/
dhcpv6_handler.cc
670 lines (610 loc) · 28.6 KB
/
dhcpv6_handler.cc
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/*
* Copyright (c) 2013 Juniper Networks, Inc. All rights reserved.
*/
#include "base/os.h"
#include "vr_defs.h"
#include "cmn/agent_cmn.h"
#include "net/address_util.h"
#include "oper/route_common.h"
#include "pkt/pkt_init.h"
#include "services/dhcpv6_proto.h"
#include "services/services_types.h"
#include "services/services_init.h"
#include "services/dns_proto.h"
#include "services/services_sandesh.h"
#include "bind/bind_util.h"
#include "bind/xmpp_dns_agent.h"
#include <boost/assign/list_of.hpp>
using namespace boost::assign;
// since the DHCPv4 and DHCPv6 option codes mean different things
// and since we get only one set of DHCP options from the config or
// from Neutron, it is assumed that if the option code is a number,
// it represents DHCPv4 code and the code string for DHCPv6 and
// DHCPv4 do not overlap.
Dhcpv6NameCodeMap g_dhcpv6_namecode_map =
map_list_of<std::string, uint32_t>
("v6-client-id", DHCPV6_OPTION_CLIENTID)
("v6-server-id", DHCPV6_OPTION_SERVERID)
("v6-ia-na", DHCPV6_OPTION_IA_NA)
("v6-ia-ta", DHCPV6_OPTION_IA_TA)
("v6-ia-addr", DHCPV6_OPTION_IAADDR)
("v6-oro", DHCPV6_OPTION_ORO)
("v6-preference", DHCPV6_OPTION_PREFERENCE)
("v6-elapsed-time", DHCPV6_OPTION_ELAPSED_TIME)
("v6-relay-msg", DHCPV6_OPTION_RELAY_MSG)
("v6-auth", DHCPV6_OPTION_AUTH)
("v6-unicast", DHCPV6_OPTION_UNICAST)
("v6-status-code", DHCPV6_OPTION_STATUS_CODE)
("v6-rapid-commit", DHCPV6_OPTION_RAPID_COMMIT)
("v6-user-class", DHCPV6_OPTION_USER_CLASS)
("v6-vendor-class", DHCPV6_OPTION_VENDOR_CLASS)
("v6-vendor-opts", DHCPV6_OPTION_VENDOR_OPTS)
("v6-interface-id", DHCPV6_OPTION_INTERFACE_ID)
("v6-reconf-msg", DHCPV6_OPTION_RECONF_MSG)
("v6-reconf-accept", DHCPV6_OPTION_RECONF_ACCEPT)
("v6-sip-server-names", DHCPV6_OPTION_SIP_SERVER_D)
("v6-sip-server-addresses", DHCPV6_OPTION_SIP_SERVER_A)
("v6-name-servers", DHCPV6_OPTION_DNS_SERVERS)
("v6-domain-search", DHCPV6_OPTION_DOMAIN_LIST)
("v6-ia-pd", DHCPV6_OPTION_IA_PD)
("v6-ia-prefix", DHCPV6_OPTION_IAPREFIX)
("v6-nis-servers", DHCPV6_OPTION_NIS_SERVERS)
("v6-nisp-servers", DHCPV6_OPTION_NISP_SERVERS)
("v6-nis-domain-name", DHCPV6_OPTION_NIS_DOMAIN_NAME)
("v6-nisp-domain-name", DHCPV6_OPTION_NISP_DOMAIN_NAME)
("v6-sntp-servers", DHCPV6_OPTION_SNTP_SERVERS)
("v6-info-refresh-time", DHCPV6_OPTION_INFORMATION_REFRESH_TIME)
("v6-bcms-server-d", DHCPV6_OPTION_BCMCS_SERVER_D)
("v6-bcms-server-a", DHCPV6_OPTION_BCMCS_SERVER_A)
("v6-geoconf-civic", DHCPV6_OPTION_GEOCONF_CIVIC)
("v6-remote-id", DHCPV6_OPTION_REMOTE_ID)
("v6-subscriber-id", DHCPV6_OPTION_SUBSCRIBER_ID)
("v6-client-fqdn", DHCPV6_OPTION_CLIENT_FQDN)
("v6-pana-agent", DHCPV6_OPTION_PANA_AGENT)
("v6-posiz-timezone", DHCPV6_OPTION_NEW_POSIX_TIMEZONE)
("v6-tzdc-timezone", DHCPV6_OPTION_NEW_TZDB_TIMEZONE)
("v6-ero", DHCPV6_OPTION_ERO)
("v6-lq-query", DHCPV6_OPTION_LQ_QUERY)
("v6-client-data", DHCPV6_OPTION_CLIENT_DATA)
("v6-clt-time", DHCPV6_OPTION_CLT_TIME)
