import { AxiosRequestConfig, AxiosError, AxiosInstance, AxiosResponse } from 'axios'; declare const AXIOS_RETRYER_REQUEST_PRIORITIES: { readonly CRITICAL: 4; readonly HIGHEST: 3; readonly HIGH: 2; readonly MEDIUM: 1; readonly LOW: 0; }; type AxiosRetryerRequestPriority = (typeof AXIOS_RETRYER_REQUEST_PRIORITIES)[keyof typeof AXIOS_RETRYER_REQUEST_PRIORITIES]; type RetryEventArgs = NonNullable extends (...args: infer TArgs) => unknown ? TArgs : never; type RetryEventListener = (...args: RetryEventArgs) => void; /** * Terminal request error payload emitted by `onRequestError`. */ interface AxiosRetryerRequestErrorEvent { /** Final Axios error object that caused request failure. */ error: AxiosError; /** Final Axios request config that failed. */ config: AxiosRequestConfig; /** HTTP status if available, otherwise `null` for network-level failures. */ status: number | null; /** Request identifier if available. */ requestId?: string; /** Total attempts performed including the initial attempt. */ attempts: number; /** Whether the final error shape is considered retryable by the active strategy. */ retryable: boolean; } /** * Queue-entry payload emitted by `onRequestQueued`. */ interface AxiosRetryerRequestQueuedEvent { /** Request identifier generated or assigned by RetryManager. */ requestId: string; /** Request config entering the queue. */ config: AxiosRequestConfig; /** Resolved priority used for queue ordering. */ priority: AxiosRetryerRequestPriority; /** Queue size immediately after this request was enqueued. */ queueSize: number; } /** * Queue-dispatch payload emitted by `onRequestDispatched`. */ interface AxiosRetryerRequestDispatchedEvent { /** Request identifier generated or assigned by RetryManager. */ requestId: string; /** Request config dispatched from the queue. */ config: AxiosRequestConfig; /** Resolved priority used for queue ordering. */ priority: AxiosRetryerRequestPriority; /** Time spent waiting in the queue before dispatch (milliseconds). */ queuedForMs: number; } /** * Success payload emitted by `onRequestSucceeded`. */ interface AxiosRetryerRequestSucceededEvent { /** Request identifier generated or assigned by RetryManager. */ requestId?: string; /** Final request config that succeeded. */ config: AxiosRequestConfig; /** Final HTTP status code. */ status: number; /** Total attempts performed including the initial attempt. */ attempts: number; } /** * Core events exposed by RetryManager without any plugins attached. */ interface CoreRetryEvents { /** * Triggered when the retry process begins. */ onRetryProcessStarted?: () => void; /** * Triggered before each retry attempt. * @param config The Axios request configuration being retried. */ beforeRetry?: (config: AxiosRequestConfig) => void; /** * Triggered after a retry attempt. * @param config The Axios request configuration being retried. * @param success Whether the retry was successful. * @param error If the retry failed, the error that caused the failure. */ afterRetry?: (config: AxiosRequestConfig, success: boolean, error?: AxiosError) => void; /** * Triggered when a retry is scheduled and waiting for the specified delay. * @param delayMs The delay in milliseconds. * @param config The Axios request configuration. */ onRetryScheduled?: (delayMs: number, config: AxiosRequestConfig) => void; /** * Triggered for each failed retry attempt. * @param config The failed Axios request configuration. */ onFailure?: (config: AxiosRequestConfig) => void; /** * Triggered when a request enters the queue. * * @param payload Queue entry metadata for this request. */ onRequestQueued?: (payload: AxiosRetryerRequestQueuedEvent) => void; /** * Triggered when a queued request is dispatched from the queue to the network layer. * * @param payload Dispatch metadata including queue wait duration. */ onRequestDispatched?: (payload: AxiosRetryerRequestDispatchedEvent) => void; /** * Triggered when a request succeeds (initial attempt or after retries). * * @param payload Success metadata for this request. */ onRequestSucceeded?: (payload: AxiosRetryerRequestSucceededEvent) => void; /** * Triggered once when a request fails terminally (all retries exhausted or no-retry terminal path). * Unlike `onFailure`, this event is emitted only for the final failure. * * @param payload Terminal error context for application-level handling. */ onRequestError?: (payload: AxiosRetryerRequestErrorEvent) => void; /** * Triggered when all retries are completed. */ onRetryProcessFinished?: () => void; /** * Triggered when an in-flight retry delay timer is cancelled — either because * the user aborted the request (`source: 'user'`) or because the system shut * the request down (`source: 'system'`, e.g. plugin destroy, queue clear). */ onRetryTimerCancelled?: (payload: { requestId: string; source: 'user' | 'system'; }) => void; /** * Triggered when a request cancelled. * @param requestId Id of the cancelled request. */ onRequestCancelled?: (requestId: string) => void; /** * Called when a request fails due to network or connection issues, meaning * no valid server response was received (e.g., user is offline). * * @param request - The Axios request config that encountered a connection error. */ onInternetConnectionError?: (request: AxiosRequestConfig) => void; /** * Triggered when a blocking request (at or above `blockingPriorityThreshold`) fails terminally. * Only fires when `blockingPriorityThreshold` is configured. * * @param config The Axios request config of the failed blocking request. */ onBlockingRequestFailed?: (config: AxiosRequestConfig) => void; /** * Triggered when every in-flight blocking request (at or above `blockingPriorityThreshold`) * has **succeeded** (terminal success) and none remain in the internal blocker set. * Not emitted when a blocker fails (`onBlockingRequestFailed`) or is cancelled. * Only fires when `blockingPriorityThreshold` is configured. */ onAllBlockingRequestsResolved?: () => void; } type RetryManagerEvents> = { [K in keyof CoreRetryEvents | keyof TPluginEvents]: K extends keyof TPluginEvents ? K extends keyof CoreRetryEvents ? CoreRetryEvents[K] & TPluginEvents[K] : TPluginEvents[K] : K extends keyof CoreRetryEvents ? CoreRetryEvents[K] : never; }; /** * Represents the distribution of different error types encountered */ interface ErrorTypesDistribution { /** Number of network-related errors (e.g., connection failures) */ network: number; /** Number of 5xx server errors */ server5xx: number; /** Number of 4xx client errors */ client4xx: number; /** Number of canceled requests */ cancelled: number; } /** * Represents metrics for a specific request priority level */ interface PriorityMetrics { /** The priority level (higher numbers indicate higher priority) */ priority: number; /** Total number of retry attempts for this priority */ total: number; /** Number of successful retries for this priority */ successes: number; /** Number of failed retries for this priority */ failures: number; /** Success rate percentage for this priority (0-100) */ successRate: number; /** Failure rate percentage for this priority (0-100) */ failureRate: number; } /** * AxiosRetryer detailed metrics * */ interface AxiosRetryerDetailedMetrics { /** Total number of requests made through the retryer */ totalRequests: number; /** Number of successfully completed retries */ successfulRetries: number; /** Number of failed retry attempts */ failedRetries: number; /** Requests that failed all retry attempts */ completelyFailedRequests: number; /** Requests canceled before completion */ canceledRequests: number; /** Critical priority requests that failed all retries */ completelyFailedCriticalRequests: number; /** Distribution of error types encountered */ errorTypesDistribution: ErrorTypesDistribution; /** Distribution of retry attempts across all requests */ retryAttemptsDistribution: Record; /** Count of requests by priority level */ requestCountsByPriority: Record; /** Average time spent in queue (seconds) */ avgQueueWait: number; /** Average delay between retry attempts (seconds) */ avgRetryDelay: number; /** Detailed metrics grouped by request priority */ priorityMetrics: PriorityMetrics[]; /** Timer health and accumulation metrics */ timerHealth: { /** Number of active internal timers */ activeTimers: number; /** Number of active retry timers */ activeRetryTimers: number; /** Health score (0 = excellent, 100+ = potential issues) */ healthScore: number; }; } /** * Interface for pluggable metrics recording. * The core library ships with no-op metrics by default. * Use MetricsPlugin for full metrics collection. */ interface MetricsRecorder { reset(): void; buildDetailedMetrics(timerStats: { activeTimers: number; activeRetryTimers: number; }): AxiosRetryerDetailedMetrics; emitMetricsUpdated?