema. AnnotationValue value = 2; // Partition information in time and space for the sub-asset level annotation. Partition partition = 3; } // Location Coordinate Representation message GeoCoordinate { // Latitude Coordinate. Degrees [-90 .. 90] double latitude = 1; // Longitude Coordinate. Degrees [-180 .. 180] double longitude = 2; } // Value of annotation, including all types available in data schema. message AnnotationValue { oneof value { // Value of int type annotation. int64 int_value = 1; // Value of float type annotation. float float_value = 2; // Value of string type annotation. string str_value = 3; // Value of date time type annotation. string datetime_value = 5; // Value of geo coordinate type annotation. GeoCoordinate geo_coordinate = 7; // Value of any proto value. google.protobuf.Any proto_any_value = 8; // Value of boolean type annotation. bool bool_value = 9; // Value of customized struct annotation. google.protobuf.Struct customized_struct_data_value = 10; } } // Request message for GetAnnotation API. message ListAnnotationsRequest { // The parent, which owns this collection of annotations. // Format: // projects/{project_number}/locations/{location}/corpora/{corpus}/assets/{asset} string parent = 1 [(google.api.resource_reference) = { type: "visionai.googleapis.com/Asset" }]; // The maximum number of annotations to return. The service may return fewer // than this value. If unspecified, at most 50 annotations will be returned. // The maximum value is 1000; values above 1000 will be coerced to 1000. int32 page_size = 2; // A page token, received from a previous `ListAnnotations` call. // Provide this to retrieve the subsequent page. // // When paginating, all other parameters provided to `ListAnnotations` must // match the call that provided the page token. string page_token = 3; // The filter applied to the returned list. // We only support filtering for the following fields: // `partition.temporal_partition.start_time`, // `partition.temporal_partition.end_time`, and `key`. // Timestamps are specified in the RFC-3339 format, and only one restriction // may be applied per field, joined by conjunctions. // Format: // "partition.temporal_partition.start_time > "2012-04-21T11:30:00-04:00" AND // partition.temporal_partition.end_time < "2012-04-22T11:30:00-04:00" AND // key = "example_key"" string filter = 4; } // Request message for ListAnnotations API. message ListAnnotationsResponse { // The annotations from the specified asset. repeated Annotation annotations = 1; // A token, which can be sent as `page_token` to retrieve the next page. // If this field is omitted, there are no subsequent pages. string next_page_token = 2; } // Request message for GetAnnotation API. message GetAnnotationRequest { // Required. The name of the annotation to retrieve. // Format: // projects/{project_number}/locations/{location}/corpora/{corpus}/assets/{asset}/annotations/{annotation} string name = 1 [ (google.api.field_behavior) = REQUIRED, (google.api.resource_reference) = { type: "visionai.googleapis.com/Annotation" } ]; } // Request message for UpdateAnnotation API. message UpdateAnnotationRequest { // Required. The annotation to update. // The annotation's `name` field is used to identify the annotation to be // updated. Format: // projects/{project_number}/locations/{location}/corpora/{corpus}/assets/{asset}/annotations/{annotation} Annotation annotation = 1 [(google.api.field_behavior) = REQUIRED]; // The list of fields to be updated. google.protobuf.FieldMask update_mask = 2; } // Request message for DeleteAnnotation API. message DeleteAnnotationRequest { // Required. The name of the annotation to delete. // Format: // projects/{project_number}/locations/{location}/corpora/{corpus}/assets/{asset}/annotations/{annotation} string name = 1 [ (google.api.field_behavior) = REQUIRED, (google.api.resource_reference) = { type: "visionai.googleapis.com/Annotation" } ]; } // Request message for CreateSearchConfig. message CreateSearchConfigRequest { // Required. The parent resource where this search configuration will be created. // Format: projects/*/locations/*/corpora/* string parent = 1 [ (google.api.field_behavior) = REQUIRED, (google.api.resource_reference) = { child_type: "visionai.googleapis.com/SearchConfig" } ]; // Required. The search config to create. SearchConfig search_config = 2 [(google.api.field_behavior) = REQUIRED]; // Required. ID to use for the new search config. Will become the final component of the // SearchConfig's resource name. This value should be up to 63 characters, and // valid characters are /[a-z][0-9]-_/. The first character must be a letter, // the last could be a letter or a number. string search_config_id = 3 [(google.api.field_behavior) = REQUIRED]; } // Request