("v6-lq-relay-data", DHCPV6_OPTION_LQ_RELAY_DATA)
("v6-lq-client-link", DHCPV6_OPTION_LQ_CLIENT_LINK)
("mip6-hnidf", DHCPV6_OPTION_MIP6_HNIDF)
("mip6-vdinf", DHCPV6_OPTION_MIP6_VDINF)
("v6-lost", DHCPV6_OPTION_V6_LOST)
("v6-capwap-ac", DHCPV6_OPTION_CAPWAP_AC_V6)
("v6-relay-id", DHCPV6_OPTION_RELAY_ID)
("v6-address-mos", DHCPV6_OPTION_IPv6_Address_MoS)
("v6-fqdn-mos", DHCPV6_OPTION_IPv6_FQDN_MoS)
("v6-ntp-server", DHCPV6_OPTION_NTP_SERVER)
("v6-access-domain", DHCPV6_OPTION_V6_ACCESS_DOMAIN)
("v6-sip-ua-cs-list", DHCPV6_OPTION_SIP_UA_CS_LIST)
("v6-bootfile-url", DHCPV6_OPT_BOOTFILE_URL)
("v6-bootfile-param", DHCPV6_OPT_BOOTFILE_PARAM)
("v6-client-arch-type", DHCPV6_OPTION_CLIENT_ARCH_TYPE)
("v6-nii", DHCPV6_OPTION_NII)
("v6-geolocation", DHCPV6_OPTION_GEOLOCATION)
("v6-aftr-name", DHCPV6_OPTION_AFTR_NAME)
("v6-erp-local-domain-name", DHCPV6_OPTION_ERP_LOCAL_DOMAIN_NAME)
("v6-rsoo", DHCPV6_OPTION_RSOO)
("v6-pd-exclude", DHCPV6_OPTION_PD_EXCLUDE)
("v6-vss", DHCPV6_OPTION_VSS)
("mip6-idinf", DHCPV6_OPTION_MIP6_IDINF)
("mip6-udinf", DHCPV6_OPTION_MIP6_UDINF)
("mip6-hnp", DHCPV6_OPTION_MIP6_HNP)
("mip6-haa", DHCPV6_OPTION_MIP6_HAA)
("mip6-haf", DHCPV6_OPTION_MIP6_HAF)
("v6-rdnss-selection", DHCPV6_OPTION_RDNSS_SELECTION)
("v6-krb-principal-name", DHCPV6_OPTION_KRB_PRINCIPAL_NAME)
("v6-krb-realm-name", DHCPV6_OPTION_KRB_REALM_NAME)
("v6-krb-default-realm-name", DHCPV6_OPTION_KRB_DEFAULT_REALM_NAME)
("v6-krb-kdc", DHCPV6_OPTION_KRB_KDC)
("v6-client-linklayer-addr", DHCPV6_OPTION_CLIENT_LINKLAYER_ADDR)
("v6-link-address", DHCPV6_OPTION_LINK_ADDRESS)
("v6-radius", DHCPV6_OPTION_RADIUS)
("v6-sol-max-rt", DHCPV6_OPTION_SOL_MAX_RT)
("v6-inf-max-rt", DHCPV6_OPTION_INF_MAX_RT)
("v6-addrsel", DHCPV6_OPTION_ADDRSEL)
("v6-addrsel-table", DHCPV6_OPTION_ADDRSEL_TABLE)
("v6-pcp-server", DHCPV6_OPTION_V6_PCP_SERVER)
("v6-dhcpv4-msg", DHCPV6_OPTION_DHCPV4_MSG)
("v6-dhcpv4-o-dhcpv6-server", DHCPV6_OPTION_DHCP4_O_DHCP6_SERVER)
("v6-s46-rule", DHCPV6_OPTION_S46_RULE)
("v6-s46-br", DHCPV6_OPTION_S46_BR)
("v6-s46-dmr", DHCPV6_OPTION_S46_DMR)
("v6-s46-v4v6bind", DHCPV6_OPTION_S46_V4V6BIND)
("v6-s46-portparams", DHCPV6_OPTION_S46_PORTPARAMS)
("v6-s46-cont-mape", DHCPV6_OPTION_S46_CONT_MAPE)
("v6-s46-cont-mapt", DHCPV6_OPTION_S46_CONT_MAPT)
("v6-s46-cont-lw", DHCPV6_OPTION_S46_CONT_LW)
("v6-address-andsf", DHCPV6_OPTION_IPv6_ADDRESS_ANDSF);
Dhcpv6CategoryMap g_dhcpv6_category_map =
map_list_of<uint32_t, Dhcpv6Handler::DhcpOptionCategory>
// the following are sent from Agent
// (DHCPV6_OPTION_CLIENTID, Dhcpv6Handler::ByteArray)
// (DHCPV6_OPTION_SERVERID, Dhcpv6Handler::ByteArray)
// (DHCPV6_OPTION_IA_NA, Dhcpv6Handler::ByteArray)
// (DHCPV6_OPTION_IA_TA, Dhcpv6Handler::ByteArray)
// (DHCPV6_OPTION_IAADDR, Dhcpv6Handler::ByteArray)
// (DHCPV6_OPTION_ORO, Dhcpv6Handler::ByteArray)
(DHCPV6_OPTION_PREFERENCE, Dhcpv6Handler::Byte)
// (DHCPV6_OPTION_ELAPSED_TIME, Dhcpv6Handler::Uint16bit)
// (DHCPV6_OPTION_RELAY_MSG, Dhcpv6Handler::ByteArray)
// (DHCPV6_OPTION_AUTH, Dhcpv6Handler::ByteArray)
