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// file      : build2/test/script/builtin.cxx -*- C++ -*-
// copyright : Copyright (c) 2014-2017 Code Synthesis Ltd
// license   : MIT; see accompanying LICENSE file

#include <build2/test/script/builtin.hxx>

#ifndef _WIN32
#  include <utime.h>
#else
#  include <sys/utime.h>
#endif

#include <locale>
#include <ostream>
#include <sstream>

#include <libbutl/path-io.hxx>    // use default operator<< implementation
#include <libbutl/fdstream.hxx>   // fdopen_mode, fdstream_mode
#include <libbutl/filesystem.hxx> // mkdir_status

#include <build2/regex.hxx>

#include <build2/test/script/script.hxx>

// Strictly speaking a builtin which reads/writes from/to standard streams
// must be asynchronous so that the caller can communicate with it through
// pipes without being blocked on I/O operations. However, as an optimization,
// we allow builtins that only print diagnostics to STDERR to be synchronous
// assuming that their output will always fit the pipe buffer. Synchronous
// builtins must not read from STDIN and write to STDOUT. Later we may relax
// this rule to allow a "short" output for such builtins.
//
using namespace std;
using namespace butl;

namespace build2
{
  namespace test
  {
    namespace script
    {
      using builtin_impl = uint8_t (scope&,
                                    const strings& args,
                                    auto_fd in, auto_fd out, auto_fd err);

      // Operation failed, diagnostics has already been issued.
      //
      struct failed {};

      // Accumulate an error message, print it atomically in dtor to the
      // provided stream and throw failed afterwards if requested. Prefixes
      // the message with the builtin name.
      //
      // Move constructible-only, not assignable (based to diag_record).
      //
      class error_record
      {
      public:
        template <typename T>
        friend const error_record&
        operator<< (const error_record& r, const T& x)
        {
          r.ss_ << x;
          return r;
        }

        error_record (ostream& o, bool fail, const char* name)
            : os_ (o), fail_ (fail), empty_ (false)
        {
          ss_ << name << ": ";
        }

        // Older versions of libstdc++ don't have the ostringstream move
        // support. Luckily, GCC doesn't seem to be actually needing move due
        // to copy/move elision.
        //
#ifdef __GLIBCXX__
        error_record (error_record&&);
#else
        error_record (error_record&& r)
            : os_ (r.os_),
              ss_ (move (r.ss_)),
              fail_ (r.fail_),
              empty_ (r.empty_)
        {
          r.empty_ = true;
        }
#endif

        ~error_record () noexcept (false)
        {
          if (!empty_)
          {
            // The output stream can be in a bad state (for example as a
            // result of unsuccessful attempt to report a previous error), so
            // we check it.
            //
            if (os_.good ())
            {
              ss_.put ('\n');
              os_ << ss_.str ();
              os_.flush ();
            }

            if (fail_)
              throw failed ();
          }
        }

      private:
        ostream& os_;
        mutable ostringstream ss_;

        bool fail_;
        bool empty_;
      };

      // Parse and normalize a path. Also, unless it is already absolute, make
      // the path absolute using the specified directory. Throw invalid_path
      // if the path is empty, and on parsing and normalization failures.
      //
      static path
      parse_path (string s, const dir_path& d)
      {
        path p (move (s));

        if (p.empty ())
          throw invalid_path ("");

        if (p.relative ())
          p = d / move (p);

        p.normalize ();
        return p;
      }

      // Builtin commands functions.
      //

      // cat <file>...
      //
      // Note that POSIX doesn't specify if after I/O operation failure the
      // command should proceed with the rest of the arguments. The current
      // implementation exits immediatelly in such a case.
      //
      // @@ Shouldn't we check that we don't print a nonempty regular file to
      //    itself, as that would merely exhaust the output device? POSIX
      //    allows (but not requires) such a check and some implementations do
      //    this. That would require to fstat() file descriptors and complicate
      //    the code a bit. Was able to reproduce on a big file (should be
      //    bigger than the stream buffer size) with the test
      //    'cat file >+file'.
      //
      // Note: must be executed asynchronously.
      //
      static uint8_t
      cat (scope& sp,
           const strings& args,
           auto_fd in, auto_fd out, auto_fd err) noexcept
      try
      {
        uint8_t r (1);
        ofdstream cerr (move (err));

        auto error = [&cerr] (bool fail = true)
        {
          return error_record (cerr, fail, "cat");
        };

        try
        {
          ifdstream cin  (move (in),  fdstream_mode::binary);
          ofdstream cout (move (out), fdstream_mode::binary);

