/** * @file llares.h * @author Bryan O'Sullivan * @date 2007-08-15 * @brief Wrapper for asynchronous DNS lookups. * * $LicenseInfo:firstyear=2007&license=viewergpl$ * * Copyright (c) 2007, Linden Research, Inc. * * Second Life Viewer Source Code * The source code in this file ("Source Code") is provided by Linden Lab * to you under the terms of the GNU General Public License, version 2.0 * ("GPL"), unless you have obtained a separate licensing agreement * ("Other License"), formally executed by you and Linden Lab. Terms of * the GPL can be found in doc/GPL-license.txt in this distribution, or * online at http://secondlife.com/developers/opensource/gplv2 * * There are special exceptions to the terms and conditions of the GPL as * it is applied to this Source Code. View the full text of the exception * in the file doc/FLOSS-exception.txt in this software distribution, or * online at http://secondlife.com/developers/opensource/flossexception * * By copying, modifying or distributing this software, you acknowledge * that you have read and understood your obligations described above, * and agree to abide by those obligations. * * ALL LINDEN LAB SOURCE CODE IS PROVIDED "AS IS." LINDEN LAB MAKES NO * WARRANTIES, EXPRESS, IMPLIED OR OTHERWISE, REGARDING ITS ACCURACY, * COMPLETENESS OR PERFORMANCE. * $/LicenseInfo$ */ #ifndef LL_LLARES_H #define LL_LLARES_H #ifdef LL_WINDOWS # include #endif #ifdef LL_STANDALONE # include #else # include #endif #include "llmemory.h" #include "lluri.h" class LLQueryResponder; /** * @brief Supported DNS RR types. */ enum LLResType { RES_INVALID = 0, /**< Cookie. */ RES_A = 1, /**< "A" record. IPv4 address. */ RES_NS = 2, /**< "NS" record. Authoritative server. */ RES_CNAME = 5, /**< "CNAME" record. Canonical name. */ RES_PTR = 12, /**< "PTR" record. Domain name pointer. */ RES_AAAA = 28, /**< "AAAA" record. IPv6 Address. */ RES_SRV = 33, /**< "SRV" record. Server Selection. */ RES_MAX = 65536 /**< Sentinel; RR types are 16 bits wide. */ }; /** * @class LLDnsRecord * @brief Base class for all DNS RR types. */ class LLDnsRecord : public LLRefCount { protected: friend class LLQueryResponder; LLResType mType; std::string mName; unsigned mTTL; virtual int parse(const char *buf, size_t len, const char *pos, size_t rrlen) = 0; LLDnsRecord(LLResType type, const std::string &name, unsigned ttl); public: /** * @brief Record name. */ const std::string &name() const { return mName; } /** * @brief Time-to-live value, in seconds. */ unsigned ttl() const { return mTTL; } /** * @brief RR type. */ LLResType type() const { return mType; } }; /** * @class LLAddrRecord * @brief Base class for address-related RRs. */ class LLAddrRecord : public LLDnsRecord { protected: friend class LLQueryResponder; LLAddrRecord(LLResType type, const std::string &name, unsigned ttl); union { sockaddr sa; sockaddr_in sin; sockaddr_in6 sin6; } mSA; socklen_t mSize; public: /** * @brief Generic socket address. */ const sockaddr &addr() const { return mSA.sa; } /** * @brief Size of the socket structure. */ socklen_t size() const { return mSize; } }; /** * @class LLARecord * @brief A RR, for IPv4 addresses. */ class LLARecord : public LLAddrRecord { protected: friend class LLQueryResponder; LLARecord(const std::string &name, unsigned ttl); int parse(const char *buf, size_t len, const char *pos, size_t rrlen); public: /** * @brief Socket address. */ const sockaddr_in &addr_in() const { return mSA.sin; } }; /** * @class LLAaaaRecord * @brief AAAA RR, for IPv6 addresses. */ class LLAaaaRecord : public LLAddrRecord { protected: friend class LLQueryResponder; LLAaaaRecord(const std::string &name, unsigned ttl); int parse(const char *buf, size_t len, const char *pos, size_t rrlen); public: /** * @brief Socket address. */ const sockaddr_in6 &addr_in6() const { return mSA.sin6; } }; /** * @class LLHostRecord * @brief Base class for host-related RRs. */ class LLHostRecord : public LLDnsRecord { protected: LLHostRecord(LLResType type, const std::string &name, unsigned ttl); int parse(const char *buf, size_t len, const char *pos, size_t rrlen); std::string mHost; public: /** * @brief Host name. */ const std::string &host() const { return mHost; } }; /** * @class LLCnameRecord * @brief CNAME RR. */ class LLCnameRecord : public LLHostRecord { protected: friend class LLQueryResponder; LLCnameRecord(const std::string &name, unsigned ttl); }; /** * @class LLPtrRecord * @brief PTR RR. */ class LLPtrRecord : public LLHostRecord { protected: friend class LLQueryResponder; LLPtrRecord(const std::string &name, unsigned ttl); }; /** * @class LLSrvRecord * @brief SRV RR. */ class LLSrvRecord : public LLHostRecord { protected: U16 mPriority; U16 mWeight; U16 mPort; int parse(const char *buf, size_t len, const char *pos, size_t rrlen); public: LLSrvRecord(const std::string &name, unsigned ttl); /** * @brief Service priority. */ U16 priority() const { return mPriority; } /** * @brief Service weight. */ U16 weight() const { return mWeight; } /** * @brief Port number of service. */ U16 port() const { return mPort; } /** * @brief Functor for sorting SRV records by priority. */ struct ComparePriorityLowest { bool operator()(const LLSrvRecord& lhs, const LLSrvRecord& rhs) { return lhs.mPriority < rhs.mPriority; } }; }; /** * @class LLNsRecord * @brief NS RR. */ class LLNsRecord : public LLHostRecord { public: LLNsRecord(const std::string &name, unsigned ttl); }; class LLQueryResponder; /** * @class LLAres * @brief Asynchronous address resolver. */ class LLAres { public: /** * @class HostResponder * @brief Base class for responding to hostname lookups. * @see LLAres::getHostByName */ class HostResponder : public LLRefCount { public: virtual ~HostResponder(); virtual void hostResult(const hostent *ent); virtual void hostError(int code); }; /** * @class NameInfoResponder * @brief Base class for responding to address lookups. * @see LLAres::getNameInfo */ class NameInfoResponder : public LLRefCount { public: virtual ~NameInfoResponder(); virtual void nameInfoResult(const char *node, const char *service); virtual void nameInfoError(int code); }; /** * @class QueryResponder * @brief Base class for responding to custom searches. * @see LLAres::search */ class QueryResponder : public LLRefCount { public: virtual ~QueryResponder(); virtual void queryResult(const char *buf, size_t len); virtual void queryError(int code); }; class SrvResponder; class UriRewriteResponder; LLAres(); ~LLAres(); /** * Cancel all outstanding requests. The error methods of the * corresponding responders will be called, with ARES_ETIMEOUT. */ void cancel(); /** * Look up the address of a host. * * @param name name of host to look up * @param resp responder to call with result * @param family AF_INET for IPv4 addresses, AF_INET6 for IPv6 */ void getHostByName(const std::string &name, HostResponder *resp, int family = AF_INET) { getHostByName(name.c_str(), resp, family); } /** * Look up the address of a host. * * @param name name of host to look up * @param resp responder to call with result * @param family AF_INET for IPv4 addresses, AF_INET6 for IPv6 */ void getHostByName(const char *name, HostResponder *resp, int family = PF_INET); /** * Look up the name associated with a socket address. * * @param sa socket address to look up * @param salen size of socket address * @param flags flags to use * @param resp responder to call with result */ void getNameInfo(const struct sockaddr &sa, socklen_t salen, int flags, NameInfoResponder *resp); /** * Look up SRV (service location) records for a service name. * * @param name service name (e.g. "_https._tcp.login.agni.lindenlab.com") * @param resp responder to call with result */ void getSrvRecords(const std::string &name, SrvResponder *resp); /** * Rewrite a URI, using SRV (service location) records for its * protocol if available. If no SRV records are published, the * existing URI is handed to the responder. * * @param uri URI to rewrite * @param resp responder to call with result */ void rewriteURI(const std::string &uri, UriRewriteResponder *resp); /** * Start a custom search. * * @param query query to make * @param type type of query to perform * @param resp responder to call with result */ void search(const std::string &query, LLResType type, QueryResponder *resp); /** * Process any outstanding queries. This method takes an optional * timeout parameter (specified in microseconds). If provided, it * will block the calling thread for that length of time to await * possible responses. A timeout of zero will return immediately * if there are no responses or timeouts to process. * * @param timeoutUsecs number of microseconds to block before timing out * @return whether any responses were processed */ bool process(U64 timeoutUsecs = 0); /** * Process all outstanding queries, blocking the calling thread * until all have either been responded to or timed out. * * @return whether any responses were processed */ bool processAll(); /** * Expand a DNS-encoded compressed string into a normal string. * * @param encoded the encoded name (null-terminated) * @param abuf the response buffer in which the string is embedded * @param alen the length of the response buffer * @param s the string into which to place the result * @return ARES_SUCCESS on success, otherwise an error indicator */ static int expandName(const char *encoded, const char *abuf, size_t alen, std::string &s) { size_t ignore; return expandName(encoded, abuf, alen, s, ignore); } static int expandName(const char *encoded, const char *abuf, size_t alen, std::string &s, size_t &enclen); /** * Return a string describing an error code. */ static const char *strerror(int code); protected: ares_channel chan_; }; /** * An ordered collection of DNS resource records. */ typedef std::vector > dns_rrs_t; /** * @class LLQueryResponder * @brief Base class for friendly handling of DNS query responses. * * This class parses a DNS response and represents it in a friendly * manner. * * @see LLDnsRecord * @see LLARecord * @see LLNsRecord * @see LLCnameRecord * @see LLPtrRecord * @see LLAaaaRecord * @see LLSrvRecord */ class LLQueryResponder : public LLAres::QueryResponder { protected: int mResult; std::string mQuery; LLResType mType; dns_rrs_t mAnswers; dns_rrs_t mAuthorities; dns_rrs_t mAdditional; /** * Parse a single RR. */ int parseRR(const char *buf, size_t len, const char *&pos, LLPointer &r); /** * Parse one section of a response. */ int parseSection(const char *buf, size_t len, size_t count, const char *& pos, dns_rrs_t &rrs); void queryResult(const char *buf, size_t len); virtual void queryResult(); public: LLQueryResponder(); /** * Indicate whether the response could be parsed successfully. */ bool valid() const { return mResult == ARES_SUCCESS; } /** * The more detailed result of parsing the response. */ int result() const { return mResult; } /** * Return the query embedded in the response. */ const std::string &query() const { return mQuery; } /** * Return the contents of the "answers" section of the response. */ const dns_rrs_t &answers() const { return mAnswers; } /** * Return the contents of the "authorities" section of the * response. */ const dns_rrs_t &authorities() const { return mAuthorities; } /** * Return the contents of the "additional records" section of the * response. */ const dns_rrs_t &additional() const { return mAdditional; } }; /** * @class LLAres::SrvResponder * @brief Class for handling SRV query responses. */ class LLAres::SrvResponder : public LLQueryResponder { public: friend void LLAres::getSrvRecords(const std::string &name, SrvResponder *resp); void queryResult(); void queryError(int code); virtual void srvResult(const dns_rrs_t &ents); virtual void srvError(int code); }; /** * @class LLAres::UriRewriteResponder * @brief Class for handling URI rewrites based on SRV records. */ class LLAres::UriRewriteResponder : public LLQueryResponder { protected: LLURI mUri; public: friend void LLAres::rewriteURI(const std::string &uri, UriRewriteResponder *resp); void queryResult(); void queryError(int code); virtual void rewriteResult(const std::vector &uris); }; /** * Singleton responder. */ extern LLAres *gAres; /** * Set up the singleton responder. It's safe to call this more than * once from within a single thread, but this function is not * thread safe. */ extern LLAres *ll_init_ares(); #endif // LL_LLARES_H