/** @file

    $Id$

    $Date$
    $Author$

    @copy © Marc Wäckerlin
    @license LGPL, see file <a href="license.html">COPYING</a>

    $Log$
    Revision 1.6  2004/12/17 16:28:51  marc
    stable implementation with select for both executes

    Revision 1.5  2004/12/14 20:30:09  marc
    added possibility to pass string to stdin of child process

    Revision 1.4  2004/08/28 16:21:25  marc
    mrw-c++-0.92 (mrw)
    - new file: version.cpp
    - new file header for all sources
    - work around warning in mrw::auto<T>
    - possibility to compile without log4cxx
    - work around bugs in demangle.h and libiberty.h
    - corrections in documentation
    - added simple tracing mechanism
    - more warnings
    - small corrections in Auto<>::Free and a new test for it
    - possibility to compile without stack trace

*/
#include <mrw/exec.hpp>
#include <mrw/unistd.hpp>
#include <mrw/exception.hpp>
#include <mrw/stdext.hpp> // max
#include <sys/wait.h> // waitpid
#include <unistd.h> // fork, exec
#include <string.h>  // memcpy
#include <assert.h> // assert

mrw::ExecutionFailedExc::ExecutionFailedExc(const std::string& w,
                                            const std::string& c)
  throw(std::bad_exception):
  _what(std::string("mrw::Exec: command execution failed\n")+
        std::string("           failed command was: \""+c+"\"\n")+
        std::string("           error was: \"")+w+'"') {
  /**
      @c what looks like:
      @verbatim
      mrw::Exec: command execution failed
                 failed command was: "/bin/OOOOPS -v -q --crash"
                 error was: "execution failed"
      @endverbatim
  */
}

mrw::Cmd::Cmd(const std::string& c) throw(std::bad_exception) {
  _cmd.push_back(c);
}

mrw::Cmd& mrw::Cmd::operator,(const std::string& arg)
  throw(std::bad_exception) {
  _cmd.push_back(arg);
  return *this;
}

mrw::Cmd& mrw::Cmd::operator<<(const std::string& arg)
  throw(std::bad_exception) {
  _cmd.push_back(arg);
  return *this;
}

mrw::Cmd::operator std::string() const throw(std::bad_exception) {
  ArgList::const_iterator it(_cmd.begin());
  std::string c(*it);
  while (++it!=_cmd.end()) c+=' '+*it;
  return c;
}

mrw::Cmd::operator mrw::Exec() const throw(std::bad_exception) {
  return mrw::Exec(*this);
}

mrw::Exec mrw::Cmd::execute(bool exc) const throw(std::exception) {
  return mrw::Exec(*this).execute(exc);
}

mrw::Exec mrw::Cmd::execute(const std::string& input, bool exc) const
  throw(std::exception) {
  return mrw::Exec(*this).execute(input, exc);
}

const char* mrw::Cmd::path() const throw(std::bad_exception) {
  return _cmd.front().c_str();
}
char** mrw::Cmd::args() const throw(std::bad_exception) {
  if (_cmd.size()==0) return 0;
  char** array = new char*[_cmd.size()+1];
  int i(0);
  for (ArgList::const_iterator it(_cmd.begin()); it!=_cmd.end(); ++it)
    memcpy(array[i++]=new char[it->size()+1], it->c_str(), it->size()+1);
  array[i] = 0;
  return array;
}

mrw::Exec::Exec(const mrw::Cmd& c) throw(std::bad_exception):
  _cmd(new mrw::Cmd(c)), _success(false) {
}

mrw::Exec::Exec(const mrw::Exec& e) throw(std::bad_exception):
  _cmd(new mrw::Cmd(*e._cmd)),
  _res(e._res), _err(e._err), _success(e._success) {
}

