/* * synergy -- mouse and keyboard sharing utility * Copyright (C) 2002 Chris Schoeneman * * This package is free software; you can redistribute it and/or * modify it under the terms of the GNU General Public License * found in the file COPYING that should have accompanied this file. * * This package 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. */ #include "CConfig.h" #include "KeyTypes.h" #include "XSocket.h" #include "stdistream.h" #include "stdostream.h" #include // // CConfig // CConfig::CConfig() { // do nothing } CConfig::~CConfig() { // do nothing } bool CConfig::addScreen(const CString& name) { // alias name must not exist if (m_nameToCanonicalName.find(name) != m_nameToCanonicalName.end()) { return false; } // add cell m_map.insert(std::make_pair(name, CCell())); // add name m_nameToCanonicalName.insert(std::make_pair(name, name)); return true; } bool CConfig::renameScreen(const CString& oldName, const CString& newName) { // get canonical name and find cell CString oldCanonical = getCanonicalName(oldName); CCellMap::iterator index = m_map.find(oldCanonical); if (index == m_map.end()) { return false; } // accept if names are equal but replace with new name to maintain // case. otherwise, the new name must not exist. if (!CStringUtil::CaselessCmp::equal(oldName, newName) && m_nameToCanonicalName.find(newName) != m_nameToCanonicalName.end()) { return false; } // update cell CCell tmpCell = index->second; m_map.erase(index); m_map.insert(std::make_pair(newName, tmpCell)); // update name m_nameToCanonicalName.erase(oldCanonical); m_nameToCanonicalName.insert(std::make_pair(newName, newName)); // update connections for (index = m_map.begin(); index != m_map.end(); ++index) { for (UInt32 i = 0; i < kNumDirections; ++i) { if (CStringUtil::CaselessCmp::equal(getCanonicalName( index->second.m_neighbor[i]), oldCanonical)) { index->second.m_neighbor[i] = newName; } } } // update alias targets if (CStringUtil::CaselessCmp::equal(oldName, oldCanonical)) { for (CNameMap::iterator index = m_nameToCanonicalName.begin(); index != m_nameToCanonicalName.end(); ++index) { if (CStringUtil::CaselessCmp::equal( index->second, oldCanonical)) { index->second = newName; } } } return true; } void CConfig::removeScreen(const CString& name) { // get canonical name and find cell CString canonical = getCanonicalName(name); CCellMap::iterator index = m_map.find(canonical); if (index == m_map.end()) { return; } // remove from map m_map.erase(index); // disconnect for (index = m_map.begin(); index != m_map.end(); ++index) { CCell& cell = index->second; for (UInt32 i = 0; i < kNumDirections; ++i) { if (getCanonicalName(cell.m_neighbor[i]) == canonical) { cell.m_neighbor[i].erase(); } } } // remove aliases (and canonical name) for (CNameMap::iterator index = m_nameToCanonicalName.begin(); index != m_nameToCanonicalName.end(); ) { if (index->second == canonical) { m_nameToCanonicalName.erase(index++); } else { ++index; } } } void CConfig::removeAllScreens() { m_map.clear(); m_nameToCanonicalName.clear(); } bool CConfig::addAlias(const CString& canonical, const CString& alias) { // alias name must not exist if (m_nameToCanonicalName.find(alias) != m_nameToCanonicalName.end()) { return false; } // canonical name must be known if (m_map.find(canonical) == m_map.end()) { return false; } // insert alias m_nameToCanonicalName.insert(std::make_pair(alias, canonical)); return true; } bool CConfig::removeAlias(const CString& alias) { // must not be a canonical name if (m_map.find(alias) != m_map.end()) { return false; } // find alias CNameMap::iterator index = m_nameToCanonicalName.find(alias); if (index == m_nameToCanonicalName.end()) { return false; } // remove alias m_nameToCanonicalName.erase(index); return true; } void CConfig::removeAllAliases() { // remove all names m_nameToCanonicalName.clear(); // put the canonical names back in for (CCellMap::iterator index = m_map.begin(); index != m_map.end(); ++index) { m_nameToCanonicalName.insert( std::make_pair(index->first, index->first)); } } bool CConfig::connect(const CString& srcName, EDirection srcSide, const CString& dstName) { assert(srcSide >= kFirstDirection && srcSide <= kLastDirection); // find source cell CCellMap::iterator index = m_map.find(getCanonicalName(srcName)); if (index == m_map.end()) { return false; } // connect side (overriding any previous connection). we // canonicalize in getNeighbor() instead of here because the // destination name doesn't have to exist yet. index->second.m_neighbor[srcSide - kFirstDirection] = dstName; return true; } bool CConfig::disconnect(const CString& srcName, EDirection srcSide) { assert(srcSide >= kFirstDirection && srcSide <= kLastDirection); // find source cell CCellMap::iterator index = m_map.find(srcName); if (index == m_map.end()) { return false; } // disconnect side index->second.m_neighbor[srcSide - kFirstDirection].erase(); return true; } void CConfig::setSynergyAddress(const CNetworkAddress& addr) { m_synergyAddress = addr; } bool CConfig::addOption(const CString& name, OptionID option, OptionValue value) { // find options CScreenOptions* options = NULL; if (name.empty()) { options = &m_globalOptions; } else { CCellMap::iterator index = m_map.find(name); if (index != m_map.end()) { options = &index->second.m_options; } } if (options == NULL) { return false; } // add option options->insert(std::make_pair(option, value)); return true; } bool CConfig::removeOption(const CString& name, OptionID option) { // find options CScreenOptions* options = NULL; if (name.empty()) { options = &m_globalOptions; } else { CCellMap::iterator index = m_map.find(name); if (index != m_map.end()) { options = &index->second.m_options; } } if (options == NULL) { return false; } // remove option options->erase(option); return true; } bool CConfig::removeOptions(const CString& name) { // find options CScreenOptions* options = NULL; if (name.empty()) { options = &m_globalOptions; } else { CCellMap::iterator index = m_map.find(name); if (index != m_map.end()) { options = &index->second.m_options; } } if (options == NULL) { return false; } // remove options options->clear(); return true; } bool CConfig::isValidScreenName(const CString& name) const { // name is valid if matches validname // name ::= [_A-Za-z0-9] | [_A-Za-z0-9][-_A-Za-z0-9]*[_A-Za-z0-9] // domain ::= . name // validname ::= name domain* // check each dot separated part CString::size_type b = 0; for (;;) { // find end of part CString::size_type e = name.find('.', b); if (e == CString::npos) { e = name.size(); } // part may not be empty if (e - b < 1) { return false; } // check first and last characters if (!(isalnum(name[b]) || name[b] == '_') || !(isalnum(name[e - 1]) || name[e - 1] == '_')) { return false; } // check interior characters for (CString::size_type i = b; i < e; ++i) { if (!isalnum(name[i]) && name[i] != '_' && name[i] != '-') { return false; } } // next part if (e == name.size()) { // no more parts break; } b = e + 1; } return true; } CConfig::const_iterator CConfig::begin() const { return const_iterator(m_map.begin()); } CConfig::const_iterator CConfig::end() const { return const_iterator(m_map.end()); } CConfig::all_const_iterator CConfig::beginAll() const { return m_nameToCanonicalName.begin(); } CConfig::all_const_iterator CConfig::endAll() const { return m_nameToCanonicalName.end(); } bool CConfig::isScreen(const CString& name) const { return (m_nameToCanonicalName.count(name) > 0); } bool CConfig::isCanonicalName(const CString& name) const { return CStringUtil::CaselessCmp::equal(getCanonicalName(name), name); } CString CConfig::getCanonicalName(const CString& name) const { CNameMap::const_iterator index = m_nameToCanonicalName.find(name); if (index == m_nameToCanonicalName.end()) { return CString(); } else { return index->second; } } CString CConfig::getNeighbor(const CString& srcName, EDirection srcSide) const { assert(srcSide >= kFirstDirection && srcSide <= kLastDirection); // find source cell CCellMap::const_iterator index = m_map.find(getCanonicalName(srcName)); if (index == m_map.end()) { return CString(); } // return connection return getCanonicalName(index->second.m_neighbor[ srcSide - kFirstDirection]); } const CNetworkAddress& CConfig::getSynergyAddress() const { return m_synergyAddress; } const CConfig::CScreenOptions* CConfig::getOptions(const CString& name) const { // find options const CScreenOptions* options = NULL; if (name.empty()) { options = &m_globalOptions; } else { CCellMap::const_iterator index = m_map.find(name); if (index != m_map.end()) { options = &index->second.m_options; } } // return options return options; } bool CConfig::operator==(const CConfig& x) const { if (m_synergyAddress != x.m_synergyAddress) { return false; } if (m_map.size() != x.m_map.size()) { return false; } if (m_nameToCanonicalName.size() != x.m_nameToCanonicalName.size()) { return false; } // compare global options if (m_globalOptions != x.m_globalOptions) { return false; } for (CCellMap::const_iterator index1 = m_map.begin(), index2 = x.m_map.begin(); index1 != m_map.end(); ++index1, ++index2) { // compare names if (!CStringUtil::CaselessCmp::equal(index1->first, index2->first)) { return false; } // compare options if (index1->second.m_options != index2->second.m_options) { return false; } // compare neighbors for (UInt32 i = 0; i < kNumDirections; ++i) { if (!CStringUtil::CaselessCmp::equal(index1->second.m_neighbor[i], index2->second.m_neighbor[i])) { return false; } } } for (CNameMap::const_iterator index1 = m_nameToCanonicalName.begin(), index2 = x.m_nameToCanonicalName.begin(); index1 != m_nameToCanonicalName.end(); ++index1, ++index2) { if (!CStringUtil::CaselessCmp::equal(index1->first, index2->first) || !CStringUtil::CaselessCmp::equal(index1->second, index2->second)) { return false; } } return true; } bool CConfig::operator!=(const CConfig& x) const { return !operator==(x); } const char* CConfig::dirName(EDirection dir) { static const char* s_name[] = { "left", "right", "top", "bottom" }; assert(dir >= kFirstDirection && dir <= kLastDirection); return s_name[dir - kFirstDirection]; } bool CConfig::readLine(std::istream& s, CString& line) { s >> std::ws; while (std::getline(s, line)) { // strip comments and then trailing whitespace CString::size_type i = line.find('#'); if (i != CString::npos) { line.erase(i); } i = line.find_last_not_of(" \r\t"); if (i != CString::npos) { line.erase(i + 1); } // return non empty line if (!line.empty()) { return true; } s >> std::ws; } return false; } OptionValue CConfig::parseBoolean(const CString& arg) { if (CStringUtil::CaselessCmp::equal(arg, "true")) { return static_cast(true); } if (CStringUtil::CaselessCmp::equal(arg, "false")) { return static_cast(false); } throw XConfigRead("invalid argument"); } OptionValue CConfig::parseInt(const CString& arg) { const char* s = arg.c_str(); char* end; long tmp = strtol(s, &end, 10); if (*end != '\0') { // invalid characters throw XConfigRead("invalid argument"); } OptionValue value = static_cast(tmp); if (value != tmp) { // out of range throw XConfigRead("argument out of range"); } return value; } OptionValue CConfig::parseModifierKey(const CString& arg) { if (CStringUtil::CaselessCmp::equal(arg, "shift")) { return static_cast(kKeyModifierIDShift); } if (CStringUtil::CaselessCmp::equal(arg, "ctrl")) { return static_cast(kKeyModifierIDControl); } if (CStringUtil::CaselessCmp::equal(arg, "alt")) { return static_cast(kKeyModifierIDAlt); } if (CStringUtil::CaselessCmp::equal(arg, "meta")) { return static_cast(kKeyModifierIDMeta); } if (CStringUtil::CaselessCmp::equal(arg, "super")) { return static_cast(kKeyModifierIDSuper); } if (CStringUtil::CaselessCmp::equal(arg, "none")) { return static_cast(kKeyModifierIDNull); } throw XConfigRead("invalid argument"); } const char* CConfig::getOptionName(OptionID id) { if (id == kOptionHalfDuplexCapsLock) { return "halfDuplexCapsLock"; } if (id == kOptionHalfDuplexNumLock) { return "halfDuplexNumLock"; } if (id == kOptionModifierMapForShift) { return "shift"; } if (id == kOptionModifierMapForControl) { return "ctrl"; } if (id == kOptionModifierMapForAlt) { return "alt"; } if (id == kOptionModifierMapForMeta) { return "meta"; } if (id == kOptionModifierMapForSuper) { return "super"; } if (id == kOptionHeartbeat) { return "heartbeat"; } if (id == kOptionScreenSwitchDelay) { return "switchDelay"; } if (id == kOptionScreenSwitchTwoTap) { return "switchDoubleTap"; } if (id == kOptionScreenSaverSync) { return "screenSaverSync"; } if (id == kOptionXTestXineramaUnaware) { return "xtestIsXineramaUnaware"; } return NULL; } CString CConfig::getOptionValue(OptionID id, OptionValue value) { if (id == kOptionHalfDuplexCapsLock || id == kOptionHalfDuplexNumLock || id == kOptionScreenSaverSync || id == kOptionXTestXineramaUnaware) { return (value != 0) ? "true" : "false"; } if (id == kOptionModifierMapForShift || id == kOptionModifierMapForControl || id == kOptionModifierMapForAlt || id == kOptionModifierMapForMeta || id == kOptionModifierMapForSuper) { switch (value) { case kKeyModifierIDShift: return "shift"; case kKeyModifierIDControl: return "ctrl"; case kKeyModifierIDAlt: return "alt"; case kKeyModifierIDMeta: return "meta"; case kKeyModifierIDSuper: return "super"; default: return "none"; } } if (id == kOptionHeartbeat || id == kOptionScreenSwitchDelay || id == kOptionScreenSwitchTwoTap) { return CStringUtil::print("%d", value); } return ""; } void CConfig::readSection(std::istream& s) { static const char s_section[] = "section:"; static const char s_options[] = "options"; static const char s_screens[] = "screens"; static const char s_links[] = "links"; static const char s_aliases[] = "aliases"; CString line; if (!readLine(s, line)) { // no more sections return; } // should be a section header if (line.find(s_section) != 0) { throw XConfigRead("found data outside section"); } // get section name CString::size_type i = line.find_first_not_of(" \t", sizeof(s_section) - 1); if (i == CString::npos) { throw XConfigRead("section name is missing"); } CString name = line.substr(i); i = name.find_first_of(" \t"); if (i != CString::npos) { throw XConfigRead("unexpected data after section name"); } // read section if (name == s_options) { readSectionOptions(s); } else if (name == s_screens) { readSectionScreens(s); } else if (name == s_links) { readSectionLinks(s); } else if (name == s_aliases) { readSectionAliases(s); } else { throw XConfigRead("unknown section name"); } } void CConfig::readSectionOptions(std::istream& s) { CString line; CString name; while (readLine(s, line)) { // check for end of section if (line == "end") { return; } // parse argument: `=' CString::size_type i = line.find_first_of(" \t="); if (i == 0) { throw XConfigRead("missing argument name"); } if (i == CString::npos) { throw XConfigRead("missing = in argument"); } CString name = line.substr(0, i); i = line.find_first_not_of(" \t", i); if (i == CString::npos || line[i] != '=') { throw XConfigRead("missing = in argument"); } i = line.find_first_not_of(" \t", i + 1); CString value; if (i != CString::npos) { value = line.substr(i); } if (value.empty()) { throw XConfigRead("missing value after ="); } if (name == "address") { try { m_synergyAddress = CNetworkAddress(value, kDefaultPort); } catch (XSocketAddress&) { throw XConfigRead("invalid address argument"); } } else if (name == "heartbeat") { addOption("", kOptionHeartbeat, parseInt(value)); } else if (name == "switchDelay") { addOption("", kOptionScreenSwitchDelay, parseInt(value)); } else if (name == "switchDoubleTap") { addOption("", kOptionScreenSwitchTwoTap, parseInt(value)); } else if (name == "screenSaverSync") { addOption("", kOptionScreenSaverSync, parseBoolean(value)); } else { throw XConfigRead("unknown argument"); } } throw XConfigRead("unexpected end of screens section"); } void CConfig::readSectionScreens(std::istream& s) { CString