8839075805
Implements Phases 1-8 of the TFTSR implementation plan. Rust backend (Tauri 2.x, src-tauri/): - Multi-provider AI: OpenAI-compatible, Anthropic, Gemini, Mistral, Ollama - PII detection engine: 11 regex patterns with overlap resolution - SQLCipher AES-256 encrypted database with 10 versioned migrations - 28 Tauri IPC commands for triage, analysis, document, and system ops - Ollama: hardware probe, model recommendations, pull/delete with events - RCA and blameless post-mortem Markdown document generators - PDF export via printpdf - Audit log: SHA-256 hash of every external data send - Integration stubs for Confluence, ServiceNow, Azure DevOps (v0.2) Frontend (React 18 + TypeScript + Vite, src/): - 9 pages: full triage workflow NewIssue→LogUpload→Triage→Resolution→RCA→Postmortem→History+Settings - 7 components: ChatWindow, TriageProgress, PiiDiffViewer, DocEditor, HardwareReport, ModelSelector, UI primitives - 3 Zustand stores: session, settings (persisted), history - Type-safe tauriCommands.ts matching Rust backend types exactly - 8 IT domain system prompts (Linux, Windows, Network, K8s, DB, Virt, HW, Obs) DevOps: - .woodpecker/test.yml: rustfmt, clippy, cargo test, tsc, vitest on every push - .woodpecker/release.yml: linux/amd64 + linux/arm64 builds, Gogs release upload Verified: - cargo check: zero errors - tsc --noEmit: zero errors - vitest run: 13/13 unit tests passing Co-Authored-By: Claude Sonnet 4.6 (1M context) <noreply@anthropic.com>
44 lines
1.8 KiB
TypeScript
44 lines
1.8 KiB
TypeScript
/// <reference types="node" />
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/// <reference types="node" />
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/// <reference types="node" />
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/// <reference types="node" />
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import * as net from 'net';
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import * as tls from 'tls';
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import * as http from 'http';
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import { Agent, AgentConnectOpts } from 'agent-base';
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import { URL } from 'url';
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import type { OutgoingHttpHeaders } from 'http';
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type Protocol<T> = T extends `${infer Protocol}:${infer _}` ? Protocol : never;
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type ConnectOptsMap = {
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http: Omit<net.TcpNetConnectOpts, 'host' | 'port'>;
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https: Omit<tls.ConnectionOptions, 'host' | 'port'>;
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};
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type ConnectOpts<T> = {
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[P in keyof ConnectOptsMap]: Protocol<T> extends P ? ConnectOptsMap[P] : never;
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}[keyof ConnectOptsMap];
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export type HttpProxyAgentOptions<T> = ConnectOpts<T> & http.AgentOptions & {
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headers?: OutgoingHttpHeaders | (() => OutgoingHttpHeaders);
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};
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interface HttpProxyAgentClientRequest extends http.ClientRequest {
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outputData?: {
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data: string;
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}[];
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_header?: string | null;
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_implicitHeader(): void;
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}
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/**
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* The `HttpProxyAgent` implements an HTTP Agent subclass that connects
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* to the specified "HTTP proxy server" in order to proxy HTTP requests.
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*/
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export declare class HttpProxyAgent<Uri extends string> extends Agent {
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static protocols: readonly ["http", "https"];
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readonly proxy: URL;
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proxyHeaders: OutgoingHttpHeaders | (() => OutgoingHttpHeaders);
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connectOpts: net.TcpNetConnectOpts & tls.ConnectionOptions;
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constructor(proxy: Uri | URL, opts?: HttpProxyAgentOptions<Uri>);
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addRequest(req: HttpProxyAgentClientRequest, opts: AgentConnectOpts): void;
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setRequestProps(req: HttpProxyAgentClientRequest, opts: AgentConnectOpts): void;
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connect(req: HttpProxyAgentClientRequest, opts: AgentConnectOpts): Promise<net.Socket>;
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}
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export {};
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//# sourceMappingURL=index.d.ts.map
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