# ADR-ci-003: Cross-platform release builds (the D1 matrix) ## Status **Accepted (2026-06-13); implemented the same day on the `ci` branch.** Every fork was settled with the user. Verified end-to-end: - all four targets cross-build locally from Linux x86_64; - the Linux binaries are statically linked (D2); the Windows artifacts are valid PE32+ (x86-64 / Aarch64); - a real release-matrix run (tag `v.0.0.0-citest3`) published **8 assets** — the four binaries + a `.sha256` each. **Runtime-verified (2026-06-13, by the user):** the **Linux x86_64** and **Windows aarch64** binaries launch and run correctly — one of each OS family and both architectures. The remaining two (**Linux aarch64**, **Windows x86_64**) are link-clean and valid format but not yet runtime smoke-tested. This ADR records the **cross-platform build strategy**; it sits on top of **ADR-ci-002** (the nix flake, which now carries the cross toolchain) and **ADR-ci-001** (the pipeline, whose release job this fills in). ## Context `requirements.md` **D1** asks for binaries on **Linux, macOS, Windows × x86_64 and aarch64** (six targets); **D2** asks for a **single static binary, no runtime deps**. The CI runner executes jobs in a **Linux x86_64** container (ADR-ci-001), so every target is **cross-compiled from Linux**. What's feasible is decided almost entirely by one dependency — **`arboard`** (the clipboard backend for the `copy` command). Its per-platform backends in `Cargo.lock`: | Target family | arboard backend | Needs a platform SDK to cross-link? | |---|---|---| | Linux x86_64 / aarch64 | `x11rb` (pure Rust) | No | | Windows x86_64 / aarch64 | `clipboard-win` + `windows-sys` (import libs bundled) | No | | **macOS x86_64 / aarch64** | **`objc2-app-kit` → links AppKit** | **Yes — Apple's SDK** | So **four targets cross-compile with no SDK**; **macOS is the hard wall** — AppKit can only be linked against Apple's SDK. ## Decision ### 1. Tooling — `cargo-zigbuild` Cross-compile with **`cargo-zigbuild`** (Zig's bundled clang + libc as a single universal cross `cc`/linker), added to the flake devShell alongside `zig`. One tool serves every non-macOS target, **including the `cc`-crate compile of rusqlite's bundled SQLite C**, with no per-target toolchain. It replaced the earlier single-target musl `cc` (ADR-ci-002's first cut). ### 2. Targets this iteration — the four non-macOS Added to `rust-toolchain.toml` and the release matrix: - **`x86_64-unknown-linux-musl`**, **`aarch64-unknown-linux-musl`** — musl + `crt-static`, so **fully static** portable binaries (D2); - **`x86_64-pc-windows-gnu`**, **`aarch64-pc-windows-gnullvm`** — Zig statically links its libc, so the `.exe` is **standalone** (no mingw runtime DLLs). ### 3. The Windows `synchronization` stub Rust's `std` links **`-lsynchronization`** (its `WaitOnAddress`-based thread parking). That import library is normally supplied by Rust's `rust-mingw` "self-contained" component — which **rust-overlay does not ship** — and Zig's mingw doesn't carry it either, so the link fails with *"unable to find dynamic system library 'synchronization'"*. The functions (`WaitOnAddress`, `WakeByAddress*`) are **forwarded by `kernel32`** (already linked), so an **empty stub** `libsynchronization.a` (committed at **`ci/winstub/`**, 8 bytes, wired via **`.cargo/config.toml`** for the Windows targets *only*) satisfies the linker without contributing symbols. Host and Linux builds are untouched by it. ### 4. Workflow shape — test once, then a build matrix `release.yaml` is **`test` → `build`**: - **`test`** runs once on the host (`cargo test`) — a tag never publishes untested code; - **`build`** is a **matrix over the four targets** (`needs: test`, `fail-fast: false`), each `cargo zigbuild --release --target `, then packages the binary (`.exe` for Windows) + a `.sha256` and uploads both to the **shared release** via an **idempotent create-or-get** (the first matrix job creates the release; the rest fetch it). ### 5. macOS — deferred, with rationale macOS is **not** in this iteration. `arboard`→AppKit needs the macOS SDK, and: - the SDK ships **only inside Xcode**; Apple's license ties its use to **Apple-branded hardware**, so using it on a Linux runner is a **grey area** (widely done, low enforcement, but technically against the terms); - **redistributing** the SDK is a clearer violation — and our **CI image is public**, so the SDK **cannot be baked into it** even if the grey area were accepted; it would have to live in a private store; - the **clean** path is building on **real Apple hardware** (a Mac registered as a Gitea runner, or hosted Mac CI), where the SDK is fully licensed. macOS therefore becomes its **own step**, choosing between **(a)** osxcross + a **private** SDK kept out of the public image, or **(b)** a **Mac runner**. The user decides when we get there. ## Consequences - **D1: four of six targets met** from a single Linux runner; **D2 met on Linux** (static musl). Windows `.exe`s are standalone. - **Runtime coverage:** Linux x86_64 + Windows aarch64 confirmed running (user, 2026-06-13); Linux aarch64 + Windows x86_64 are the outstanding runtime checks. - **Each matrix target recompiles from scratch** (~2–4 min; ~10 min total on the single runner), and Zig's per-target libc cache is cold each run. Fine at release frequency; cacheable later if it matters. - **The empty stub depends on `kernel32` forwarding `WaitOnAddress`** (true on Windows 8+), which covers every supported target. - **Asset naming** `rdbms-playground--[.exe]` is close to what `cargo-binstall` / the D3 package managers will want. ## Alternatives considered - **`cross` (cross-rs).** Docker-image-per-target; covers Linux + Windows but **not macOS** (no legally redistributable Apple images), and needs DinD orchestration inside our job. Rejected — no macOS, more moving parts than zigbuild. - **Per-target nix cross (`pkgsCross`).** Clean for Linux-musl and Windows-x86_64 (mingw-w64, which *does* ship `libsynchronization.a`), but Windows-aarch64 isn't readily packaged and **macOS-from-Linux is unsupported** in nixpkgs. Rejected — incomplete. - **Native runners per OS.** Cleanest for macOS/Windows, but needs mac/windows runners we don't have. Kept on the table specifically for the deferred macOS step. - **A real `libsynchronization.a`** (from nixpkgs mingw or a `rust-mingw` component) instead of the empty stub. More principled, but more flake machinery, doesn't cover Windows-aarch64, and unnecessary — the stub links clean because the symbols resolve via `kernel32`. ## Deferred / out of scope - **macOS** (x86_64 + aarch64) — the SDK/runner decision above. - **D3 packaging** — Homebrew / Scoop / winget / `cargo-binstall` manifests (and binstall-friendly archive naming). - **CI speed** — caching per-target builds / Zig's libc cache. - **Runtime smoke test** of the two not-yet-checked targets (Linux aarch64, Windows x86_64). ## Relationship to other decisions - **Extends ADR-ci-002** — the flake devShell now carries `cargo-zigbuild` + `zig` and the four release targets. - **Fills in ADR-ci-001 §3 (Release)** — that single-target job is now this matrix. - **Advances `requirements.md`** **D1** (4/6) and **D2** (Linux, done).