/* libdhcp/dhcp.c - A DHCP client * * Copyright (C) 2024 Luke T. Shumaker * SPDX-Licence-Identifier: AGPL-3.0-or-later * * ----------------------------------------------------------------------------- * https://github.com/Wiznet/ioLibrary_Driver/blob/b981401e7f3d07015619adf44c13998e13e777f9/Internet/DHCP/dhcp.c * * Copyright (c) 2013, WIZnet Co., LTD. * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * * * Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * * Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * Neither the name of the nor the names of its * contributors may be used to endorse or promote products derived * from this software without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" * AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS BE * LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF * THE POSSIBILITY OF SUCH DAMAGE. * * SPDX-Licence-Identifier: BSD-3-Clause * * ----------------------------------------------------------------------------- * https://github.com/Wiznet/ioLibrary_Driver/blob/b981401e7f3d07015619adf44c13998e13e777f9/license.txt * * Copyright (c) 2014 WIZnet Co.,Ltd. * Copyright (c) WIZnet ioLibrary Project. * All rights reserved. * * Permission is hereby granted, free of charge, to any person obtaining a copy * of this software and associated documentation files (the "Software"), to deal * in the Software without restriction, including without limitation the rights * to use, copy, modify, merge, publish, distribute, sublicense, and/or sell * copies of the Software, and to permit persons to whom the Software is * furnished to do so, subject to the following conditions: * * The above copyright notice and this permission notice shall be included in all * copies or substantial portions of the Software. * * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE * AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, * OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE * SOFTWARE. * * SPDX-Licence-Identifier: MIT */ #include /* for strlen(), memcpy(), memset() */ #include #include #include /* Config *********************************************************************/ #include "config.h" #ifndef CONFIG_DHCP_DEBUG # define CONFIG_DHCP_DEBUG 1 #endif #ifndef CONFIG_DHCP_HOPS # define CONFIG_DHCP_HOPS 0 #endif #ifndef CONFIG_DHCP_SECS # define CONFIG_DHCP_SECS 0 #endif #ifndef CONFIG_DHCP_OPT_SIZE # define CONFIG_DHCP_OPT_SIZE 312 #endif /* RFC 2131 definitions *******************************************************/ /** https://datatracker.ietf.org/doc/html/rfc2131#page-9 */ struct dhcp_msg { uint8_t op; /* DHCP_OP_{x} */ uint8_t htype; /* DHCP_HTYPE_{x} */ uint8_t hlen; /* length of ->chaddr (`sizeof(struct net_eth_addr)`) */ uint8_t hops; uint32be_t xid; /* `global_xid`; this increase one every DHCP transaction */ uint16be_t secs; uint16be_t flags; /* DHCP_FLAG_{x} */ struct net_ip4_addr ciaddr; /* Request IP to DHCP sever */ struct net_ip4_addr yiaddr; /* Offered IP from DHCP server */ struct net_ip4_addr siaddr; /* next-server IP address (not used) */ struct net_ip4_addr giaddr; /* relay-agent IP address (not used) */ uint8_t chaddr[16]; /* client hardware (MAC) address */ uint8_t sname[64]; /* server name (not used) */ uint8_t file[128]; /* boot file name (not used) */ uint8_t options[CONFIG_DHCP_OPT_SIZE]; }; static_assert(offsetof(struct dhcp_msg, options) == 236); #define