// (DHCPV6_OPTION_UNICAST, Dhcpv6Handler::OneIPv6)
// (DHCPV6_OPTION_STATUS_CODE, Dhcpv6Handler::ByteArray)
(DHCPV6_OPTION_RAPID_COMMIT, Dhcpv6Handler::NoData)
(DHCPV6_OPTION_USER_CLASS, Dhcpv6Handler::ByteArray)
(DHCPV6_OPTION_VENDOR_CLASS, Dhcpv6Handler::ByteArray)
(DHCPV6_OPTION_VENDOR_OPTS, Dhcpv6Handler::ByteArray)
(DHCPV6_OPTION_INTERFACE_ID, Dhcpv6Handler::ByteArray)
(DHCPV6_OPTION_RECONF_MSG, Dhcpv6Handler::Byte)
(DHCPV6_OPTION_RECONF_ACCEPT, Dhcpv6Handler::NoData)
(DHCPV6_OPTION_SIP_SERVER_D, Dhcpv6Handler::NameCompressionArray)
(DHCPV6_OPTION_SIP_SERVER_A, Dhcpv6Handler::OneIPv6Plus)
(DHCPV6_OPTION_DNS_SERVERS, Dhcpv6Handler::OneIPv6Plus)
(DHCPV6_OPTION_DOMAIN_LIST, Dhcpv6Handler::NameCompressionArray)
(DHCPV6_OPTION_IA_PD, Dhcpv6Handler::ByteArray)
(DHCPV6_OPTION_IAPREFIX, Dhcpv6Handler::ByteArray)
(DHCPV6_OPTION_NIS_SERVERS, Dhcpv6Handler::OneIPv6Plus)
(DHCPV6_OPTION_NISP_SERVERS, Dhcpv6Handler::OneIPv6Plus)
(DHCPV6_OPTION_NIS_DOMAIN_NAME, Dhcpv6Handler::NameCompression)
(DHCPV6_OPTION_NISP_DOMAIN_NAME, Dhcpv6Handler::NameCompression)
(DHCPV6_OPTION_SNTP_SERVERS, Dhcpv6Handler::OneIPv6Plus)
(DHCPV6_OPTION_INFORMATION_REFRESH_TIME, Dhcpv6Handler::Uint32bit)
(DHCPV6_OPTION_BCMCS_SERVER_D, Dhcpv6Handler::NameCompressionArray)
(DHCPV6_OPTION_BCMCS_SERVER_A, Dhcpv6Handler::OneIPv6Plus)
(DHCPV6_OPTION_GEOCONF_CIVIC, Dhcpv6Handler::ByteArray)
(DHCPV6_OPTION_REMOTE_ID, Dhcpv6Handler::ByteArray)
(DHCPV6_OPTION_SUBSCRIBER_ID, Dhcpv6Handler::ByteArray)
(DHCPV6_OPTION_CLIENT_FQDN, Dhcpv6Handler::ByteNameCompression)
(DHCPV6_OPTION_PANA_AGENT, Dhcpv6Handler::OneIPv6Plus)
(DHCPV6_OPTION_NEW_POSIX_TIMEZONE, Dhcpv6Handler::String)
(DHCPV6_OPTION_NEW_TZDB_TIMEZONE, Dhcpv6Handler::String)
(DHCPV6_OPTION_ERO, Dhcpv6Handler::Uint16bitArray)
(DHCPV6_OPTION_LQ_QUERY, Dhcpv6Handler::ByteArray)
(DHCPV6_OPTION_CLIENT_DATA, Dhcpv6Handler::ByteArray)
(DHCPV6_OPTION_CLT_TIME, Dhcpv6Handler::Uint32bit)
(DHCPV6_OPTION_LQ_RELAY_DATA, Dhcpv6Handler::ByteArray)
(DHCPV6_OPTION_LQ_CLIENT_LINK, Dhcpv6Handler::OneIPv6Plus)
(DHCPV6_OPTION_MIP6_HNIDF, Dhcpv6Handler::NameCompression)
(DHCPV6_OPTION_MIP6_VDINF, Dhcpv6Handler::ByteArray)
(DHCPV6_OPTION_V6_LOST, Dhcpv6Handler::NameCompression)
(DHCPV6_OPTION_CAPWAP_AC_V6, Dhcpv6Handler::OneIPv6Plus)
(DHCPV6_OPTION_RELAY_ID, Dhcpv6Handler::ByteArray)
(DHCPV6_OPTION_IPv6_Address_MoS, Dhcpv6Handler::ByteArray)
(DHCPV6_OPTION_IPv6_FQDN_MoS, Dhcpv6Handler::ByteArray)
(DHCPV6_OPTION_NTP_SERVER, Dhcpv6Handler::ByteArray)
(DHCPV6_OPTION_V6_ACCESS_DOMAIN, Dhcpv6Handler::NameCompression)
(DHCPV6_OPTION_SIP_UA_CS_LIST, Dhcpv6Handler::NameCompressionArray)
(DHCPV6_OPT_BOOTFILE_URL, Dhcpv6Handler::String)
(DHCPV6_OPT_BOOTFILE_PARAM, Dhcpv6Handler::ByteArray)
(DHCPV6_OPTION_CLIENT_ARCH_TYPE, Dhcpv6Handler::Uint16bitArray)
(DHCPV6_OPTION_NII, Dhcpv6Handler::ByteArray)
(DHCPV6_OPTION_GEOLOCATION, Dhcpv6Handler::ByteArray)
(DHCPV6_OPTION_AFTR_NAME, Dhcpv6Handler::NameCompression)
(DHCPV6_OPTION_ERP_LOCAL_DOMAIN_NAME, Dhcpv6Handler::NameCompression)