mrw::Exec::~Exec() throw() {
  delete _cmd;
}

mrw::Exec& mrw::Exec::operator=(const mrw::Exec& e) throw(std::bad_exception) {
  if (this==&e) return *this;
  *_cmd=*e._cmd; _res=e._res; _err=e._err; _success=e._success;
  return *this;
}

mrw::Exec& mrw::Exec::execute(bool exc) throw(std::exception) {
  /** This method calls @c fork, sets up a pipe connection to pass @c
      stdout and @c stderr from the child process to the parent
      process using mrw::Pipe and calls @c execvp to execute the
      program. */
  _success = false;
  _res = _err = "";
  mrw::Pipe stdOut, stdErr;
  if (!stdOut || !stdErr)
    throw mrw::ExecutionFailedExc("cannot create pipe", *_cmd);
  pid_t pid(fork());
  if (pid<0)
    throw ExecutionFailedExc("cannot fork", *_cmd);
  if (pid) { // parent
    stdOut.close_out();
    stdErr.close_out();
    if (!stdOut || !stdErr)
      throw ExecutionFailedExc("cannot close pipe", *_cmd);
    ssize_t num1(-1), num2(-1);
    fd_set readfds;
    char buf[4096];
    int res(0), s(0);
    while (num1||num2) try { // not all end of file
      if (!res && (res=waitpid(pid, &s, WNOHANG)))
        if (res!=pid || WIFEXITED(s)!=0 && WEXITSTATUS(s)!=0)
          throw ExecutionFailedExc("execution failed", *_cmd);
      // select...
      FD_ZERO(&readfds);
      if (num1) FD_SET(stdOut.istream(), &readfds);
      if (num2) FD_SET(stdErr.istream(), &readfds);
      int n(mrw::max((num1?stdOut.istream():0),
                     (num2?stdErr.istream():0)));
      timeval tm = {0, 10000};
      int num = select(n, &readfds, 0, 0, &tm);
      if (num<0) throw ExecutionFailedExc("select failed", *_cmd);
      if (num==0 && res==pid) break; // process ended, no data left
      // check and handle stdout
      if (num>0 && FD_ISSET(stdOut.istream(), &readfds))
        if ((num1=read(stdOut.istream(), buf, sizeof(buf)))>0)
          _res += std::string(buf, num1);
        else if (num1==-1 && (errno!=EINTR&&errno!=EAGAIN))
          throw ExecutionFailedExc("readin stdout", *_cmd);
      // check and handle stderr
      if (num>0 && FD_ISSET(stdErr.istream(), &readfds))
        if ((num2=read(stdErr.istream(), buf, sizeof(buf)))>0)
          _err += std::string(buf, num2);
        else if (num2==-1 && (errno!=EINTR&&errno!=EAGAIN))
          throw ExecutionFailedExc("readin stderr", *_cmd);
    } catch (...) {
      if (exc) throw;
      _success = false;
      return *this;
    }
  } else { // child
    stdOut.close_in();
    stdErr.close_in();
    stdOut.connect_cout();
    stdErr.connect_cerr();
    execvp(_cmd->path(), _cmd->args());
    exit(1); // execute failed
  }
  _success = true;
  return *this;
}

