import * as pulumi from "@pulumi/pulumi"; /** * Provides a virtual resource that can be used to change advanced configuration * options for a DigitalOcean managed Kafka database cluster. * * > **Note** Kafka configurations are only removed from state when destroyed. The remote configuration is not unset. * * ## Example Usage * * ```typescript * import * as pulumi from "@pulumi/pulumi"; * import * as digitalocean from "@pulumi/digitalocean"; * * const exampleDatabaseCluster = new digitalocean.DatabaseCluster("example", { * name: "example-kafka-cluster", * engine: "kafka", * version: "3.7", * size: digitalocean.DatabaseSlug.DB_1VPCU1GB, * region: digitalocean.Region.NYC3, * nodeCount: 3, * }); * const example = new digitalocean.DatabaseKafkaConfig("example", { * clusterId: exampleDatabaseCluster.id, * groupInitialRebalanceDelayMs: 3000, * groupMinSessionTimeoutMs: 6000, * groupMaxSessionTimeoutMs: 1800000, * messageMaxBytes: 1048588, * logCleanerDeleteRetentionMs: 86400000, * logCleanerMinCompactionLagMs: "0", * logFlushIntervalMs: "9223372036854775807", * logIndexIntervalBytes: 4096, * logMessageDownconversionEnable: true, * logMessageTimestampDifferenceMaxMs: "9223372036854775807", * logPreallocate: false, * logRetentionBytes: "-1", * logRetentionHours: 168, * logRetentionMs: "604800000", * logRollJitterMs: "0", * logSegmentDeleteDelayMs: 60000, * autoCreateTopicsEnable: true, * }); * ``` * * ## Import * * A Kafka database cluster's configuration can be imported using the `id` the parent cluster, e.g. * * ```sh * $ pulumi import digitalocean:index/databaseKafkaConfig:DatabaseKafkaConfig example 4b62829a-9c42-465b-aaa3-84051048e712 * ``` */ export declare class DatabaseKafkaConfig extends pulumi.CustomResource { /** * Get an existing DatabaseKafkaConfig resource's state with the given name, ID, and optional extra * properties used to qualify the lookup. * * @param name The _unique_ name of the resulting resource. * @param id The _unique_ provider ID of the resource to lookup. * @param state Any extra arguments used during the lookup. * @param opts Optional settings to control the behavior of the CustomResource. */ static get(name: string, id: pulumi.Input, state?: DatabaseKafkaConfigState, opts?: pulumi.CustomResourceOptions): DatabaseKafkaConfig; /** * Returns true if the given object is an instance of DatabaseKafkaConfig. This is designed to work even * when multiple copies of the Pulumi SDK have been loaded into the same process. */ static isInstance(obj: any): obj is DatabaseKafkaConfig; /** * Enable auto creation of topics. */ readonly autoCreateTopicsEnable: pulumi.Output; /** * The ID of the target Kafka cluster. */ readonly clusterId: pulumi.Output; /** * The amount of time, in milliseconds, the group coordinator will wait for more consumers to join a new group before performing the first rebalance. A longer delay means potentially fewer rebalances, but increases the time until processing begins. The default value for this is 3 seconds. During development and testing it might be desirable to set this to 0 in order to not delay test execution time. */ readonly groupInitialRebalanceDelayMs: pulumi.Output; /** * The maximum allowed session timeout for registered consumers. Longer timeouts give consumers more time to process messages in between heartbeats at the cost of a longer time to detect failures. */ readonly groupMaxSessionTimeoutMs: pulumi.Output; /** * The minimum allowed session timeout for registered consumers. Longer timeouts give consumers more time to process messages in between heartbeats at the cost of a longer time to detect failures. */ readonly groupMinSessionTimeoutMs: pulumi.Output; /** * How long are delete records retained? */ readonly logCleanerDeleteRetentionMs: pulumi.Output; /** * The minimum time a message will remain uncompacted in the log. Only applicable for logs that are being compacted. */ readonly logCleanerMinCompactionLagMs: pulumi.Output; /** * The maximum time in ms that a message in any topic is kept in memory before flushed to disk. If not set, the value