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// Copyright (C) 2014-2015 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.
#ifndef PKT_H
#define PKT_H
#include <asiolink/io_address.h>
#include <util/buffer.h>
#include <dhcp/option.h>
#include <dhcp/hwaddr.h>
#include <dhcp/classify.h>
#include <boost/date_time/posix_time/posix_time.hpp>
namespace isc {
namespace dhcp {
/// @brief Base class for classes representing DHCP messages.
///
/// This is a base class that holds common information (e.g. source
/// and destination ports) and operations (e.g. add, get, delete options)
/// for derived classes representing both DHCPv4 and DHCPv6 messages.
/// The @c Pkt4 and @c Pkt6 classes derive from it.
///
/// @note This is abstract class. Please instantiate derived classes
/// such as @c Pkt4 or @c Pkt6.
class Pkt {
protected:
/// @brief Constructor.
///
/// This constructor is typically used for transmitted messages as it
/// creates an empty (no options) packet. The constructor is protected,
/// so only derived classes can call it. Pkt class cannot be instantiated
/// anyway, because it is an abstract class.
///
/// @param transid transaction-id
/// @param local_addr local IPv4 or IPv6 address
/// @param remote_addr remote IPv4 or IPv6 address
/// @param local_port local UDP (one day also TCP) port
/// @param remote_port remote UDP (one day also TCP) port
Pkt(uint32_t transid, const isc::asiolink::IOAddress& local_addr,
const isc::asiolink::IOAddress& remote_addr, uint16_t local_port,
uint16_t remote_port);
/// @brief Constructor.
///
/// This constructor is typically used for received messages as it takes
/// a buffer that's going to be parsed as one of arguments. The constructor
/// is protected, so only derived classes can call it. Pkt class cannot be
/// instantiated anyway, because it is an abstract class.
///
/// @param buf pointer to a buffer that contains on-wire data
/// @param len length of the pointer specified in buf
/// @param local_addr local IPv4 or IPv6 address
/// @param remote_addr remote IPv4 or IPv6 address
/// @param local_port local UDP (one day also TCP) port
/// @param remote_port remote UDP (one day also TCP) port
Pkt(const uint8_t* buf, uint32_t len,
const isc::asiolink::IOAddress& local_addr,
const isc::asiolink::IOAddress& remote_addr, uint16_t local_port,
uint16_t remote_port);
public:
/// @brief Prepares on-wire format of DHCP (either v4 or v6) packet.
///
/// Prepares on-wire format of message and all its options.
/// A caller must ensure that options are stored in options_ field
/// prior to calling this method.
///
/// Output buffer will be stored in buffer_out_.
/// The buffer_out_ should be cleared before writting to the buffer
/// in the derived classes.
///
/// @note This is a pure virtual method and must be implemented in
/// the derived classes. The @c Pkt4 and @c Pkt6 class have respective
/// implementations of this method.
///
/// @throw InvalidOperation if packing fails
virtual void pack() = 0;
/// @brief Parses on-wire form of DHCP (either v4 or v6) packet.
///
/// Parses received packet, stored in on-wire format in data_.
///
/// Will create a collection of option objects that will
/// be stored in options_ container.
///
/// @note This is a pure virtual method and must be implemented in
/// the derived classes. The @c Pkt4 and @c Pkt6 class have respective
/// implementations of this method.
///
/// Method will throw exception if packet parsing fails.
///
/// @throw tbd
virtual void unpack() = 0;
/// @brief Returns reference to output buffer.
///
/// Returned buffer will contain reasonable data only for
/// output (TX) packet and after pack() was called.
///
/// RX packet or TX packet before pack() will return buffer with
/// zero length. This buffer is returned as non-const, so hooks
/// framework (and user's callouts) can modify them if needed
///
/// @note This buffer is only valid till object that returned it exists.
///
/// @return reference to output buffer
isc::util::OutputBuffer& getBuffer() { return (buffer_out_); };
/// @brief Adds an option to this packet.
///
/// Derived classes may provide more specialized implementations.
/// In particular @c Pkt4 provides one that checks if option is
/// unique.
///
/// @param opt option to be added.
virtual void addOption(const OptionPtr& opt);
/// @brief Attempts to delete first suboption of requested type.
///
/// If there are several options of the same type present, only
/// the first option will be deleted.
