//***************************************************************************** // //! \file dhcp.c //! \brief DHCP APIs implement file. //! \details Processig DHCP protocol as DISCOVER, OFFER, REQUEST, ACK, NACK and DECLINE. //! \version 1.1.0 //! \date 2013/11/18 //! \par Revision history //! <2018/10/09> Modified by Nick Moore for CircuitPython //! <2013/11/18> 1st Release //! <2012/12/20> V1.1.0 //! 1. Optimize code //! 2. Add reg_dhcp_cbfunc() //! 3. Add DHCP_stop() //! 4. Integrate check_DHCP_state() & DHCP_run() to DHCP_run() //! 5. Don't care system endian //! 6. Add comments //! <2012/12/26> V1.1.1 //! 1. Modify variable declaration: dhcp_tick_1s is declared volatile for code optimization //! \author Eric Jung & MidnightCow //! \copyright //! //! 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. // //***************************************************************************** //#include "Ethernet/socket.h" //#include "Internet/DHCP/dhcp.h" #include "../../ethernet/socket.h" #include "dhcp.h" /* If you want to display debug & processing message, Define _DHCP_DEBUG_ in dhcp.h */ #ifdef _DHCP_DEBUG_ #include #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 #define DHCP_FLAGSBROADCAST 0x8000 ///< The broadcast value of flags in @ref RIP_MSG #define DHCP_FLAGSUNICAST 0x0000 ///< The unicast value of flags in @ref RIP_MSG /* DHCP message OP code */ #define DHCP_BOOTREQUEST 1 ///< Request Message used in op of @ref RIP_MSG #define DHCP_BOOTREPLY 2 ///< Reply Message used i op of @ref RIP_MSG /* DHCP message type */ #define DHCP_DISCOVER 1 ///< DISCOVER message in OPT of @ref RIP_MSG #define DHCP_OFFER 2 ///< OFFER message in OPT of @ref RIP_MSG #define DHCP_REQUEST 3 ///< REQUEST message in OPT of @ref RIP_MSG #define DHCP_DECLINE 4 ///< DECLINE message in OPT of @ref RIP_MSG #define DHCP_ACK 5 ///< ACK message in OPT of @ref RIP_MSG #define DHCP_NAK 6 ///< NACK message in OPT of @ref RIP_MSG #define DHCP_RELEASE 7 ///< RELEASE message in OPT of @ref RIP_MSG. No use #define DHCP_INFORM 8 ///< INFORM message in OPT of @ref RIP_MSG. No use #define DHCP_HTYPE10MB 1 ///< Used in type of @ref RIP_MSG #define DHCP_HTYPE100MB 2 ///< Used in type of @ref RIP_MSG #define DHCP_HLENETHERNET 6 ///< Used in hlen of @ref RIP_MSG #define DHCP_HOPS 0 ///< Used in hops of @ref RIP_MSG #define DHCP_SECS 0 ///< Used in secs of @ref RIP_MSG #define INFINITE_LEASETIME 0xffffffff ///< Infinite lease time #define OPT_SIZE 312 /// Max OPT size of @ref RIP_MSG #define RIP_MSG_SIZE (236+OPT_SIZE) /// Max size of @ref RIP_MSG /* * @brief DHCP option and value (cf. RFC1533) */ enum { padOption = 0, subnetMask = 1, timerOffset = 2, routersOnSubnet = 3, timeServer = 4, nameServer = 5, dns = 6, logServer = 7, cookieServer = 8, lprServer = 9, impressServer = 