/* * Copyright (C) 2017, University of the Basque Country (UPV/EHU) * Contact for licensing options: * * The original file was part of Open Source Doubango Framework * Copyright (C) 2010-2011 Mamadou Diop. * Copyright (C) 2012 Doubango Telecom * * This file is part of Open Source Doubango Framework. * * DOUBANGO is free software: you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation, either version 3 of the License, or * (at your option) any later version. * * DOUBANGO is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with DOUBANGO. * */ /**@file tnet_dhcp6.h * @brief Dynamic Host Configuration Protocol for IPv6 (DHCPv6) as per RFC 3315. * Also implement: RFC 3319, 3633, 3646, 3736, 4242, 5007 ... * * @author Mamadou Diop * */ #ifndef TNET_DHCP6_H #define TNET_DHCP6_H #include "tinynet_config.h" #include "tnet_dhcp6_message.h" #include "tnet_utils.h" #include "tsk_object.h" #include "tsk_safeobj.h" TNET_BEGIN_DECLS #define TNET_DHCP6_VENDOR_CLASS_DATA_DEFAULT "organization/v0.0.0" /** RFC 3315 - 5.1. Multicast Addresses * A link-scoped multicast address used by a client to communicate with * neighboring (i.e., on-link) relay agents and servers. * All servers and relay agents are members of this multicast group. */ #define TNET_DHCP6_All_DHCP_Relay_Agents_and_Servers "FF02::1:2" /** RFC 3315 - 5.1. Multicast Addresses * A site-scoped multicast address used by a relay agent to communicate with servers, either * because the relay agent wants to send messages to all servers or because it does not know the unicast * addresses of the servers. Note that in order for a relay agent to use this address, it must have an * address of sufficient scope to be reachable by the servers. All servers within the site are members of * this multicast group. */ #define TNET_DHCP6_All_DHCP_Servers "FF05::1:3" /*== RFC 3315 - 5.5. Transmission and Retransmission Parameters * This section presents a table of values used to describe the message * transmission behavior of clients and servers. */ #define TNET_DHCP6_RT_SOL_MAX_DELAY 1 /**< 1 sec Max delay of first Solicit */ #define TNET_DHCP6_RT_SOL_TIMEOUT 1 /**< 1 sec Initial Solicit timeout */ #define TNET_DHCP6_RT_SOL_MAX_RT 120 /**< 120 secs Max Solicit timeout value */ #define TNET_DHCP6_RT_REQ_TIMEOUT 1 /**< 1 sec Initial Request timeout */ #define TNET_DHCP6_RT_REQ_MAX_RT 30 /**< 30 secs Max Request timeout value */ #define TNET_DHCP6_RT_REQ_MAX_RC 10 /**< 10 Max Request retry attempts */ #define TNET_DHCP6_RT_CNF_MAX_DELAY 1 /**< 1 sec Max delay of first Confirm */ #define TNET_DHCP6_RT_CNF_TIMEOUT 1 /**< 1 sec Initial Confirm timeout */ #define TNET_DHCP6_RT_CNF_MAX_RT 4 /**< 4 secs Max Confirm timeout */ #define TNET_DHCP6_RT_CNF_MAX_RD 10 /**< 10 secs Max Confirm duration */ #define TNET_DHCP6_RT_REN_TIMEOUT 10 /**< 10 secs Initial Renew timeout */ #define TNET_DHCP6_RT_REN_MAX_RT 600 /**< 600 secs Max Renew timeout value */ #define TNET_DHCP6_RT_REB_TIMEOUT 10 /**< 10 secs Initial Rebind timeout */ #define TNET_DHCP6_RT_REB_MAX_RT 600 /**< 600 secs Max Rebind timeout value */ #define TNET_DHCP6_RT_INF_MAX_DELAY 1 /**< 1 sec Max delay of first Information-request */ #define TNET_DHCP6_RT_INF_TIMEOUT 1 /**< 1 sec Initial Information-request timeout */ #define TNET_DHCP6_RT_INF_MAX_RT 120 /**< 120 secs Max Information-request timeout value */ #define TNET_DHCP6_RT_REL_TIMEOUT 1 /**< 1 sec Initial Release timeout */ #define TNET_DHCP6_RT_REL_MAX_RC 5 /**< 5 MAX Release attempts */ #define TNET_DHCP6_RT_DEC_TIMEOUT 1 /**< 1 sec Initial Decline timeout */ #define TNET_DHCP6_RT_DEC_MAX_RC 5 /**< 5 Max Decline attempts */ #define TNET_DHCP6_RT_REC_TIMEOUT 2 /**< 2 secs Initial Reconfigure timeout */ #define TNET_DHCP6_RT_REC_MAX_RC 2 /**< 8 Max Reconfigure attempts */ #define TNET_DHCP6_RT_HOP_COUNT_LIMIT 32 /**< 32 Max hop count in a Relay-forward message */ /** RFC 3315 - 5.6 Representation of time values and "Infinity" as a time value */ #define TNET_DHCP6_TIMEVAL_INFINITY 0XFFFFFFFF /**< Local port(client) to bind to for incoming DHCP messages as per RFC 3315 subclause 5.2. */ #define TNET_DHCP6_CLIENT_PORT 546 /**< Destination port(Server) for outgoing DHCP messages as per RFC 3315 subclause 5.2. */ #define TNET_DHCP6_SERVER_PORT 547 /**@ingroup tnet_dhcpv_group * DHCPv6 context. */ typedef struct tnet_dhcp6_ctx_s { TSK_DECLARE_OBJECT; uint16_t pen; /**< Private Enterprise Number assigned by the IANA. Default= @ref TNET_IANA_PEN.*/ char* vendor_class_data; uint64_t timeout; tnet_port_t port_client; /**< Local port to bind to for incloming DHCPv6 messages. Default: 546 */ tnet_port_t server_port; /**< Destination port for outgoing DHCPv6 messages. Default: 547 */ tnet_interfaces_L_t *interfaces; TSK_DECLARE_SAFEOBJ; } tnet_dhcp6_ctx_t; TINYNET_API tnet_dhcp6_reply_t* tnet_dhcp6_requestinfo(const tnet_dhcp6_ctx_t* ctx, const tnet_dhcp6_option_orequest_t *orequest); TINYNET_API tnet_dhcp6_ctx_t* tnet_dhcp6_ctx_create(); TINYNET_GEXTERN const tsk_object_def_t *tnet_dhcp6_ctx_def_t; TNET_END_DECLS #endif /* TNET_DHCP6_H */