DHCP_MSG_BASE_SIZE offsetof(struct dhcp_msg, options) /** https://datatracker.ietf.org/doc/html/rfc2131#page-10 */ #define DHCP_OP_BOOTREQUEST 1 #define DHCP_OP_BOOTREPLY 2 /** https://datatracker.ietf.org/doc/html/rfc2131#page-11 */ #define DHCP_FLAG_BROADCAST 0x8000 /** https://datatracker.ietf.org/doc/html/rfc2131#section-3 */ static const uint8_t dhcp_magic_cookie[] = {99, 130, 83, 99}; /** https://datatracker.ietf.org/doc/html/rfc2131#section-3.3 */ #define DHCP_INFINITY 0xffffffff /* IANA assignments ***********************************************************/ /** * Port Numbers * https://www.iana.org/assignments/service-names-port-numbers/service-names-port-numbers.xhtml */ #define DHCP_PORT_SERVER ((uint16_t)67) #define DHCP_PORT_CLIENT ((uint16_t)68) /** * Hardware Types * https://www.iana.org/assignments/arp-parameters/arp-parameters.xhtml#arp-parameters-2 */ #define DHCP_HTYPE_ETHERNET ((uint8_t) 1) /** * DHCP Options * https://www.iana.org/assignments/bootp-dhcp-parameters/bootp-dhcp-parameters.xhtml#options */ #define DHCP_OPT_PAD ((uint8_t) 0) /* RFC2132: length: 0; meaning: None */ #define DHCP_OPT_SUBNET_MASK ((uint8_t) 1) /* RFC2132: length: 4; meaning: Subnet Mask Value */ #define DHCP_OPT_TIME_OFFSET ((uint8_t) 2) /* RFC2132: length: 4; meaning: Time Offset in Seconds from UTC (note: deprecated by 100 and 101 */ #define DHCP_OPT_ROUTER ((uint8_t) 3) /* RFC2132: length: N; meaning: N/4 Router addresses */ #define DHCP_OPT_TIME_SERVER ((uint8_t) 4) /* RFC2132: length: N; meaning: N/4 Timeserver addresses */ #define DHCP_OPT_NAME_SERVER ((uint8_t) 5) /* RFC2132: length: N; meaning: N/4 IEN-116 Server addresses */ #define DHCP_OPT_DOMAIN_SERVER ((uint8_t) 6) /* RFC2132: length: N; meaning: N/4 DNS Server addresses */ #define DHCP_OPT_LOG_SERVER ((uint8_t) 7) /* RFC2132: length: N; meaning: N/4 Logging Server addresses */ #define DHCP_OPT_QUOTES_SERVER ((uint8_t) 8) /* RFC2132: length: N; meaning: N/4 Quotes Server addresses */ #define DHCP_OPT_LPR_SERVER ((uint8_t) 9) /* RFC2132: length: N; meaning: N/4 Printer Server addresses */ #define DHCP_OPT_IMPRESS_SERVER ((uint8_t) 10) /* RFC2132: length: N; meaning: N/4 Impress Server addresses */ #define DHCP_OPT_RLP_SERVER ((uint8_t) 11) /* RFC2132: length: N; meaning: N/4 RLP Server addresses */ #define DHCP_OPT_HOSTNAME ((uint8_t) 12) /* RFC2132: length: N; meaning: Hostname string */ #define DHCP_OPT_BOOT_FILE_SIZE ((uint8_t) 13) /* RFC2132: length: 2; meaning: Size of boot file in 512 byte chunks */ #define DHCP_OPT_MERIT_DUMP_FILE ((uint8_t) 14) /* RFC2132: length: N; meaning: Client to dump and name the file to dump it to */ #define DHCP_OPT_DOMAIN_NAME ((uint8_t) 15) /* RFC2132: length: N; meaning: The DNS domain name of the client */ #define DHCP_OPT_SWAP_SERVER ((uint8_t) 16) /* RFC2132: length: N; meaning: Swap Server address */ #define DHCP_OPT_ROOT_PATH ((uint8_t) 17) /* RFC2132: length: N; meaning: Path name for root disk */ #define DHCP_OPT_EXTENSION_FILE ((uint8_t) 18) /* RFC2132: length: N; meaning: Path name for more BOOTP info */ #define DHCP_OPT_FORWARD_ONOFF ((uint8_t) 19) /* RFC2132: length: 1; meaning: Enable/Disable IP Forwarding */ #define DHCP_OPT_SRCRTE_ONOFF ((uint8_t) 20) /* RFC2132: length: 1; meaning: Enable/Disable Source Routing */ #define DHCP_OPT_POLICY_FILTER ((uint8_t) 21) /* RFC2132: length: N; meaning: Routing Policy Filters */ #define