// Copyright (C) 2012 Internet Systems Consortium, Inc. ("ISC") // // Permission to use, copy, modify, and/or distribute this software for any // purpose with or without fee is hereby granted, provided that the above // copyright notice and this permission notice appear in all copies. // // THE SOFTWARE IS PROVIDED "AS IS" AND ISC DISCLAIMS ALL WARRANTIES WITH // REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF MERCHANTABILITY // AND FITNESS. IN NO EVENT SHALL ISC BE LIABLE FOR ANY SPECIAL, DIRECT, // INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING FROM // LOSS OF USE, DATA OR PROFITS, WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE // OR OTHER TORTIOUS ACTION, ARISING OUT OF OR IN CONNECTION WITH THE USE OR // PERFORMANCE OF THIS SOFTWARE. #include #include #include #include #include #include #include #include #include #include // for iequals #include #include #include #include // for iequals #include using std::string; using std::auto_ptr; using std::vector; using std::pair; using boost::algorithm::iequals; using boost::shared_ptr; namespace isc { namespace dns { namespace { // An internal exception, used to control the code flow in case of errors. // It is thrown during the loading and caught later, not to be propagated // outside of the file. class InternalException : public isc::Exception { public: InternalException(const char* filename, size_t line, const char* what) : Exception(filename, line, what) {} }; } // end unnamed namespace // cppcheck-suppress noConstructor class MasterLoader::MasterLoaderImpl { public: MasterLoaderImpl(const char* master_file, const Name& zone_origin, const RRClass& zone_class, const MasterLoaderCallbacks& callbacks, const AddRRCallback& add_callback, MasterLoader::Options options) : lexer_(), zone_origin_(zone_origin), active_origin_(zone_origin), zone_class_(zone_class), callbacks_(callbacks), add_callback_(add_callback), options_(options), master_file_(master_file), initialized_(false), ok_(true), many_errors_((options & MANY_ERRORS) != 0), previous_name_(false), complete_(false), seen_error_(false), warn_rfc1035_ttl_(true), rr_count_(0) {} void pushSource(const std::string& filename, const Name& current_origin) { std::string error; if (!lexer_.pushSource(filename.c_str(), &error)) { if (initialized_) { isc_throw(InternalException, error.c_str()); } else { // Top-level file reportError("", 0, error); ok_ = false; } } // Store the current status, so we can recover it upon popSource include_info_.push_back(IncludeInfo(current_origin, last_name_)); initialized_ = true; previous_name_ = false; } void pushStreamSource(std::istream& stream) { lexer_.pushSource(stream); initialized_ = true; } bool loadIncremental(size_t count_limit); size_t getSize() const { return (lexer_.getTotalSourceSize()); } size_t getPosition() const { return (lexer_.getPosition()); } private: void reportError(const std::string& filename, size_t line, const std::string& reason) { seen_error_ = true; callbacks_.error(filename, line, reason); if (!many_errors_) { // In case we don't have the lenient mode, every error is fatal // and we throw ok_ = false; complete_ = true; isc_throw(MasterLoaderError, reason.c_str()); } } bool popSource() { if (lexer_.getSourceCount() == 1) { return (false); } lexer_.popSource(); // Restore original origin and last seen name // We move in tandem, there's an extra item included during the // initialization, so we can never run out of them assert(!include_info_.empty()); const IncludeInfo& info(include_info_.back()); active_origin_ = info.first; last_name_ = info.second; include_info_.pop_back(); previous_name_ = false; return (true); } // Get a string token. Handle it as error if it is not string. const string getString() { lexer_.getNextToken(MasterToken::STRING).getString(string_token_); return (string_token_); } MasterToken handleInitialToken(); void doOrigin(bool is_optional) { // Parse and create the new origin. It is relative to the previous // one. const MasterToken& name_tok(lexer_.getNextToken(MasterToken::QSTRING, is_optional)); if (name_tok.getType() == MasterToken::QSTRING || name_tok.getType() == MasterToken::STRING) { const MasterToken::StringRegion& name_string(name_tok.getStringRegion()); active_origin_ = Name(name_string.beg, name_string.len, &active_origin_); if (name_string.len > 0 && name_string.beg[name_string.len - 1] != '.') { callbacks_.warning(lexer_.getSourceName(), lexer_.getSourceLine(), "The new origin is relative, did you really" " mean " + active_origin_.toText() + "?"); } } else { // If it is not optional, we must not get anything but // a string token. assert(is_optional); // We return the newline there. This is because we want to // behave the same if there is or isn't the name, leaving the // newline there. lexer_.ungetToken(); } } void doInclude() { // First, get the filename to include const string filename(lexer_.getNextToken(MasterToken::QSTRING).getString()); // There optionally can be an origin, that applies before the include. // We need to save the currently active origin before calling // doOrigin(), because it would update active_origin_ while we need // to pass the active origin before recognizing the new origin to // pushSource. Note: RFC 1035 is not really clear on this: it reads // "regardless of changes... within the included file", but the new // origin is not really specified "within the included file". // Nevertheless, this behavior is probably more likely to be the // intent of the RFC, and it's compatible with BIND 9. const Name current_origin = active_origin_; doOrigin(true); pushSource(filename, current_origin); } // A helper method for loadIncremental(). It parses part of an RR // until it finds the RR type field. If TTL or RR class is // specified before the RR type, it also recognizes and validates // them. explicit_ttl will be set to true if this method finds a // valid TTL field. RRType parseRRParams(bool& explicit_ttl, MasterToken rrparam_token) { // Find TTL, class and type. Both TTL and class are // optional and may occur in any order if they exist. TTL // and class come before type which must exist. // // [] [] // [] [] // named-signzone outputs TTL first, so try parsing it in order // first. if (setCurrentTTL(rrparam_token.getString())) { explicit_ttl = true; rrparam_token = lexer_.getNextToken(MasterToken::STRING); } else { // If it's not a TTL here, continue and try again // after the RR class below. } boost::scoped_ptr rrclass (RRClass::createFromText(rrparam_token.getString())); if (rrclass) { if (*rrclass != zone_class_) { isc_throw(InternalException, "Class mismatch: " << *rrclass << " vs. " << zone_class_); } rrparam_token = lexer_.getNextToken(MasterToken::STRING); } // If we couldn't parse TTL earlier in the stream (above), try // again at current location. if (!explicit_ttl && setCurrentTTL(rrparam_token.getString())) { explicit_ttl = true; rrparam_token = lexer_.getNextToken(MasterToken::STRING); } // Return the current string token's value as the RRType. return (RRType(rrparam_token.getString())); } // Upper limit check when recognizing a specific TTL value from the // zone file ($TTL, the RR's TTL field, or the SOA minimum). RFC2181 // Section 8 limits the range of TTL values to 2^31-1 (0x7fffffff), // and prohibits transmitting a TTL field exceeding this range. We // guarantee that by limiting the value at the time of zone // parsing/loading, following what BIND 9 does. Resetting it to 0 // at this point may not be exactly what the RFC states (depending on // the meaning of 'received'), but the end result would be the same (i.e., // the guarantee on transmission). Again, we follow the BIND 9's behavior // here. // // post_parsing is true iff this method is called after parsing the entire // RR and the lexer is positioned at the next line. It's just for // calculating the accurate source line when callback is necessary. void limitTTL(RRTTL& ttl, bool post_parsing) { if (ttl > RRTTL::MAX_TTL()) { const size_t src_line = lexer_.getSourceLine() - (post_parsing ? 