(): void; } /** * Logger interface used by RetryManager and its collaborators. * Supply a custom implementation via {@link RetryManagerOptions.logger} * to redirect or suppress log output. */ interface Logger { log(message: string, data?: unknown): void; error(message: string, error?: unknown): void; warn(message: string, data?: unknown): void; debug(message: string, meta?: unknown): void; } /** * Context object passed to plugins during initialization and teardown. * Provides the plugin-facing view of RetryManager capabilities including * plugin-only wiring hooks that are not part of the public manager API. */ interface PluginContext> { /** The Axios instance managed by RetryManager. */ readonly axiosInstance: AxiosInstance; /** Returns the configured logger. */ getLogger(): Logger; /** Subscribe to a manager or plugin event. */ on>(event: K, listener: RetryEventListener, K>): void; /** Unsubscribe from a manager or plugin event. */ off>(event: K, listener: RetryEventListener, K>): boolean; /** Fire all listeners registered for this event. */ emit>(event: K, ...args: RetryEventArgs, K>): void; /** * Identical to `emit` — fires all listeners registered for this event. * * Kept for backward compatibility with existing plugins. There is no semantic * distinction from `emit`: prefer `emit` in new code. */ triggerAndEmit>(event: K, ...args: RetryEventArgs, K>): void; /** Cancel a specific in-flight or queued request by its ID. */ cancelRequest(requestId: string): void; /** Cancel all active and queued requests. */ cancelAllRequests(): void; /** Cancel only requests currently waiting in the queue. */ cancelQueuedRequests(): void; /** * Register a queue gate that must approve each request before it is dispatched. * Used by plugins that need to block request processing under certain conditions. */ registerQueueGate(name: string, canProcess: (request: AxiosRequestConfig) => boolean): void; /** Remove a previously registered queue gate. */ unregisterQueueGate(name: string): boolean; /** Trigger a queue drain pass. Useful after a gate condition changes. */ refreshQueue(): void; /** * Register or unregister a metrics recorder. * Pass `null` to detach. Used by MetricsPlugin to expose metric data to the RetryManager's getMetrics() method. */ registerMetricsRecorder(recorder: MetricsRecorder | null): void; /** * Return active timer counts. * Used by MetricsPlugin to populate the timerHealth section of detailed metrics. */ getTimerStats(): { activeTimers: number; activeRetryTimers: number; }; /** * Release lifecycle tracking for a request config and mark its queue slot complete. * Used by TokenRefreshPlugin when a tracked request is intercepted for token refresh. */ releaseRequestTracking(config: AxiosRequestConfig): void; } /** * AxiosRetryer plugin interface that can be attached with {@link RetryManager.use} and removed with {@link RetryManager.unuse} * */ interface RetryPlugin> { /** * Plugin name. Should be unique * */ name: string; /** * Plugin version (e.g. 1.0.0) * */ version: string; /** * Phantom covariant marker for TypeScript to infer `TPluginEvents` at call sites * such as `manager.use(plugin)`. Never set this at runtime; implementations may * simply omit it (it is always `undefined`). * */ readonly _events?: Readonly; /** * Called when the plugin is attached and initialized. * @param context Plugin context providing manager capabilities and plugin-only wiring hooks. * */ initialize: (context: PluginContext) => void; /** * Called before the plugin is removed. * @param context Plugin context providing manager capabilities and plugin-only wiring hooks. * */ onBeforeDestroyed?: (context: PluginContext) => void; } declare const CIRCUIT_BREAKER_STATES: { readonly CLOSED: "CLOSED"; readonly OPEN: "OPEN"; readonly HALF_OPEN: "HALF_OPEN"; }; type CircuitBreakerState = (typeof CIRCUIT_BREAKER_STATES)[keyof typeof CIRCUIT_BREAKER_STATES]; declare const CIRCUIT_BREAKER_SCOPES: { readonly HOST: "host"; readonly URL: "url"; readonly HOST_AND_URL: "host+url"; }; type CircuitBreakerScope = (typeof CIRCUIT_BREAKER_SCOPES)[keyof typeof CIRCUIT_BREAKER_SCOPES]; /** * Configuration options for the Circuit Breaker behavior. */ interface CircuitBreakerOptions { /** * Number of consecutive failures required to trip the