File: sbuild-run-parts.cc

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schroot 1.6.4-4
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/* Copyright © 2005-2009  Roger Leigh <rleigh@debian.org>
 *
 * schroot is free software: you can redistribute it and/or modify it
 * under the terms of the GNU General Public License as published by
 * the Free Software Foundation, either version 3 of the License, or
 * (at your option) any later version.
 *
 * schroot is distributed in the hope that it will be useful, but
 * WITHOUT ANY WARRANTY; without even the implied warranty of
 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU
 * General Public License for more details.
 *
 * You should have received a copy of the GNU General Public License
 * along with this program.  If not, see
 * <http://www.gnu.org/licenses/>.
 *
 *********************************************************************/

#include <config.h>

#include "sbuild-run-parts.h"
#include "sbuild-util.h"

#include <cerrno>

#include <poll.h>
#include <sys/wait.h>

#include <syslog.h>

#include <boost/format.hpp>
#include <boost/filesystem/operations.hpp>

using boost::format;
using namespace sbuild;

namespace
{

  typedef std::pair<run_parts::error_code,const char *> emap;

  /**
   * This is a list of the supported error codes.  It's used to
   * construct the real error codes map.
   */
  emap init_errors[] =
    {
      emap(run_parts::CHILD_FORK, N_("Failed to fork child")),
      emap(run_parts::CHILD_WAIT, N_("Wait for child failed")),
      // TRANSLATORS: %1% = command name
      emap(run_parts::EXEC,       N_("Failed to execute “%1%”")),
      emap(run_parts::PIPE,       N_("Failed to create pipe")),
      emap(run_parts::DUP,        N_("Failed to duplicate file descriptor")),
      emap(run_parts::POLL,       N_("Failed to poll file descriptor")),
      emap(run_parts::READ,       N_("Failed to read file descriptor"))
    };

}

template<>
error<run_parts::error_code>::map_type
error<run_parts::error_code>::error_strings
(init_errors,
 init_errors + (sizeof(init_errors) / sizeof(init_errors[0])));

run_parts::run_parts (std::string const& directory,
		      bool               lsb_mode,
		      bool               abort_on_error,
		      mode_t             umask):
  lsb_mode(true),
  abort_on_error(abort_on_error),
  umask(umask),
  verbose(false),
  reverse(false),
  directory(directory),
  programs()
{
  boost::filesystem::path dirpath(directory);
  boost::filesystem::directory_iterator end_iter;
  for (boost::filesystem::directory_iterator dirent(dirpath);
       dirent != end_iter;
       ++dirent)
    {
#if !defined(BOOST_FILESYSTEM_VERSION) || BOOST_FILESYSTEM_VERSION == 2
      std::string name(dirent->leaf());
#else
      std::string name(dirent->path().filename().string());
#endif

      // Skip common directories.
      if (name == "." || name == "..")
	continue;

      // Skip backup files and dpkg configuration backup files.
      if (is_valid_filename(name, this->lsb_mode))
	this->programs.insert(name);
    }
}

run_parts::~run_parts ()
{
}

bool
run_parts::get_verbose () const
{
  return this->verbose;
}

void
run_parts::set_verbose (bool verbose)
{
  this->verbose = verbose;
}

bool
run_parts::get_reverse () const
{
  return this->reverse;
}

void
run_parts::set_reverse (bool reverse)
{
  this->reverse = reverse;
}

int
run_parts::run (string_list const& command,
		environment const& env)
{
  int exit_status = 0;

  if (!this->reverse)
    {
      for (program_set::const_iterator pos = this->programs.begin();
	   pos != this->programs.end();
	   ++pos)
	{
	  string_list real_command;
	  real_command.push_back(*pos);
	  for (string_list::const_iterator spos = command.begin();
	       spos != command.end();
	       ++spos)
	    real_command.push_back(*spos);

	  exit_status = run_child(*pos, real_command, env);

	  if (exit_status && this->abort_on_error)
	    return exit_status;
	}
    }
  else
    {
      for (program_set::const_reverse_iterator pos = this->programs.rbegin();
	   pos != this->programs.rend();
	   ++pos)
	{
	  string_list real_command;
	  real_command.push_back(*pos);
	  for (string_list::const_iterator spos = command.begin();
	       spos != command.end();
	       ++spos)
	    real_command.push_back(*spos);

	  exit_status = run_child(*pos, real_command, env);

	  if (exit_status && this->abort_on_error)
	    return exit_status;
	}
    }

  return exit_status;
}

int
run_parts::run_child (std::string const& file,
		      string_list const& command,
		      environment const& env)
{
  int stdout_pipe[2];
  int stderr_pipe[2];
  int exit_status = 0;
  pid_t pid;

  try
    {
      if (pipe(stdout_pipe) < 0)
	throw error(PIPE, strerror(errno));
      if (pipe(stderr_pipe) < 0)
	throw error(PIPE, strerror(errno));

      if ((pid = fork()) == -1)
	{
	  throw error(CHILD_FORK, strerror(errno));
	}
      else if (pid == 0)
	{
	  try
	    {
	      log_debug(DEBUG_INFO) << "run_parts: executing "
				    << string_list_to_string(command, ", ")
				    << std::endl;
	      if (this->verbose)
		// TRANSLATORS: %1% = command
		log_info() << format(_("Executing ‘%1%’"))
		  % string_list_to_string(command, " ")
			   << std::endl;
	      ::umask(this->umask);