(DHCPV6_OPTION_RSOO, Dhcpv6Handler::ByteArray)
(DHCPV6_OPTION_PD_EXCLUDE, Dhcpv6Handler::ByteArray)
(DHCPV6_OPTION_VSS, Dhcpv6Handler::ByteArray)
(DHCPV6_OPTION_MIP6_IDINF, Dhcpv6Handler::ByteArray)
(DHCPV6_OPTION_MIP6_UDINF, Dhcpv6Handler::ByteArray)
(DHCPV6_OPTION_MIP6_HNP, Dhcpv6Handler::ByteArray)
(DHCPV6_OPTION_MIP6_HAA, Dhcpv6Handler::OneIPv6)
(DHCPV6_OPTION_MIP6_HAF, Dhcpv6Handler::NameCompression)
(DHCPV6_OPTION_RDNSS_SELECTION, Dhcpv6Handler::ByteArray)
(DHCPV6_OPTION_KRB_PRINCIPAL_NAME, Dhcpv6Handler::ByteArray)
(DHCPV6_OPTION_KRB_REALM_NAME, Dhcpv6Handler::ByteArray)
(DHCPV6_OPTION_KRB_DEFAULT_REALM_NAME, Dhcpv6Handler::ByteArray)
(DHCPV6_OPTION_KRB_KDC, Dhcpv6Handler::ByteArray)
(DHCPV6_OPTION_CLIENT_LINKLAYER_ADDR, Dhcpv6Handler::ByteArray)
(DHCPV6_OPTION_LINK_ADDRESS, Dhcpv6Handler::OneIPv6)
(DHCPV6_OPTION_RADIUS, Dhcpv6Handler::ByteArray)
(DHCPV6_OPTION_SOL_MAX_RT, Dhcpv6Handler::Uint32bit)
(DHCPV6_OPTION_INF_MAX_RT, Dhcpv6Handler::Uint32bit)
(DHCPV6_OPTION_ADDRSEL, Dhcpv6Handler::ByteArray)
(DHCPV6_OPTION_ADDRSEL_TABLE, Dhcpv6Handler::ByteArray)
(DHCPV6_OPTION_V6_PCP_SERVER, Dhcpv6Handler::OneIPv6Plus)
(DHCPV6_OPTION_DHCPV4_MSG, Dhcpv6Handler::ByteArray)
(DHCPV6_OPTION_DHCP4_O_DHCP6_SERVER, Dhcpv6Handler::ByteArray)
(DHCPV6_OPTION_S46_RULE, Dhcpv6Handler::ByteArray)
(DHCPV6_OPTION_S46_BR, Dhcpv6Handler::OneIPv6)
(DHCPV6_OPTION_S46_DMR, Dhcpv6Handler::ByteArray)
(DHCPV6_OPTION_S46_V4V6BIND, Dhcpv6Handler::ByteArray)
(DHCPV6_OPTION_S46_PORTPARAMS, Dhcpv6Handler::ByteArray)
(DHCPV6_OPTION_S46_CONT_MAPE, Dhcpv6Handler::ByteArray)
(DHCPV6_OPTION_S46_CONT_MAPT, Dhcpv6Handler::ByteArray)
(DHCPV6_OPTION_S46_CONT_LW, Dhcpv6Handler::ByteArray)
(DHCPV6_OPTION_IPv6_ADDRESS_ANDSF, Dhcpv6Handler::OneIPv6Plus);
Dhcpv6Handler::Dhcpv6Handler(Agent *agent, boost::shared_ptr<PktInfo> info,
boost::asio::io_service &io)
: DhcpHandlerBase(agent, info, io),
msg_type_(DHCPV6_UNKNOWN), out_msg_type_(DHCPV6_UNKNOWN),
rapid_commit_(false), reconfig_accept_(false),
client_duid_len_(0), server_duid_len_(0),
client_duid_(NULL), server_duid_(NULL) {
memset(xid_, 0, sizeof(xid_));
option_.reset(new Dhcpv6OptionHandler(NULL));
}
Dhcpv6Handler::~Dhcpv6Handler() {
}
bool Dhcpv6Handler::Run() {
dhcp_ = (Dhcpv6Hdr *) pkt_info_->data;
option_->SetDhcpOptionPtr((uint8_t *)dhcp_->options);
// request_.UpdateData(dhcp_->xid, ntohs(dhcp_->flags), dhcp_->chaddr);
Dhcpv6Proto *dhcp_proto = agent()->dhcpv6_proto();
Interface *itf =
agent()->interface_table()->FindInterface(GetInterfaceIndex());
if (itf == NULL) {
dhcp_proto->IncrStatsError();
DHCPV6_TRACE(Error, "Received DHCP packet on invalid interface : "
<< GetInterfaceIndex());
return true;
}
if (itf->type() != Interface::VM_INTERFACE) {
dhcp_proto->IncrStatsError();
DHCPV6_TRACE(Error, "Received DHCP packet on non VM port interface : "
<< GetInterfaceIndex());
return true;
}
vm_itf_ = static_cast<VmInterface *>(itf);
if (!vm_itf_->layer3_forwarding()) {
dhcp_proto->IncrStatsError();