///
/// @param type Type of option to be deleted.
///
/// @return true if option was deleted, false if no such option existed
bool delOption(uint16_t type);
/// @brief Returns text representation primary packet identifiers
///
/// This method is intended to be used to provide as a consistent way to
/// identify packets within log statements. Derivations should supply
/// there own implementation.
///
/// @return string with text representation
virtual std::string getLabel() const {
isc_throw(NotImplemented, "Pkt::getLabel()");
}
/// @brief Returns text representation of the packet.
///
/// This function is useful mainly for debugging.
///
/// @note This is a pure virtual method and must be implemented in
/// the derived classes. The @c Pkt4 and @c Pkt6 class have respective
/// implementations of this method.
///
/// @return string with text representation
virtual std::string toText() const = 0;
/// @brief Returns packet size in binary format.
///
/// Returns size of the packet in on-wire format or size needed to store
/// it in on-wire format.
///
/// @note This is a pure virtual method and must be implemented in
/// the derived classes. The @c Pkt4 and @c Pkt6 class have respective
/// implementations of this method.
///
/// @return packet size in bytes
virtual size_t len() = 0;
/// @brief Returns message type (e.g. 1 = SOLICIT).
///
/// @note This is a pure virtual method and must be implemented in
/// the derived classes. The @c Pkt4 and @c Pkt6 class have respective
/// implementations of this method.
///
/// @return message type
virtual uint8_t getType() const = 0;
/// @brief Sets message type (e.g. 1 = SOLICIT).
///
/// @note This is a pure virtual method and must be implemented in
/// the derived classes. The @c Pkt4 and @c Pkt6 class have respective
/// implementations of this method.
///
/// @param type message type to be set
virtual void setType(uint8_t type) = 0;
/// @brief Returns name of the DHCP message.
///
/// For all unsupported messages the derived classes must return
/// "UNKNOWN".
///
/// @return Ponter to "const" string containing DHCP message name.
/// The implementations in the derived classes should statically
/// allocate returned strings and the caller must not release the
/// returned pointer.
virtual const char* getName() const = 0;
/// @brief Sets transaction-id value.
///
/// @param transid transaction-id to be set.
void setTransid(uint32_t transid) { transid_ = transid; }
/// @brief Returns value of transaction-id field.
///
/// @return transaction-id
uint32_t getTransid() const { return (transid_); };
/// @brief Checks whether a client belongs to a given class.
///
/// @param client_class name of the class
/// @return true if belongs
bool inClass(const isc::dhcp::ClientClass& client_class);
/// @brief Adds packet to a specified class.
///
/// A packet can be added to the same class repeatedly. Any additional
/// attempts to add to a class the packet already belongs to, will be
/// ignored silently.
///
/// @note It is a matter of naming convention. Conceptually, the server
/// processes a stream of packets, with some packets belonging to given
/// classes. From that perspective, this method adds a packet to specifed
/// class. Implementation wise, it looks the opposite - the class name
/// is added to the packet. Perhaps the most appropriate name for this
/// method would be associateWithClass()? But that seems overly long,
/// so I decided to stick with addClass().
///
/// @param client_class name of the class to be added
void addClass(const isc::dhcp::ClientClass& client_class);
/// @brief Returns the class set
///
/// @note This should be used only to iterate over the class set.
/// @return
const ClientClasses& getClasses() const { return (classes_); }
/// @brief Unparsed data (in received packets).
///
/// @warning This public member is accessed by derived
/// classes directly. One of such derived classes is
/// @ref perfdhcp::PerfPkt6. The impact on derived clasess'
/// behavior must be taken into consideration before making
/// changes to this member such as access scope restriction or
/// data format change etc.
OptionBuffer data_;
/// @brief Returns the first option of specified type.
///
/// Returns the first option of specified type. Note that in DHCPv6 several
/// instances of the same option are allowed (and frequently used).
/// Also see \ref Pkt6::getOptions().
///
/// The options will be only returned after unpack() is called.
///
/// @param type option type we are looking for
///
/// @return pointer to found option (or NULL)
OptionPtr getOption(uint16_t type) const;
/// @brief Update packet timestamp.
///
/// Updates packet timestamp. This method is invoked
/// by interface manager just before sending or
/// just after receiving it.
/// @throw isc::Unexpected if timestamp update failed
void updateTimestamp();
/// @brief Returns packet timestamp.
