{ stdenv , fetchurl , fetchFromGitHub , rust , rustPlatform , installShellFiles , Security , CoreServices }: let deps = import ./deps.nix { }; arch = rust.toRustTarget stdenv.hostPlatform; rustyV8Lib = with deps.rustyV8Lib; fetchurl { url = "https://github.com/denoland/rusty_v8/releases/download/v${version}/librusty_v8_release_${arch}.a"; sha256 = sha256s."${stdenv.hostPlatform.system}"; meta = { inherit version; }; }; in rustPlatform.buildRustPackage rec { pname = "deno"; version = "1.6.3"; src = fetchFromGitHub { owner = "denoland"; repo = pname; rev = "v${version}"; sha256 = "1wmkx458fpsfw57ysawxc0ghxag8v051hiyswm7nnb7gckrm6j8z"; fetchSubmodules = true; }; cargoSha256 = "08vzsp53019gmxkn8lpa6l84w3fvbrnr11lzrfgf99nmii6l2hq5"; # Install completions post-install nativeBuildInputs = [ installShellFiles ]; buildInputs = stdenv.lib.optionals stdenv.isDarwin [ Security CoreServices ]; # The rusty_v8 package will try to download a `librusty_v8.a` release at build time to our read-only filesystem # To avoid this we pre-download the file and place it in the locations it will require it in advance preBuild = '' _rusty_v8_setup() { for v in "$@"; do dir="target/$v/gn_out/obj" mkdir -p "$dir" && cp "${rustyV8Lib}" "$dir/librusty_v8.a" done } # Copy over the `librusty_v8.a` file inside target/XYZ/gn_out/obj, symlink not allowed _rusty_v8_setup "debug" "release" "${arch}/release" ''; # Tests have some inconsistencies between runs with output integration tests # Skipping until resolved doCheck = false; postInstall = '' # remove test plugin and test server rm -rf $out/lib $out/bin/test_server installShellCompletion --cmd deno \ --bash <($out/bin/deno completions bash) \ --fish <($out/bin/deno completions fish) \ --zsh <($out/bin/deno completions zsh) ''; passthru.updateScript = ./update/update.ts; meta = with stdenv.lib; { homepage = "https://deno.land/"; changelog = "${src.meta.homepage}/releases/tag/v${version}"; description = "A secure runtime for JavaScript and TypeScript"; longDescription = '' Deno aims to be a productive and secure scripting environment for the modern programmer. Deno will always be distributed as a single executable. Given a URL to a Deno program, it is runnable with nothing more than the ~15 megabyte zipped executable. Deno explicitly takes on the role of both runtime and package manager. It uses a standard browser-compatible protocol for loading modules: URLs. Among other things, Deno is a great replacement for utility scripts that may have been historically written with bash or python. ''; license = licenses.mit; maintainers = with maintainers; [ jk ]; platforms = [ "x86_64-linux" "aarch64-linux" "x86_64-darwin" ]; }; }