line; CString screen; while (readLine(s, line)) { // check for end of section if (line == "end") { return; } // see if it's the next screen if (line[line.size() - 1] == ':') { // strip : screen = line.substr(0, line.size() - 1); // verify validity of screen name if (!isValidScreenName(screen)) { throw XConfigRead("invalid screen name"); } // add the screen to the configuration if (!addScreen(screen)) { throw XConfigRead("duplicate screen name"); } } else if (screen.empty()) { throw XConfigRead("argument before first screen"); } else { // parse argument: `=' CString::size_type i = line.find_first_of(" \t="); if (i == 0) { throw XConfigRead("missing argument name"); } if (i == CString::npos) { throw XConfigRead("missing = in argument"); } CString name = line.substr(0, i); i = line.find_first_not_of(" \t", i); if (i == CString::npos || line[i] != '=') { throw XConfigRead("missing = in argument"); } i = line.find_first_not_of(" \t", i + 1); CString value; if (i != CString::npos) { value = line.substr(i); } // handle argument if (name == "halfDuplexCapsLock") { addOption(screen, kOptionHalfDuplexCapsLock, parseBoolean(value)); } else if (name == "halfDuplexNumLock") { addOption(screen, kOptionHalfDuplexNumLock, parseBoolean(value)); } else if (name == "shift") { addOption(screen, kOptionModifierMapForShift, parseModifierKey(value)); } else if (name == "ctrl") { addOption(screen, kOptionModifierMapForControl, parseModifierKey(value)); } else if (name == "alt") { addOption(screen, kOptionModifierMapForAlt, parseModifierKey(value)); } else if (name == "meta") { addOption(screen, kOptionModifierMapForMeta, parseModifierKey(value)); } else if (name == "super") { addOption(screen, kOptionModifierMapForSuper, parseModifierKey(value)); } else if (name == "xtestIsXineramaUnaware") { addOption(screen, kOptionXTestXineramaUnaware, parseBoolean(value)); } else { // unknown argument throw XConfigRead("unknown argument"); } } } throw XConfigRead("unexpected end of screens section"); } void CConfig::readSectionLinks(std::istream& s) { CString line; CString screen; while (readLine(s, line)) { // check for end of section if (line == "end") { return; } // see if it's the next screen if (line[line.size() - 1] == ':') { // strip : screen = line.substr(0, line.size() - 1); // verify we know about the screen if (!isScreen(screen)) { throw XConfigRead("unknown screen name"); } if (!isCanonicalName(screen)) { throw XConfigRead("cannot use screen name alias here"); } } else if (screen.empty()) { throw XConfigRead("argument before first screen"); } else { // parse argument: `=' CString::size_type i = line.find_first_of(" \t="); if (i == 0) { throw XConfigRead("missing argument name"); } if (i == CString::npos) { throw XConfigRead("missing = in argument"); } CString name = line.substr(0, i); i = line.find_first_not_of(" \t", i); if (i == CString::npos || line[i] != '=') { throw XConfigRead("missing = in argument"); } i = line.find_first_not_of(" \t", i + 1); CString value; if (i != CString::npos) { value = line.substr(i); } // handle argument if (name == "left") { if (!isScreen(value)) { throw XConfigRead("unknown screen"); } connect(screen, kLeft, value); } else if (name == "right") { if (!isScreen(value)) { throw XConfigRead("unknown screen"); } connect(screen, kRight, value); } else if (name == "up") { if (!isScreen(value)) { throw XConfigRead("unknown screen"); } connect(screen, kTop, value); } else if (name == "down") { if (!isScreen(value)) { throw XConfigRead("unknown screen"); } connect(screen, kBottom, value); } else { // unknown argument throw XConfigRead("unknown argument"); } } } throw XConfigRead("unexpected end of links section"); } void CConfig::readSectionAliases(std::istream& s) { CString line; CString screen; while (readLine(s, line)) { // check for end of section if (line == "end") { return; } // see if it's the next screen if (line[line.size() - 1] == ':') { // strip : screen = line.substr(0, line.size() - 