///
/// Returns packet timestamp value updated when
/// packet is received or send.
///
/// @return packet timestamp.
const boost::posix_time::ptime& getTimestamp() const {
return timestamp_;
}
/// @brief Copies content of input buffer to output buffer.
///
/// This is mostly a diagnostic function. It is being used for sending
/// received packet. Received packet is stored in data_, but
/// transmitted data is stored in buffer_out_. If we want to send packet
/// that we just received, a copy between those two buffers is necessary.
void repack();
/// @brief Set callback function to be used to parse options.
///
/// @param callback An instance of the callback function or NULL to
/// uninstall callback.
void setCallback(UnpackOptionsCallback callback) {
callback_ = callback;
}
/// @brief Sets remote IP address.
///
/// @param remote specifies remote address
void setRemoteAddr(const isc::asiolink::IOAddress& remote) {
remote_addr_ = remote;
}
/// @brief Returns remote IP address.
///
/// @return remote address
const isc::asiolink::IOAddress& getRemoteAddr() const {
return (remote_addr_);
}
/// @brief Sets local IP address.
///
/// @param local specifies local address
void setLocalAddr(const isc::asiolink::IOAddress& local) {
local_addr_ = local;
}
/// @brief Returns local IP address.
///
/// @return local address
const isc::asiolink::IOAddress& getLocalAddr() const {
return (local_addr_);
}
/// @brief Sets local UDP (and soon TCP) port.
///
/// This sets a local port, i.e. destination port for recently received
/// packet or a source port for to be transmitted packet.
///
/// @param local specifies local port
void setLocalPort(uint16_t local) {
local_port_ = local;
}
/// @brief Returns local UDP (and soon TCP) port.
///
/// This sets a local port, i.e. destination port for recently received
/// packet or a source port for to be transmitted packet.
///
/// @return local port
uint16_t getLocalPort() const {
return (local_port_);
}
/// @brief Sets remote UDP (and soon TCP) port.
///
/// This sets a remote port, i.e. source port for recently received
/// packet or a destination port for to be transmitted packet.
///
/// @param remote specifies remote port
void setRemotePort(uint16_t remote) {
remote_port_ = remote;
}
/// @brief Returns remote port.
///
/// @return remote port
uint16_t getRemotePort() const {
return (remote_port_);
}
/// @brief Sets interface index.
///
/// @param ifindex specifies interface index.
void setIndex(uint32_t ifindex) {
ifindex_ = ifindex;
};
/// @brief Returns interface index.
///
/// @return interface index
uint32_t getIndex() const {
return (ifindex_);
};
/// @brief Returns interface name.
///
/// Returns interface name over which packet was received or is
/// going to be transmitted.
///
/// @return interface name
std::string getIface() const { return (iface_); };
/// @brief Sets interface name.
///
/// Sets interface name over which packet was received or is
/// going to be transmitted.
///
/// @return interface name
void setIface(const std::string& iface ) { iface_ = iface; };
/// @brief Sets remote hardware address.
///
/// Sets hardware address (MAC) from an existing HWAddr structure.
/// The remote address is a destination address for outgoing
/// packet and source address for incoming packet. When this
/// is an outgoing packet, this address will be used to
/// construct the link layer header.
///
/// @param hw_addr structure representing HW address.
///
/// @throw BadValue if addr is null
void setRemoteHWAddr(const HWAddrPtr& hw_addr);
/// @brief Sets remote hardware address.
///
/// Sets the destination hardware (MAC) address for the outgoing packet
/// or source HW address for the incoming packet. When this
/// is an outgoing packet this address will be used to construct
/// the link layer header.
///
/// @note mac_addr must be a buffer of at least hlen bytes.
///
/// In a typical case, hlen field would be redundant, as it could
/// be extracted from mac_addr.size(). However, the difference is
/// when running on exotic hardware, like Infiniband, that had
/// MAC addresses 20 bytes long. In that case, hlen is set to zero
/// in DHCPv4.
///
/// @param htype hardware type (will be sent in htype field)
/// @param hlen hardware length (will be sent in hlen field)
/// @param hw_addr pointer to hardware address
void setRemoteHWAddr(const uint8_t htype, const uint8_t hlen,
const std::vector<uint8_t>& hw_addr);
/// @brief Returns the remote HW address obtained from raw sockets.