DHCP_OPT_MAX_DG_ASSEMBLY ((uint8_t) 22) /* RFC2132: length: 2; meaning: Max Datagram Reassembly Size */ #define DHCP_OPT_DEFAULT_IP_TTL ((uint8_t) 23) /* RFC2132: length: 1; meaning: Default IP Time to Live */ #define DHCP_OPT_MTU_TIMEOUT ((uint8_t) 24) /* RFC2132: length: 4; meaning: Path MTU Aging Timeout */ #define DHCP_OPT_MTU_PLATEAU ((uint8_t) 25) /* RFC2132: length: N; meaning: Path MTU Plateau Table */ #define DHCP_OPT_MTU_INTERFACE ((uint8_t) 26) /* RFC2132: length: 2; meaning: Interface MTU Size */ #define DHCP_OPT_MTU_SUBNET ((uint8_t) 27) /* RFC2132: length: 1; meaning: All Subnets are Local */ #define DHCP_OPT_BROADCAST_ADDRESS ((uint8_t) 28) /* RFC2132: length: 4; meaning: Broadcast Address */ #define DHCP_OPT_MASK_DISCOVERY ((uint8_t) 29) /* RFC2132: length: 1; meaning: Perform Mask Discovery */ #define DHCP_OPT_MASK_SUPPLIER ((uint8_t) 30) /* RFC2132: length: 1; meaning: Provide Mask to Others */ #define DHCP_OPT_ROUTER_DISCOVERY ((uint8_t) 31) /* RFC2132: length: 1; meaning: Perform Router Discovery */ #define DHCP_OPT_ROUTER_REQUEST ((uint8_t) 32) /* RFC2132: length: 4; meaning: Router Solicitation Address */ #define DHCP_OPT_STATIC_ROUTE ((uint8_t) 33) /* RFC2132: length: N; meaning: Static Routing Table */ #define DHCP_OPT_TRAILERS ((uint8_t) 34) /* RFC2132: length: 1; meaning: Trailer Encapsulation */ #define DHCP_OPT_ARP_TIMEOUT ((uint8_t) 35) /* RFC2132: length: 4; meaning: ARP Cache Timeout */ #define DHCP_OPT_ETHERNET ((uint8_t) 36) /* RFC2132: length: 1; meaning: Ethernet Encapsulation */ #define DHCP_OPT_DEFAULT_TCP_TTL ((uint8_t) 37) /* RFC2132: length: 1; meaning: Default TCP Time to Live */ #define DHCP_OPT_KEEPALIVE_TIME ((uint8_t) 38) /* RFC2132: length: 4; meaning: TCP Keepalive Interval */ #define DHCP_OPT_KEEPALIVE_DATA ((uint8_t) 39) /* RFC2132: length: 1; meaning: TCP Keepalive Garbage */ #define DHCP_OPT_NIS_DOMAIN ((uint8_t) 40) /* RFC2132: length: N; meaning: NIS Domain Name */ #define DHCP_OPT_NIS_SERVERS ((uint8_t) 41) /* RFC2132: length: N; meaning: NIS Server Addresses */ #define DHCP_OPT_NTP_SERVERS ((uint8_t) 42) /* RFC2132: length: N; meaning: NTP Server Addresses */ #define DHCP_OPT_VENDOR_SPECIFIC ((uint8_t) 43) /* RFC2132: length: N; meaning: Vendor Specific Information */ #define DHCP_OPT_NETBIOS_NAME_SRV ((uint8_t) 44) /* RFC2132: length: N; meaning: NETBIOS Name Servers */ #define DHCP_OPT_NETBIOS_DIST_SRV ((uint8_t) 45) /* RFC2132: length: N; meaning: NETBIOS Datagram Distribution */ #define DHCP_OPT_NETBIOS_NODE_TYPE ((uint8_t) 46) /* RFC2132: length: 1; meaning: NETBIOS Node Type */ #define DHCP_OPT_NETBIOS_SCOPE ((uint8_t) 47) /* RFC2132: length: N; meaning: NETBIOS Scope */ #define DHCP_OPT_X_WINDOW_FONT ((uint8_t) 48) /* RFC2132: length: N; meaning: X Window Font Server */ #define DHCP_OPT_X_WINDOW_MANAGER ((uint8_t) 49) /* RFC2132: length: N; meaning: X Window Display Manager */ #define DHCP_OPT_ADDRESS_REQUEST ((uint8_t) 50) /* RFC2132: length: 4; meaning: Requested IP Address */ #define DHCP_OPT_ADDRESS_TIME ((uint8_t) 51) /* RFC2132: length: 4; meaning: IP Address Lease Time */ #define DHCP_OPT_OVERLOAD ((uint8_t) 52) /* RFC2132: length: 1; meaning: Overload "sname" or "file */ #define DHCP_OPT_DHCP_MSG_TYPE ((uint8_t) 53) /* RFC2132: length: 1; meaning: DHCP Message Type */ #define DHCP_OPT_DHCP_SERVER_ID ((uint8_t) 54) /* RFC2132: length: 4; meaning: DHCP Server Identification */ #define DHCP_OPT_PARAMETER_LIST ((uint8_t) 55) /* RFC2132: length: N; meaning: Parameter Request List */ #define DHCP_OPT_DHCP_MESSAGE ((uint8_t) 56) /* RFC2132: length: N; meaning: DHCP Error Message */ #define DHCP_OPT_DHCP_MAX_MSG_SIZE ((uint8_t) 57) /* RFC2132: length: 2; meaning: DHCP Maximum Message Size */ #define DHCP_OPT_RENEWAL_TIME ((uint8_t) 58) /* RFC2132: length: 4; meaning: DHCP Renewal (T1) Time */ #define DHCP_OPT_REBINDING_TIME ((uint8_t) 59) /* RFC2132: length: 4; meaning: DHCP Rebinding (T2) Time */ #define DHCP_OPT_CLASS_ID ((uint8_t) 60) /* RFC2132: length: N; meaning: Class Identifier */ #define DHCP_OPT_CLIENT_ID ((uint8_t) 61) /* RFC2132: length: N; meaning: Client Identifier */ #define DHCP_OPT_END ((uint8_t)255) /* RFC2132: length: 0; meaning: None */ /** * DHCP Message Type 53 Values * https://www.iana.org/assignments/bootp-dhcp-parameters/bootp-dhcp-parameters.xhtml#message-type-53 */ #define DHCP_MSGTYP_DISCOVER ((uint8_t) 1) /* RFC2132 */ #define DHCP_MSGTYP_OFFER ((uint8_t) 2) /* RFC2132 */ #define DHCP_MSGTYP_REQUEST ((uint8_t) 3) /* RFC2132 */ #define DHCP_MSGTYP_DECLINE ((uint8_t) 4) /* RFC2132 */ #define DHCP_MSGTYP_ACK ((uint8_t) 5) /* RFC2132 */ #define DHCP_MSGTYP_NAK ((uint8_t) 6) /* RFC2132 */ #define DHCP_MSGTYP_RELEASE ((uint8_t) 7) /* RFC2132 */ #define DHCP_MSGTYP_INFORM ((uint8_t) 8) /* RFC2132 */ /* Implementation *************************************************************/ #if CONFIG_DHCP_DEBUG # include # define debugf(fmt, ...) printf(fmt "\n" __VA_OPT__(,) __VA_ARGS__) #else # define debugf(fmt, ...) ((void)0) #endif /* DHCP state machine. */ #define STATE_DHCP_INIT 0 /* Initialize */ #define STATE_DHCP_DISCOVER 1 /* send DISCOVER and wait OFFER */ #define STATE_DHCP_REQUEST 2 /* send REQEUST and wait ACK or NACK */ #define STATE_DHCP_LEASED 3 /* ReceiveD ACK and IP leased */ #define STATE_DHCP_REREQUEST 4 /* send REQUEST for maintaining leased IP */ #define STATE_DHCP_RELEASE 5 /* No use */ #define STATE_DHCP_STOP 6 /* Stop processing DHCP */ /* Global state. */ struct net_ip4_addr DHCP_SIP; /* DHCP Server IP address */ struct net_ip4_addr DHCP_REAL_SIP; /* For extract my DHCP server in a few DHCP server */ struct net_ip4_addr OLD_allocated_ip = {0}; /* Previous IP address */ struct dhcp_lease global_lease = {.lifetime = DHCP_INFINITY}; int8_t dhcp_state = STATE_DHCP_INIT; /* DHCP state */ int8_t dhcp_retry_count = 0; volatile uint32_t dhcp_tick_1s = 0; /* unit 1 second */ uint32_t dhcp_tick_next = DHCP_WAIT_TIME ; uint32_t global_xid; /* Any number */ struct dhcp_msg *pDHCPMSG; /* Buffer pointer for DHCP processing */ char global_hostname[64]; struct net_eth_addr global_eth_addr; /* DHCP Client MAC address. */ #define mem_encode(dst, obj) ({ \ typeof(obj) _obj = obj; \ memcpy(dst, &_obj, sizeof(_obj)); \ sizeof(_obj); \ }) static inline size_t str_encode(void *dst, char *str) { size_t len = strlen(str); memcpy(dst, str, len); return len; } /* make the common DHCP message */ static void dhcp_msg_init(struct dhcp_msg *msg, size_t *optlen) { size_t tmp; assert(msg); assert(optlen); msg->op = DHCP_OP_BOOTREQUEST; msg->htype = DHCP_HTYPE_ETHERNET; msg->hlen = sizeof(global_eth_addr); msg->hops = CONFIG_DHCP_HOPS; msg->xid = uint32be_marshal(global_xid); msg->secs = uint16be_marshal(CONFIG_DHCP_SECS); msg->flags = uint16be_marshal(DHCP_FLAG_BROADCAST); msg->ciaddr = (struct