DHCPV6_TRACE(Error, "DHCP request on VM port with disabled ip service: "
<< GetInterfaceIndex());
return true;
}
msg_type_ = dhcp_->type;
memcpy(xid_, dhcp_->xid, 3);
// options length = pkt length - size of headers
int16_t options_len = pkt_info_->len -
(pkt_info_->data - (uint8_t *)pkt_info_->eth)
- DHCPV6_FIXED_LEN;
ReadOptions(options_len);
switch (msg_type_) {
case DHCPV6_SOLICIT:
out_msg_type_ = DHCPV6_ADVERTISE;
dhcp_proto->IncrStatsSolicit();
DHCPV6_TRACE(Trace, "DHCP solicit received on interface : "
<< vm_itf_->name());
break;
case DHCPV6_REQUEST:
out_msg_type_ = DHCPV6_REPLY;
dhcp_proto->IncrStatsRequest();
DHCPV6_TRACE(Trace, "DHCP request received on interface : "
<< vm_itf_->name());
break;
// TODO: following messages require special handling
case DHCPV6_CONFIRM:
out_msg_type_ = DHCPV6_REPLY;
dhcp_proto->IncrStatsConfirm();
DHCPV6_TRACE(Trace, "DHCP confirm received on interface : "
<< vm_itf_->name());
break;
case DHCPV6_RENEW:
out_msg_type_ = DHCPV6_REPLY;
dhcp_proto->IncrStatsRenew();
DHCPV6_TRACE(Trace, "DHCP renew received on interface : "
<< vm_itf_->name());
break;
case DHCPV6_REBIND:
out_msg_type_ = DHCPV6_REPLY;
dhcp_proto->IncrStatsRebind();
DHCPV6_TRACE(Trace, "DHCP bind received on interface : "
<< vm_itf_->name());
break;
case DHCPV6_RELEASE:
out_msg_type_ = DHCPV6_REPLY;
dhcp_proto->IncrStatsRelease();
DHCPV6_TRACE(Trace, "DHCP release received on interface : "
<< vm_itf_->name());
break;
case DHCPV6_DECLINE:
out_msg_type_ = DHCPV6_REPLY;
dhcp_proto->IncrStatsDecline();
DHCPV6_TRACE(Trace, "DHCP decline received on interface : "
<< vm_itf_->name());
break;
case DHCPV6_RECONFIGURE:
dhcp_proto->IncrStatsReconfigure();
DHCPV6_TRACE(Trace, "DHCP reconfigure received on interface : "
<< vm_itf_->name());
break;
case DHCPV6_INFORMATION_REQUEST:
dhcp_proto->IncrStatsInformationRequest();
DHCPV6_TRACE(Trace,
"DHCP information request received on interface : "
<< vm_itf_->name());
break;
default:
DHCPV6_TRACE(Trace, "DHCP message " << msg_type_ <<
" received on interface : " << vm_itf_->name() <<
"; ignoring");
dhcp_proto->IncrStatsError();
return true;
}
if (FindLeaseData()) {
SendDhcpResponse();
DHCPV6_TRACE(Trace, "DHCP response sent; message = " <<
ServicesSandesh::Dhcpv6MsgType(out_msg_type_) <<
"; ip = " << config_.ip_addr.to_string());
}
return true;
}
// read DHCP options in the incoming packet
void Dhcpv6Handler::ReadOptions(int16_t opt_rem_len) {
Dhcpv6Options *opt = dhcp_->options;
// parse thru the option fields
while (opt_rem_len > 0) {
uint16_t option_code = ntohs(opt->code);
uint16_t option_len = ntohs(opt->len);
switch (option_code) {
case DHCPV6_OPTION_CLIENTID:
client_duid_len_ = option_len;
client_duid_.reset(new uint8_t[client_duid_len_]);
memcpy(client_duid_.get(), opt->data, client_duid_len_);
break;
case DHCPV6_OPTION_SERVERID:
server_duid_len_ = option_len;
server_duid_.reset(new uint8_t[server_duid_len_]);
memcpy(server_duid_.get(), opt->data, server_duid_len_);
break;
case DHCPV6_OPTION_IA_NA:
case DHCPV6_OPTION_IA_TA:
