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// Copyright (C) 2011-2016 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/.
#include <config.h>
#include <asiolink/io_address.h>
#include <dhcp/dhcp4.h>
#include <dhcp/libdhcp++.h>
#include <dhcp/option_int.h>
#include <dhcp/pkt4.h>
#include <exceptions/exceptions.h>
#include <algorithm>
#include <iostream>
#include <sstream>
using namespace std;
using namespace isc::dhcp;
using namespace isc::asiolink;
namespace {
/// @brief Default address used in Pkt4 constructor
const IOAddress DEFAULT_ADDRESS("0.0.0.0");
}
namespace isc {
namespace dhcp {
Pkt4::Pkt4(uint8_t msg_type, uint32_t transid)
:Pkt(transid, DEFAULT_ADDRESS, DEFAULT_ADDRESS, DHCP4_SERVER_PORT,
DHCP4_CLIENT_PORT),
op_(DHCPTypeToBootpType(msg_type)),
hwaddr_(new HWAddr()),
hops_(0),
secs_(0),
flags_(0),
ciaddr_(DEFAULT_ADDRESS),
yiaddr_(DEFAULT_ADDRESS),
siaddr_(DEFAULT_ADDRESS),
giaddr_(DEFAULT_ADDRESS)
{
memset(sname_, 0, MAX_SNAME_LEN);
memset(file_, 0, MAX_FILE_LEN);
setType(msg_type);
}
Pkt4::Pkt4(const uint8_t* data, size_t len)
:Pkt(data, len, DEFAULT_ADDRESS, DEFAULT_ADDRESS, DHCP4_SERVER_PORT,
DHCP4_CLIENT_PORT),
op_(BOOTREQUEST),
hwaddr_(new HWAddr()),
hops_(0),
secs_(0),
flags_(0),
ciaddr_(DEFAULT_ADDRESS),
yiaddr_(DEFAULT_ADDRESS),
siaddr_(DEFAULT_ADDRESS),
giaddr_(DEFAULT_ADDRESS)
{
if (len < DHCPV4_PKT_HDR_LEN) {
isc_throw(OutOfRange, "Truncated DHCPv4 packet (len=" << len
<< ") received, at least " << DHCPV4_PKT_HDR_LEN
<< " is expected.");
}
memset(sname_, 0, MAX_SNAME_LEN);
memset(file_, 0, MAX_FILE_LEN);
}
size_t
Pkt4::len() {
size_t length = DHCPV4_PKT_HDR_LEN; // DHCPv4 header
// ... and sum of lengths of all options
for (OptionCollection::const_iterator it = options_.begin();
it != options_.end();
++it) {
length += (*it).second->len();
}
return (length);
}
void
Pkt4::pack() {
if (!hwaddr_) {
isc_throw(InvalidOperation, "Can't build Pkt4 packet. HWAddr not set.");
}
// Clear the output buffer to make sure that consecutive calls to pack()
// will not result in concatenation of multiple packet copies.
buffer_out_.clear();
try {
size_t hw_len = hwaddr_->hwaddr_.size();
buffer_out_.writeUint8(op_);
buffer_out_.writeUint8(hwaddr_->htype_);
buffer_out_.writeUint8(hw_len < MAX_CHADDR_LEN ?
hw_len : MAX_CHADDR_LEN);
buffer_out_.writeUint8(hops_);
buffer_out_.writeUint32(transid_);
buffer_out_.writeUint16(secs_);
buffer_out_.writeUint16(flags_);
buffer_out_.writeUint32(ciaddr_.toUint32());
buffer_out_.writeUint32(yiaddr_.toUint32());
buffer_out_.writeUint32(siaddr_.toUint32());
buffer_out_.writeUint32(giaddr_.toUint32());
if ((hw_len > 0) && (hw_len <= MAX_CHADDR_LEN)) {
// write up to 16 bytes of the hardware address (CHADDR field is 16
// bytes long in DHCPv4 message).
buffer_out_.writeData(&hwaddr_->hwaddr_[0],
(hw_len < MAX_CHADDR_LEN ?
