コード例 #1
0
ファイル: xsendstring.cpp プロジェクト: bwilcox/pwsafe
/*
 * DoSendString - actually sends a string to the X Window having input focus
 *
 * The main task of this function is to convert the ascii char values
 * into X KeyCodes.  But they need to be converted to X KeySyms first
 * and then to the keycodes.  The KeyCodes can have any random values
 * and are not contiguous like the ascii values are.
 *
 * Some escape sequences can be converted to the appropriate KeyCodes
 * by this function.  See the code below for details
 */
void CKeySendImpl::DoSendString(const StringX& str, unsigned delayMS, bool emulateMods)
{
  atGlobals.error_detected = false;
  atGlobals.errorString[0] = 0;

  AutotypeEvent event(m_display);

  // convert all the chars into keycodes and required shift states first
  // Abort if any of the characters cannot be converted
  typedef std::vector<KeyPressInfo> KeyPressInfoVector;
  KeyPressInfoVector keypresses;

  for (StringX::const_iterator srcIter = str.begin(); srcIter != str.end(); ++srcIter) {

    //throw away 'vertical tab' chars which are only used on Windows to send a shift+tab
    //as a workaround for some issues with IE
    if (*srcIter == _T('\v'))
      continue;

    //Try a regular conversion first
    KeySym sym = wchar2keysym(*srcIter);

    if (NoSymbol != sym) {
      KeyPressInfo keypress = {0, 0};
      if ((keypress.code = XKeysymToKeycode(event.display, sym)) != 0) {
        //non-zero return value implies sym -> code was successful
        keypress.state |= CalcModifiersForKeysym(keypress.code, sym, event.display);
        keypresses.push_back(keypress);
      }
      else {
        const char* symStr = XKeysymToString(sym);
        snprintf(atGlobals.errorString, NumberOf(atGlobals.errorString),
              "Could not get keycode for key char(%s) - sym(%#X) - str(%s). Aborting autotype.\n\nIf \'xmodmap -pk\' does not list this KeySym, you probably need to install an appropriate keyboard layout.",
                          wchar2bytes(*srcIter).str(), static_cast<int>(sym), symStr ? symStr : "NULL");
        atGlobals.error_detected = True;
        return;
      }
    }
    else {
      snprintf(atGlobals.errorString, NumberOf(atGlobals.errorString),
              "Cannot convert '%s' [U+%04X] to keysym. Aborting autotype", wchar2bytes(*srcIter).str(), int(*srcIter));
      atGlobals.error_detected = True;
      return;
    }
  }

  m_method->EmulateMods(emulateMods);

  for (KeyPressInfoVector::const_iterator itr = keypresses.begin(); itr != keypresses.end()
                              && !atGlobals.error_detected; ++itr) {
    event.keycode = itr->code;
    event.state = itr->state;
    event.time = CurrentTime;

    (*m_method)(event);
    pws_os::sleep_ms(delayMS);
  }
}
コード例 #2
0
ファイル: PWCharPool.cpp プロジェクト: anagram/pwsafe
StringX CPasswordCharPool::MakePassword() const
{
  // We don't care if the policy is inconsistent e.g. 
  // number of lower case chars > 1 + make pronounceable
  // The individual routines (normal, hex, pronounceable) will
  // ignore what they don't need.
  // Saves an awful amount of bother with setting values to zero and
  // back as the user changes their minds!

  ASSERT(m_pwlen > 0);
  ASSERT(m_uselowercase || m_useuppercase || m_usedigits ||
         m_usesymbols   || m_usehexdigits || m_pronounceable);


  // pronounceable and hex passwords are handled separately:
  if (m_pronounceable)
    return MakePronounceable();
  if (m_usehexdigits)
    return MakeHex();

  vector<typeFreq_s> typeFreqs;

  if (m_uselowercase)
    typeFreqs.push_back(typeFreq_s(this, LOWERCASE, m_numlowercase));

  if (m_useuppercase)
    typeFreqs.push_back(typeFreq_s(this, UPPERCASE, m_numuppercase));

  if (m_usedigits)
    typeFreqs.push_back(typeFreq_s(this, DIGIT, m_numdigits));

  if (m_usesymbols)
    typeFreqs.push_back(typeFreq_s(this, SYMBOL, m_numsymbols));

  // Sort requested char type in decreasing order
  // of requested (at least) frequency:
  sort(typeFreqs.begin(), typeFreqs.end(),
       [](const typeFreq_s &a, const typeFreq_s &b)
       {
         return a.numchars > b.numchars;
       });

  StringX temp;
  // First meet the 'at least' constraints
  for (auto iter = typeFreqs.begin(); iter != typeFreqs.end(); iter++)
    for (uint j = 0; j < iter->numchars; j++) {
      if (!iter->vchars.empty()) {
        temp.push_back(iter->vchars.back());
        iter->vchars.pop_back();
        if (temp.length() == m_pwlen)
          goto do_shuffle; // break out of two loops, goto needed
      }
    }


  // Now fill in the rest
  while (temp.length() != m_pwlen) {
    uint i = PWSrand::GetInstance()->RangeRand(typeFreqs.size());
    if (!typeFreqs[i].vchars.empty()) {
      temp.push_back(typeFreqs[i].vchars.back());
      typeFreqs[i].vchars.pop_back();
      if (temp.length() == m_pwlen)
        goto do_shuffle; // break out of two loops, goto needed
    }
  }

 do_shuffle:
  // If 'at least' values were non-zero, we have some unwanted order,
  // se we mix things up a bit:
  RandomWrapper rnw;
  random_shuffle(temp.begin(), temp.end(), rnw);

  ASSERT(temp.length() == size_t(m_pwlen));
  return temp;
}
コード例 #3
0
ファイル: KeySend.cpp プロジェクト: ByteRisc/pwsafe
void CKeySend::SendString(const StringX &data)
{
  for (StringX::const_iterator iter = data.begin();
       iter != data.end(); iter++)
    m_impl->SendChar(*iter);
}