net_ip4_addr){0}; msg->yiaddr = (struct net_ip4_addr){0}; msg->siaddr = (struct net_ip4_addr){0}; msg->siaddr = (struct net_ip4_addr){0}; msg->giaddr = (struct net_ip4_addr){0}; tmp = mem_encode(msg->chaddr, global_eth_addr); memset(&msg->chaddr[tmp], 0, sizeof(msg->chaddr)-tmp); memset(msg->sname, 0, sizeof(msg->sname)); memset(msg->file, 0, sizeof(msg->file)); *optlen = 0; msg->options[*optlen++] = dhcp_magic_cookie[0]; msg->options[*optlen++] = dhcp_magic_cookie[1]; msg->options[*optlen++] = dhcp_magic_cookie[2]; msg->options[*optlen++] = dhcp_magic_cookie[3]; } static void dhcp_send_DISCOVER(implements_net_packet_conn *sock) { size_t k; dhcp_msg_init(pDHCPMSG, &k); DHCP_SIP = (struct net_ip4_addr){0}; DHCP_REAL_SIP = (struct net_ip4_addr){0}; /* Message type. */ pDHCPMSG->options[k++] = DHCP_OPT_DHCP_MSG_TYPE; pDHCPMSG->options[k++] = 1; pDHCPMSG->options[k++] = DHCP_MSGTYP_DISCOVER; /* Our Client ID. */ pDHCPMSG->options[k++] = DHCP_OPT_CLIENT_ID; pDHCPMSG->options[k++] = 1+sizeof(global_eth_addr); pDHCPMSG->options[k++] = DHCP_HTYPE_ETHERNET; k += mem_encode(&pDHCPMSG->options[k], global_eth_addr); /* Our requested hostname. */ pDHCPMSG->options[k++] = DHCP_OPT_HOSTNAME; pDHCPMSG->options[k++] = strlen(global_hostname); k += str_encode(&pDHCPMSG->options[k], global_hostname); /* Which parameters we want back. */ pDHCPMSG->options[k++] = DHCP_OPT_PARAMETER_LIST; pDHCPMSG->options[k++] = 6; pDHCPMSG->options[k++] = DHCP_OPT_SUBNET_MASK; /* 1 */ pDHCPMSG->options[k++] = DHCP_OPT_ROUTER; /* 2 */ pDHCPMSG->options[k++] = DHCP_OPT_DOMAIN_SERVER; /* 3 */ pDHCPMSG->options[k++] = DHCP_OPT_DOMAIN_NAME; /* 4 */ pDHCPMSG->options[k++] = DHCP_OPT_RENEWAL_TIME; /* 5 */ pDHCPMSG->options[k++] = DHCP_OPT_REBINDING_TIME; /* 6 */ /* End. */ pDHCPMSG->options[k++] = DHCP_OPT_END; debugf("> Send DHCP_DISCOVER"); assert(k <= CONFIG_DHCP_OPT_SIZE); VCALL(sock, sendto, pDHCPMSG, DHCP_MSG_BASE_SIZE + k, net_ip4_addr_broadcast, DHCP_PORT_SERVER); } static void dhcp_send_REQUEST(implements_net_packet_conn *sock) { struct net_ip4_addr ip; size_t k; dhcp_msg_init(pDHCPMSG, &k); switch (dhcp_state) { case STATE_DHCP_LEASED: case STATE_DHCP_REREQUEST: pDHCPMSG->flags = uint16be_marshal(0); pDHCPMSG->ciaddr = global_lease.addr; ip = DHCP_SIP; break; default: ip = net_ip4_addr_broadcast; } /* Message type. */ pDHCPMSG->options[k++] = DHCP_OPT_DHCP_MSG_TYPE; pDHCPMSG->options[k++] = 1; pDHCPMSG->options[k++] = DHCP_MSGTYP_REQUEST; /* Our Client ID. */ pDHCPMSG->options[k++] = DHCP_OPT_CLIENT_ID; pDHCPMSG->options[k++] = 1+sizeof(global_eth_addr); pDHCPMSG->options[k++] = DHCP_HTYPE_ETHERNET; k += mem_encode(&pDHCPMSG->options[k], global_eth_addr); switch (dhcp_state) { case STATE_DHCP_LEASED: case STATE_DHCP_REREQUEST: /* Our current IP address. */ pDHCPMSG->options[k++] = DHCP_OPT_ADDRESS_REQUEST; pDHCPMSG->options[k++] = sizeof(global_lease.addr); k += mem_encode(&pDHCPMSG->options[k], global_lease.addr); /* The server we got it from. */ pDHCPMSG->options[k++] = DHCP_OPT_DHCP_SERVER_ID; pDHCPMSG->options[k++] = sizeof(DHCP_SIP); k += mem_encode(&pDHCPMSG->options[k], DHCP_SIP); } /* Our requested hostname. */ pDHCPMSG->options[k++] = DHCP_OPT_HOSTNAME; pDHCPMSG->options[k++] = strlen(global_hostname); k += str_encode(&pDHCPMSG->options[k], global_hostname); /* Which parameters we want back. */ pDHCPMSG->options[k++] = DHCP_OPT_PARAMETER_LIST; pDHCPMSG->options[k++] = 