message for UpdateSearchConfig. message UpdateSearchConfigRequest { // Required. The search configuration to update. // // The search configuration's `name` field is used to identify the resource to // be updated. Format: // projects/{project_number}/locations/{location}/corpora/{corpus}/searchConfigs/{search_config} SearchConfig search_config = 1 [(google.api.field_behavior) = REQUIRED]; // The list of fields to be updated. If left unset, all field paths will be // updated/overwritten. google.protobuf.FieldMask update_mask = 2; } // Request message for GetSearchConfig. message GetSearchConfigRequest { // Required. The name of the search configuration to retrieve. // Format: // projects/{project_number}/locations/{location}/corpora/{corpus}/searchConfigs/{search_config} string name = 1 [ (google.api.field_behavior) = REQUIRED, (google.api.resource_reference) = { type: "visionai.googleapis.com/SearchConfig" } ]; } // Request message for DeleteSearchConfig. message DeleteSearchConfigRequest { // Required. The name of the search configuration to delete. // Format: // projects/{project_number}/locations/{location}/corpora/{corpus}/searchConfigs/{search_config} string name = 1 [ (google.api.field_behavior) = REQUIRED, (google.api.resource_reference) = { type: "visionai.googleapis.com/SearchConfig" } ]; } // Request message for ListSearchConfigs. message ListSearchConfigsRequest { // Required. The parent, which owns this collection of search configurations. // Format: // projects/{project_number}/locations/{location}/corpora/{corpus} string parent = 1 [ (google.api.field_behavior) = REQUIRED, (google.api.resource_reference) = { child_type: "visionai.googleapis.com/SearchConfig" } ]; // The maximum number of search configurations to return. The service may // return fewer than this value. If unspecified, a page size of 50 will be // used. The maximum value is 1000; values above 1000 will be coerced to 1000. int32 page_size = 2; // A page token, received from a previous `ListSearchConfigs` call. // Provide this to retrieve the subsequent page. // // When paginating, all other parameters provided to // `ListSearchConfigs` must match the call that provided the page // token. string page_token = 3; } // Response message for ListSearchConfigs. message ListSearchConfigsResponse { // The search configurations from the specified corpus. repeated SearchConfig search_configs = 1; // A token, which can be sent as `page_token` to retrieve the next page. // If this field is omitted, there are no subsequent pages. string next_page_token = 2; } // SearchConfig stores different properties that will affect search // behaviors and search results. message SearchConfig { option (google.api.resource) = { type: "visionai.googleapis.com/SearchConfig" pattern: "projects/{project_number}/locations/{location}/corpora/{corpus}/searchConfigs/{search_config}" }; // Resource name of the search configuration. // For CustomSearchCriteria, search_config would be the search // operator name. For Facets, search_config would be the facet // dimension name. // Form: // `projects/{project_number}/locations/{location}/corpora/{corpus}/searchConfigs/{search_config}` string name = 1; // Establishes a FacetDimension and associated specifications. FacetProperty facet_property = 2; // Creates a mapping between a custom SearchCriteria and one or more UGA keys. SearchCriteriaProperty search_criteria_property = 3; } // Central configuration for a facet. message FacetProperty { // If bucket type is FIXED_RANGE, specify how values are bucketized. Use // FixedRangeBucketSpec when you want to create multiple buckets with equal // granularities. Using integer bucket value as an example, when // bucket_start = 0, bucket_granularity = 10, bucket_count = 5, this facet // will be aggregated via the following buckets: // [-inf, 0), [0, 10), [10, 20), [20, 30), [30, inf). // Notably, bucket_count <= 1 is an invalid spec. message FixedRangeBucketSpec { // Lower bound of the bucket. NOTE: Only integer type is currently supported // for this field. FacetValue bucket_start = 1; // Bucket granularity. NOTE: Only integer type is currently supported for // this field. FacetValue bucket_granularity = 2; // Total number of buckets. int32 bucket_count = 3; } // If bucket type is CUSTOM_RANGE, specify how values are bucketized. Use // integer bucket value as an example, when the endpoints are 0, 10, 100, and // 1000, we will generate the following facets: // [-inf, 0), [0, 10), [10, 100), [100, 1000), [1000, inf). // Notably: // - endpoints must be listed in ascending order. Otherwise, the SearchConfig // API will reject the facet config. // - < 1 endpoints is an invalid spec. message CustomRangeBucketSpec { // Currently, only integer type is supported for this field. repeated