#include "filetransfer.hh" #include "compression.hh" #include #include #include #include #include #include #include #include #include #include #include // local server tests don't work on darwin without some incantations // the horrors do not want to look up. contributions welcome though! #if __APPLE__ #define NOT_ON_DARWIN(n) DISABLED_##n #else #define NOT_ON_DARWIN(n) n #endif using namespace std::chrono_literals; namespace { struct Reply { std::string status, headers; std::function content; }; } namespace nix { static std::tuple serveHTTP(std::vector replies) { AutoCloseFD listener(::socket(AF_INET6, SOCK_STREAM, 0)); if (!listener) { throw SysError(errno, "socket() failed"); } Pipe trigger; trigger.create(); sockaddr_in6 addr = { .sin6_family = AF_INET6, .sin6_addr = IN6ADDR_LOOPBACK_INIT, }; socklen_t len = sizeof(addr); if (::bind(listener.get(), reinterpret_cast(&addr), sizeof(addr)) < 0) { throw SysError(errno, "bind() failed"); } if (::getsockname(listener.get(), reinterpret_cast(&addr), &len) < 0) { throw SysError(errno, "getsockname() failed"); } if (::listen(listener.get(), 1) < 0) { throw SysError(errno, "listen() failed"); } std::thread( [replies, at{0}](AutoCloseFD socket, AutoCloseFD trigger) mutable { while (true) { pollfd pfds[2] = { { .fd = socket.get(), .events = POLLIN, }, { .fd = trigger.get(), .events = POLLHUP, }, }; if (::poll(pfds, 2, -1) <= 0) { throw SysError(errno, "poll() failed"); } if (pfds[1].revents & POLLHUP) { return; } if (!(pfds[0].revents & POLLIN)) { continue; } AutoCloseFD conn(::accept(socket.get(), nullptr, nullptr)); if (!conn) { throw SysError(errno, "accept() failed"); } auto send = [&](std::string_view bit) { while (!bit.empty()) { auto written = ::write(conn.get(), bit.data(), bit.size()); if (written < 0) { throw SysError(errno, "write() failed"); } bit.remove_prefix(written); } }; const auto & reply = replies[at++ % replies.size()]; send("HTTP/1.1 "); send(reply.status); send("\r\n"); send(reply.headers); send("\r\n"); send(reply.content()); ::shutdown(conn.get(), SHUT_RDWR); } }, std::move(listener), std::move(trigger.readSide) ) .detach(); return { ntohs(addr.sin6_port), std::move(trigger.writeSide), }; } static std::tuple serveHTTP(std::string status, std::string headers, std::function content) { return serveHTTP({{{status, headers, content}}}); } TEST(FileTransfer, exceptionAbortsDownload) { struct Done : std::exception {}; auto ft = makeFileTransfer(); LambdaSink broken([](auto block) { throw Done(); }); ASSERT_THROW(ft->download("file:///dev/zero").second->drainInto(broken), Done); // makeFileTransfer returns a ref<>, which cannot be cleared. since we also // can't default-construct it we'll have to overwrite it instead, but we'll // take the raw pointer out first so we can destroy it in a detached thread // (otherwise a failure will stall the process and have it killed by meson) auto reset = std::async(std::launch::async, [&]() { ft = makeFileTransfer(); }); EXPECT_EQ(reset.wait_for(10s), std::future_status::ready); // if this did time out we have to leak `reset`. if (reset.wait_for(0s) == std::future_status::timeout) { (void) new auto(std::move(reset)); } } TEST(FileTransfer, exceptionAbortsRead) { auto [port, srv] = serveHTTP("200 ok", "content-length: 0\r\n", [] { return ""; }); auto ft = makeFileTransfer(); char buf[10] = ""; ASSERT_THROW(ft->download(fmt("http://[::1]:%d/index", port)).second->read(buf, 10), EndOfFile); } TEST(FileTransfer, NOT_ON_DARWIN(reportsSetupErrors)) { auto [port, srv] = serveHTTP("404 not found", "", [] { return ""; }); auto ft = makeFileTransfer(); ASSERT_THROW( ft->enqueueDownload(fmt("http://[::1]:%d/index", port)).get(), FileTransferError ); } TEST(FileTransfer, NOT_ON_DARWIN(defersFailures)) { auto [port, srv] = serveHTTP("200 ok", "content-length: 100000000\r\n", [] { std::this_thread::sleep_for(10ms); // just a bunch of data to fill the curl wrapper buffer, otherwise the // initial wait for header data will also wait for the the response to // complete (the source is only woken when curl returns data, and curl // might only do so once its internal buffer has already been filled.) return std::string(1024 * 1024, ' '); }); auto ft = makeFileTransfer(0); auto src = ft->download(fmt("http://[::1]:%d/index", port)).second; ASSERT_THROW(src->drain(), FileTransferError); } TEST(FileTransfer, NOT_ON_DARWIN(handlesContentEncoding)) { std::string original = "Test data string"; std::string compressed = compress("gzip", original); auto [port, srv] = serveHTTP("200 ok", "content-encoding: gzip\r\n", [&] { return compressed; }); auto ft = makeFileTransfer(); StringSink sink; ft->download(fmt("http://[::1]:%d/index", port)).second->drainInto(sink); EXPECT_EQ(sink.s, original); } TEST(FileTransfer, usesIntermediateLinkHeaders) { auto [port, srv] = serveHTTP({ {"301 ok", "location: /second\r\n" "content-length: 0\r\n", [] { return ""; }}, {"307 ok", "location: /third\r\n" "content-length: 0\r\n", [] { return ""; }}, {"307 ok", "location: /fourth\r\n" "link: ; rel=\"immutable\"\r\n" "content-length: 0\r\n", [] { return ""; }}, {"200 ok", "content-length: 1\r\n", [] { return "a"; }}, }); auto ft = makeFileTransfer(0); auto [result, _data] = ft->enqueueDownload(fmt("http://[::1]:%d/first", port)).get(); ASSERT_EQ(result.immutableUrl, "http://foo"); } }