// Copyright 2024 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.integrations.v1alpha; import "google/api/field_behavior.proto"; import "google/cloud/integrations/v1alpha/coordinate.proto"; import "google/cloud/integrations/v1alpha/event_parameter.proto"; import "google/cloud/integrations/v1alpha/json_validation.proto"; import "google/protobuf/timestamp.proto"; option csharp_namespace = "Google.Cloud.Integrations.V1Alpha"; option go_package = "cloud.google.com/go/integrations/apiv1alpha/integrationspb;integrationspb"; option java_multiple_files = true; option java_outer_classname = "TaskConfigProto"; option java_package = "com.google.cloud.integrations.v1alpha"; // The task configuration details. This is not the implementation of Task. // There might be multiple TaskConfigs for the same Task. message TaskConfig { // Various policies for executing the next set of tasks. enum NextTasksExecutionPolicy { // Default. NEXT_TASKS_EXECUTION_POLICY_UNSPECIFIED = 0; // Execute all the tasks that satisfy their associated condition. RUN_ALL_MATCH = 1; // Execute the first task that satisfies the associated condition. RUN_FIRST_MATCH = 2; } // Various policies to trigger the execution of this task. enum TaskExecutionStrategy { // Default. If the strategy is not set explicitly, it will default to // `WHEN_ALL_SUCCEED`. TASK_EXECUTION_STRATEGY_UNSPECIFIED = 0; // Wait until all of its previous tasks finished execution, then verify at // least one of the edge conditions is met, and execute if possible. This // should be considered as WHEN_ALL_TASKS_SUCCEED. WHEN_ALL_SUCCEED = 1; // Start execution as long as any of its previous tasks finished execution // and the corresponding edge condition is met (since we will execute if // only that succeeding edge condition is met). WHEN_ANY_SUCCEED = 2; // Wait until all of its previous tasks finished execution, then verify // the all edge conditions are met and execute if possible. WHEN_ALL_TASKS_AND_CONDITIONS_SUCCEED = 3; } // Defines the type of the task for external customer enum ExternalTaskType { // Default value. External task type is not specified EXTERNAL_TASK_TYPE_UNSPECIFIED = 0; // Tasks belongs to the normal task flows NORMAL_TASK = 1; // Task belongs to the error catch task flows ERROR_TASK = 2; } // Optional. The name for the task. string task = 1 [(google.api.field_behavior) = OPTIONAL]; // Required. The identifier of this task within its parent event config, // specified by the client. This should be unique among all the tasks belong // to the same event config. We use this field as the identifier to // find next tasks (via field `next_tasks.task_id`). string task_id = 2 [(google.api.field_behavior) = REQUIRED]; // Optional. The customized parameters the user can pass to this task. map parameters = 3 [(google.api.field_behavior) = OPTIONAL]; // Optional. Determines the number of times the // task will be retried on failure and with what retry strategy. // This is applicable for asynchronous calls to Eventbus alone (Post To // Queue, Schedule etc.). FailurePolicy failure_policy = 4 [(google.api.field_behavior) = OPTIONAL]; // Optional. Determines the number of times the // task will be retried on failure and with what retry strategy. // This is applicable for synchronous calls to Eventbus alone (Post). FailurePolicy synchronous_call_failure_policy = 5 [(google.api.field_behavior) = OPTIONAL]; // Optional. The set of tasks that are next in line to be executed as per the // execution graph defined for the parent event, specified by // `event_config_id`. Each of these next tasks are executed // only if the condition associated with them evaluates to true. repeated NextTask next_tasks = 6 [(google.api.field_behavior) = OPTIONAL]; // Optional. The policy dictating the execution of the next set of tasks for // the current task. NextTasksExecutionPolicy next_tasks_execution_policy = 7 [(google.api.field_behavior) = OPTIONAL]; // Optional. The policy dictating the execution strategy of this task. TaskExecutionStrategy task_execution_strategy = 8 [(google.api.field_behavior) = OPTIONAL]; // Optional. User-provided label that is attached to this TaskConfig in the // UI. string display_name = 9 [(google.api.field_behavior) = OPTIONAL]; // Optional. Determines what action to take upon successful task completion. SuccessPolicy success_policy = 10 [(google.api.field_behavior) = OPTIONAL]; // Optional. If set, overrides the option configured in the Task // implementation class. JsonValidationOption json_validation_option = 11 [(google.api.field_behavior) = OPTIONAL]; // Optional. User-provided description intended to give additional business // context about the task. string description = 12 [(google.api.field_behavior) = OPTIONAL]; // Optional. Used to define task-template name if task is of type // task-template string task_template = 13 [(google.api.field_behavior) = OPTIONAL]; // Optional. Optional // Error catcher id of the error catch flow which will be executed when // execution error happens in the task string error_catcher_id = 17 [(google.api.field_behavior) = OPTIONAL]; // Optional. External task type of the task ExternalTaskType external_task_type = 15 [(google.api.field_behavior) = OPTIONAL]; // Optional. Informs the front-end application where to draw this error // catcher config on the UI. Coordinate position = 16 [(google.api.field_behavior) = OPTIONAL]; } // Policy that dictates the behavior for the task after it completes // successfully. message SuccessPolicy { // The state of execution. enum FinalState { // UNSPECIFIED. FINAL_STATE_UNSPECIFIED = 0; // The default behavior, where successful tasks will be marked as SUCCEEDED. SUCCEEDED = 1; // Sets the state to SUSPENDED after executing. This is required for // SuspensionTask; event execution will continue once the user calls // ResolveSuspensions with the event_execution_info_id and the task number. SUSPENDED = 2; } // State to which the execution snapshot status will be set if the task // succeeds. FinalState final_state = 1; } // Policy that defines the task retry logic and failure type. If no // FailurePolicy is defined for a task, all its dependent tasks will not be // executed (i.e, a `retry_strategy` of NONE will be applied). message FailurePolicy { // The behavior when the taks failed. enum RetryStrategy { // UNSPECIFIED. RETRY_STRATEGY_UNSPECIFIED = 0; // Ignores the failure of this task. The rest of the integration will be // executed Assuming this task succeeded. IGNORE = 1; // Causes a permanent failure of the task. However, if the last task(s) // of event was successfully completed despite the failure of this task, // it has no impact on the integration. NONE = 2; // Causes a permanent failure of the event. It is different from NONE // because this will mark the event as FAILED by shutting down the // event execution. FATAL = 3; // The task will be retried from the failed task onwards after a fixed // delay. A max-retry count is required to be specified with this // strategy. A jitter is added to each exponential interval so that // concurrently failing tasks of the same type do not end up retrying // after the exact same exponential interval. max_retries and // interval_in_seconds must be specified. FIXED_INTERVAL = 4; // The task will be retried from the failed task onwards after a fixed // delay that linearly increases with each retry attempt. A jitter is // added to each exponential interval so that concurrently failing tasks // of the same type do not end up retrying after the exact same // exponential interval. A max-retry count is required to be specified // with this strategy. max_retries and interval_in_seconds must be // specified. LINEAR_BACKOFF = 5; // The task will be retried after an exponentially increasing period of // time with each failure. A jitter is added to each exponential interval // so that concurrently failing tasks of the same type do not end up // retrying after the exact same exponential interval. A max-retry count // is required to be specified with this strategy. `max_retries` and // `interval_in_seconds` must be specified. EXPONENTIAL_BACKOFF = 6; // The entire integration will be restarted with the initial parameters that // were set when the event was fired. A max-retry count is required to be // specified with this strategy. `max_retries` and `interval_in_seconds` // must be specified. RESTART_INTEGRATION_WITH_BACKOFF = 7; } // Defines what happens to the task upon failure. RetryStrategy retry_strategy = 1; // Required if retry_strategy is FIXED_INTERVAL or // LINEAR/EXPONENTIAL_BACKOFF/RESTART_INTEGRATION_WITH_BACKOFF. Defines the // number of times the task will be retried if failed. int32 max_retries = 2; // Required if retry_strategy is FIXED_INTERVAL or // LINEAR/EXPONENTIAL_BACKOFF/RESTART_INTEGRATION_WITH_BACKOFF. Defines the // initial interval in seconds for backoff. google.protobuf.Timestamp interval_time = 3; } // The task that is next in line to be executed, if the // condition specified evaluated to true. message NextTask { // ID of the next task. string task_config_id = 1; // Task number of the next task. string task_id = 2; // Standard filter expression for this task to become an eligible next task. string condition = 3; // User-provided label that is attached to this edge in the UI. string display_name = 4; // User-provided description intended to give additional business context // about the task. string description = 5; }