          // Copy input stream to STDOUT.
          //
          auto copy = [&cout] (istream& is)
          {
            if (is.peek () != ifdstream::traits_type::eof ())
              cout << is.rdbuf ();

            is.clear (istream::eofbit); // Sets eofbit.
          };

          // Path of a file being printed to STDOUT. An empty path represents
          // STDIN. Used in diagnostics.
          //
          path p;

          try
          {
            // Print STDIN.
            //
            if (args.empty ())
              copy (cin);

            // Print files.
            //
            for (auto i (args.begin ()); i != args.end (); ++i)
            {
              if (*i == "-")
              {
                if (!cin.eof ())
                {
                  p.clear ();
                  copy (cin);
                }

                continue;
              }

              p = parse_path (*i, sp.wd_path);

              ifdstream is (p, ifdstream::binary);
              copy (is);
              is.close ();
            }
          }
          catch (const io_error& e)
          {
            error_record d (error ());
            d << "unable to print ";

            if (p.empty ())
              d << "stdin";
            else
              d << "'" << p << "'";

            d << ": " << e;
          }

          cin.close ();
          cout.close ();
          r = 0;
        }
        catch (const invalid_path& e)
        {
          error (false) << "invalid path '" << e.path << "'";
        }
        // Can be thrown while creating/closing cin, cout or writing to cerr.
        //
        catch (const io_error& e)
        {
          error (false) << e;
        }
        catch (const failed&)
        {
          // Diagnostics has already been issued.
        }

        cerr.close ();
        return r;
      }
      catch (const std::exception&)
      {
        return 1;
      }

      // Make a copy of a file at the specified path, preserving permissions,
      // and registering a cleanup for a newly created file. The file paths
      // must be absolute. Fail if an exception is thrown by the underlying
      // copy operation.
      //
      static void
      cpfile (scope& sp,
              const path& from, const path& to,
              bool cleanup,
              const function<error_record()>& fail)
      {
        try
        {
          bool exists (file_exists (to));

          cpfile (from, to,
                  cpflags::overwrite_permissions | cpflags::overwrite_content);

          if (!exists && cleanup)
            sp.clean ({cleanup_type::always, to}, true);
        }
        catch (const system_error& e)
        {
          fail () << "unable to copy file '" << from << "' to '" << to
                  << "': " << e;
        }
      }

      // Make a copy of a directory at the specified path, registering a
      // cleanup for the created directory. The directory paths must be
      // absolute. Fail if the destination directory already exists or
      // an exception is thrown by the underlying copy operation.
      //
      static void
      cpdir (scope& sp,
             const dir_path& from, const dir_path& to,
             bool cleanup,
             const function<error_record()>& fail)
      {
        try
        {
          if (try_mkdir (to) == mkdir_status::already_exists)
            throw_generic_error (EEXIST);

          if (cleanup)
            sp.clean ({cleanup_type::always, to}, true);

          for (const auto& de: dir_iterator (from)) // Can throw.
          {
            path f (from / de.path ());
            path t (to / de.path ());

            if (de.type () == entry_type::directory)
              cpdir (sp,
                     path_cast<dir_path> (move (f)),
                     path_cast<dir_path> (move (t)),
                     cleanup,
                     fail);
            else
              cpfile (sp, f, t, cleanup, fail);
          }
        }
        catch (const system_error& e)
        {
          fail () << "unable to copy directory '" << from << "' to '" << to
                  << "': " << e;
        }
      }