	      // Don't leak syslog file descriptor to child processes.
	      closelog();

	      // Set up pipes for stdout and stderr
	      if (dup2(stdout_pipe[1], STDOUT_FILENO) < 0)
		throw error(DUP, strerror(errno));
	      if (dup2(stderr_pipe[1], STDERR_FILENO) < 0)
		throw error(DUP, strerror(errno));

	      close(stdout_pipe[0]);
	      close(stdout_pipe[1]);
	      close(stderr_pipe[0]);
	      close(stderr_pipe[1]);

	      exec(this->directory + '/' + file, command, env);
	      error e(file, EXEC, strerror(errno));
	      log_exception_error(e);
	    }
	  catch (std::exception const& e)
	    {
	      log_exception_error(e);
	    }
	  catch (...)
	    {
	      log_error()
		<< _("An unknown exception occurred") << std::endl;
	    }
	  _exit(EXIT_FAILURE);
	}

      // Log stdout and stderr.
      close(stdout_pipe[1]);
      close(stderr_pipe[1]);

      struct pollfd pollfds[2];
      pollfds[0].fd = stdout_pipe[0];
      pollfds[0].events = POLLIN;
      pollfds[0].revents = 0;
      pollfds[1].fd = stderr_pipe[0];
      pollfds[1].events = POLLIN;
      pollfds[1].revents = 0;

      char buffer[BUFSIZ];

      std::string stdout_buf;
      std::string stderr_buf;

      while (1)
	{
	  int status;
	  if ((status = poll(pollfds, 2, -1)) < 0)
	    throw error(POLL, strerror(errno));

	  int outdata = 0;
	  int errdata = 0;

	  if (pollfds[1].revents & POLLIN)
	    {
	      if ((errdata = read(pollfds[1].fd, buffer, BUFSIZ)) < 0
		  && errno != EINTR)
		throw error(READ, strerror(errno));

	      if (errdata)
		stderr_buf += std::string(&buffer[0], errdata);
	    }

	  if (pollfds[0].revents & POLLIN)
	    {
	      if ((outdata = read(pollfds[0].fd, buffer, BUFSIZ)) < 0
		  && errno != EINTR)
		throw error(READ, strerror(errno));

	      if (outdata)
		stdout_buf += std::string(&buffer[0], outdata);
	    }

	  if (!stderr_buf.empty())
	    {
	      string_list lines = split_string_strict(stderr_buf, "\n");
	      // If the buffer ends in a newline before splitting,
	      // it's OK to flush all lines.
	      bool flush = *stderr_buf.rbegin() == '\n';

	      for (string_list::const_iterator pos = lines.begin();
		   pos != lines.end();
		   ++pos)
		{
		  if (pos + 1 != lines.end() || flush)
		    log_error() << file << ": " << *pos << '\n';
		  else // Save possibly incompete line
		    stderr_buf = *pos;
		}

	      if (flush)
		stderr_buf.clear();
	    }

	  if (!stdout_buf.empty())
	    {
	      string_list lines = split_string_strict(stdout_buf, "\n");
	      // If the buffer ends in a newline before splitting,
	      // it's OK to flush all lines.
	      bool flush = *stdout_buf.rbegin() == '\n';

	      for (string_list::const_iterator pos = lines.begin();
		   pos != lines.end();
		   ++pos)
		{
		  if (pos + 1 != lines.end() || flush)
		    log_info() << file << ": " << *pos << '\n';
		  else // Save possibly incompete line
		    stdout_buf = *pos;
		}

	      if (flush)
		stdout_buf.clear();
	    }

	  if (outdata == 0 && errdata == 0) // pipes closed
	    {
	      // Flush any remaining lines
	      if (!stderr_buf.empty())
		log_error() << file << ": " << stderr_buf << '\n';
	      if (!stdout_buf.empty())
		log_info() << file << ": " << stdout_buf << '\n';
	      break;
	    }
	}

      close(stdout_pipe[0]);
      close(stderr_pipe[0]);
      wait_for_child(pid, exit_status);
    }
  catch (error const& e)
    {
      close(stdout_pipe[0]);
      close(stdout_pipe[1]);
      close(stderr_pipe[0]);
      close(stderr_pipe[1]);
      throw;
    }

  if (exit_status)
    log_debug(DEBUG_INFO) << "run_parts: " << file
			  << " failed with status " << exit_status
			  << std::endl;
  else
    log_debug(DEBUG_INFO) << "run_parts: " << file
			  << " succeeded"
			  << std::endl;

  return exit_status;
}

void
run_parts::wait_for_child (pid_t pid,
			   int&  child_status)
{
  child_status = EXIT_FAILURE; // Default exit status

  int status;

  while (1)
    {
      if (waitpid(pid, &status, 0) == -1)
	{
	  if (errno == EINTR)
	    continue; // Wait again.
	  else
	    throw error(CHILD_WAIT, strerror(errno));
	}
      else
	break;
    }

  if (WIFEXITED(status))
    child_status = WEXITSTATUS(status);
}