asynq/internal/proto/asynq.proto

// Copyright 2020 Kentaro Hibino. All rights reserved.
// Use of this source code is governed by a MIT license
// that can be found in the LICENSE file.

syntax = "proto3";
package asynq;

import "google/protobuf/timestamp.proto";

option go_package = "github.com/hibiken/asynq/internal/proto";

// TaskMessage is the internal representation of a task with additional
// metadata fields.
// Next ID: 15
message TaskMessage {
	// Type indicates the kind of the task to be performed.
  string type = 1;

	// Payload holds data needed to process the task.
  bytes payload = 2;

	// Unique identifier for the task.
  string id = 3;

	// Name of the queue to which this task belongs.
  string queue = 4;

	// Max number of retries for this task.
  int32 retry = 5;

	// Number of times this task has been retried so far.
  int32 retried = 6;

	// Error message from the last failure.
  string error_msg = 7;

  // Time of last failure in Unix time,
  // the number of seconds elapsed since January 1, 1970 UTC.
  // Use zero to indicate no last failure.
  int64 last_failed_at = 11;

	// Timeout specifies timeout in seconds.
	// Use zero to indicate no timeout.
  int64 timeout = 8;

	// Deadline specifies the deadline for the task in Unix time,
	// the number of seconds elapsed since January 1, 1970 UTC.
	// Use zero to indicate no deadline.
  int64 deadline = 9;

	// UniqueKey holds the redis key used for uniqueness lock for this task.
	// Empty string indicates that no uniqueness lock was used.
  string unique_key = 10;

  // GroupKey is a name of the group used for task aggregation.
  // This field is optional and empty value means no aggregation for the task.
  string group_key = 14;

  // Retention period specified in a number of seconds.
  // The task will be stored in redis as a completed task until the TTL
  // expires.
  int64 retention = 12;

  // Time when the task completed in success in Unix time,
  // the number of seconds elapsed since January 1, 1970 UTC.
  // This field is populated if result_ttl > 0 upon completion.
  int64 completed_at = 13;
};

// ServerInfo holds information about a running server.
message ServerInfo {
  // Host machine the server is running on.
  string host = 1;

  // PID of the server process.
  int32 pid = 2;

  // Unique identifier for this server.
  string server_id = 3;

  // Maximum number of concurrency this server will use.
  int32 concurrency = 4;

  // List of queue names with their priorities.
  // The server will consume tasks from the queues and prioritize
  // queues with higher priority numbers.
  map<string, int32> queues = 5;

  // If set, the server will always consume tasks from a queue with higher
  // priority.
  bool strict_priority = 6;

  // Status indicates the status of the server.
  string status = 7;

  // Time this server was started.
  google.protobuf.Timestamp start_time = 8;

  // Number of workers currently processing tasks.
  int32 active_worker_count = 9;
};

// WorkerInfo holds information about a running worker.
message WorkerInfo {
  // Host matchine this worker is running on.
  string host = 1;

  // PID of the process in which this worker is running.
  int32 pid = 2;

  // ID of the server in which this worker is running.
  string server_id = 3;

  // ID of the task this worker is processing.
  string task_id = 4;

  // Type of the task this worker is processing.
  string task_type = 5;

  // Payload of the task this worker is processing.
  bytes task_payload = 6;

  // Name of the queue the task the worker is processing belongs.
  string queue = 7;

  // Time this worker started processing the task.
  google.protobuf.Timestamp start_time = 8;

  // Deadline by which the worker needs to complete processing 
  // the task. If worker exceeds the deadline, the task will fail.
  google.protobuf.Timestamp deadline = 9;
};

// SchedulerEntry holds information about a periodic task registered 
// with a scheduler.
message SchedulerEntry {
	// Identifier of the scheduler entry.
	string id = 1;

	// Periodic schedule spec of the entry.
	string spec = 2;

	// Task type of the periodic task.
	string task_type = 3;

	// Task payload of the periodic task.
	bytes task_payload = 4;