///
/// @return remote HW address.
HWAddrPtr getRemoteHWAddr() const {
return (remote_hwaddr_);
}
/// @brief Returns MAC address.
///
/// The difference between this method and getRemoteHWAddr() is that
/// getRemoteHWAddr() returns only what was obtained from raw sockets.
/// This method is more generic and can attempt to obtain MAC from
/// varied sources: raw sockets, client-id, link-local IPv6 address,
/// and various relay options.
///
/// @note Technically the proper term for this information is a link layer
/// address, but it is frequently referred to MAC or hardware address.
/// Since we're calling the feature "MAC addresses in DHCPv6", we decided
/// to keep the name of getMAC().
///
/// hw_addr_src takes a combination of bit values specified in
/// HWADDR_SOURCE_* constants.
///
/// @param hw_addr_src a bitmask that specifies hardware address source
HWAddrPtr getMAC(uint32_t hw_addr_src);
/// @brief Virtual desctructor.
///
/// There is nothing to clean up here, but since there are virtual methods,
/// we define virtual destructor to ensure that derived classes will have
/// a virtual one, too.
virtual ~Pkt() {
}
/// @brief Classes this packet belongs to.
///
/// This field is public, so the code outside of Pkt4 or Pkt6 class can
/// iterate over existing classes. Having it public also solves the problem
/// of returned reference lifetime. It is preferred to use @ref inClass and
/// @ref addClass should be used to operate on this field.
ClientClasses classes_;
/// @brief Collection of options present in this message.
///
/// @warning This public member is accessed by derived
/// classes directly. One of such derived classes is
/// @ref perfdhcp::PerfPkt6. The impact on derived clasess'
/// behavior must be taken into consideration before making
/// changes to this member such as access scope restriction or
/// data format change etc.
isc::dhcp::OptionCollection options_;
protected:
/// @brief Attempts to obtain MAC address from source link-local
/// IPv6 address
///
/// This method is called from getMAC(HWADDR_SOURCE_IPV6_LINK_LOCAL)
/// and should not be called directly. It is not 100% reliable.
/// The source IPv6 address does not necessarily have to be link-local
/// (may be global or ULA) and even if it's link-local, it doesn't
/// necessarily be based on EUI-64. For example, Windows supports
/// RFC4941, which randomized IID part of the link-local address.
/// If this method fails, it will return NULL.
///
/// For direct message, it attempts to use remote_addr_ field. For relayed
/// message, it uses peer-addr of the first relay.
///
/// @note This is a pure virtual method and must be implemented in
/// the derived classes. The @c Pkt6 class have respective implementation.
/// This method is not applicable to DHCPv4.
///
/// @return hardware address (or NULL)
virtual HWAddrPtr getMACFromSrcLinkLocalAddr() = 0;
/// @brief Attempts to obtain MAC address from relay option
/// client-linklayer-addr
///
/// This method is called from getMAC(HWADDR_SOURCE_CLIENT_ADDR_RELAY_OPTION)
/// and should not be called directly. It will extract the client's
/// MAC/Hardware address from option client_linklayer_addr (RFC6939)
/// inserted by the relay agent closest to the client.
/// If this method fails, it will return NULL.
///
/// @note This is a pure virtual method and must be implemented in
/// the derived classes. The @c Pkt6 class have respective implementation.
/// This method is not applicable to DHCPv4.
///
/// @return hardware address (or NULL)
virtual HWAddrPtr getMACFromIPv6RelayOpt() = 0;
/// @brief Attempts to obtain MAC address from DUID-LL or DUID-LLT.
///
/// This method is called from getMAC(HWADDR_SOURCE_DUID) and should not be
/// called directly. It will attempt to extract MAC address information
/// from DUID if its type is LLT or LL. If this method fails, it will
/// return NULL.
///
/// @note This is a pure virtual method and must be implemented in
/// the derived classes. The @c Pkt6 class have respective implementation.
/// This method is not applicable to DHCPv4.
///
/// @return hardware address (or NULL)
virtual HWAddrPtr getMACFromDUID() = 0;
/// @brief Attempts to obtain MAC address from remote-id relay option.
///
/// This method is called from getMAC(HWADDR_SOURCE_REMOTE_ID) and should not be
/// called directly. It will attempt to extract MAC address information
/// from remote-id option inserted by a relay agent closest to the client.