hw_len : MAX_CHADDR_LEN) );
hw_len = MAX_CHADDR_LEN - hw_len;
} else {
hw_len = MAX_CHADDR_LEN;
}
// write (len) bytes of padding
if (hw_len > 0) {
vector<uint8_t> zeros(hw_len, 0);
buffer_out_.writeData(&zeros[0], hw_len);
}
buffer_out_.writeData(sname_, MAX_SNAME_LEN);
buffer_out_.writeData(file_, MAX_FILE_LEN);
// write DHCP magic cookie
buffer_out_.writeUint32(DHCP_OPTIONS_COOKIE);
LibDHCP::packOptions4(buffer_out_, options_);
// add END option that indicates end of options
// (End option is very simple, just a 255 octet)
buffer_out_.writeUint8(DHO_END);
} catch(const Exception& e) {
// An exception is thrown and message will be written to Logger
isc_throw(InvalidOperation, e.what());
}
}
void
Pkt4::unpack() {
// input buffer (used during message reception)
isc::util::InputBuffer buffer_in(&data_[0], data_.size());
if (buffer_in.getLength() < DHCPV4_PKT_HDR_LEN) {
isc_throw(OutOfRange, "Received truncated DHCPv4 packet (len="
<< buffer_in.getLength() << " received, at least "
<< DHCPV4_PKT_HDR_LEN << "is expected");
}
op_ = buffer_in.readUint8();
uint8_t htype = buffer_in.readUint8();
uint8_t hlen = buffer_in.readUint8();
hops_ = buffer_in.readUint8();
transid_ = buffer_in.readUint32();
secs_ = buffer_in.readUint16();
flags_ = buffer_in.readUint16();
ciaddr_ = IOAddress(buffer_in.readUint32());
yiaddr_ = IOAddress(buffer_in.readUint32());
siaddr_ = IOAddress(buffer_in.readUint32());
giaddr_ = IOAddress(buffer_in.readUint32());
vector<uint8_t> hw_addr(MAX_CHADDR_LEN, 0);
buffer_in.readVector(hw_addr, MAX_CHADDR_LEN);
buffer_in.readData(sname_, MAX_SNAME_LEN);
buffer_in.readData(file_, MAX_FILE_LEN);
hw_addr.resize(hlen);
hwaddr_ = HWAddrPtr(new HWAddr(hw_addr, htype));
if (buffer_in.getLength() == buffer_in.getPosition()) {
// this is *NOT* DHCP packet. It does not have any DHCPv4 options. In
// particular, it does not have magic cookie, a 4 byte sequence that
// differentiates between DHCP and BOOTP packets.
isc_throw(InvalidOperation, "Received BOOTP packet. BOOTP is not supported.");
}
if (buffer_in.getLength() - buffer_in.getPosition() < 4) {
// there is not enough data to hold magic DHCP cookie
isc_throw(Unexpected, "Truncated or no DHCP packet.");
}
uint32_t magic = buffer_in.readUint32();
if (magic != DHCP_OPTIONS_COOKIE) {
isc_throw(Unexpected, "Invalid or missing DHCP magic cookie");
}
size_t opts_len = buffer_in.getLength() - buffer_in.getPosition();
vector<uint8_t> opts_buffer;
// Use readVector because a function which parses option requires
// a vector as an input.
buffer_in.readVector(opts_buffer, opts_len);
size_t offset = LibDHCP::unpackOptions4(opts_buffer, DHCP4_OPTION_SPACE, options_);
// If offset is not equal to the size and there is no DHO_END,
// then something is wrong here. We either parsed past input
// buffer (bug in our code) or we haven't parsed everything
// (received trailing garbage or truncated option).
//
// Invoking Jon Postel's law here: be conservative in what you send, and be
// liberal in what you accept. There's no easy way to log something from
// libdhcp++ library, so we just choose to be silent about remaining
// bytes. We also need to quell compiler warning about unused offset
// variable.
//
// if ((offset != size) && (opts_buffer[offset] != DHO_END)) {
// isc_throw(BadValue, "Received DHCPv6 buffer of size " << size
// << ", were able to parse " << offset << " bytes.");
// }
(void)offset;
// No need to call check() here. There are thorough tests for this
// later (see Dhcp4Srv::accept()). We want to drop the packet later,
// so we'll be able to log more detailed drop reason.
}
uint8_t Pkt4::getType() const {
OptionPtr generic = getNonCopiedOption(DHO_DHCP_MESSAGE_TYPE);
if (!generic) {
return (DHCP_NOTYPE);
}
// Check if Message Type is specified as OptionInt<uint8_t>
boost::shared_ptr<OptionInt<uint8_t> > type_opt =
boost::dynamic_pointer_cast<OptionInt<uint8_t> >(generic);
if (type_opt) {
return (type_opt->getValue());
}
// Try to use it as generic option
return (generic->getUint8());
}
void Pkt4::setType(uint8_t dhcp_type) {
OptionPtr opt = getNonCopiedOption(DHO_DHCP_MESSAGE_TYPE);
if (opt) {
// There is message type option already, update it. It seems that
// we do have two types of objects representing message-type option.
// It would be more preferable to use only one type, but there's no
// easy way to enforce it.