circuit. * Once this threshold is exceeded, the circuit transitions from `CLOSED` to `OPEN`. */ failureThreshold: number; /** * Duration (in milliseconds) the circuit remains in the `OPEN` state * before allowing a test request in the `HALF_OPEN` state. */ openTimeout: number; /** * Maximum number of test requests allowed in `HALF_OPEN` state * before deciding to either reset (back to `CLOSED`) or trip again to `OPEN`. */ halfOpenMax: number; /** * Number of successful test requests required in HALF_OPEN state to reset the circuit. * Must be <= halfOpenMax. */ successThreshold?: number; /** * If true, uses a sliding window approach to count failures over time rather than consecutive failures. */ useSlidingWindow?: boolean; /** * The duration (in milliseconds) of the sliding window when useSlidingWindow is true. */ slidingWindowSize?: number; /** * Callback function to determine which errors should contribute to circuit breaking. * If not provided, all errors count. */ shouldCountError?: (error: AxiosError) => boolean; /** * Adaptive timeout configuration. When true, the circuit breaker will track response times * and adjust timeouts accordingly. */ adaptiveTimeout?: boolean; /** * Percentile (0-1) to use for adaptive timeout calculation. Default is 0.95 (95th percentile). */ adaptiveTimeoutPercentile?: number; /** * Number of historical response times to track for adaptive timeout calculation. */ adaptiveTimeoutSampleSize?: number; /** * Timeout multiplier (e.g., 1.5 = 150% of the calculated percentile). */ adaptiveTimeoutMultiplier?: number; /** * Maximum number of unique scope keys tracked in the adaptive-timeout response-metrics map. * Prevents unbounded memory growth. When the cap is reached, the oldest entry is evicted. * Default: 500. */ maxTrackedScopes?: number; /** * Allow specific endpoints to be excluded from circuit breaking. * * String patterns use exact URL equality. `RegExp` patterns are tested against * the full request URL on every request — prefer string patterns when possible. * * **Security note (ReDoS):** Avoid catastrophically backtracking patterns such as * `/(a+)+$/` combined with long non-matching URLs. JavaScript's regex engine is * single-threaded and synchronous; a pathological pattern will block the event loop. * Validate any user-controlled or externally-sourced patterns before use. */ excludeUrls?: readonly (string | RegExp)[]; /** * Controls how circuit state is grouped. * `host+url` scopes by host and normalized URL, which is the default. */ scope?: CircuitBreakerScope | ((config: AxiosRequestConfig) => string); /** * Optional adapter for sharing circuit state across processes or hosts. */ stateAdapter?: CircuitBreakerStateAdapter; } interface CircuitBreakerFailureRecord { timestamp: number; url: string; status?: number; errorCode?: string; } interface CircuitBreakerScopeState { state: CircuitBreakerState; failureCount: number; successCount: number; halfOpenCount: number; nextAttempt: number; recentFailures: CircuitBreakerFailureRecord[]; lastFailureStatus?: number; lastFailureCode?: string; } interface CircuitBreakerScopeMetrics { scopeKey: string; url: string; host?: string; state: CircuitBreakerState; failureCount: number; halfOpenCount: number; successCount: number; nextAttemptIn: number; failuresInWindow: number; } interface CircuitBreakerAdaptiveTimeoutMetrics { scopeKey: string; url: string; host?: string; timeoutMs: number; p95ResponseTimeMs: number; samplesCount: number; } interface CircuitBreakerMetrics { state: CircuitBreakerState; failureCount: number; halfOpenCount: number; successCount: number; nextAttemptIn: number; failuresInWindow: number; adaptiveTimeouts: CircuitBreakerAdaptiveTimeoutMetrics[]; scopeMetrics: CircuitBreakerScopeMetrics[]; } interface CircuitBreakerStateAdapter { get(key: string): CircuitBreakerScopeState | undefined | Promise; set(key: string, state: CircuitBreakerScopeState): void | Promise; delete(key: string): void | Promise; clear(): void | Promise; } interface CircuitBreakerPluginEvents { onCircuitStateChanged?: (payload: { scopeKey: string; from: CircuitBreakerState; to: CircuitBreakerState; reason: 'failure-threshold' | 'half-open-failure' | 'open-timeout-elapsed' | 'success-threshold-reached' | 'manual-reset'; nextAttemptIn?: number; }) => void; } interface ResponseTimeMetrics { times: number[]; sampleSize: number; lastCalculated: number; currentPercentileMs: number; scopeKey: string; normalizedUrl: string; host?: string; } /** * Default in-memory state adapter. Stores circuit state as deep clones to * prevent accidental mutation of internal state from external references. */ declare class InMemoryCircuitBreakerStateAdapter implements CircuitBreakerStateAdapter { private readonly state; get(key: string): CircuitBreakerScopeState | undefined; set(key: string, state: CircuitBreakerScopeState): void; delete(key: string): void; clear(): void; } /** * Enhanced CircuitBreakerPlugin with sliding window failure counting, * selective error monitoring, adaptive timeout management, granular recovery, * URL exclusion, scoped circuit state, and optional distributed state adapters. * * @implements {RetryPlugin} */ declare class CircuitBreakerPlugin implements RetryPlugin { static STATES: { readonly CLOSED: "CLOSED"; readonly OPEN: "OPEN"; readonly HALF_OPEN: "HALF_OPEN"; }; readonly name = "CircuitBreakerPlugin"; readonly version = "2.0.0"; readonly _events?: Readonly; private readonly _options; private _requestInterceptorId?; private _responseInterceptorId?; private _context; private readonly _adaptiveTimeoutTracker; private readonly _scopeManager; private readonly _failureWindow; private readonly _metricBaselines; constructor(options?: Partial); /** @internal */ get _responseMetrics(): Record; /** @internal */ get _scopeStateCache(): Map; /** @internal */ get _knownScopes(): Map; /** @internal */ _normalizeUrl(url: string): string; /** @internal */ _resolveScopeKey(config: AxiosRequestConfig, normalizedUrl: string, host?: string): string; /** @internal */ _getScopeDetails(config: AxiosRequestConfig): { scopeKey: string; normalizedUrl: string; host?: string; }; /** @internal */ _writeScopeState(scopeKey: string, state: CircuitBreakerScopeState): Promise; initialize(context: PluginContext): void; onBeforeDestroyed(context: PluginContext): void; getState(scopeKey?: string): CircuitBreakerState; manualReset(scopeKey?: string): void; /** * Backwards-compatible alias retained for existing tests and internal callers. * @internal */ _reset(scopeKey?: string): void; /** * @internal Exposed for test inspection only; not part of the public API. */ _trackResponseTime(response: AxiosResponse): void; resetMetrics(): void; getAdaptiveTimeoutMetrics(): CircuitBreakerMetrics['adaptiveTimeouts']; getMetrics(): CircuitBreakerMetrics; private _tripScope; private _resetScope; private _transitionToHalfOpen; private _emitStateChange; private _shouldCountError; private _isUrlExcluded; private _createCircuitStateError; private _getScopeMetrics; private _getVisibleCounter; private _getVisibleFailuresInWindow; } declare class CircuitBreakerStateError extends AxiosError { readonly circuitState: CircuitBreakerState; constructor(message: string, circuitState: CircuitBreakerState, request: AxiosRequestConfig, code?: string, response?: AxiosResponse); } /** * Creates a CircuitBreakerPlugin instance. * Functional alternative to using the `new CircuitBreakerPlugin()` constructor. * * The circuit breaker pattern prevents repeated requests to a failing service by * temporarily blocking requests after a threshold of failures is reached. * * @param options Configuration options for the CircuitBreakerPlugin * @returns A configured CircuitBreakerPlugin instance * * @example * ```typescript * const circuitBreaker = createCircuitBreaker({ * failureThreshold: 5, // Trip circuit after 5 consecutive failures * openTimeout: 30000, // Remain open for 30s before allowing half-open test * halfOpenMax: 1, // Allow 1 test request in half-open state * useSlidingWindow: true, // Use sliding window for failure analysis * slidingWindowSize: 60000 // 60-second sliding window * }); * * manager.use(circuitBreaker); * ``` */ declare function createCircuitBreaker(options?: Partial): CircuitBreakerPlugin; export { CIRCUIT_BREAKER_SCOPES, CIRCUIT_BREAKER_STATES, CircuitBreakerPlugin, CircuitBreakerStateError, InMemoryCircuitBreakerStateAdapter, createCircuitBreaker }; export type { CircuitBreakerAdaptiveTimeoutMetrics, CircuitBreakerFailureRecord, CircuitBreakerMetrics, CircuitBreakerOptions, CircuitBreakerPluginEvents, CircuitBreakerScope, CircuitBreakerScopeMetrics, CircuitBreakerScopeState, CircuitBreakerState, CircuitBreakerStateAdapter };