	// Options used to enqueue the periodic task.
	repeated string enqueue_options = 5;

	// Next time the task will be enqueued.
  google.protobuf.Timestamp next_enqueue_time = 6;

	// Last time the task was enqueued.
	// Zero time if task was never enqueued.
  google.protobuf.Timestamp prev_enqueue_time = 7;
};

// SchedulerEnqueueEvent holds information about an enqueue event
// by a scheduler.
message SchedulerEnqueueEvent {
	// ID of the task that was enqueued.
  string task_id = 1;

	// Time the task was enqueued.
  google.protobuf.Timestamp enqueue_time = 2;
};
Refactor redis keys and store messages in protobuf Changes: - Task messages are stored under "asynq:{<qname>}:t:<task_id>" key in redis, value is a HASH type and message are stored under "msg" key in the hash. The hash also stores "deadline", "timeout". - Redis LIST and ZSET stores task message IDs - Task messages are serialized using protocol buffer 2021-03-13 08:23:08 +08:00			`// Copyright 2020 Kentaro Hibino. All rights reserved.`
			`// Use of this source code is governed by a MIT license`
			`// that can be found in the LICENSE file.`

			`syntax = "proto3";`
			`package asynq;`

			`import "google/protobuf/timestamp.proto";`

			`option go_package = "github.com/hibiken/asynq/internal/proto";`

			`// TaskMessage is the internal representation of a task with additional`
			`// metadata fields.`
Add GroupKey field to TaskMessage 2022-03-06 21:51:27 +08:00			`// Next ID: 15`
Refactor redis keys and store messages in protobuf Changes: - Task messages are stored under "asynq:{<qname>}:t:<task_id>" key in redis, value is a HASH type and message are stored under "msg" key in the hash. The hash also stores "deadline", "timeout". - Redis LIST and ZSET stores task message IDs - Task messages are serialized using protocol buffer 2021-03-13 08:23:08 +08:00			`message TaskMessage {`
			`// Type indicates the kind of the task to be performed.`
			`string type = 1;`

			`// Payload holds data needed to process the task.`
			`bytes payload = 2;`

			`// Unique identifier for the task.`
			`string id = 3;`

			`// Name of the queue to which this task belongs.`
			`string queue = 4;`

			`// Max number of retries for this task.`
			`int32 retry = 5;`

			`// Number of times this task has been retried so far.`
			`int32 retried = 6;`

			`// Error message from the last failure.`
			`string error_msg = 7;`

Add LastFailedAt field to TaskMessage 2021-05-19 11:50:00 +08:00			`// Time of last failure in Unix time,`
			`// the number of seconds elapsed since January 1, 1970 UTC.`
			`// Use zero to indicate no last failure.`
			`int64 last_failed_at = 11;`

Refactor redis keys and store messages in protobuf Changes: - Task messages are stored under "asynq:{<qname>}:t:<task_id>" key in redis, value is a HASH type and message are stored under "msg" key in the hash. The hash also stores "deadline", "timeout". - Redis LIST and ZSET stores task message IDs - Task messages are serialized using protocol buffer 2021-03-13 08:23:08 +08:00			`// Timeout specifies timeout in seconds.`
			`// Use zero to indicate no timeout.`
			`int64 timeout = 8;`

			`// Deadline specifies the deadline for the task in Unix time,`
			`// the number of seconds elapsed since January 1, 1970 UTC.`
			`// Use zero to indicate no deadline.`
			`int64 deadline = 9;`

			`// UniqueKey holds the redis key used for uniqueness lock for this task.`
			`// Empty string indicates that no uniqueness lock was used.`
			`string unique_key = 10;`
Add LastFailedAt field to TaskMessage 2021-05-19 11:50:00 +08:00
Add GroupKey field to TaskMessage 2022-03-06 21:51:27 +08:00			`// GroupKey is a name of the group used for task aggregation.`
			`// This field is optional and empty value means no aggregation for the task.`
			`string group_key = 14;`