FacetValue endpoints = 1; } // If bucket type is DATE, specify how date values are bucketized. message DateTimeBucketSpec { // Granularity enum for the datetime bucket. enum Granularity { // Unspecified granularity. GRANULARITY_UNSPECIFIED = 0; // Granularity is year. YEAR = 1; // Granularity is month. MONTH = 2; // Granularity is day. DAY = 3; } // Granularity of date type facet. Granularity granularity = 1; } oneof range_facet_config { // Fixed range facet bucket config. FixedRangeBucketSpec fixed_range_bucket_spec = 5; // Custom range facet bucket config. CustomRangeBucketSpec custom_range_bucket_spec = 6; // Datetime range facet bucket config. DateTimeBucketSpec datetime_bucket_spec = 7; } // Name of the facets, which are the dimensions users want to use to refine // search results. `mapped_fields` will match UserSpecifiedDataSchema keys. // // For example, user can add a bunch of UGAs with the same key, such as // player:adam, player:bob, player:charles. When multiple mapped_fields are // specified, will merge their value together as final facet value. E.g. // home_team: a, home_team:b, away_team:a, away_team:c, when facet_field = // [home_team, away_team], facet_value will be [a, b, c]. // // UNLESS this is a 1:1 facet dimension (mapped_fields.size() == 1) AND the // mapped_field equals the parent SearchConfig.name, the parent must // also contain a SearchCriteriaProperty that maps to the same fields. // mapped_fields must not be empty. repeated string mapped_fields = 1; // Display name of the facet. To be used by UI for facet rendering. string display_name = 2; // Maximum number of unique bucket to return for one facet. Bucket number can // be large for high-cardinality facet such as "player". We only return top-n // most related ones to user. If it's <= 0, the server will decide the // appropriate result_size. int64 result_size = 3; // Facet bucket type e.g. value, range. FacetBucketType bucket_type = 4; } // Central configuration for custom search criteria. message SearchCriteriaProperty { // Each mapped_field corresponds to a UGA key. To understand how this property // works, take the following example. In the SearchConfig table, the // user adds this entry: // search_config { // name: "person" // search_criteria_property { // mapped_fields: "player" // mapped_fields: "coach" // } // } // // Now, when a user issues a query like: // criteria { // field: "person" // text_array { // txt_values: "Tom Brady" // txt_values: "Bill Belichick" // } // } // // MWH search will return search documents where (player=Tom Brady || // coach=Tom Brady || player=Bill Belichick || coach=Bill Belichick). repeated string mapped_fields = 1; } // Definition of a single value with generic type. message FacetValue { oneof value { // String type value. string string_value = 1; // Integer type value. int64 integer_value = 2; // Datetime type value. google.type.DateTime datetime_value = 3; } } // Holds the facet value, selections state, and metadata. message FacetBucket { // The range of values [start, end) for which faceting is applied. message Range { // Start of the range. Non-existence indicates some bound (e.g. -inf). FacetValue start = 1; // End of the range. Non-existence indicates some bound (e.g. inf). FacetValue end = 2; } // Bucket associated with a facet. For example, bucket of facet “team” // can be "49ers", "patriots", etc; bucket of facet "player" can be "tom // brady", "drew brees", etc. oneof bucket_value { // Singular value. FacetValue value = 2; // Range value. Range range = 4; } // Whether one facet bucket is selected. This field represents user's facet // selection. It is set by frontend in SearchVideosRequest. bool selected = 3; } // A group of facet buckets to be passed back and forth between backend & // frontend. message FacetGroup { // Unique id of the facet group. string facet_id = 1; // Display name of the facet. To be used by UI for facet rendering. string display_name = 2; // Buckets associated with the facet. E.g. for "Team" facet, the bucket // can be 49ers, patriots, etc. repeated FacetBucket buckets = 3; // Facet bucket type. FacetBucketType bucket_type = 4; // If true, return query matched annotations for this facet group's selection. // This option is only applicable for facets based on partition level // annotations. It supports the following facet values: // - INTEGER // - STRING (DataSchema.SearchStrategy.EXACT_SEARCH only) bool fetch_matched_annotations = 5; } // Request message for IngestAsset API. message IngestAssetRequest { // Configuration for the data. message Config { // Type information for video data. message VideoType { // Container format of the video. enum ContainerFormat { // The default type, not supposed to be used. CONTAINER_FORMAT_UNSPECIFIED = 0; // Mp4 