//
// One is an instance of the Option class. It stores type in
// Option::data_, so Option::setUint8() and Option::getUint8() can be
// used. The other one is an instance of OptionInt<uint8_t> and
// it stores message type as integer, hence
// OptionInt<uint8_t>::getValue() and OptionInt<uint8_t>::setValue()
// should be used.
boost::shared_ptr<OptionInt<uint8_t> > type_opt =
boost::dynamic_pointer_cast<OptionInt<uint8_t> >(opt);
if (type_opt) {
type_opt->setValue(dhcp_type);
} else {
opt->setUint8(dhcp_type);
}
} else {
// There is no message type option yet, add it
opt.reset(new OptionInt<uint8_t>(Option::V4, DHO_DHCP_MESSAGE_TYPE,
dhcp_type));
addOption(opt);
}
}
const char*
Pkt4::getName(const uint8_t type) {
static const char* DHCPDISCOVER_NAME = "DHCPDISCOVER";
static const char* DHCPOFFER_NAME = "DHCPOFFER";
static const char* DHCPREQUEST_NAME = "DHCPREQUEST";
static const char* DHCPDECLINE_NAME = "DHCPDECLINE";
static const char* DHCPACK_NAME = "DHCPACK";
static const char* DHCPNAK_NAME = "DHCPNAK";
static const char* DHCPRELEASE_NAME = "DHCPRELEASE";
static const char* DHCPINFORM_NAME = "DHCPINFORM";
static const char* UNKNOWN_NAME = "UNKNOWN";
switch (type) {
case DHCPDISCOVER:
return (DHCPDISCOVER_NAME);
case DHCPOFFER:
return (DHCPOFFER_NAME);
case DHCPREQUEST:
return (DHCPREQUEST_NAME);
case DHCPDECLINE:
return (DHCPDECLINE_NAME);
case DHCPACK:
return (DHCPACK_NAME);
case DHCPNAK:
return (DHCPNAK_NAME);
case DHCPRELEASE:
return (DHCPRELEASE_NAME);
case DHCPINFORM:
return (DHCPINFORM_NAME);
default:
;
}
return (UNKNOWN_NAME);
}
const char*
Pkt4::getName() const {
// getType() is now exception safe. Even if there's no option 53 (message
// type), it now returns 0 rather than throw. getName() is able to handle
// 0 and unknown message types.
return (Pkt4::getName(getType()));
}
std::string
Pkt4::getLabel() const {
/// @todo If and when client id is extracted into Pkt4, this method should
/// use the instance member rather than fetch it every time.
std::string suffix;
ClientIdPtr client_id;
OptionPtr client_opt = getNonCopiedOption(DHO_DHCP_CLIENT_IDENTIFIER);
if (client_opt) {
try {
client_id = ClientIdPtr(new ClientId(client_opt->getData()));
} catch (...) {
// ClientId may throw if the client-id is too short.
suffix = " (malformed client-id)";
}
}
std::ostringstream label;
try {
label << makeLabel(hwaddr_, client_id, transid_);
} catch (...) {
// This should not happen with the current code, but we may add extra
// sanity checks in the future that would possibly throw if
// the hwaddr length is 0.
label << " (malformed hw address)";
}
label << suffix;
return (label.str());
}
std::string
Pkt4::makeLabel(const HWAddrPtr& hwaddr, const ClientIdPtr& client_id,
const uint32_t transid) {
// Create label with HW address and client identifier.
stringstream label;
label << makeLabel(hwaddr, client_id);
// Append transaction id.
label << ", tid=0x" << hex << transid << dec;
return label.str();
}
std::string
Pkt4::makeLabel(const HWAddrPtr& hwaddr, const ClientIdPtr& client_id) {
stringstream label;
label << "[" << (hwaddr ? hwaddr->toText() : "no hwaddr info")
<< "], cid=[" << (client_id ? client_id->toText() : "no info")
<< "]";
return label.str();
}
std::string
Pkt4::toText() const {
stringstream output;
output << "local_address=" << local_addr_ << ":" << local_port_
<< ", remote_adress=" << remote_addr_
<< ":" << remote_port_ << ", msg_type=";
// Try to obtain message type.
uint8_t msg_type = getType();
if (msg_type != DHCP_NOTYPE) {
output << getName(msg_type) << " (" << static_cast<int>(msg_type) << ")";
} else {
// Message Type option is missing.
output << "(missing)";
}
output << ", transid=0x" << hex << transid_ << dec;
if (!options_.empty()) {
output << "," << std::endl << "options:";
for (isc::dhcp::OptionCollection::const_iterator opt = options_.begin();
opt != options_.end(); ++opt) {
try {
output << std::endl << opt->second->toText(2);
} catch (...) {
output << "(unknown)" << std::endl;
}
}
} else {
output << ", message contains no options";
}
return (output.str());
}
void
Pkt4::setHWAddr(uint8_t htype, uint8_t hlen,
const std::vector<uint8_t>& mac_addr) {
setHWAddrMember(htype, hlen, mac_addr, hwaddr_);
}
void
Pkt4::setHWAddr(const HWAddrPtr& addr) {
if (!addr) {
isc_throw(BadValue, "Setting DHCPv4 chaddr field to NULL"
<< " is forbidden");
}
hwaddr_ = addr;
}
void
Pkt4::setHWAddrMember(const uint8_t htype, const uint8_t hlen,
const std::vector<uint8_t>& mac_addr,
HWAddrPtr& hw_addr) {
/// @todo Rewrite this once support for client-identifier option
/// is implemented (ticket 1228?)