1 : 0); callbacks_.warning(lexer_.getSourceName(), src_line, "TTL " + ttl.toText() + " > MAXTTL, " "setting to 0 per RFC2181"); ttl = RRTTL(0); } } // Set/reset the default TTL. This should be from either $TTL or SOA // minimum TTL (it's the caller's responsibility; this method doesn't // care about where it comes from). see LimitTTL() for parameter // post_parsing. void setDefaultTTL(const RRTTL& ttl, bool post_parsing) { assignTTL(default_ttl_, ttl); limitTTL(*default_ttl_, post_parsing); } // Try to set/reset the current TTL from candidate TTL text. It's possible // it does not actually represent a TTL (which is not immediately // considered an error). Return true iff it's recognized as a valid TTL // (and only in which case the current TTL is set). bool setCurrentTTL(const string& ttl_txt) { // We use the factory version instead of RRTTL constructor as we // need to expect cases where ttl_txt does not actually represent a TTL // but an RR class or type. RRTTL* rrttl = RRTTL::createFromText(ttl_txt); if (rrttl) { current_ttl_.reset(rrttl); limitTTL(*current_ttl_, false); return (true); } return (false); } // Determine the TTL of the current RR based on the given parsing context. // // explicit_ttl is true iff the TTL is explicitly specified for that RR // (in which case current_ttl_ is set to that TTL). // rrtype is the type of the current RR, and rdata is its RDATA. They // only matter if the type is SOA and no available TTL is known. In this // case the minimum TTL of the SOA will be used as the TTL of that SOA // and the default TTL for subsequent RRs. const RRTTL& getCurrentTTL(bool explicit_ttl, const RRType& rrtype, const rdata::ConstRdataPtr& rdata) { // We've completed parsing the full of RR, and the lexer is already // positioned at the next line. If we need to call callback, // we need to adjust the line number. const size_t current_line = lexer_.getSourceLine() - 1; if (!current_ttl_ && !default_ttl_) { if (rrtype == RRType::SOA()) { callbacks_.warning(lexer_.getSourceName(), current_line, "no TTL specified; " "using SOA MINTTL instead"); const uint32_t ttl_val = dynamic_cast(*rdata). getMinimum(); setDefaultTTL(RRTTL(ttl_val), true); assignTTL(current_ttl_, *default_ttl_); } else { // On catching the exception we'll try to reach EOL again, // so we need to unget it now. lexer_.ungetToken(); throw InternalException(__FILE__, __LINE__, "no TTL specified; load rejected"); } } else if (!explicit_ttl && default_ttl_) { assignTTL(current_ttl_, *default_ttl_); } else if (!explicit_ttl && warn_rfc1035_ttl_) { // Omitted (class and) TTL values are default to the last // explicitly stated values (RFC 1035, Sec. 5.1). callbacks_.warning(lexer_.getSourceName(), current_line, "using RFC1035 TTL semantics; default to the " "last explicitly stated TTL"); warn_rfc1035_ttl_ = false; // we only warn about this once } assert(current_ttl_); return (*current_ttl_); } void handleDirective(const char* directive, size_t length) { if (iequals(directive, "INCLUDE")) { doInclude(); } else if (iequals(directive, "ORIGIN")) { doOrigin(false); eatUntilEOL(true); } else if (iequals(directive, "TTL")) { setDefaultTTL(RRTTL(getString()), false); eatUntilEOL(true); } else { isc_throw(InternalException, "Unknown directive '" << string(directive, directive + length) << "'"); } } void eatUntilEOL(bool reportExtra) { // We want to continue. Try to read until the end of line for (;;) { const MasterToken& token(lexer_.getNextToken()); switch (token.getType()) { case MasterToken::END_OF_FILE: callbacks_.warning(lexer_.getSourceName(), lexer_.getSourceLine(), "File does not end with newline"); // We don't pop here. The End of file will stay there, // and we'll handle it in the next iteration of // loadIncremental properly. return; case MasterToken::END_OF_LINE: // Found the end of the line. Good. return; default: // Some other type of token. if (reportExtra) { reportExtra = false; reportError(lexer_.getSourceName(), lexer_.getSourceLine(), "Extra tokens at the end of line"); } break; } } } /// \brief Assign the right RRTTL's value to the left RRTTL. If one /// doesn't exist in the scoped_ptr, make a new RRTTL copy of the /// right argument. static void assignTTL(boost::scoped_ptr& left, const