10, resourceLocationServer = 11, hostName = 12, bootFileSize = 13, meritDumpFile = 14, domainName = 15, swapServer = 16, rootPath = 17, extentionsPath = 18, IPforwarding = 19, nonLocalSourceRouting = 20, policyFilter = 21, maxDgramReasmSize = 22, defaultIPTTL = 23, pathMTUagingTimeout = 24, pathMTUplateauTable = 25, ifMTU = 26, allSubnetsLocal = 27, broadcastAddr = 28, performMaskDiscovery = 29, maskSupplier = 30, performRouterDiscovery = 31, routerSolicitationAddr = 32, staticRoute = 33, trailerEncapsulation = 34, arpCacheTimeout = 35, ethernetEncapsulation = 36, tcpDefaultTTL = 37, tcpKeepaliveInterval = 38, tcpKeepaliveGarbage = 39, nisDomainName = 40, nisServers = 41, ntpServers = 42, vendorSpecificInfo = 43, netBIOSnameServer = 44, netBIOSdgramDistServer = 45, netBIOSnodeType = 46, netBIOSscope = 47, xFontServer = 48, xDisplayManager = 49, dhcpRequestedIPaddr = 50, dhcpIPaddrLeaseTime = 51, dhcpOptionOverload = 52, dhcpMessageType = 53, dhcpServerIdentifier = 54, dhcpParamRequest = 55, dhcpMsg = 56, dhcpMaxMsgSize = 57, dhcpT1value = 58, dhcpT2value = 59, dhcpClassIdentifier = 60, dhcpClientIdentifier = 61, endOption = 255 }; /* * @brief DHCP message format */ typedef struct { uint8_t op; ///< @ref DHCP_BOOTREQUEST or @ref DHCP_BOOTREPLY uint8_t htype; ///< @ref DHCP_HTYPE10MB or @ref DHCP_HTYPE100MB uint8_t hlen; ///< @ref DHCP_HLENETHERNET uint8_t hops; ///< @ref DHCP_HOPS uint32_t xid; ///< @ref DHCP_XID This increase one every DHCP transaction. uint16_t secs; ///< @ref DHCP_SECS uint16_t flags; ///< @ref DHCP_FLAGSBROADCAST or @ref DHCP_FLAGSUNICAST uint8_t ciaddr[4]; ///< @ref Request IP to DHCP sever uint8_t yiaddr[4]; ///< @ref Offered IP from DHCP server uint8_t siaddr[4]; ///< No use uint8_t giaddr[4]; ///< No use uint8_t chaddr[16]; ///< DHCP client 6bytes MAC address. Others is filled to zero uint8_t sname[64]; ///< No use uint8_t file[128]; ///< No use uint8_t OPT[OPT_SIZE]; ///< Option } RIP_MSG; uint8_t DHCP_SOCKET; // Socket number for DHCP uint8_t DHCP_SIP[4]; // DHCP Server IP address // Network information from DHCP Server uint8_t OLD_allocated_ip[4] = {0, }; // Previous IP address uint8_t DHCP_allocated_ip[4] = {0, }; // IP address from DHCP uint8_t DHCP_allocated_gw[4] = {0, }; // Gateway address from DHCP uint8_t DHCP_allocated_sn[4] = {0, }; // Subnet mask from DHCP uint8_t DHCP_allocated_dns[4] = {0, }; // DNS address from DHCP int8_t dhcp_state = STATE_DHCP_INIT; // DHCP state int8_t dhcp_retry_count = 0; uint32_t dhcp_lease_time = INFINITE_LEASETIME; volatile uint32_t dhcp_tick_1s = 0; // unit 1 second uint32_t dhcp_tick_next = DHCP_WAIT_TIME ; uint32_t DHCP_XID; // Any number RIP_MSG* pDHCPMSG; // Buffer pointer for DHCP processing uint8_t HOST_NAME[] = DCHP_HOST_NAME; uint8_t DHCP_CHADDR[6]; // DHCP Client MAC address. /* The