#include #include #include #include "test-session.hh" #include "util.hh" #include "escape-char.hh" namespace nix { static constexpr const bool DEBUG_REPL_PARSER = false; RunningProcess RunningProcess::start(std::string executable, Strings args) { args.push_front(executable); Pipe procStdin{}; Pipe procStdout{}; procStdin.create(); procStdout.create(); // This is separate from runProgram2 because we have different IO requirements pid_t pid = startProcess([&]() { if (dup2(procStdout.writeSide.get(), STDOUT_FILENO) == -1) { throw SysError("dupping stdout"); } if (dup2(procStdin.readSide.get(), STDIN_FILENO) == -1) { throw SysError("dupping stdin"); } procStdin.writeSide.close(); procStdout.readSide.close(); if (dup2(STDOUT_FILENO, STDERR_FILENO) == -1) { throw SysError("dupping stderr"); } execv(executable.c_str(), stringsToCharPtrs(args).data()); throw SysError("exec did not happen"); }); procStdout.writeSide.close(); procStdin.readSide.close(); return RunningProcess{ .pid = pid, .procStdin = std::move(procStdin), .procStdout = std::move(procStdout), }; } [[gnu::unused]] std::ostream & operator<<(std::ostream & os, ReplOutputParser::State s) { switch (s) { case ReplOutputParser::State::Prompt: os << "prompt"; break; case ReplOutputParser::State::Context: os << "context"; break; } return os; } void ReplOutputParser::transition(State new_state, char responsible_char, bool wasPrompt) { if constexpr (DEBUG_REPL_PARSER) { std::cerr << "transition " << new_state << " for " << MaybeHexEscapedChar{responsible_char} << (wasPrompt ? " [prompt]" : "") << "\n"; } state = new_state; pos_in_prompt = 0; } bool ReplOutputParser::feed(char c) { if (c == '\n') { transition(State::Prompt, c); return false; } switch (state) { case State::Context: break; case State::Prompt: if (pos_in_prompt == prompt.length() - 1 && prompt[pos_in_prompt] == c) { transition(State::Context, c, true); return true; } if (pos_in_prompt >= prompt.length() - 1 || prompt[pos_in_prompt] != c) { transition(State::Context, c); break; } pos_in_prompt++; break; } return false; } bool TestSession::readOutThen(ReadOutThenCallback cb) { std::vector buf(1024); for (;;) { ssize_t res = read(proc.procStdout.readSide.get(), buf.data(), buf.size()); if (res < 0) { throw SysError("read"); } if (res == 0) { return false; } switch (cb(std::span(buf.data(), res))) { case ReadOutThenCallbackResult::Stop: return true; case ReadOutThenCallbackResult::Continue: continue; } } } bool TestSession::waitForPrompt() { bool notEof = readOutThen([&](std::span s) -> ReadOutThenCallbackResult { bool foundPrompt = false; for (auto ch : s) { // foundPrompt = foundPrompt || outputParser.feed(buf[i]); bool wasEaten = true; eater.feed(ch, [&](char c) { wasEaten = false; foundPrompt = outputParser.feed(ch) || foundPrompt; outLog.push_back(c); }); if constexpr (DEBUG_REPL_PARSER) { std::cerr << "raw " << MaybeHexEscapedChar{ch} << (wasEaten ? " [eaten]" : "") << "\n"; } } return foundPrompt ? ReadOutThenCallbackResult::Stop : ReadOutThenCallbackResult::Continue; }); return notEof; } void TestSession::wait() { readOutThen([&](std::span s) { for (auto ch : s) { eater.feed(ch, [&](char c) { outputParser.feed(c); outLog.push_back(c); }); } // just keep reading till we hit eof return ReadOutThenCallbackResult::Continue; }); } void TestSession::close() { proc.procStdin.close(); wait(); proc.procStdout.close(); } void TestSession::runCommand(std::string command) { if constexpr (DEBUG_REPL_PARSER) { std::cerr << "runCommand " << command << "\n"; } command += "\n"; // We have to feed a newline into the output parser, since Nix might not // give us a newline before a prompt in all cases (it might clear line // first, e.g.) outputParser.feed('\n'); // Echo is disabled, so we have to make our own outLog.append(command); writeFull(proc.procStdin.writeSide.get(), command, false); } };