      // cp [--no-cleanup]        <src-file>     <dst-file>
      // cp [--no-cleanup] -R|-r  <src-dir>      <dst-dir>
      // cp [--no-cleanup]        <src-file>...  <dst-dir>/
      // cp [--no-cleanup] -R|-r  <src-path>...  <dst-dir>/
      //
      // Note: can be executed synchronously.
      //
      static uint8_t
      cp (scope& sp,
          const strings& args,
          auto_fd in, auto_fd out, auto_fd err) noexcept
      try
      {
        uint8_t r (1);
        ofdstream cerr (move (err));

        auto error = [&cerr] (bool fail = true)
        {
          return error_record (cerr, fail, "cp");
        };

        try
        {
          in.close ();
          out.close ();

          auto i (args.begin ());
          auto e (args.end ());

          // Process options.
          //
          bool recursive (false);
          bool cleanup (true);
          for (; i != e; ++i)
          {
            const string& o (*i);

            if (o == "-R" || o == "-r")
              recursive = true;
            else if (o == "--no-cleanup")
              cleanup = false;
            else
            {
              if (o == "--")
                ++i;

              break;
            }
          }

          // Copy files or directories.
          //
          if (i == e)
            error () << "missing arguments";

          const dir_path& wd (sp.wd_path);

          auto j (args.rbegin ());
          path dst (parse_path (*j++, wd));
          e = j.base ();

          if (i == e)
            error () << "missing source path";

          auto fail = [&error] () {return error (true);};

          // If destination is not a directory path (no trailing separator)
          // then make a copy of the filesystem entry at the specified path
          // (the only source path is allowed in such a case). Otherwise copy
          // the source filesystem entries into the destination directory.
          //
          if (!dst.to_directory ())
          {
            path src (parse_path (*i++, wd));

            // If there are multiple sources but no trailing separator for the
            // destination, then, most likelly, it is missing.
            //
            if (i != e)
              error () << "multiple source paths without trailing separator "
                       << "for destination directory";

            if (!recursive)
              // Synopsis 1: make a file copy at the specified path.
              //
              cpfile (sp, src, dst, cleanup, fail);
            else
              // Synopsis 2: make a directory copy at the specified path.
              //
              cpdir (sp,
                     path_cast<dir_path> (src), path_cast<dir_path> (dst),
                     cleanup,
                     fail);
          }
          else
          {
            for (; i != e; ++i)
            {
              path src (parse_path (*i, wd));

              if (recursive && dir_exists (src))
                // Synopsis 4: copy a filesystem entry into the specified
                // directory. Note that we handle only source directories here.
                // Source files are handled below.
                //
                cpdir (sp,
                       path_cast<dir_path> (src),
                       path_cast<dir_path> (dst / src.leaf ()),
                       cleanup,
                       fail);
              else
                // Synopsis 3: copy a file into the specified directory. Also,
                // here we cover synopsis 4 for the source path being a file.
                //
                cpfile (sp, src, dst / src.leaf (), cleanup, fail);
            }
          }

          r = 0;
        }
        catch (const invalid_path& e)
        {
          error (false) << "invalid path '" << e.path << "'";
        }
        // Can be thrown while closing in, out or writing to cerr.
        //
        catch (const io_error& e)
        {
          error (false) << e;
        }
        catch (const failed&)
        {
          // Diagnostics has already been issued.
        }

        cerr.close ();
        return r;
      }
      catch (const std::exception&)
      {
        return 1;
      }

      // echo <string>...
      //
      // Note: must be executed asynchronously.
      //
      static uint8_t
      echo (scope&,
            const strings& args,
            auto_fd in, auto_fd out, auto_fd err) noexcept
      try
      {
        uint8_t r (1);
        ofdstream cerr (move (err));

        try
        {
          in.close ();
          ofdstream cout (move (out));

          for (auto b (args.begin ()), i (b), e (args.end ()); i != e; ++i)
            cout << (i != b ? " " : "") << *i;

          cout << '\n';
          cout.close ();
          r = 0;
        }
        catch (const std::exception& e)
        {
          cerr << "echo: " << e << endl;
        }

        cerr.close ();
        return r;
      }
      catch (const std::exception&)
      {
        return 1;
      }