ReadIA(opt->data, option_len, option_code);
break;
case DHCPV6_OPTION_RAPID_COMMIT:
rapid_commit_ = true;
break;
case DHCPV6_OPTION_RECONF_ACCEPT:
reconfig_accept_ = true;
break;
case DHCPV6_OPTION_ORO: // list of requested options
case DHCPV6_OPTION_PREFERENCE: // server preference, sent by server
case DHCPV6_OPTION_ELAPSED_TIME: // time client has been trying
case DHCPV6_OPTION_RELAY_MSG: // relay DHCP types are not handled
case DHCPV6_OPTION_AUTH: // authentication
case DHCPV6_OPTION_UNICAST: // server option, sent to get ucast msgs
case DHCPV6_OPTION_USER_CLASS: // type of user
case DHCPV6_OPTION_VENDOR_CLASS: // vendor
case DHCPV6_OPTION_VENDOR_OPTS:
case DHCPV6_OPTION_INTERFACE_ID: // used by relay agent
case DHCPV6_OPTION_RECONF_MSG: // can only appear in reconfigure msg
// ignore these options
break;
default:
break;
}
opt_rem_len -= (4 + option_len);
opt = (Dhcpv6Options *)((uint8_t *)opt + 4 + option_len);
}
}
bool Dhcpv6Handler::ReadIA(uint8_t *ptr, uint16_t len, uint16_t code) {
Dhcpv6Ia *iana = (Dhcpv6Ia *)ptr;
Dhcpv6IaAddr *addr = NULL;
int16_t iana_rem_len = len - sizeof(Dhcpv6Ia);
Dhcpv6Options *iana_option = (Dhcpv6Options *)(ptr + sizeof(Dhcpv6Ia));
while (iana_rem_len > 0) {
uint16_t iana_option_code = ntohs(iana_option->code);
uint16_t iana_option_len = ntohs(iana_option->len);
switch (iana_option_code) {
case DHCPV6_OPTION_IAADDR: {
addr = (Dhcpv6IaAddr *)iana_option->data;
break;
}
case DHCPV6_OPTION_STATUS_CODE: {
uint16_t *s_ptr = reinterpret_cast<uint16_t *>
(iana_option->data);
uint16_t status = ntohs(*s_ptr);
if (status != DHCPV6_SUCCESS) {
std::string msg((const char *)iana_option->data + 2,
iana_option_len - 2);
DHCPV6_TRACE(Trace, "DHCP message with error status : " <<
status << " error msg : " << msg <<
"; received on interface : " <<
vm_itf_->name() << "; ignoring");
}
return false;
}
default:
break;
}
iana_rem_len -= (4 + iana_option_len);
iana_option = (Dhcpv6Options *)((uint8_t *)iana_option + 4 + iana_option_len);
}
if (code == DHCPV6_OPTION_IA_NA)
iana_.push_back(Dhcpv6IaData(iana, addr));
else
iata_.push_back(Dhcpv6IaData(iana, addr));
return true;
}
void Dhcpv6Handler::FillDhcpInfo(Ip6Address &addr, int plen,
Ip6Address &gw, Ip6Address &dns) {
config_.ip_addr = addr;
config_.plen = plen;
config_.gw_addr = gw;
config_.dns_addr = dns;
}
bool Dhcpv6Handler::FindLeaseData() {
Ip6Address ip = vm_itf_->ip6_addr();
FindDomainName(ip);
if (vm_itf_->ipv6_active()) {
if (vm_itf_->fabric_port()) {
// TODO
agent()->dhcpv6_proto()->IncrStatsError();
DHCPV6_TRACE(Error, "DHCP fabric port request failed for : "
<< ip.to_string());
return false;
}
const std::vector<VnIpam> &ipam = vm_itf_->vn()->GetVnIpam();
for (uint32_t i = 0; i < ipam.size(); ++i) {
if (!ipam[i].IsV6()) {
continue;
}
if (IsIp6SubnetMember(ip, ipam[i].ip_prefix.to_v6(),
ipam[i].plen)) {
Ip6Address default_gw = ipam[i].default_gw.to_v6();
Ip6Address service_address;
if (ipam[i].dns_server.is_unspecified()) {
service_address = default_gw;
} else {
