# CLAUDE.md This file provides guidance to Claude Code (claude.ai/code) when working with code in this repository. ## Overview GCDWebServer is a lightweight, GCD-based HTTP 1.1 server written in Objective-C (ARC) for embedding in iOS, macOS, and tvOS apps. It has no third-party dependencies. This fork targets iOS 16 / tvOS 16 / macOS 12 (set in both `GCDWebServer.xcodeproj` and `GCDWebServer.podspec`). Not supported by design: keep-alive connections and HTTPS. ## Build & Test The library can be built three ways: the Xcode project (`GCDWebServer.xcodeproj`), CocoaPods (`GCDWebServer.podspec`), and Swift Package Manager (`Package.swift`). All three compile the same source files in place — see "Swift Package Manager layout" below for how the SPM `include/` directories relate to the real sources. Build via SPM: ```sh swift build # builds GCDWebServer, GCDWebUploader, GCDWebDAVServer ``` Schemes (`xcodebuild -list -project GCDWebServer.xcodeproj`): - `GCDWebServer (Mac|iOS|tvOS)` — the static library / framework per platform. - `GCDWebServers (Mac|iOS|tvOS)` — the framework target plus the XCTest unit tests (`Frameworks/Tests.m`). - `Build All`. Run the unit tests (XCTest): ```sh xcodebuild test -scheme "GCDWebServers (Mac)" ``` Run a single XCTest method: ```sh xcodebuild test -scheme "GCDWebServers (Mac)" -only-testing:Tests/Tests/testPaths ``` Full CI test suite (builds for all platforms at oldest + current deployment targets, then runs the request/response replay tests): ```sh ./Run-Tests.sh ``` `Run-Tests.sh` does the bulk of the real testing. It builds the `GCDWebServer (Mac)` target, then runs the resulting command-line `GCDWebServer` executable in test modes (`webServer`, `webDAV`, `htmlForm`, `htmlFileUpload`, `webUploader`) against recorded fixtures. ### How the fixture-replay tests work The `Tests/` directory holds recorded HTTP exchanges, not code. Each test case is a pair of files: `NNN-.request` (raw bytes sent to the server) and `NNN-.response` (expected raw response bytes). The test runner (`-mode -root -tests `) replays each `.request` against a server rooted at an extracted copy of `Tests/Payload.zip` and byte-compares the reply to the `.response`. To add coverage for a new behavior, add a matching `.request`/`.response` pair to the relevant `Tests/` directory rather than writing new XCTest code. ## Formatting Source style for Objective-C is defined by `.clang-format` (Google base style, `ColumnLimit: 0`). Format files with `clang-format -style=file -i `. The Swift example apps use 2-space indentation (SwiftFormat). ## Architecture The entire library is built around 4 core classes in `GCDWebServer/Core/`: - **GCDWebServer** — owns the listening socket and the ordered list of handlers. Manages start/stop, options, Bonjour, NAT port mapping, and (on iOS) automatic suspend/resume across foreground/background transitions. - **GCDWebServerConnection** — one instance per open HTTP connection, lives until the connection closes. Drives reading the request and writing the response. Subclassable via hooks (it's exposed but not used directly). - **GCDWebServerRequest** — created once HTTP headers arrive; wraps the request and consumes the body. Subclasses in `GCDWebServer/Requests/` choose how the body is handled (in memory, streamed to disk, parsed as a form, etc.). - **GCDWebServerResponse** — produced by a handler; wraps response headers and an optional body. Subclasses in `GCDWebServer/Responses/` cover data-in-memory, file-on-disk, streamed, and error responses. `GCDWebServer/Core/GCDWebServerFunctions.{h,m}` holds shared C helpers (e.g. `GCDWebServerNormalizePath`, MIME-type and date helpers). `GCDWebServerPrivate.h` is the internal/private header (including the logging-facility abstraction). `GCDWebServerHTTPStatusCodes.h` enumerates status codes. ### Handler model A request is matched and processed by **handlers** added to the server, evaluated in **LIFO order** (last added wins). Each handler is two GCD blocks: - `GCDWebServerMatchBlock` — runs as soon as headers are received; inspects method/URL/headers and returns a `GCDWebServerRequest` subclass instance to claim the request, or `nil` to pass. - `GCDWebServerProcessBlock` (sync) or `GCDWebServerAsyncProcessBlock` (async) — runs after the full request body is received and returns a `GCDWebServerResponse` (or `nil`/error response → 500). Handlers run on **arbitrary GCD threads**, so handler code must be thread-safe and re-entrant. ### Extensions (subclasses of GCDWebServer) - `GCDWebUploader/` — `GCDWebUploader`, an HTML5 web UI for uploading/downloading/managing files in a directory. Ships front-end assets in `GCDWebUploader.bundle`. - `GCDWebDAVServer/` — `GCDWebDAVServer`, a class-1 WebDAV server (partial class-2 for macOS Finder). Depends on `libxml2`. ### Example apps & framework packaging - `Mac/main.m` — macOS command-line example (also serves as the test-runner executable). - `iOS/`, `tvOS/` — Swift example apps (`AppDelegate.swift`, `ViewController.swift`). - `Frameworks/` — umbrella header (`GCDWebServers.h`), module map, and the XCTest target source (`Tests.m`). ## Swift Package Manager layout SPM needs each target's public headers in a single directory, but the real headers live spread across `GCDWebServer/Core`, `GCDWebServer/Requests`, and `GCDWebServer/Responses`. To support SPM **without moving any files** (keeping the Xcode project and CocoaPods working), the public headers are surfaced through symlinks: - `GCDWebServer/include/*.h` are **symlinks** to the real public headers (everything except the private `GCDWebServerPrivate.h`, which is deliberately not linked so it stays out of the public module). `GCDWebUploader/include/GCDWebUploader.h` works the same way. - `GCDWebServer/include/module.modulemap` is hand-written with `umbrella "."`. This is required: if SPM auto-generated the module map it would pick `include/GCDWebServer.h` as an umbrella *header* (name matches the module) and only export what that one header imports, hiding the request/response subclasses. The umbrella *directory* exports them all. - All cross-header imports inside the library (including the framework umbrella `Frameworks/GCDWebServers.h`) use quoted form (`#import "GCDWebServerRequest.h"`), not framework-style (`#import `); the quoted form is what lets the flat `include/` symlink directory resolve them. Keep new imports quoted. - `GCDWebUploader.bundle` is a `.copy` resource. Because SPM nests it inside a generated module bundle, `GCDWebUploader.m` has a `#if SWIFT_PACKAGE` branch that finds it via `SWIFTPM_MODULE_BUNDLE` instead of `bundleForClass:`. When adding or renaming a public header, add/remove the matching symlink in the relevant `include/` directory or it won't be visible to SPM consumers. `libxml2` (for WebDAV) needs no special SPM include flag — the macOS/iOS SDK ships a module map that resolves `` automatically. ## Consumer linking requirements When integrated manually (not via CocoaPods), consuming apps must link `libz`, and WebDAV additionally needs `libxml2` with `$(SDKROOT)/usr/include/libxml2` on the header search path. The `GCDWebServer.podspec` defines three subspecs: `Core` (default), `WebDAV`, and `WebUploader`. ## Logging & debug builds Define `DEBUG=1` in `GCC_PREPROCESSOR_DEFINITIONS` to enable verbose logging plus internal consistency checks. Runtime verbosity is controlled via `+[GCDWebServer setLogLevel:]`. If XLFacility is present in the same Xcode project, GCDWebServer routes logging through it automatically (see `GCDWebServerPrivate.h`).