1); // verify we know about the screen if (!isScreen(screen)) { throw XConfigRead("unknown screen name"); } if (!isCanonicalName(screen)) { throw XConfigRead("cannot use screen name alias here"); } } else if (screen.empty()) { throw XConfigRead("argument before first screen"); } else { // verify validity of screen name if (!isValidScreenName(line)) { throw XConfigRead("invalid screen alias"); } // add alias if (!addAlias(screen, line)) { throw XConfigRead("alias is duplicate screen name"); } } } throw XConfigRead("unexpected end of aliases section"); } // // CConfig I/O // std::istream& operator>>(std::istream& s, CConfig& config) { // FIXME -- should track line and column to improve error reporting CConfig tmp; while (s) { tmp.readSection(s); } config = tmp; return s; } std::ostream& operator<<(std::ostream& s, const CConfig& config) { // options section s << "section: options" << std::endl; const CConfig::CScreenOptions* options = config.getOptions(""); if (options != NULL && options->size() > 0) { for (CConfig::CScreenOptions::const_iterator option = options->begin(); option != options->end(); ++option) { const char* name = CConfig::getOptionName(option->first); CString value = CConfig::getOptionValue(option->first, option->second); if (name != NULL && !value.empty()) { s << "\t" << name << " = " << value << std::endl; } } } if (config.m_synergyAddress.isValid()) { s << "\taddress = " << config.m_synergyAddress.getHostname().c_str() << std::endl; } s << "end" << std::endl; // screens section s << "section: screens" << std::endl; for (CConfig::const_iterator screen = config.begin(); screen != config.end(); ++screen) { s << "\t" << screen->c_str() << ":" << std::endl; const CConfig::CScreenOptions* options = config.getOptions(*screen); if (options != NULL && options->size() > 0) { for (CConfig::CScreenOptions::const_iterator option = options->begin(); option != options->end(); ++option) { const char* name = CConfig::getOptionName(option->first); CString value = CConfig::getOptionValue(option->first, option->second); if (name != NULL && !value.empty()) { s << "\t\t" << name << " = " << value << std::endl; } } } } s << "end" << std::endl; // links section CString neighbor; s << "section: links" << std::endl; for (CConfig::const_iterator screen = config.begin(); screen != config.end(); ++screen) { s << "\t" << screen->c_str() << ":" << std::endl; neighbor = config.getNeighbor(*screen, kLeft); if (!neighbor.empty()) { s << "\t\tleft=" << neighbor.c_str() << std::endl; } neighbor = config.getNeighbor(*screen, kRight); if (!neighbor.empty()) { s << "\t\tright=" << neighbor.c_str() << std::endl; } neighbor = config.getNeighbor(*screen, kTop); if (!neighbor.empty()) { s << "\t\tup=" << neighbor.c_str() << std::endl; } neighbor = config.getNeighbor(*screen, kBottom); if (!neighbor.empty()) { s << "\t\tdown=" << neighbor.c_str() << std::endl; } } s << "end" << std::endl; // aliases section (if there are any) if (config.m_map.size() != config.m_nameToCanonicalName.size()) { // map canonical to alias typedef std::multimap CMNameMap; CMNameMap aliases; for (CConfig::CNameMap::const_iterator index = config.m_nameToCanonicalName.begin(); index != config.m_nameToCanonicalName.end(); ++index) { if (index->first != index->second) { aliases.insert(std::make_pair(index->second, index->first)); } } // dump it CString screen; s << "section: aliases" << std::endl; for (CMNameMap::const_iterator index = aliases.begin(); index != aliases.end(); ++index) { if (index->first != screen) { screen = index->first; s << "\t" << screen.c_str() << ":" << std::endl; } s << "\t\t" << index->second.c_str() << std::endl; } s << "end" << std::endl; } return s; } // // CConfig I/O exceptions // XConfigRead::XConfigRead(const CString& error) : m_error(error) { // do nothing } XConfigRead::~XConfigRead() { // do nothing } CString XConfigRead::getWhat() const throw() { return format("XConfigRead", "read error: %{1}", m_error.c_str()); }