default callback function */ void default_ip_assign(void); void default_ip_update(void); void default_ip_conflict(void); /* Callback handler */ void (*dhcp_ip_assign)(void) = default_ip_assign; /* handler to be called when the IP address from DHCP server is first assigned */ void (*dhcp_ip_update)(void) = default_ip_update; /* handler to be called when the IP address from DHCP server is updated */ void (*dhcp_ip_conflict)(void) = default_ip_conflict; /* handler to be called when the IP address from DHCP server is conflict */ void reg_dhcp_cbfunc(void(*ip_assign)(void), void(*ip_update)(void), void(*ip_conflict)(void)); /* send DISCOVER message to DHCP server */ void send_DHCP_DISCOVER(void); /* send REQEUST message to DHCP server */ void send_DHCP_REQUEST(void); /* send DECLINE message to DHCP server */ void send_DHCP_DECLINE(void); /* IP conflict check by sending ARP-request to leased IP and wait ARP-response. */ int8_t check_DHCP_leasedIP(void); /* check the timeout in DHCP process */ uint8_t check_DHCP_timeout(void); /* Intialize to timeout process. */ void reset_DHCP_timeout(void); /* Parse message as OFFER and ACK and NACK from DHCP server.*/ int8_t parseDHCPCMSG(void); /* The default handler of ip assign first */ void default_ip_assign(void) { setSIPR(DHCP_allocated_ip); setSUBR(DHCP_allocated_sn); setGAR (DHCP_allocated_gw); } /* The default handler of ip changed */ void default_ip_update(void) { /* WIZchip Software Reset */ setMR(MR_RST); getMR(); // for delay default_ip_assign(); setSHAR(DHCP_CHADDR); } /* The default handler of ip changed */ void default_ip_conflict(void) { // WIZchip Software Reset setMR(MR_RST); getMR(); // for delay setSHAR(DHCP_CHADDR); } /* register the call back func. */ void reg_dhcp_cbfunc(void(*ip_assign)(void), void(*ip_update)(void), void(*ip_conflict)(void)) { dhcp_ip_assign = default_ip_assign; dhcp_ip_update = default_ip_update; dhcp_ip_conflict = default_ip_conflict; if(ip_assign) dhcp_ip_assign = ip_assign; if(ip_update) dhcp_ip_update = ip_update; if(ip_conflict) dhcp_ip_conflict = ip_conflict; } /* make the common DHCP message */ void makeDHCPMSG(void) { uint8_t bk_mac[6]; uint8_t* ptmp; uint8_t i; getSHAR(bk_mac); pDHCPMSG->op = DHCP_BOOTREQUEST; pDHCPMSG->htype = DHCP_HTYPE10MB; pDHCPMSG->hlen = DHCP_HLENETHERNET; pDHCPMSG->hops = DHCP_HOPS; ptmp = (uint8_t*)(&pDHCPMSG->xid); *(ptmp+0) = (uint8_t)((DHCP_XID & 0xFF000000) >> 24); *(ptmp+1) = (uint8_t)((DHCP_XID & 0x00FF0000) >> 16); *(ptmp+2) = (uint8_t)((DHCP_XID & 0x0000FF00) >> 8); *(ptmp+3) = (uint8_t)((DHCP_XID & 0x000000FF) >> 0); pDHCPMSG->secs = DHCP_SECS; ptmp = (uint8_t*)(&pDHCPMSG->flags); *(ptmp+0) = (uint8_t)((DHCP_FLAGSBROADCAST & 0xFF00) >> 8); *(ptmp+1) = (uint8_t)((DHCP_FLAGSBROADCAST & 0x00FF) >> 0); pDHCPMSG->ciaddr[0] = 0; pDHCPMSG->ciaddr[1] = 