container format. CONTAINER_FORMAT_MP4 = 1; } // Container format of the video data. ContainerFormat container_format = 1; } oneof data_type { // Type information for video data. VideoType video_type = 2; } // Required. The resource name of the asset that the ingested data belongs to. string asset = 1 [ (google.api.field_behavior) = REQUIRED, (google.api.resource_reference) = { type: "visionai.googleapis.com/Asset" } ]; } // Contains the data and the corresponding time range this data is for. message TimeIndexedData { // Data to be ingested. bytes data = 1; // Time range of the data. Partition.TemporalPartition temporal_partition = 2; } oneof streaming_request { // Provides information for the data and the asset resource name that the // data belongs to. The first `IngestAssetRequest` message must only contain // a `Config` message. Config config = 1; // Data to be ingested. TimeIndexedData time_indexed_data = 2; } } // Response message for IngestAsset API. message IngestAssetResponse { // Time range of the data that has been successfully ingested. Partition.TemporalPartition successfully_ingested_partition = 1; } // Request message for ClipAsset API. message ClipAssetRequest { // Required. The resource name of the asset to request clips for. // Form: // 'projects/{project_number}/locations/{location_id}/corpora/{corpus_id}/assets/{asset_id}' string name = 1 [ (google.api.field_behavior) = REQUIRED, (google.api.resource_reference) = { type: "visionai.googleapis.com/Asset" } ]; // Required. The time range to request clips for. Partition.TemporalPartition temporal_partition = 2 [(google.api.field_behavior) = REQUIRED]; } // Response message for ClipAsset API. message ClipAssetResponse { // Signed uri with corresponding time range. message TimeIndexedUri { // Time range of the video that the uri is for. Partition.TemporalPartition temporal_partition = 1; // Signed uri to download the video clip. string uri = 2; } // A list of signed uris to download the video clips that cover the requested // time range ordered by time. repeated TimeIndexedUri time_indexed_uris = 1; } // Request message for GenerateHlsUri API. message GenerateHlsUriRequest { // Required. The resource name of the asset to request clips for. // Form: // 'projects/{project_number}/locations/{location_id}/corpora/{corpus_id}/assets/{asset_id}' string name = 1 [ (google.api.field_behavior) = REQUIRED, (google.api.resource_reference) = { type: "visionai.googleapis.com/Asset" } ]; // Required. The time range to request clips for. repeated Partition.TemporalPartition temporal_partitions = 2 [(google.api.field_behavior) = REQUIRED]; } // Response message for GenerateHlsUri API. message GenerateHlsUriResponse { // A signed uri to download the HLS manifest corresponding to the requested // times. string uri = 1; // A list of temporal partitions of the content returned in the order they // appear in the stream. repeated Partition.TemporalPartition temporal_partitions = 2; } // Request message for SearchAssets. message SearchAssetsRequest { // Required. The parent corpus to search. // Form: `projects/{project_id}/locations/{location_id}/corpora/{corpus_id}' string corpus = 1 [ (google.api.field_behavior) = REQUIRED, (google.api.resource_reference) = { type: "visionai.googleapis.com/Corpus" } ]; // The number of results to be returned in this page. If it's 0, the server // will decide the appropriate page_size. int32 page_size = 2; // The continuation token to fetch the next page. If empty, it means it is // fetching the first page. string page_token = 3; // Time ranges that matching video content must fall within. If no ranges are // provided, there will be no time restriction. This field is treated just // like the criteria below, but defined separately for convenience as it is // used frequently. Note that if the end_time is in the future, it will be // clamped to the time the request was received. DateTimeRangeArray content_time_ranges = 5; // Criteria applied to search results. repeated Criteria criteria = 4; // Stores most recent facet selection state. Only facet groups with user's // selection will be presented here. Selection state is either selected or // unselected. Only selected facet buckets will be used as search criteria. repeated FacetGroup facet_selections = 6; // A list of annotation keys to specify the annotations to be retrieved and // returned with each search result. // Annotation granularity must be GRANULARITY_ASSET_LEVEL and its search // strategy must not be NO_SEARCH. repeated string result_annotation_keys = 8; } // The metadata for DeleteAsset API that embeds in // [metadata][google.longrunning.Operation.metadata] field. message DeleteAssetMetadata { } // Stores the criteria-annotation matching results for each search