Introduce Task Results * Added Retention Option to specify retention TTL for tasks * Added ResultWriter as a client interface to write result data for the associated task 2021-11-06 07:52:54 +08:00			`// Retention period specified in a number of seconds.`
			`// The task will be stored in redis as a completed task until the TTL`
			`// expires.`
			`int64 retention = 12;`

			`// Time when the task completed in success in Unix time,`
			`// the number of seconds elapsed since January 1, 1970 UTC.`
			`// This field is populated if result_ttl > 0 upon completion.`
			`int64 completed_at = 13;`
Refactor redis keys and store messages in protobuf Changes: - Task messages are stored under "asynq:{<qname>}:t:<task_id>" key in redis, value is a HASH type and message are stored under "msg" key in the hash. The hash also stores "deadline", "timeout". - Redis LIST and ZSET stores task message IDs - Task messages are serialized using protocol buffer 2021-03-13 08:23:08 +08:00			`};`

			`// ServerInfo holds information about a running server.`
			`message ServerInfo {`
			`// Host machine the server is running on.`
			`string host = 1;`

			`// PID of the server process.`
			`int32 pid = 2;`

			`// Unique identifier for this server.`
			`string server_id = 3;`

			`// Maximum number of concurrency this server will use.`
			`int32 concurrency = 4;`

			`// List of queue names with their priorities.`
			`// The server will consume tasks from the queues and prioritize`
			`// queues with higher priority numbers.`
			`map<string, int32> queues = 5;`

			`// If set, the server will always consume tasks from a queue with higher`
			`// priority.`
			`bool strict_priority = 6;`

			`// Status indicates the status of the server.`
			`string status = 7;`

			`// Time this server was started.`
			`google.protobuf.Timestamp start_time = 8;`

			`// Number of workers currently processing tasks.`
			`int32 active_worker_count = 9;`
			`};`

			`// WorkerInfo holds information about a running worker.`
			`message WorkerInfo {`
			`// Host matchine this worker is running on.`
			`string host = 1;`

			`// PID of the process in which this worker is running.`
			`int32 pid = 2;`

			`// ID of the server in which this worker is running.`
			`string server_id = 3;`

			`// ID of the task this worker is processing.`
			`string task_id = 4;`

			`// Type of the task this worker is processing.`
			`string task_type = 5;`

			`// Payload of the task this worker is processing.`
			`bytes task_payload = 6;`

			`// Name of the queue the task the worker is processing belongs.`
			`string queue = 7;`

			`// Time this worker started processing the task.`
			`google.protobuf.Timestamp start_time = 8;`

			`// Deadline by which the worker needs to complete processing`
			`// the task. If worker exceeds the deadline, the task will fail.`
			`google.protobuf.Timestamp deadline = 9;`
			`};`

			`// SchedulerEntry holds information about a periodic task registered`
			`// with a scheduler.`
			`message SchedulerEntry {`
			`// Identifier of the scheduler entry.`
			`string id = 1;`

			`// Periodic schedule spec of the entry.`
			`string spec = 2;`

			`// Task type of the periodic task.`
			`string task_type = 3;`

			`// Task payload of the periodic task.`
			`bytes task_payload = 4;`

			`// Options used to enqueue the periodic task.`
			`repeated string enqueue_options = 5;`

			`// Next time the task will be enqueued.`
			`google.protobuf.Timestamp next_enqueue_time = 6;`

			`// Last time the task was enqueued.`
			`// Zero time if task was never enqueued.`
			`google.protobuf.Timestamp prev_enqueue_time = 7;`
			`};`

			`// SchedulerEnqueueEvent holds information about an enqueue event`
			`// by a scheduler.`
			`message SchedulerEnqueueEvent {`
			`// ID of the task that was enqueued.`
			`string task_id = 1;`

			`// Time the task was enqueued.`
			`google.protobuf.Timestamp enqueue_time = 2;`
Introduce Task Results * Added Retention Option to specify retention TTL for tasks * Added ResultWriter as a client interface to write result data for the associated task 2021-11-06 07:52:54 +08:00			`};`