/// If this method fails, it will return NULL.
///
/// @note This is a pure virtual method and must be implemented in
/// the derived classes. The @c Pkt6 class have respective implementation.
/// This method is not applicable to DHCPv4.
///
/// @return hardware address (or NULL)
virtual HWAddrPtr getMACFromRemoteIdRelayOption() = 0;
/// @brief Attempts to convert IPv6 address into MAC.
///
/// Utility method that attempts to convert link-local IPv6 address to the
/// MAC address. That works only for link-local IPv6 addresses that are
/// based on EUI-64.
///
/// @note This method uses hardware type of the interface the packet was
/// received on. If you have multiple access technologies in your network
/// (e.g. client connected to WiFi that relayed the traffic to the server
/// over Ethernet), hardware type may be invalid.
///
/// @param addr IPv6 address to be converted
/// @return hardware address (or NULL)
HWAddrPtr
getMACFromIPv6(const isc::asiolink::IOAddress& addr);
/// @brief Attempts to extract MAC/Hardware address from DOCSIS options
/// inserted by the modem itself.
///
/// This is a generic mechanism for extracting hardware address from the
/// DOCSIS options.
///
/// @note This is a pure virtual method and must be implemented in
/// the derived classes. The @c Pkt6 class have respective implementation.
/// This method is currently not implemented in DHCPv4.
///
/// @return hardware address (if necessary DOCSIS suboptions are present)
virtual HWAddrPtr getMACFromDocsisModem() = 0;
/// @brief Attempts to extract MAC/Hardware address from DOCSIS options
/// inserted by the CMTS (the relay agent)
///
/// This is a generic mechanism for extracting hardware address from the
/// DOCSIS options.
///
/// @note This is a pure virtual method and must be implemented in
/// the derived classes. The @c Pkt6 class have respective implementation.
/// This method is currently not implemented in DHCPv4.
///
/// @return hardware address (if necessary DOCSIS suboptions are present)
virtual HWAddrPtr getMACFromDocsisCMTS() = 0;
/// Transaction-id (32 bits for v4, 24 bits for v6)
uint32_t transid_;
/// Name of the network interface the packet was received/to be sent over.
std::string iface_;
/// @brief Interface index.
///
/// Each network interface has assigned an unique ifindex.
/// It is a functional equivalent of a name, but sometimes more useful, e.g.
/// when using odd systems that allow spaces in interface names.
int ifindex_;
/// @brief Local IP (v4 or v6) address.
///
/// Specifies local IPv4 or IPv6 address. It is a destination address for
/// received packet, and a source address if it packet is being transmitted.
isc::asiolink::IOAddress local_addr_;
/// @brief Remote IP address.
///
/// Specifies local IPv4 or IPv6 address. It is source address for received
/// packet and a destination address for packet being transmitted.
isc::asiolink::IOAddress remote_addr_;
/// local TDP or UDP port
uint16_t local_port_;
/// remote TCP or UDP port
uint16_t remote_port_;
/// Output buffer (used during message transmission)
///
/// @warning This protected member is accessed by derived
/// classes directly. One of such derived classes is
/// @ref perfdhcp::PerfPkt6. The impact on derived clasess'
/// behavior must be taken into consideration before making
/// changes to this member such as access scope restriction or
/// data format change etc.
isc::util::OutputBuffer buffer_out_;
/// packet timestamp
boost::posix_time::ptime timestamp_;
// remote HW address (src if receiving packet, dst if sending packet)
HWAddrPtr remote_hwaddr_;
/// A callback to be called to unpack options from the packet.
UnpackOptionsCallback callback_;
private:
/// @brief Generic method that validates and sets HW address.
///
/// This is a generic method used by all modifiers of this class
/// which set class members representing HW address.
///
/// @param htype hardware type.
/// @param hlen hardware length.
/// @param hw_addr pointer to actual hardware address.
/// @param [out] storage pointer to a class member to be modified.
///
/// @trow isc::OutOfRange if invalid HW address specified.
virtual void setHWAddrMember(const uint8_t htype, const uint8_t hlen,
const std::vector<uint8_t>& hw_addr,
HWAddrPtr& storage);
};
}; // namespace isc::dhcp
}; // namespace isc
#endif
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