8; pDHCPMSG->options[k++] = DHCP_OPT_SUBNET_MASK; /* 1 */ pDHCPMSG->options[k++] = DHCP_OPT_ROUTER; /* 2 */ pDHCPMSG->options[k++] = DHCP_OPT_DOMAIN_SERVER; /* 3 */ pDHCPMSG->options[k++] = DHCP_OPT_DOMAIN_NAME; /* 4 */ pDHCPMSG->options[k++] = DHCP_OPT_RENEWAL_TIME; /* 5 */ pDHCPMSG->options[k++] = DHCP_OPT_REBINDING_TIME; /* 6 */ pDHCPMSG->options[k++] = DHCP_OPT_ROUTER_DISCOVERY; /* 7 */ pDHCPMSG->options[k++] = DHCP_OPT_STATIC_ROUTE; /* 8 */ /* End. */ pDHCPMSG->options[k++] = DHCP_OPT_END; debugf("> Send DHCP_REQUEST"); assert(k <= CONFIG_DHCP_OPT_SIZE); VCALL(sock, sendto, pDHCPMSG, DHCP_MSG_BASE_SIZE + k, ip, DHCP_PORT_SERVER); } static void dhcp_send_DECLINE(implements_net_packet_conn *sock) { size_t k; dhcp_msg_init(pDHCPMSG, &k); pDHCPMSG->flags = uint16be_marshal(0); /* Option Request Param. */ pDHCPMSG->options[k++] = DHCP_OPT_DHCP_MSG_TYPE; pDHCPMSG->options[k++] = 1; pDHCPMSG->options[k++] = DHCP_MSGTYP_DECLINE; /* Our Client ID. */ pDHCPMSG->options[k++] = DHCP_OPT_CLIENT_ID; pDHCPMSG->options[k++] = 1+sizeof(global_eth_addr); pDHCPMSG->options[k++] = DHCP_HTYPE_ETHERNET; memcpy(&pDHCPMSG->options[k], global_eth_addr.octets, sizeof(global_eth_addr)); k += sizeof(global_eth_addr); /* Our current IP address. */ pDHCPMSG->options[k++] = DHCP_OPT_ADDRESS_REQUEST; pDHCPMSG->options[k++] = sizeof(global_lease.addr); k += mem_encode(&pDHCPMSG->options[k], global_lease.addr); /* The server we got it from. */ pDHCPMSG->options[k++] = DHCP_OPT_DHCP_SERVER_ID; pDHCPMSG->options[k++] = sizeof(DHCP_SIP); k += mem_encode(&pDHCPMSG->options[k], DHCP_SIP); /* End. */ pDHCPMSG->options[k++] = DHCP_OPT_END; debugf("> Send DHCP_DECLINE"); assert(k <= CONFIG_DHCP_OPT_SIZE); VCALL(sock, sendto, pDHCPMSG, DHCP_MSG_BASE_SIZE + k, net_ip4_addr_broadcast, DHCP_PORT_SERVER); } static int8_t dhcp_msg_parse(implements_net_packet_conn *sock) { struct net_ip4_addr srv_addr; uint16_t srv_port; size_t msg_len; msg_len = VCALL(sock, recvfrom, pDHCPMSG, sizeof(*pDHCPMSG), &srv_addr, &srv_port); debugf("DHCP message : %d.%d.%d.%d(%d) %d received.", srv_addr.octets[0], srv_addr.octets[1], srv_addr.octets[2], srv_addr.octets[3], srv_port, msg_len); /* Compare server port. */ if (srv_port != DHCP_PORT_SERVER) { return 0; } /* Compare our MAC address. */ if (memcmp(pDHCPMSG->chaddr, global_eth_addr.octets, sizeof(global_eth_addr))) { debugf("Not my DHCP Message. This message is ignored."); return 0; } /* Compare server IP address. */ if (memcmp(DHCP_SIP.octets, ((struct net_ip4_addr){0}).octets, sizeof(struct net_ip4_addr))) { if ( memcmp(srv_addr.octets, DHCP_SIP.octets, sizeof(srv_addr)) && memcmp(srv_addr.octets, DHCP_REAL_SIP.octets, sizeof(srv_addr)) ) { debugf("Another DHCP sever send a response message. This is ignored."); return 0; } } uint8_t msg_type = 0; for (size_t k = 4, k_max = msg_len - DHCP_MSG_BASE_SIZE, opt_len; k < k_max; k += opt_len) { uint8_t opt_typ; opt_typ = pDHCPMSG->options[k++]; switch (opt_typ) { case DHCP_OPT_END: opt_len = k_max - k; break; case DHCP_OPT_PAD: opt_len = 0; break; default: opt_len = pDHCPMSG->options[k++]; } switch (opt_typ) { case DHCP_OPT_DHCP_MSG_TYPE: if (opt_len != 1) continue; msg_type = pDHCPMSG->options[k]; break; case DHCP_OPT_SUBNET_MASK: if (opt_len != 4) continue; global_lease.subnet_mask.octets[0] = pDHCPMSG->options[k+0]; global_lease.subnet_mask.octets[1] = pDHCPMSG->options[k+1]; global_lease.subnet_mask.octets[2] = pDHCPMSG->options[k+2]; global_lease.subnet_mask.octets[3] = pDHCPMSG->options[k+3]; break; case