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// Copyright (C) 2013-2015 Internet Systems Consortium, Inc. ("ISC")
//
// This Source Code Form is subject to the terms of the Mozilla Public
// License, v. 2.0. If a copy of the MPL was not distributed with this
// file, You can obtain one at http://mozilla.org/MPL/2.0/.
#ifndef NC_TEST_UTILS_H
#define NC_TEST_UTILS_H
/// @file nc_test_utils.h prototypes for functions related transaction testing.
#include <asiolink/io_service.h>
#include <asiolink/interval_timer.h>
#include <d2/nc_trans.h>
#include <boost/asio/ip/udp.hpp>
#include <boost/asio/socket_base.hpp>
#include <gtest/gtest.h>
namespace isc {
namespace d2 {
extern const char* TEST_DNS_SERVER_IP;
extern size_t TEST_DNS_SERVER_PORT;
// Not extern'ed to allow use as array size
const int TEST_MSG_MAX = 1024;
typedef boost::shared_ptr<boost::asio::ip::udp::socket> SocketPtr;
/// @brief This class simulates a DNS server. It is capable of performing
/// an asynchronous read, governed by an IOService, and responding to received
/// requests in a given manner.
class FauxServer {
public:
enum ResponseMode {
USE_RCODE, // Generate a response with a given RCODE
CORRUPT_RESP, // Generate a corrupt response
INVALID_TSIG // Generate a repsonse with the wrong TSIG key
};
// Reference to IOService to use for IO processing.
asiolink::IOService& io_service_;
// IP address at which to listen for requests.
const asiolink::IOAddress& address_;
// Port on which to listen for requests.
size_t port_;
// Socket on which listening is done.
SocketPtr server_socket_;
// Stores the end point of requesting client.
boost::asio::ip::udp::endpoint remote_;
// Buffer in which received packets are stuffed.
uint8_t receive_buffer_[TEST_MSG_MAX];
// Flag which indicates if a receive has been initiated but
// not yet completed.
bool receive_pending_;
// Indicates if server is in perpetual receive mode. If true once
// a receive has been completed, a new one will be automatically
// initiated.
bool perpetual_receive_;
// TSIG Key to use to verify requests and sign responses. If its
// NULL TSIG is not used.
dns::TSIGKeyPtr tsig_key_;
/// @brief Constructor
///
/// @param io_service IOService to be used for socket IO.
/// @param address IP address at which the server should listen.
/// @param port Port number at which the server should listen.
FauxServer(asiolink::IOService& io_service, asiolink::IOAddress& address,
size_t port);
/// @brief Constructor
///
/// @param io_service IOService to be used for socket IO.
/// @param server DnsServerInfo of server the DNS server. This supplies the
/// server's ip address and port.
FauxServer(asiolink::IOService& io_service, DnsServerInfo& server);
/// @brief Destructor
virtual ~FauxServer();
/// @brief Initiates an asynchronous receive
///
/// Starts the server listening for requests. Upon completion of the
/// listen, the callback method, requestHandler, is invoked.
///
/// @param response_mode Selects how the server responds to a request
/// @param response_rcode The Rcode value set in the response. Not used
/// for all modes.
void receive (const ResponseMode& response_mode,
const dns::Rcode& response_rcode=dns::Rcode::NOERROR());
/// @brief Socket IO Completion callback
///
/// This method servers as the Server's UDP socket receive callback handler.
/// When the receive completes the handler is invoked with the parameters
/// listed.
///
/// @param error result code of the receive (determined by asio layer)
/// @param bytes_recvd number of bytes received, if any
/// @param response_mode type of response the handler should produce
/// @param response_rcode value of Rcode in the response constructed by
/// handler
void requestHandler(const boost::system::error_code& error,
std::size_t bytes_recvd,
const ResponseMode& response_mode,
const dns::Rcode& response_rcode);
/// @brief Returns true if a receive has been started but not completed.
bool isReceivePending() {
return receive_pending_;
}
/// @brief Sets the TSIG key to the given value.
///
/// @param tsig_key Pointer to the TSIG key to use. If the pointer is
/// empty, TSIG will not be used.
void setTSIGKey (const dns::TSIGKeyPtr& tsig_key) {
tsig_key_ = tsig_key;
}
};
/// @brief Provides a means to process IOService IO for a finite amount of time.