      // false
      //
      // Failure to close the file descriptors is silently ignored.
      //
      // Note: can be executed synchronously.
      //
      static builtin
      false_ (scope&, uint8_t& r, const strings&, auto_fd, auto_fd, auto_fd)
      {
        return builtin (r = 1);
      }

      // true
      //
      // Failure to close the file descriptors is silently ignored.
      //
      // Note: can be executed synchronously.
      //
      static builtin
      true_ (scope&, uint8_t& r, const strings&, auto_fd, auto_fd, auto_fd)
      {
        return builtin (r = 0);
      }

      // Create a directory if not exist and its parent directories if
      // necessary. Throw system_error on failure. Register created
      // directories for cleanup. The directory path must be absolute.
      //
      static void
      mkdir_p (scope& sp, const dir_path& p, bool cleanup)
      {
        if (!dir_exists (p))
        {
          if (!p.root ())
            mkdir_p (sp, p.directory (), cleanup);

          try_mkdir (p); // Returns success or throws.

          if (cleanup)
            sp.clean ({cleanup_type::always, p}, true);
        }
      }

      // mkdir [--no-cleanup] [-p] <dir>...
      //
      // Note that POSIX doesn't specify if after a directory creation failure
      // the command should proceed with the rest of the arguments. The current
      // implementation exits immediatelly in such a case.
      //
      // Note: can be executed synchronously.
      //
      static uint8_t
      mkdir (scope& sp,
             const strings& args,
             auto_fd in, auto_fd out, auto_fd err) noexcept
      try
      {
        uint8_t r (1);
        ofdstream cerr (move (err));

        auto error = [&cerr] (bool fail = true)
        {
          return error_record (cerr, fail, "mkdir");
        };

        try
        {
          in.close ();
          out.close ();

          auto i (args.begin ());
          auto e (args.end ());

          // Process options.
          //
          bool parent (false);
          bool cleanup (true);
          for (; i != e; ++i)
          {
            const string& o (*i);

            if (o == "-p")
              parent = true;
            else if (o == "--no-cleanup")
              cleanup = false;
            else
            {
              if (*i == "--")
                ++i;

              break;
            }
          }

          // Create directories.
          //
          if (i == e)
            error () << "missing directory";

          for (; i != e; ++i)
          {
            dir_path p (path_cast<dir_path> (parse_path (*i, sp.wd_path)));

            try
            {
              if (parent)
                mkdir_p (sp, p, cleanup);
              else if (try_mkdir (p) == mkdir_status::success)
              {
                if (cleanup)
                  sp.clean ({cleanup_type::always, p}, true);
              }
              else //                == mkdir_status::already_exists
                throw_generic_error (EEXIST);
            }
            catch (const system_error& e)
            {
              error () << "unable to create directory '" << p << "': " << e;
            }
          }

          r = 0;
        }
        catch (const invalid_path& e)
        {
          error (false) << "invalid path '" << e.path << "'";
        }
        // Can be thrown while closing in, out or writing to cerr.
        //
        catch (const io_error& e)
        {
          error (false) << e;
        }
        catch (const failed&)
        {
          // Diagnostics has already been issued.
        }

        cerr.close ();
        return r;
      }
      catch (const std::exception&)
      {
        return 1;
      }

      // rm [-r] [-f] <path>...
      //
      // The implementation deviates from POSIX in a number of ways. It doesn't
      // interact with a user and fails immediatelly if unable to process an
      // argument. It doesn't check for dots containment in the path, and
      // doesn't consider files and directory permissions in any way just
      // trying to remove a filesystem entry. Always fails if empty path is
      // specified.
      //
      // Note: can be executed synchronously.
      //
      static uint8_t
      rm (scope& sp,
          const strings& args,
          auto_fd in, auto_fd out, auto_fd err) noexcept
      try
      {
        uint8_t r (1);
        ofdstream cerr (move (err));

        auto error = [&cerr] (bool fail = true)
        {
          return error_record (cerr, fail, "rm");
        };

        try
        {
          in.close ();
          out.close ();

          auto i (args.begin ());
          auto e (args.end ());