service_address = ipam[i].dns_server.to_v6();
}
FillDhcpInfo(ip, ipam[i].plen, default_gw, service_address);
return true;
}
}
}
// We dont have the config yet; give a short lease
config_.preferred_time = DHCPV6_SHORTLEASE_TIME;
config_.valid_time = 2 * DHCPV6_SHORTLEASE_TIME;
// Give address received from Nova
Ip6Address empty;
FillDhcpInfo(ip, 128, empty, empty);
DHCPV6_TRACE(Trace, "DHCP giving short lease given for : " << ip.to_string()
<< "; IPv6 not active in Agent");
return true;
}
// Add an IP address to the option
uint16_t Dhcpv6Handler::AddIP(uint16_t opt_len, const std::string &input) {
boost::system::error_code ec;
Ip6Address ip = Ip6Address::from_string(input, ec);
if (!ec.value()) {
option_->AppendData(16, ip.to_bytes().data(), &opt_len);
} else {
DHCPV6_TRACE(Error, "Invalid DHCP option " << option_->GetCode() <<
" for VM " << config_.ip_addr.to_string() <<
"; has to be IP address");
}
return opt_len;
}
// Add domain name from IPAM to the option
uint16_t Dhcpv6Handler::AddDomainNameOption(uint16_t opt_len) {
if (ipam_type_.ipam_dns_method == "virtual-dns-server") {
if (is_dns_enabled() && config_.domain_name_.size()) {
// encode the domain name in the dns encoding format
uint8_t domain_name[config_.domain_name_.size() * 2 + 2];
uint16_t len = 0;
BindUtil::AddName(domain_name, config_.domain_name_, 0, 0, len);
option_->WriteData(DHCPV6_OPTION_DOMAIN_LIST, len,
domain_name, &opt_len);
}
}
return opt_len;
}
uint16_t Dhcpv6Handler::FillDhcpv6Hdr() {
Dhcpv6Proto *dhcp_proto = agent()->dhcpv6_proto();
dhcp_->type = out_msg_type_;
memcpy(dhcp_->xid, xid_, 3);
uint16_t opt_len = 0;
// server duid
option_->SetNextOptionPtr(opt_len);
option_->WriteData(DHCPV6_OPTION_SERVERID, sizeof(Dhcpv6Proto::Duid),
(void *)dhcp_proto->server_duid(), &opt_len);
// client duid
if (client_duid_len_) {
option_->SetNextOptionPtr(opt_len);
option_->WriteData(DHCPV6_OPTION_CLIENTID, client_duid_len_,
(void *)client_duid_.get(), &opt_len);
}
// IA for non-temporary address
// TODO : we currently give one IPv6 IP per interface; update when we
// have to handle multiple iana / iata in a single request
for (std::vector<Dhcpv6IaData>::iterator it = iana_.begin();
it != iana_.end(); ++it) {
option_->SetNextOptionPtr(opt_len);
WriteIaOption(it->ia, opt_len);
}
for (std::vector<Dhcpv6IaData>::iterator it = iata_.begin();
it != iata_.end(); ++it) {
option_->SetNextOptionPtr(opt_len);
WriteIaOption(it->ia, opt_len);
}
// Add dhcp options coming from Config
opt_len = AddConfigDhcpOptions(opt_len, true);
// GW doesnt come in DHCPV6, it should come via router advertisement
if (!is_flag_set(DHCPV6_OPTION_DNS_SERVERS)) {
uint16_t old_opt_len = opt_len;
option_->SetNextOptionPtr(opt_len);
option_->WriteData(DHCPV6_OPTION_DNS_SERVERS, 0, NULL, &opt_len);
opt_len = AddDnsServers(opt_len);
// if there was no DNS server, revert the option
if (opt_len == old_opt_len + option_->GetFixedLen())
opt_len = old_opt_len;
}
if (!is_flag_set(DHCPV6_OPTION_DOMAIN_LIST)) {
option_->SetNextOptionPtr(opt_len);