RRTTL& right) { if (!left) { left.reset(new RRTTL(right)); } else { *left = right; } } private: MasterLexer lexer_; const Name zone_origin_; Name active_origin_; // The origin used during parsing // (modifiable by $ORIGIN) shared_ptr last_name_; // Last seen name (for INITIAL_WS handling) const RRClass zone_class_; MasterLoaderCallbacks callbacks_; const AddRRCallback add_callback_; boost::scoped_ptr default_ttl_; // Default TTL of RRs used when // unspecified. If NULL no default // is known. boost::scoped_ptr current_ttl_; // The TTL used most recently. // Initially unset. Once set // always stores a valid // RRTTL. const MasterLoader::Options options_; const std::string master_file_; std::string string_token_; bool initialized_; bool ok_; // Is it OK to continue loading? const bool many_errors_; // Are many errors allowed (or should we abort // on the first) // Some info about the outer files from which we include. // The first one is current origin, the second is the last seen name // in that file. typedef pair > IncludeInfo; vector include_info_; bool previous_name_; // True if there was a previous name in this file // (false at the beginning or after an $INCLUDE line) public: bool complete_; // All work done. bool seen_error_; // Was there at least one error during the // load? bool warn_rfc1035_ttl_; // should warn if implicit TTL determination // from the previous RR is used. size_t rr_count_; // number of RRs successfully loaded }; // A helper method of loadIncremental, parsing the first token of a new line. // If it looks like an RR, detect its owner name and return a string token for // the next field of the RR. // Otherwise, return either END_OF_LINE or END_OF_FILE token depending on // whether the loader continues to the next line or completes the load, // respectively. Other corner cases including $-directive handling is done // here. // For unexpected errors, it throws an exception, which will be handled in // loadIncremental. MasterToken MasterLoader::MasterLoaderImpl::handleInitialToken() { const MasterToken& initial_token = lexer_.getNextToken(MasterLexer::QSTRING | MasterLexer::INITIAL_WS); // The most likely case is INITIAL_WS, and then string/qstring. We // handle them first. if (initial_token.getType() == MasterToken::INITIAL_WS) { const MasterToken& next_token = lexer_.getNextToken(); if (next_token.getType() == MasterToken::END_OF_LINE) { return (next_token); // blank line } else if (next_token.getType() == MasterToken::END_OF_FILE) { lexer_.ungetToken(); // handle it in the next iteration. eatUntilEOL(true); // effectively warn about the unexpected EOF. return (MasterToken(MasterToken::END_OF_LINE)); } // This means the same name as previous. if (last_name_.get() == NULL) { isc_throw(InternalException, "No previous name to use in " "place of initial whitespace"); } else if (!previous_name_) { callbacks_.warning(lexer_.getSourceName(), lexer_.getSourceLine(), "Owner name omitted around $INCLUDE, the result " "might not be as expected"); } return (next_token); } else if (initial_token.getType() == MasterToken::STRING || initial_token.getType() == MasterToken::QSTRING) { // If it is name (or directive), handle it. const MasterToken::StringRegion& name_string(initial_token.getStringRegion()); if (name_string.len > 0 && name_string.beg[0] == '$') { // This should have either thrown (and the error handler // will read up until the end of line) or read until the // end of line. // Exclude the $ from the string on this point. handleDirective(name_string.beg + 1, name_string.len - 1); // So, get to the next line, there's nothing more interesting // in this one. return (MasterToken(MasterToken::END_OF_LINE)); } // This should be an RR, starting with an owner name. Construct the // name, and some string token should follow. last_name_.reset(new Name(name_string.beg, name_string.len, &active_origin_)); previous_name_ = true; return (lexer_.getNextToken(MasterToken::STRING)); } switch (initial_token.getType()) { // handle less common cases case MasterToken::END_OF_FILE: if (!popSource()) { return (initial_token); } else { // We try to read a token from the popped source // So continue to the next line of that source, but first, make // sure the source is at EOL eatUntilEOL(true); return (MasterToken(MasterToken::END_OF_LINE)); } case MasterToken::END_OF_LINE: return (initial_token); // empty line case MasterToken::ERROR: // Error token here. isc_throw(InternalException, initial_token.getErrorText()); default: // Some other token (what could that be?) isc_throw(InternalException, "Parser got confused (unexpected " "token " << initial_token.getType() << ")"); } } bool MasterLoader::MasterLoaderImpl::loadIncremental(size_t count_limit) { if (count_limit == 0) { isc_throw(isc::InvalidParameter, "Count limit set to 0"); } if (complete_) { isc_throw(isc::InvalidOperation, "Trying to load when already loaded"); } if (!initialized_) { pushSource(master_file_, active_origin_); } size_t count = 0; while (ok_ && count < count_limit) { try { const MasterToken next_token = handleInitialToken(); if (next_token.getType() == MasterToken::END_OF_FILE) { return (true); // we are done } else if (next_token.getType() == MasterToken::END_OF_LINE) { continue; // nothing more to do in this line } // We are going to parse an RR, have known the owner name, // and are now seeing the next string token in the rest of the RR. assert(next_token.getType() == MasterToken::STRING); bool explicit_ttl = false; const RRType rrtype = parseRRParams(explicit_ttl, next_token); // TODO: Check if it is SOA, it should be at the origin. const rdata::RdataPtr rdata = rdata::createRdata(rrtype, zone_class_, lexer_, &active_origin_, options_, callbacks_); // In case we get NULL, it means there was error creating // the Rdata. The errors should have been reported by // callbacks_ already. We need to decide if we want to continue // or not. if (rdata) { add_callback_(*last_name_, zone_class_, rrtype, getCurrentTTL(explicit_ttl, rrtype, rdata), rdata); // Good, we loaded another one ++count; ++rr_count_; } else { seen_error_ = true; if (!many_errors_) { ok_ = false; complete_ = true; // We don't have the exact error here, but it was reported // by the error callback. isc_throw(MasterLoaderError, "Invalid RR data"); } } } catch (const MasterLoaderError&) { // This is a hack. We exclude the MasterLoaderError from the // below case. Once we restrict the below to some smaller // exception, we should remove this. throw; } catch (const isc::Exception& e) { // TODO: Once we do #2518, catch only the DNSTextError here, // not isc::Exception. The rest should be just simply // propagated. reportError(lexer_.getSourceName(), lexer_.getSourceLine(), e.what()); eatUntilEOL(false); } } // When there was a fatal error and ok is false, we say we are done. return (!ok_); } MasterLoader::MasterLoader(const char* master_file, const Name& zone_origin, const RRClass& zone_class, const MasterLoaderCallbacks& callbacks, const AddRRCallback& add_callback, Options options) { if (add_callback.empty()) { isc_throw(isc::InvalidParameter, "Empty add RR callback"); } impl_ = new MasterLoaderImpl(master_file, zone_origin, zone_class, callbacks, add_callback, options); } MasterLoader::MasterLoader(std::istream& stream, const Name& zone_origin, const RRClass& zone_class, const MasterLoaderCallbacks& callbacks, const AddRRCallback& add_callback, Options options) { if (add_callback.empty()) { isc_throw(isc::InvalidParameter, "Empty add RR callback"); } auto_ptr impl(new MasterLoaderImpl("", zone_origin, zone_class, callbacks, add_callback, options)); impl->pushStreamSource(stream); impl_ = impl.release(); } MasterLoader::~MasterLoader() { delete impl_; } bool MasterLoader::loadIncremental(size_t count_limit) { const bool result = impl_->loadIncremental(count_limit); impl_->complete_ = result; return (result); } bool MasterLoader::loadedSucessfully() const { return (impl_->complete_ && !impl_->seen_error_); } size_t MasterLoader::getSize() const { return (impl_->getSize()); } size_t MasterLoader::getPosition() const { return (impl_->getPosition()); } } // end namespace dns } // end namespace isc