          // Process options.
          //
          bool dir (false);
          bool force (false);
          for (; i != e; ++i)
          {
            if (*i == "-r")
              dir = true;
            else if (*i == "-f")
              force = true;
            else
            {
              if (*i == "--")
                ++i;

              break;
            }
          }

          // Remove entries.
          //
          if (i == e && !force)
            error () << "missing file";

          const dir_path& wd  (sp.wd_path);
          const dir_path& rwd (sp.root->wd_path);

          for (; i != e; ++i)
          {
            path p (parse_path (*i, wd));

            if (!p.sub (rwd) && !force)
              error () << "'" << p << "' is out of working directory '" << rwd
                       << "'";

            try
            {
              dir_path d (path_cast<dir_path> (p));

              if (dir_exists (d))
              {
                if (!dir)
                  error () << "'" << p << "' is a directory";

                if (wd.sub (d))
                  error () << "'" << p << "' contains test working directory '"
                           << wd << "'";

                // The call can result in rmdir_status::not_exist. That's not
                // very likelly but there is also nothing bad about it.
                //
                try_rmdir_r (d);
              }
              else if (try_rmfile (p) == rmfile_status::not_exist && !force)
                throw_generic_error (ENOENT);
            }
            catch (const system_error& e)
            {
              error () << "unable to remove '" << p << "': " << e;
            }
          }

          r = 0;
        }
        catch (const invalid_path& e)
        {
          error (false) << "invalid path '" << e.path << "'";
        }
        // Can be thrown while closing in, out or writing to cerr.
        //
        catch (const io_error& e)
        {
          error (false) << e;
        }
        catch (const failed&)
        {
          // Diagnostics has already been issued.
        }

        cerr.close ();
        return r;
      }
      catch (const std::exception&)
      {
        return 1;
      }

      // rmdir [-f] <path>...
      //
      // Note: can be executed synchronously.
      //
      static uint8_t
      rmdir (scope& sp,
             const strings& args,
             auto_fd in, auto_fd out, auto_fd err) noexcept
      try
      {
        uint8_t r (1);
        ofdstream cerr (move (err));

        auto error = [&cerr] (bool fail = true)
        {
          return error_record (cerr, fail, "rmdir");
        };

        try
        {
          in.close ();
          out.close ();

          auto i (args.begin ());
          auto e (args.end ());

          // Process options.
          //
          bool force (false);
          for (; i != e; ++i)
          {
            if (*i == "-f")
              force = true;
            else
            {
              if (*i == "--")
                ++i;

              break;
            }
          }

          // Remove directories.
          //
          if (i == e && !force)
            error () << "missing directory";

          const dir_path& wd  (sp.wd_path);
          const dir_path& rwd (sp.root->wd_path);

          for (; i != e; ++i)
          {
            dir_path p (path_cast<dir_path> (parse_path (*i, wd)));

            if (wd.sub (p))
              error () << "'" << p << "' contains test working directory '"
                       << wd << "'";

            if (!p.sub (rwd) && !force)
              error () << "'" << p << "' is out of working directory '"
                       << rwd << "'";

            try
            {
              rmdir_status s (try_rmdir (p));

              if (s == rmdir_status::not_empty)
                throw_generic_error (ENOTEMPTY);
              else if (s == rmdir_status::not_exist && !force)
                throw_generic_error (ENOENT);
            }
            catch (const system_error& e)
            {
              error () << "unable to remove '" << p << "': " << e;
            }
          }

          r = 0;
        }
        catch (const invalid_path& e)
        {
          error (false) << "invalid path '" << e.path << "'";
        }
        // Can be thrown while closing in, out or writing to cerr.
        //
        catch (const io_error& e)
        {
          error (false) << e;
        }
        catch (const failed&)
        {
          // Diagnostics has already been issued.
        }

        cerr.close ();
        return r;
      }
      catch (const std::exception&)
      {
        return 1;
      }