///
/// This class instantiates an IOService provides a single method, runTimedIO
/// which will run the IOService for no more than a finite amount of time,
/// at least one event is executed or the IOService is stopped.
/// It provides an virtual handler for timer expiration event. It is
/// intended to be used as a base class for test fixtures that need to process
/// IO by providing them a consistent way to do so while retaining a safety
/// valve so tests do not hang.
class TimedIO {
public:
asiolink::IOServicePtr io_service_;
asiolink::IntervalTimer timer_;
int run_time_;
// Constructor
TimedIO();
// Destructor
virtual ~TimedIO();
/// @brief IO Timer expiration handler
///
/// Stops the IOService and fails the current test.
virtual void timesUp();
/// @brief Processes IO till time expires or at least one handler executes.
///
/// This method first polls IOService to run any ready handlers. If no
/// handlers are ready, it starts the internal time to run for the given
/// amount of time and invokes service's run_one method. This method
/// blocks until at least one handler executes or the IO Service is stopped.
/// Upon completion of this method the timer is cancelled. Should the
/// timer expires prior to run_one returning, the timesUp handler will be
/// invoked which stops the IO service and fails the test.
///
/// Note that this method closely mimics the runIO method in D2Process.
///
/// @param run_time maximum length of time to run in milliseconds before
/// timing out.
///
/// @return Returns the number of handlers executed or zero. A return of
/// zero indicates that the IOService has been stopped.
int runTimedIO(int run_time);
};
/// @brief Base class Test fixture for testing transactions.
class TransactionTest : public TimedIO, public ::testing::Test {
public:
dhcp_ddns::NameChangeRequestPtr ncr_;
DdnsDomainPtr forward_domain_;
DdnsDomainPtr reverse_domain_;
D2CfgMgrPtr cfg_mgr_;
/// #brief constants used to specify change directions for a transaction.
static const unsigned int FORWARD_CHG; // Only forward change.
static const unsigned int REVERSE_CHG; // Only reverse change.
static const unsigned int FWD_AND_REV_CHG; // Both forward and reverse.
TransactionTest();
virtual ~TransactionTest();
/// @brief Creates a transaction which requests an IPv4 DNS update.
///
/// The transaction is constructed around a predefined (i.e. "canned")
/// IPv4 NameChangeRequest. The request has both forward and reverse DNS
/// changes requested. Based upon the change mask, the transaction
/// will have either the forward, reverse, or both domains populated.
///
/// @param change_type selects the type of change requested, CHG_ADD or
/// CHG_REMOVE.
/// @param change_mask determines which change directions are requested
/// FORWARD_CHG, REVERSE_CHG, or FWD_AND_REV_CHG.
/// @param tsig_key_info pointer to the TSIGKeyInfo to assign to both
/// domains in the transaction. This will cause the transaction to
/// use TSIG. If the pointer is empty, TSIG will not be used.
void setupForIPv4Transaction(dhcp_ddns::NameChangeType change_type,
int change_mask,
const TSIGKeyInfoPtr& tsig_key_info =
TSIGKeyInfoPtr());
/// @brief Creates a transaction which requests an IPv4 DNS update.
///
/// Convenience wrapper around the above method which accepts a string
/// key_name from which the TSIGKeyInfo is constructed. Note the string
/// may not be blank.
///
/// @param change_type selects the type of change requested, CHG_ADD or
/// CHG_REMOVE.
/// @param change_mask determines which change directions are requested
/// FORWARD_CHG, REVERSE_CHG, or FWD_AND_REV_CHG.
/// @param key_name value to use to create TSIG key. The value may not
/// be blank.
void setupForIPv4Transaction(dhcp_ddns::NameChangeType change_type,
int change_mask, const std::string& key_name);
/// @brief Creates a transaction which requests an IPv6 DNS update.
///
/// The transaction is constructed around a predefined (i.e. "canned")
/// IPv6 NameChangeRequest. The request has both forward and reverse DNS
/// changes requested. Based upon the change mask, the transaction
/// will have either the forward, reverse, or both domains populated.
///
/// @param change_type selects the type of change requested, CHG_ADD or
/// CHG_REMOVE.
/// @param change_mask determines which change directions are requested
/// FORWARD_CHG, REVERSE_CHG, or FWD_AND_REV_CHG.