DHCP_OPT_ROUTER : if (opt_len < 4) continue; global_lease.gateway.octets[0] = pDHCPMSG->options[k+0]; global_lease.gateway.octets[1] = pDHCPMSG->options[k+1]; global_lease.gateway.octets[2] = pDHCPMSG->options[k+2]; global_lease.gateway.octets[3] = pDHCPMSG->options[k+3]; break; case DHCP_OPT_DOMAIN_SERVER : if (opt_len < 4) continue; global_lease.dns.octets[0] = pDHCPMSG->options[k+0]; global_lease.dns.octets[1] = pDHCPMSG->options[k+1]; global_lease.dns.octets[2] = pDHCPMSG->options[k+2]; global_lease.dns.octets[3] = pDHCPMSG->options[k+3]; break; case DHCP_OPT_ADDRESS_TIME: if (opt_len != 4) continue; global_lease.lifetime = uint32be_decode(&pDHCPMSG->options[k]); #if CONFIG_DHCP_DEBUG global_lease.lifetime = 10; #endif break; case DHCP_OPT_DHCP_SERVER_ID: if (opt_len != 4) continue; DHCP_SIP.octets[0] = pDHCPMSG->options[k+0]; DHCP_SIP.octets[1] = pDHCPMSG->options[k+1]; DHCP_SIP.octets[2] = pDHCPMSG->options[k+2]; DHCP_SIP.octets[3] = pDHCPMSG->options[k+3]; DHCP_REAL_SIP = srv_addr; break; } } return msg_type; } static void dhcp_reset_timeout(void) { dhcp_tick_1s = 0; dhcp_tick_next = DHCP_WAIT_TIME; dhcp_retry_count = 0; } static uint8_t dhcp_check_timeout(implements_net_packet_conn *sock) { uint8_t ret = DHCP_RET_RUNNING; if (dhcp_retry_count < MAX_DHCP_RETRY) { if (dhcp_tick_next < dhcp_tick_1s) { switch ( dhcp_state ) { case STATE_DHCP_DISCOVER : /*debugf("<> state : STATE_DHCP_DISCOVER");*/ dhcp_send_DISCOVER(sock); break; case STATE_DHCP_REQUEST : /*debugf("<> state : STATE_DHCP_REQUEST");*/ dhcp_send_REQUEST(sock); break; case STATE_DHCP_REREQUEST : /*debugf("<> state : STATE_DHCP_REREQUEST");*/ dhcp_send_REQUEST(sock); break; default : break; } dhcp_tick_1s = 0; dhcp_tick_next = dhcp_tick_1s + DHCP_WAIT_TIME; dhcp_retry_count++; } } else { /* timeout occurred */ switch(dhcp_state) { case STATE_DHCP_DISCOVER: dhcp_state = STATE_DHCP_INIT; ret = DHCP_RET_FAILED; break; case STATE_DHCP_REQUEST: case STATE_DHCP_REREQUEST: dhcp_send_DISCOVER(sock); dhcp_state = STATE_DHCP_DISCOVER; break; default : break; } dhcp_reset_timeout(); } return ret; } static int8_t dhcp_check_leasedIP(implements_net_packet_conn *sock) { int32_t ret; /* IP conflict detection : ARP request - ARP reply */ /* Broadcasting ARP Request for check the IP conflict using UDP sendto() function */ ret = VCALL(sock, sendto, "CHECK_IP_CONFLICT", 17, global_lease.addr, 5000); if (ret == NET_ETIMEDOUT) { /* UDP send Timeout occurred : allocated IP address is unique, DHCP Success */ debugf("\r\n> Check leased IP - OK"); return 1; } /* Received ARP reply or etc : IP address conflict occur, DHCP Failed */ dhcp_send_DECLINE(sock); ret = dhcp_tick_1s; while ((dhcp_tick_1s - ret) < 2) {} /* wait for 1s over; wait to complete to send DECLINE message; */ return 0; } uint8_t DHCP_run(struct w5500 *chip, uint8_t socknum, dhcp_callback_t cb) { uint8_t msg_type; uint8_t ret; if (dhcp_state == STATE_DHCP_STOP) return DHCP_RET_STOPPED; implements_net_packet_conn *sock = w5500_udp_conn(chip, socknum, DHCP_PORT_CLIENT); ret = DHCP_RET_RUNNING; msg_type = dhcp_msg_parse(sock); switch ( dhcp_state ) { case STATE_DHCP_INIT: global_lease.addr = net_ip4_addr_zero; dhcp_send_DISCOVER(sock); dhcp_state = STATE_DHCP_DISCOVER; break; case STATE_DHCP_DISCOVER : if (msg_type == DHCP_MSGTYP_OFFER){ debugf("> Receive DHCP_OFFER"); global_lease.addr = pDHCPMSG->yiaddr; dhcp_send_REQUEST(sock); dhcp_state = STATE_DHCP_REQUEST; } else ret = dhcp_check_timeout(sock); break; case STATE_DHCP_REQUEST : if (msg_type == DHCP_MSGTYP_ACK) { debugf("> Receive DHCP_ACK"); if (dhcp_check_leasedIP(sock)) { /* Network info assignment from DHCP */ cb(DHCP_ASSIGN, global_lease); dhcp_reset_timeout(); dhcp_state = STATE_DHCP_LEASED; } else { /* IP address conflict occurred */ dhcp_reset_timeout(); cb(DHCP_CONFLICT, global_lease); dhcp_state = STATE_DHCP_INIT; } } else if (msg_type == DHCP_MSGTYP_NAK) { debugf("> Receive DHCP_NACK"); dhcp_reset_timeout(); dhcp_state = STATE_DHCP_DISCOVER; } else ret = dhcp_check_timeout(sock); break; case STATE_DHCP_LEASED : ret = DHCP_RET_IP_LEASED; if ((global_lease.lifetime != DHCP_INFINITY) && ((global_lease.lifetime/2) < dhcp_tick_1s)) { debugf("> Maintains the IP address"); msg_type = 0; OLD_allocated_ip = global_lease.addr; global_xid++; dhcp_send_REQUEST(sock); dhcp_reset_timeout(); dhcp_state = STATE_DHCP_REREQUEST; } break; case STATE_DHCP_REREQUEST : ret = DHCP_RET_IP_LEASED; if (msg_type == DHCP_MSGTYP_ACK) { dhcp_retry_count = 0; if (memcmp(OLD_allocated_ip.octets, global_lease.addr.octets, sizeof(global_lease.addr))) { ret = DHCP_RET_IP_CHANGED; cb(DHCP_UPDATE, global_lease); debugf(">IP changed."); } else { debugf(">IP is continued."); } dhcp_reset_timeout(); dhcp_state = STATE_DHCP_LEASED; } else if (msg_type == DHCP_MSGTYP_NAK) { debugf("> Receive DHCP_NACK, Failed to maintain ip"); dhcp_reset_timeout(); dhcp_state = STATE_DHCP_DISCOVER; } else ret = dhcp_check_timeout(sock); break; default : break; } return ret; } void DHCP_stop(implements_net_packet_conn *sock) { VCALL(sock, close); dhcp_state = STATE_DHCP_STOP; } void DHCP_init(void *buf) { getSHAR(global_eth_addr); if (memcmp(global_eth_addr.octets, ((struct net_eth_addr){0}).octets, sizeof(struct net_eth_addr)) == 0) { /* assigning temporary mac address, you should be set * SHAR before call this function. */ global_eth_addr.octets[0] = 0x00; global_eth_addr.octets[1] = 0x08; global_eth_addr.octets[2] = 0xdc; global_eth_addr.octets[3] = 0x00; global_eth_addr.octets[4] = 0x00; global_eth_addr.octets[5] = 0x00; setSHAR(global_eth_addr); } global_hostname[0] = 'W'; global_hostname[1] = 'I'; global_hostname[2] = 'Z'; global_hostname[3] = 'n'; global_hostname[4] = 'e'; global_hostname[5] = 't'; global_hostname[6] = "0123456789ABCDEF"[(global_eth_addr.octets[3] >> 4)&0xF]; global_hostname[7] = "0123456789ABCDEF"[(global_eth_addr.octets[3] >> 0)&0xF]; global_hostname[8] = "0123456789ABCDEF"[(global_eth_addr.octets[4] >> 4)&0xF]; global_hostname[9] = "0123456789ABCDEF"[(global_eth_addr.octets[4] >> 0)&0xF]; global_hostname[10] = "0123456789ABCDEF"[(global_eth_addr.octets[5] >> 4)&0xF]; global_hostname[11] = "0123456789ABCDEF"[(global_eth_addr.octets[5] >> 0)&0xF]; global_hostname[12] = '\0'; pDHCPMSG = buf; global_xid = 0x12345678; global_xid += global_eth_addr.octets[3]; global_xid += global_eth_addr.octets[4]; global_xid += global_eth_addr.octets[5]; global_xid += (global_eth_addr.octets[3] ^ global_eth_addr.octets[4] ^ global_eth_addr.octets[5]); /* WIZchip Netinfo Clear */ setSIPR(net_ip4_addr_zero); setGAR(net_ip4_addr_zero); dhcp_reset_timeout(); dhcp_state = STATE_DHCP_INIT; } void DHCP_time_handler(void) { dhcp_tick_1s++; }