      // sed [-n] [-i] -e <script> [<file>]
      //
      // Note: must be executed asynchronously.
      //
      static uint8_t
      sed (scope& sp,
           const strings& args,
           auto_fd in, auto_fd out, auto_fd err) noexcept
      try
      {
        uint8_t r (1);
        ofdstream cerr (move (err));

        auto error = [&cerr] (bool fail = true)
        {
          return error_record (cerr, fail, "sed");
        };

        try
        {
          // Automatically remove a temporary file (used for in place editing)
          // on failure.
          //
          auto_rmfile rm;

          // Do not throw when failbit is set (getline() failed to extract any
          // character).
          //
          ifdstream cin  (move (in), ifdstream::badbit);
          ofdstream cout (move (out));

          auto i (args.begin ());
          auto e (args.end ());

          // Process options.
          //
          bool auto_prn (true);
          bool in_place (false);

          struct substitute
          {
            string regex;
            string replacement;
            bool icase  = false;
            bool global = false;
            bool print  = false;
          };
          optional<substitute> subst;

          for (; i != e; ++i)
          {
            const string& o (*i);

            if (o == "-n")
              auto_prn = false;
            else if (o == "-i")
              in_place = true;
            else if (o == "-e")
            {
              // Only a single script is supported.
	      //
              if (subst)
                error () << "multiple scripts";

              // If option has no value then bail out and report.
              //
              if (++i == e)
                break;

              const string& v (*i);
              if (v.empty ())
                error () << "empty script";

              if (v[0] != 's')
                error () << "only 's' command supported";

              // Parse the substitute command.
              //
              if (v.size () < 2)
                error () << "no delimiter for 's' command";

              char delim (v[1]);
              if (delim == '\\' || delim == '\n')
                error () << "invalid delimiter for 's' command";

              size_t p (v.find (delim, 2));
              if (p == string::npos)
                error () << "unterminated 's' command regex";

              subst = substitute ();
              subst->regex.assign (v, 2, p - 2);

              // Empty regex matches nothing, so not of much use.
              //
              if (subst->regex.empty ())
                error () << "empty regex in 's' command";

              size_t b (p + 1);
              p = v.find (delim, b);
              if (p == string::npos)
                error () << "unterminated 's' command replacement";

              subst->replacement.assign (v, b, p - b);

              // Parse the substitute command flags.
              //
              char c;
              for (++p; (c = v[p]) != '\0'; ++p)
              {
                switch (c)
                {
                case 'i': subst->icase  = true; break;
                case 'g': subst->global = true; break;
                case 'p': subst->print  = true; break;
                default:
                  {
                    error () << "invalid 's' command flag '" << c << "'";
                  }
                }
              }
            }
            else
            {
              if (o == "--")
                ++i;

              break;
            }
          }

          if (!subst)
            error () << "missing script";

          // Path of a file to edit. An empty path represents stdin.
          //
          path p;
          if (i != e)
	  {
	    if (*i != "-")
              p = parse_path (*i, sp.wd_path);

            ++i;
	  }

          if (i != e)
	    error () << "unexpected argument";

          // If we edit file in place make sure that the file path is specified
          // and obtain a temporary file path. We will be writing to the
          // temporary file (rather than to stdout) and will move it to the
          // original file path afterwards.
          //
          path tp;
          if (in_place)
          {
            if (p.empty ())
              error () << "-i option specified while reading from stdin";

            try
            {
              tp = path::temp_path ("build2-sed");

              cout.close ();  // Flush and close.

              cout.open (
                fdopen (tp,
                        fdopen_mode::out | fdopen_mode::truncate |
                        fdopen_mode::create,
                        path_permissions (p)));
            }
            catch (const io_error& e)
            {
              error_record d (error ());
              d << "unable to open '" << tp << "': " << e;
            }
            catch (const system_error& e)
            {
              error_record d (error ());
              d << "unable to obtain temporary file: " << e;
            }

            rm = auto_rmfile (tp);
          }

          // Note that ECMAScript is implied if no grammar flag is specified.
          //
          regex re (subst->regex,
                    subst->icase ? regex::icase : regex::ECMAScript);