in log.flush.scheduler.interval.ms is used. */ readonly logFlushIntervalMs: pulumi.Output; /** * The interval with which Kafka adds an entry to the offset index. */ readonly logIndexIntervalBytes: pulumi.Output; /** * This configuration controls whether down-conversion of message formats is enabled to satisfy consume requests. */ readonly logMessageDownconversionEnable: pulumi.Output; /** * The maximum difference allowed between the timestamp when a broker receives a message and the timestamp specified in the message. */ readonly logMessageTimestampDifferenceMaxMs: pulumi.Output; /** * Controls whether to preallocate a file when creating a new segment. */ readonly logPreallocate: pulumi.Output; /** * The maximum size of the log before deleting messages. */ readonly logRetentionBytes: pulumi.Output; /** * The number of hours to keep a log file before deleting it. */ readonly logRetentionHours: pulumi.Output; /** * The number of milliseconds to keep a log file before deleting it (in milliseconds), If not set, the value in log.retention.minutes is used. If set to -1, no time limit is applied. */ readonly logRetentionMs: pulumi.Output; /** * The maximum jitter to subtract from logRollTimeMillis (in milliseconds). If not set, the value in log.roll.jitter.hours is used. */ readonly logRollJitterMs: pulumi.Output; /** * The amount of time to wait before deleting a file from the filesystem. */ readonly logSegmentDeleteDelayMs: pulumi.Output; /** * The maximum size of message that the server can receive. */ readonly messageMaxBytes: pulumi.Output; /** * Create a DatabaseKafkaConfig resource with the given unique name, arguments, and options. * * @param name The _unique_ name of the resource. * @param args The arguments to use to populate this resource's properties. * @param opts A bag of options that control this resource's behavior. */ constructor(name: string, args: DatabaseKafkaConfigArgs, opts?: pulumi.CustomResourceOptions); } /** * Input properties used for looking up and filtering DatabaseKafkaConfig resources. */ export interface DatabaseKafkaConfigState { /** * Enable auto creation of topics. */ autoCreateTopicsEnable?: pulumi.Input; /** * The ID of the target Kafka cluster. */ clusterId?: pulumi.Input; /** * The amount of time, in milliseconds, the group coordinator will wait for more consumers to join a new group before performing the first rebalance. A longer delay means potentially fewer rebalances, but increases the time until processing begins. The default value for this is 3 seconds. During development and testing it might be desirable to set this to 0 in order to not delay test execution time. */ groupInitialRebalanceDelayMs?: pulumi.Input; /** * The maximum allowed session timeout for registered consumers. Longer timeouts give consumers more time to process messages in between heartbeats at the cost of a longer time to detect failures. */ groupMaxSessionTimeoutMs?: pulumi.Input; /** * The minimum allowed session timeout for registered consumers. Longer timeouts give consumers more time to process messages in between heartbeats at the cost of a longer time to detect failures. */ groupMinSessionTimeoutMs?: pulumi.Input; /** * How long are delete records retained? */ logCleanerDeleteRetentionMs?: pulumi.Input; /** * The minimum time a message will remain uncompacted in the log. Only applicable for logs that are being compacted. */ logCleanerMinCompactionLagMs?: pulumi.Input; /** * The maximum time in ms that a message in any topic is kept in memory before flushed to disk. If not set, the value in log.flush.scheduler.interval.ms is used. */ logFlushIntervalMs?: pulumi.Input; /** * The interval with which Kafka adds an entry to the offset index. */ logIndexIntervalBytes?: pulumi.Input; /** * This configuration controls whether down-conversion of message formats is enabled to satisfy consume requests. */ logMessageDownconversionEnable?: pulumi.Input; /** * The maximum difference allowed between the timestamp when a broker receives a message and the timestamp specified in the message. */ logMessageTimestampDifferenceMaxMs?: pulumi.Input; /** * Controls whether to preallocate a file when creating a new segment. */ logPreallocate?: pulumi.Input; /** * The maximum size of the log before deleting messages. */ logRetentionBytes?: pulumi.Input; /** * The number of hours to keep a log file before deleting it. */ logRetentionHours?: pulumi.Input; /** * The number of milliseconds to keep a log file before deleting it (in milliseconds), If not set, the value in log.retention.minutes is used. If set to -1, no time limit is applied. */ logRetentionMs?: pulumi.Input; /** * The maximum jitter to subtract from logRollTimeMillis (in milliseconds). If not set, the value in log.roll.jitter.hours is used. */ logRollJitterMs?: pulumi.Input; /** * The amount of time to wait before deleting a file from the filesystem. */ logSegmentDeleteDelayMs?: pulumi.Input; /** * The maximum size of message that the server can receive. */ messageMaxBytes?: pulumi.Input; } /** * The set of arguments for constructing a DatabaseKafkaConfig resource. */ export interface DatabaseKafkaConfigArgs { /** * Enable auto creation of topics. */ autoCreateTopicsEnable?: pulumi.Input; /** * The ID of the target Kafka cluster. */ clusterId: pulumi.Input; /** * The amount of time, in milliseconds, the group coordinator will wait for more consumers to join a new group before performing the first rebalance. A longer delay means potentially fewer rebalances, but increases the time until processing begins. The default value for this is 3 seconds. During development and testing it might be desirable to set this to 0 in order to not delay test execution time. */ groupInitialRebalanceDelayMs?: pulumi.Input; /** * The maximum allowed session timeout for registered consumers. Longer timeouts give consumers more time to process messages in between heartbeats at the cost of a longer time to detect failures. */ groupMaxSessionTimeoutMs?: pulumi.Input; /** * The minimum allowed session timeout for registered consumers. Longer timeouts give consumers more time to process messages in between heartbeats at the cost of a longer time to detect failures. */ groupMinSessionTimeoutMs?: pulumi.Input; /** * How long are delete records retained? */ logCleanerDeleteRetentionMs?: pulumi.Input; /** * The minimum time a message will remain uncompacted in the log. Only applicable for logs that are being compacted. */ logCleanerMinCompactionLagMs?: pulumi.Input; /** * The maximum time in ms that a message in any topic is kept in memory before flushed to disk. If not set, the value in log.flush.scheduler.interval.ms is used. */ logFlushIntervalMs?: pulumi.Input; /** * The interval with which Kafka adds an entry to the offset index. */ logIndexIntervalBytes?: pulumi.Input; /** * This configuration controls whether down-conversion of message formats is enabled to satisfy consume requests. */ logMessageDownconversionEnable?: pulumi.Input; /** * The maximum difference allowed between the timestamp when a broker receives a message and the timestamp specified in the message. */ logMessageTimestampDifferenceMaxMs?: pulumi.Input; /** * Controls whether to preallocate a file when creating a new segment. */ logPreallocate?: pulumi.Input; /** * The maximum size of the log before deleting messages. */ logRetentionBytes?: pulumi.Input; /** * The number of hours to keep a log file before deleting it. */ logRetentionHours?: pulumi.Input; /** * The number of milliseconds to keep a log file before deleting it (in milliseconds), If not set, the value in log.retention.minutes is used. If set to -1, no time limit is applied. */ logRetentionMs?: pulumi.Input; /** * The maximum jitter to subtract from logRollTimeMillis (in milliseconds). If not set, the value in log.roll.jitter.hours is used. */ logRollJitterMs?: pulumi.Input; /** * The amount of time to wait before deleting a file from the filesystem. */ logSegmentDeleteDelayMs?: pulumi.Input; /** * The maximum size of message that the server can receive. */ messageMaxBytes?: pulumi.Input; } //# sourceMappingURL=databaseKafkaConfig.d.ts.map