opt_len = AddDomainNameOption(opt_len);
}
return (DHCPV6_FIXED_LEN + opt_len);
}
void Dhcpv6Handler::WriteIaOption(const Dhcpv6Ia &ia,
uint16_t &optlen) {
Dhcpv6IaAddr ia_addr(config_.ip_addr.to_v6().to_bytes().data(),
config_.preferred_time,
config_.valid_time);
option_->WriteData(DHCPV6_OPTION_IA_NA, sizeof(Dhcpv6Ia), (void *)&ia, &optlen);
Dhcpv6Options *ia_addr_opt = GetNextOptionPtr(optlen);
ia_addr_opt->WriteData(DHCPV6_OPTION_IAADDR, sizeof(Dhcpv6IaAddr),
(void *)&ia_addr, &optlen);
option_->AddLen(sizeof(Dhcpv6IaAddr) + 4);
}
uint16_t Dhcpv6Handler::FillDhcpResponse(const MacAddress &dest_mac,
Ip6Address src_ip, Ip6Address dest_ip) {
pkt_info_->eth = (struct ether_header *)(pkt_info_->pkt);
uint16_t eth_len = 0;
eth_len = EthHdr((char *)pkt_info_->eth,
pkt_info_->packet_buffer()->data_len(),
GetInterfaceIndex(),
agent()->vhost_interface()->mac(), dest_mac,
ETHERTYPE_IPV6);
pkt_info_->ip6 = (struct ip6_hdr *)((char *)pkt_info_->eth + eth_len);
pkt_info_->transp.udp = (udphdr *)(pkt_info_->ip6 + 1);
dhcp_ = (Dhcpv6Hdr *)(pkt_info_->transp.udp + 1);
option_->SetDhcpOptionPtr((uint8_t *)dhcp_->options);
uint16_t len = FillDhcpv6Hdr();
len += sizeof(udphdr);
UdpHdr(len, src_ip.to_bytes().data(), DHCPV6_SERVER_PORT,
dest_ip.to_bytes().data(), DHCPV6_CLIENT_PORT, IPPROTO_UDP);
Ip6Hdr(pkt_info_->ip6, len, IPPROTO_UDP, 64, src_ip.to_bytes().data(),
dest_ip.to_bytes().data());
len += sizeof(ip6_hdr);
pkt_info_->set_len(len + eth_len);
return pkt_info_->packet_buffer()->data_len();
}
void Dhcpv6Handler::SendDhcpResponse() {
UpdateStats();
// In TSN, the source address for DHCP response should be the address
// in the subnet reserved for service node. Otherwise, it will be the
// GW address. dns_addr field has this address, use it as the source IP.
FillDhcpResponse(MacAddress(pkt_info_->eth->ether_shost),
config_.dns_addr.to_v6(),
pkt_info_->ip_saddr.to_v6());
uint32_t interface =
(pkt_info_->agent_hdr.cmd == AgentHdr::TRAP_TOR_CONTROL_PKT) ?
pkt_info_->agent_hdr.cmd_param : GetInterfaceIndex();
uint16_t command =
(pkt_info_->agent_hdr.cmd == AgentHdr::TRAP_TOR_CONTROL_PKT) ?
(uint16_t)AgentHdr::TX_ROUTE : AgentHdr::TX_SWITCH;
Send(interface, pkt_info_->vrf, command, PktHandler::DHCPV6);
}
void Dhcpv6Handler::UpdateStats() {
Dhcpv6Proto *dhcp_proto = agent()->dhcpv6_proto();
(out_msg_type_ == DHCPV6_ADVERTISE) ? dhcp_proto->IncrStatsAdvertise() :
dhcp_proto->IncrStatsReply();
}
Dhcpv6Handler::DhcpOptionCategory
Dhcpv6Handler::OptionCategory(uint32_t option) const {
Dhcpv6CategoryIter iter = g_dhcpv6_category_map.find(option);
if (iter == g_dhcpv6_category_map.end())
return None;
return iter->second;
}
uint32_t Dhcpv6Handler::OptionCode(const std::string &option) const {
Dhcpv6NameCodeIter iter =
g_dhcpv6_namecode_map.find(boost::to_lower_copy(option));
return (iter == g_dhcpv6_namecode_map.end()) ? 0 : iter->second;
}
void Dhcpv6Handler::DhcpTrace(const std::string &msg) const {
DHCPV6_TRACE(Error, "VM " << config_.ip_addr.to_string() << " : " << msg);
}