          // Edit a file or STDIN.
          //
          try
          {
            // Open a file if specified.
            //
            if (!p.empty ())
            {
              cin.close (); // Flush and close.
              cin.open (p);
            }

            // Read until failbit is set (throw on badbit).
            //
            string s;
            while (getline (cin, s))
            {
              auto r (regex_replace_ex (s,
                                        re,
                                        subst->replacement,
                                        subst->global
                                        ? regex_constants::format_default
                                        : regex_constants::format_first_only));

              // Add newline regardless whether the source line is newline-
              // terminated or not (in accordance with POSIX).
              //
              if (auto_prn || (r.second && subst->print))
                cout << r.first << '\n';
            }

            cin.close ();
            cout.close ();

            if (in_place)
            {
              mvfile (
                tp, p,
                cpflags::overwrite_content | cpflags::overwrite_permissions);

              rm.cancel ();
            }

            r = 0;
          }
          catch (const io_error& e)
          {
            error_record d (error ());
            d << "unable to edit ";

            if (p.empty ())
              d << "stdin";
            else
              d << "'" << p << "'";

            d << ": " << e;
          }
        }
        catch (const regex_error& e)
        {
          // Print regex_error description if meaningful (no space).
          //
          error (false) << "invalid regex" << e;
        }
        catch (const invalid_path& e)
        {
          error (false) << "invalid path '" << e.path << "'";
        }
        // Can be thrown while creating cin, cout or writing to cerr.
        //
        catch (const io_error& e)
        {
          error (false) << e;
        }
        catch (const system_error& e)
        {
          error (false) << e;
        }
        catch (const failed&)
        {
          // Diagnostics has already been issued.
        }

        cerr.close ();
        return r;
      }
      catch (const std::exception&)
      {
        return 1;
      }

      // test -f|-d <path>
      //
      // Note: can be executed synchronously.
      //
      static uint8_t
      test (scope& sp,
            const strings& args,
            auto_fd in, auto_fd out, auto_fd err) noexcept
      try
      {
        uint8_t r (2);
        ofdstream cerr (move (err));

        auto error = [&cerr] (bool fail = true)
        {
          return error_record (cerr, fail, "test");
        };

        try
        {
          in.close ();
          out.close ();

          if (args.size () < 2)
            error () << "missing path";

          bool file (args[0] == "-f");

          if (!file && args[0] != "-d")
            error () << "invalid option";

          if (args.size () > 2)
            error () << "unexpected argument";

          path p (parse_path (args[1], sp.wd_path));

          try
          {
            r = (file ? file_exists (p) : dir_exists (p)) ? 0 : 1;
          }
          catch (const system_error& e)
          {
            error () << "cannot test '" << p << "': " << e;
          }
        }
        catch (const invalid_path& e)
        {
          error (false)  << "invalid path '" << e.path << "'";
        }
        // Can be thrown while closing in, out or writing to cerr.
        //
        catch (const io_error& e)
        {
          error (false) << e;
        }
        catch (const failed&)
        {
          // Diagnostics has already been issued.
        }

        cerr.close ();
        return r;
      }
      catch (const std::exception&)
      {
        return 2;
      }

      // touch [--no-cleanup] <file>...
      //
      // Note that POSIX doesn't specify the behavior for touching an entry
      // other than file.
      //
      // Also note that POSIX doesn't specify if after a file touch failure the
      // command should proceed with the rest of the arguments. The current
      // implementation exits immediatelly in such a case.
      //
      // Note: can be executed synchronously.
      //
      static uint8_t
      touch (scope& sp,
             const strings& args,
             auto_fd in, auto_fd out, auto_fd err) noexcept
      try
      {
        uint8_t r (1);
        ofdstream cerr (move (err));

        auto error = [&cerr] (bool fail = true)
        {
          return error_record (cerr, fail, "touch");
        };

        try
        {
          in.close ();
          out.close ();

          if (args.empty ())
            error () << "missing file";

          auto i (args.begin ());
          auto e (args.end ());