mrw::Exec& mrw::Exec::execute(const std::string& input, bool exc)
  throw(std::exception) {
  /// @c input length must be smaller than @c SSIZE_MAX.
  /// I'll only add support for longer strings upon request.
  assert(input.size()<=SSIZE_MAX &&
         "sdin input exeeds C library limit in mrw::Exec "
         "please contact the author of the library");
  /** This method calls @c fork, sets up a pipe connection to pass @c
      stdin, @c stdout and @c stderr from the child process to the
      parent process using mrw::Pipe and calls @c execvp to execute
      the program. */
  _success = false;
  _res = _err = "";
  mrw::Pipe stdIn(true), // child terminates if stdin is non-blocking
     stdOut, stdErr;
  if (!stdIn || !stdOut || !stdErr)
    throw mrw::ExecutionFailedExc("cannot create pipe", *_cmd);
  pid_t pid(fork());
  if (pid<0) throw ExecutionFailedExc("cannot fork", *_cmd);
  if (pid) { // parent
    stdIn.close_in();
    stdOut.close_out();
    stdErr.close_out();
    if (!stdIn || !stdOut || !stdErr)
      throw ExecutionFailedExc("cannot close pipes", *_cmd);
    ssize_t num0(-1), num1(-1), num2(-1);
    std::string in(input);
    fd_set writefds, readfds;
    char buf[4096];
    int res(0), s(0);
    while (num0||num1||num2) try { // not all end of file
      if (!res && (res=waitpid(pid, &s, WNOHANG)))
        if (res!=pid || WIFEXITED(s)!=0 && WEXITSTATUS(s)!=0)
          throw ExecutionFailedExc("execution failed", *_cmd);
      // select...
      FD_ZERO(&writefds);
      FD_ZERO(&readfds);
      if (num0) FD_SET(stdIn.ostream(), &writefds);
      if (num1) FD_SET(stdOut.istream(), &readfds);
      if (num2) FD_SET(stdErr.istream(), &readfds);
      int n(mrw::max((num0?stdIn.ostream():0),
                     mrw::max((num1?stdOut.istream():0),
                              (num2?stdErr.istream():0))));
      timeval tm = {0, 10000};
      int num = select(n, &readfds, &writefds, 0, &tm);
      if (num<0) throw ExecutionFailedExc("select failed", *_cmd);
      if (num==0 && res==pid) break; // process ended, no data left
      // check and handle stdin
      if (num0 && num>0
          && FD_ISSET(stdIn.ostream(), &writefds))
        if ((num0=write(stdIn.ostream(), in.c_str(), in.size()))>0) {
          if ((unsigned int)num0<in.size())
            in = in.substr(num0);
          else if ((unsigned int)num0==in.size())
            num0=0, stdIn.close_out();
        } else if (num0==-1 && (errno!=EINTR&&errno!=EAGAIN))
          throw ExecutionFailedExc("writing stdin", *_cmd);
      // check and handle stdout
      if (num>0 && FD_ISSET(stdOut.istream(), &readfds))
        if ((num1=read(stdOut.istream(), buf, sizeof(buf)))>0)
          _res += std::string(buf, num1);
        else if (num1==-1 && (errno!=EINTR&&errno!=EAGAIN))
          throw ExecutionFailedExc("readin stdout", *_cmd);
      // check and handle stderr
      if (num>0 && FD_ISSET(stdErr.istream(), &readfds))
        if ((num2=read(stdErr.istream(), buf, sizeof(buf)))>0)
          _err += std::string(buf, num2);
        else if (num2==-1 && (errno!=EINTR&&errno!=EAGAIN))
          throw ExecutionFailedExc("readin stderr", *_cmd);
    } catch (...) {
      if (exc) throw;
      _success = false;
      return *this;
    }
  } else { // child
    stdIn.close_out();
    stdOut.close_in();
    stdErr.close_in();
    stdIn.connect_cin();
    stdOut.connect_cout(); // if cin is non blocking, child terminates here?!?
    stdErr.connect_cerr();
    execvp(_cmd->path(), _cmd->args());
    exit(1); // execute failed
  }
  _success = true;
  return *this;
}

mrw::Exec& mrw::Exec::operator>>(std::string& res) throw(std::exception) {
  execute();
  res += _res;
  return *this;
}

mrw::Exec::operator std::string&() throw(std::exception) {
  if (!_success) execute();
  return _res;
}

mrw::Exec::operator bool() throw(std::bad_exception) {
  return _success;
}

std::string& mrw::Exec::result() throw(std::exception) {
  if (!_success) execute();
  return _res;
}

std::string& mrw::Exec::error() throw(std::exception) {
  if (!_success) execute();
  return _err;
}

bool mrw::Exec::success() throw(std::bad_exception) {
  return _success;
}