if (hlen > MAX_CHADDR_LEN) {
isc_throw(OutOfRange, "Hardware address (len=" << hlen
<< " too long. Max " << MAX_CHADDR_LEN << " supported.");
} else if (mac_addr.empty() && (hlen > 0) ) {
isc_throw(OutOfRange, "Invalid HW Address specified");
}
/// @todo: what if mac_addr.size() doesn't match hlen?
/// We would happily copy over hardware address that is possibly
/// too long or doesn't match hlen value.
hw_addr.reset(new HWAddr(mac_addr, htype));
}
void
Pkt4::setLocalHWAddr(const uint8_t htype, const uint8_t hlen,
const std::vector<uint8_t>& mac_addr) {
setHWAddrMember(htype, hlen, mac_addr, local_hwaddr_);
}
void
Pkt4::setLocalHWAddr(const HWAddrPtr& addr) {
if (!addr) {
isc_throw(BadValue, "Setting local HW address to NULL is"
<< " forbidden.");
}
local_hwaddr_ = addr;
}
void
Pkt4::setSname(const uint8_t* sname, size_t snameLen /*= MAX_SNAME_LEN*/) {
if (snameLen > MAX_SNAME_LEN) {
isc_throw(OutOfRange, "sname field (len=" << snameLen
<< ") too long, Max " << MAX_SNAME_LEN << " supported.");
} else if (sname == NULL) {
isc_throw(InvalidParameter, "Invalid sname specified");
}
std::copy(sname, (sname + snameLen), sname_);
if (snameLen < MAX_SNAME_LEN) {
std::fill((sname_ + snameLen), (sname_ + MAX_SNAME_LEN), 0);
}
// No need to store snameLen as any empty space is filled with 0s
}
void
Pkt4::setFile(const uint8_t* file, size_t fileLen /*= MAX_FILE_LEN*/) {
if (fileLen > MAX_FILE_LEN) {
isc_throw(OutOfRange, "file field (len=" << fileLen
<< ") too long, Max " << MAX_FILE_LEN << " supported.");
} else if (file == NULL) {
isc_throw(InvalidParameter, "Invalid file name specified");
}
std::copy(file, (file + fileLen), file_);
if (fileLen < MAX_FILE_LEN) {
std::fill((file_ + fileLen), (file_ + MAX_FILE_LEN), 0);
}
// No need to store fileLen as any empty space is filled with 0s
}
uint8_t
// cppcheck-suppress unusedFunction
Pkt4::DHCPTypeToBootpType(uint8_t dhcpType) {
switch (dhcpType) {
case DHCPDISCOVER:
case DHCPREQUEST:
case DHCPDECLINE:
case DHCPRELEASE:
case DHCPINFORM:
case DHCPLEASEQUERY:
case DHCPBULKLEASEQUERY:
return (BOOTREQUEST);
case DHCPACK:
case DHCPNAK:
case DHCPOFFER:
case DHCPLEASEUNASSIGNED:
case DHCPLEASEUNKNOWN:
case DHCPLEASEACTIVE:
case DHCPLEASEQUERYDONE:
return (BOOTREPLY);
default:
isc_throw(OutOfRange, "Invalid message type: "
<< static_cast<int>(dhcpType) );
}
}
uint8_t
Pkt4::getHtype() const {
if (!hwaddr_) {
return (HTYPE_UNDEFINED);
}
return (hwaddr_->htype_);
}
uint8_t
Pkt4::getHlen() const {
if (!hwaddr_) {
return (0);
}
uint8_t len = hwaddr_->hwaddr_.size();
return (len <= MAX_CHADDR_LEN ? len : MAX_CHADDR_LEN);
}
void
Pkt4::addOption(const OptionPtr& opt) {
// Check for uniqueness (DHCPv4 options must be unique)
if (getNonCopiedOption(opt->getType())) {
isc_throw(BadValue, "Option " << opt->getType()
<< " already present in this message.");
}
Pkt::addOption(opt);
}
bool
Pkt4::isRelayed() const {
return (!giaddr_.isV4Zero() && !giaddr_.isV4Bcast());
}
} // end of namespace isc::dhcp
} // end of namespace isc
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