          // Process options.
          //
          bool cleanup (true);
          for (; i != e; ++i)
          {
            const string& o (*i);

            if (o == "--no-cleanup")
              cleanup = false;
            else
            {
              if (o == "--")
                ++i;

              break;
            }
          }

          // Create files.
          //
          for (; i != e; ++i)
          {
            path p (parse_path (*i, sp.wd_path));

            try
            {
              if (file_exists (p))
              {
                // Set the file access and modification times to the current
                // time. Note that we don't register (implicit) cleanup for an
                // existing path.
                //
#ifndef _WIN32
                if (utime  (p.string ().c_str (), nullptr) == -1)
#else
                if (_utime (p.string ().c_str (), nullptr) == -1)
#endif
                  throw_generic_error (errno);
              }
              else if (!entry_exists (p))
              {
                // Create the file. Assume the file access and modification
                // times are set to the current time automatically.
                //
                try
                {
                  fdopen (p, fdopen_mode::out | fdopen_mode::create);
                }
                catch (const io_error& e)
                {
                  error () << "cannot create file '" << p << "': " << e;
                }

                if (cleanup)
                  sp.clean ({cleanup_type::always, p}, true);
              }
              else
                error () << "'" << p << "' exists and is not a file";
            }
            catch (const system_error& e)
            {
              error () << "cannot create/update '" << p << "': " << e;
            }
          }

          r = 0;
        }
        catch (const invalid_path& e)
        {
          error (false) << "invalid path '" << e.path << "'";
        }
        // Can be thrown while closing in, out or writing to cerr.
        //
        catch (const io_error& e)
        {
          error (false) << e;
        }
        catch (const failed&)
        {
          // Diagnostics has already been issued.
        }

        cerr.close ();
        return r;
      }
      catch (const std::exception&)
      {
        return 1;
      }

      static void
      thread_thunk (builtin_impl* fn,
                    scope& sp,
                    const strings& args,
                    auto_fd in, auto_fd out, auto_fd err,
                    uint8_t& r) noexcept
      {
        r = fn (sp, args, move (in), move (out), move (err));
      }

      // Run builtin implementation asynchronously.
      //
      static builtin
      async_impl (builtin_impl fn,
                  scope& sp,
                  uint8_t& r,
                  const strings& args,
                  auto_fd in, auto_fd out, auto_fd err)
      {
        return builtin (r,
                        thread (thread_thunk,
                                fn,
                                ref (sp),
                                cref (args),
                                move (in), move (out), move (err),
                                ref (r)));
      }

      template <builtin_impl fn>
      static builtin
      async_impl (scope& sp,
                  uint8_t& r,
                  const strings& args,
                  auto_fd in, auto_fd out, auto_fd err)
      {
        return async_impl (fn, sp, r, args, move (in), move (out), move (err));
      }

      // Run builtin implementation synchronously.
      //
      template <builtin_impl fn>
      static builtin
      sync_impl (scope& sp,
                 uint8_t& r,
                 const strings& args,
                 auto_fd in, auto_fd out, auto_fd err)
      {
        r = fn (sp, args, move (in), move (out), move (err));
        return builtin (r, thread ());
      }

      const builtin_map builtins
      {
        {"cat",   &async_impl<&cat>},
        {"cp",    &sync_impl<&cp>},
        {"echo",  &async_impl<&echo>},
        {"false", &false_},
        {"mkdir", &sync_impl<&mkdir>},
        {"rm",    &sync_impl<&rm>},
        {"rmdir", &sync_impl<&rmdir>},
        {"sed",   &async_impl<&sed>},
        {"test",  &sync_impl<&test>},
        {"touch", &sync_impl<&touch>},
        {"true",  &true_}
      };
    }
  }
}