/// @param tsig_key_info pointer to the TSIGKeyInfo to assign to both
/// domains in the transaction. This will cause the transaction to
/// use TSIG. If the pointer is empty, TSIG will not be used.
void setupForIPv6Transaction(dhcp_ddns::NameChangeType change_type,
int change_mask,
const TSIGKeyInfoPtr& tsig_key_info =
TSIGKeyInfoPtr());
/// @brief Creates a transaction which requests an IPv6 DNS update.
///
/// Convenience wrapper around the above method which accepts a string
/// key_name from which the TSIGKeyInfo is constructed. Note the string
/// may not be blank.
///
/// @param change_type selects the type of change requested, CHG_ADD or
/// CHG_REMOVE.
/// @param change_mask determines which change directions are requested
/// FORWARD_CHG, REVERSE_CHG, or FWD_AND_REV_CHG.
/// @param key_name value to use to create TSIG key, if blank TSIG will not
/// be used.
void setupForIPv6Transaction(dhcp_ddns::NameChangeType change_type,
int change_mask, const std::string& key_name);
};
/// @brief Tests the number of RRs in a request section against a given count.
///
/// This function actually returns the number of RRsetPtrs in a section. Since
/// D2 only uses RRsets with a single RData in each (i.e. 1 RR), it is used
/// as the number of RRs. The dns::Message::getRRCount() cannot be used for
/// this as it returns the number of RDatas in an RRSet which does NOT equate
/// to the number of RRs. RRs with no RData, those with class or type of ANY,
/// are not counted.
///
/// @param request DNS update request to test
/// @param section enum value of the section to count
/// @param count the expected number of RRs
extern void checkRRCount(const D2UpdateMessagePtr& request,
D2UpdateMessage::UpdateMsgSection section, int count);
/// @brief Tests the zone content of a given request.
///
/// @param request DNS update request to validate
/// @param exp_zone_name expected value of the zone name in the zone section
extern void checkZone(const D2UpdateMessagePtr& request,
const std::string& exp_zone_name);
/// @brief Tests the contents of an RRset
///
/// @param rrset Pointer the RRset to test
/// @param exp_name expected value of RRset name (FQDN or reverse ip)
/// @param exp_class expected RRClass value of RRset
/// @param exp_typ expected RRType value of RRset
/// @param exp_ttl expected TTL value of RRset
/// @param ncr NameChangeRequest on which the RRset is based
/// @param has_rdata if true, RRset's rdata will be checked based on it's
/// RRType. Set this to false if the RRset's type supports Rdata but it does
/// not contain it. For instance, prerequisites of type NONE have no Rdata
/// where updates of type NONE may.
extern void checkRR(dns::RRsetPtr rrset, const std::string& exp_name,
const dns::RRClass& exp_class, const dns::RRType& exp_type,
unsigned int exp_ttl, dhcp_ddns::NameChangeRequestPtr ncr,
bool has_rdata=true);
/// @brief Fetches an RR(set) from a given section of a request
///
/// @param request DNS update request from which the RR should come
/// @param section enum value of the section from which the RR should come
/// @param index zero-based index of the RR of interest.
///
/// @return Pointer to the RR of interest, empty pointer if the index is out
/// of range.
extern dns::RRsetPtr getRRFromSection(const D2UpdateMessagePtr& request,
D2UpdateMessage::UpdateMsgSection section,
int index);
/// @brief Creates a NameChangeRequest from a JSON string
///
/// @param ncr_str JSON string form of a NameChangeRequest. Example:
/// @code
/// const char* msg_str =
/// "{"
/// " \"change-type\" : 0 , "
/// " \"forward-change\" : true , "
/// " \"reverse-change\" : true , "
/// " \"fqdn\" : \"my.example.com.\" , "
/// " \"ip-address\" : \"192.168.2.1\" , "
/// " \"dhcid\" : \"0102030405060708\" , "
/// " \"lease-expires-on\" : \"20130121132405\" , "
/// " \"lease-length\" : 1300 "
/// "}";
///
/// @endcode
/// @brief Verifies a forward mapping addition DNS update request
///
/// Tests that the DNS Update request for a given transaction, is correct for
/// adding a forward DNS mapping.