result item. message AnnotationMatchingResult { // The criteria used for matching. It can be an input search criteria or a // criteria converted from a facet selection. Criteria criteria = 1; // Matched annotations for the criteria. repeated Annotation matched_annotations = 2; // Status of the match result. Possible values: // FAILED_PRECONDITION - the criteria is not eligible for match. // OK - matching is performed. google.rpc.Status status = 3; } // Search result contains asset name and corresponding time ranges. message SearchResultItem { // The resource name of the asset. // Form: // 'projects/{project_number}/locations/{location_id}/corpora/{corpus_id}/assets/{asset_id}' string asset = 1; // The matched asset segments. // Deprecated: please use singular `segment` field. repeated Partition.TemporalPartition segments = 2 [deprecated = true]; // The matched asset segment. Partition.TemporalPartition segment = 5; // Search result annotations specified by result_annotation_keys in search // request. repeated Annotation requested_annotations = 3; // Criteria or facet-selection based annotation matching results associated to // this search result item. Only contains results for criteria or // facet_selections with fetch_matched_annotations=true. repeated AnnotationMatchingResult annotation_matching_results = 4; } // Response message for SearchAssets. message SearchAssetsResponse { // Returned search results. repeated SearchResultItem search_result_items = 1; // The next-page continuation token. string next_page_token = 2; // Facet search results of a given query, which contains user's // already-selected facet values and updated facet search results. repeated FacetGroup facet_results = 3; } // Integer range type. message IntRange { // Start of the int range. optional int64 start = 1; // End of the int range. optional int64 end = 2; } // Float range type. message FloatRange { // Start of the float range. optional float start = 1; // End of the float range. optional float end = 2; } // A list of string-type values. message StringArray { // String type values. repeated string txt_values = 1; } // A list of integer range values. message IntRangeArray { // Int range values. repeated IntRange int_ranges = 1; } // A list of float range values. message FloatRangeArray { // Float range values. repeated FloatRange float_ranges = 1; } // Datetime range type. message DateTimeRange { // Start date time. google.type.DateTime start = 1; // End data time. google.type.DateTime end = 2; } // A list of datetime range values. message DateTimeRangeArray { // Date time ranges. repeated DateTimeRange date_time_ranges = 1; } // Representation of a circle area. message CircleArea { // Latitude of circle area's center. Degrees [-90 .. 90] double latitude = 1; // Longitude of circle area's center. Degrees [-180 .. 180] double longitude = 2; // Radius of the circle area in meters. double radius_meter = 3; } // A list of locations. message GeoLocationArray { // A list of circle areas. repeated CircleArea circle_areas = 1; } message BoolValue { bool value = 1; } // Filter criteria applied to current search results. message Criteria { oneof value { // The text values associated with the field. StringArray text_array = 2; // The integer ranges associated with the field. IntRangeArray int_range_array = 3; // The float ranges associated with the field. FloatRangeArray float_range_array = 4; // The datetime ranges associated with the field. DateTimeRangeArray date_time_range_array = 5; // Geo Location array. GeoLocationArray geo_location_array = 6; // A Boolean value. BoolValue bool_value = 7; } // The UGA field or ML field to apply filtering criteria. string field = 1; // If true, return query matched annotations for this criteria. // This option is only applicable for partition level annotations and supports // the following data types: // - INTEGER // - FLOAT // - STRING (DataSchema.SearchStrategy.EXACT_SEARCH only) // - BOOLEAN bool fetch_matched_annotations = 8; } // Partition to specify the partition in time and space for sub-asset level // annotation. message Partition { // Partition of asset in UTC Epoch time. message TemporalPartition { // Start time of the partition. google.protobuf.Timestamp start_time = 1; // End time of the partition. google.protobuf.Timestamp end_time = 2; } // Partition of asset in space. message SpatialPartition { // The minimum x coordinate value. optional int64 x_min = 1; // The minimum y coordinate value. optional int64 y_min = 2; // The maximum x coordinate value. optional int64 x_max = 3; // The maximum y coordinate value. optional int64 y_max = 4; } // Partition of asset in time. TemporalPartition temporal_partition = 1; // Partition of asset in space. SpatialPartition spatial_partition = 2; }