///
/// @param tran Transaction containing the request to be verified.
extern void checkAddFwdAddressRequest(NameChangeTransaction& tran);
/// @brief Verifies a forward mapping replacement DNS update request
///
/// Tests that the DNS Update request for a given transaction, is correct for
/// replacing a forward DNS mapping.
///
/// @param tran Transaction containing the request to be verified.
extern void checkReplaceFwdAddressRequest(NameChangeTransaction& tran);
/// @brief Verifies a reverse mapping replacement DNS update request
///
/// Tests that the DNS Update request for a given transaction, is correct for
/// replacing a reverse DNS mapping.
///
/// @param tran Transaction containing the request to be verified.
extern void checkReplaceRevPtrsRequest(NameChangeTransaction& tran);
/// @brief Verifies a forward address removal DNS update request
///
/// Tests that the DNS Update request for a given transaction, is correct for
/// removing the forward address DNS entry.
///
/// @param tran Transaction containing the request to be verified.
extern void checkRemoveFwdAddressRequest(NameChangeTransaction& tran);
/// @brief Verifies a forward RR removal DNS update request
///
/// Tests that the DNS Update request for a given transaction, is correct for
/// removing forward RR DNS entries.
///
/// @param tran Transaction containing the request to be verified.
extern void checkRemoveFwdRRsRequest(NameChangeTransaction& tran);
/// @brief Verifies a reverse mapping removal DNS update request
///
/// Tests that the DNS Update request for a given transaction, is correct for
/// removing a reverse DNS mapping.
///
/// @param tran Transaction containing the request to be verified.
extern void checkRemoveRevPtrsRequest(NameChangeTransaction& tran);
/// @brief Creates a NameChangeRequest from JSON string.
///
/// @param ncr_str string of JSON text from which to make the request.
///
/// @return Pointer to newly created request.
///
/// @throw Underlying methods may throw.
extern
dhcp_ddns::NameChangeRequestPtr makeNcrFromString(const std::string& ncr_str);
/// @brief Creates a DdnsDomain with the one server.
///
/// @param zone_name zone name of the domain
/// @param key_name TSIG key name of the TSIG key for this domain. It will
/// create a TSIGKeyInfo based on the key_name and assign it to the domain.
///
/// @throw Underlying methods may throw.
extern DdnsDomainPtr makeDomain(const std::string& zone_name,
const std::string& key_name);
/// @brief Creates a DdnsDomain with the one server.
///
/// @param zone_name zone name of the domain
/// @param tsig_key_info pointer to the TSIGInfog key for this domain.
/// Defaults to an empty pointer, meaning this domain has no key.
///
/// @throw Underlying methods may throw.
extern DdnsDomainPtr makeDomain(const std::string& zone_name,
const TSIGKeyInfoPtr&
tsig_key_info = TSIGKeyInfoPtr());
/// @brief Creates a TSIGKeyInfo
///
/// @param key_name name of the key
/// @param secret key secret data as a base64 encoded string. If blank,
/// then the secret value will be generated from key_name.
/// @param algorithm algorithm to use. Defaults to MD5.
/// @return a TSIGKeyInfoPtr for the newly created key. If key_name is blank
/// the pointer will be empty.
/// @throw Underlying methods may throw.
extern
TSIGKeyInfoPtr makeTSIGKeyInfo(const std::string& key_name,
const std::string& secret = "",
const std::string& algorithm
= TSIGKeyInfo::HMAC_MD5_STR);
/// @brief Creates a DnsServerInfo and adds it to the given DdnsDomain.
///
/// The server is created and added to the domain, without duplicate entry
/// checking.
///
/// @param domain DdnsDomain to which to add the server
/// @param name new server's host name of the server
/// @param ip new server's ip address
/// @param port new server's port
///
/// @throw Underlying methods may throw.
extern void addDomainServer(DdnsDomainPtr& domain, const std::string& name,
const std::string& ip = TEST_DNS_SERVER_IP,
const size_t port = TEST_DNS_SERVER_PORT);
/// @brief Creates a hex text dump of the given data buffer.
///
/// This method is not used for testing but is handy for debugging. It creates
/// a pleasantly formatted string of 2-digits per byte separated by spaces with
/// 16 bytes per line.
///
/// @param data pointer to the data to dump
/// @param len size (in bytes) of data
extern std::string toHexText(const uint8_t* data, size_t len);
}; // namespace isc::d2
}; // namespace isc
#endif
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