0; pDHCPMSG->ciaddr[2] = 0; pDHCPMSG->ciaddr[3] = 0; pDHCPMSG->yiaddr[0] = 0; pDHCPMSG->yiaddr[1] = 0; pDHCPMSG->yiaddr[2] = 0; pDHCPMSG->yiaddr[3] = 0; pDHCPMSG->siaddr[0] = 0; pDHCPMSG->siaddr[1] = 0; pDHCPMSG->siaddr[2] = 0; pDHCPMSG->siaddr[3] = 0; pDHCPMSG->giaddr[0] = 0; pDHCPMSG->giaddr[1] = 0; pDHCPMSG->giaddr[2] = 0; pDHCPMSG->giaddr[3] = 0; pDHCPMSG->chaddr[0] = DHCP_CHADDR[0]; pDHCPMSG->chaddr[1] = DHCP_CHADDR[1]; pDHCPMSG->chaddr[2] = DHCP_CHADDR[2]; pDHCPMSG->chaddr[3] = DHCP_CHADDR[3]; pDHCPMSG->chaddr[4] = DHCP_CHADDR[4]; pDHCPMSG->chaddr[5] = DHCP_CHADDR[5]; for (i = 6; i < 16; i++) pDHCPMSG->chaddr[i] = 0; for (i = 0; i < 64; i++) pDHCPMSG->sname[i] = 0; for (i = 0; i < 128; i++) pDHCPMSG->file[i] = 0; // MAGIC_COOKIE pDHCPMSG->OPT[0] = (uint8_t)((MAGIC_COOKIE & 0xFF000000) >> 24); pDHCPMSG->OPT[1] = (uint8_t)((MAGIC_COOKIE & 0x00FF0000) >> 16); pDHCPMSG->OPT[2] = (uint8_t)((MAGIC_COOKIE & 0x0000FF00) >> 8); pDHCPMSG->OPT[3] = (uint8_t) (MAGIC_COOKIE & 0x000000FF) >> 0; } /* SEND DHCP DISCOVER */ void send_DHCP_DISCOVER(void) { uint16_t i; uint8_t ip[4]; uint16_t k = 0; makeDHCPMSG(); k = 4; // because MAGIC_COOKIE already made by makeDHCPMSG() // Option Request Param pDHCPMSG->OPT[k++] = dhcpMessageType; pDHCPMSG->OPT[k++] = 0x01; pDHCPMSG->OPT[k++] = DHCP_DISCOVER; // Client identifier pDHCPMSG->OPT[k++] = dhcpClientIdentifier; pDHCPMSG->OPT[k++] = 0x07; pDHCPMSG->OPT[k++] = 0x01; pDHCPMSG->OPT[k++] = DHCP_CHADDR[0]; pDHCPMSG->OPT[k++] = DHCP_CHADDR[1]; pDHCPMSG->OPT[k++] = DHCP_CHADDR[2]; pDHCPMSG->OPT[k++] = DHCP_CHADDR[3]; pDHCPMSG->OPT[k++] = DHCP_CHADDR[4]; pDHCPMSG->OPT[k++] = DHCP_CHADDR[5]; // host name pDHCPMSG->OPT[k++] = hostName; pDHCPMSG->OPT[k++] = 0; // fill zero length of hostname for(i = 0 ; HOST_NAME[i] != 0; i++) pDHCPMSG->OPT[k++] = HOST_NAME[i]; pDHCPMSG->OPT[k++] = DHCP_CHADDR[3]; pDHCPMSG->OPT[k++] = DHCP_CHADDR[4]; pDHCPMSG->OPT[k++] = DHCP_CHADDR[5]; pDHCPMSG->OPT[k - (i+3+1)] = i+3; // length of hostname pDHCPMSG->OPT[k++] = dhcpParamRequest; pDHCPMSG->OPT[k++] = 0x06; // length of request pDHCPMSG->OPT[k++] = subnetMask; pDHCPMSG->OPT[k++] = routersOnSubnet; pDHCPMSG->OPT[k++] = dns; pDHCPMSG->OPT[k++] = domainName; pDHCPMSG->OPT[k++] = dhcpT1value; pDHCPMSG->OPT[k++] = dhcpT2value; pDHCPMSG->OPT[k++] = endOption; for (i = k; i < OPT_SIZE; i++) pDHCPMSG->OPT[i] = 0; // send broadcasting packet ip[0] = 255; ip[1] = 255; ip[2] = 255; ip[3] = 255; #ifdef _DHCP_DEBUG_ printf("> Send DHCP_DISCOVER\r\n"); #endif WIZCHIP_EXPORT(sendto)(DHCP_SOCKET, (uint8_t *)pDHCPMSG, RIP_MSG_SIZE, ip, DHCP_SERVER_PORT); } /* SEND DHCP REQUEST */ void send_DHCP_REQUEST(void) { int i; uint8_t ip[4]; uint16_t k = 0; makeDHCPMSG(); if(dhcp_state == STATE_DHCP_LEASED || dhcp_state == STATE_DHCP_REREQUEST) { *((uint8_t*)(&pDHCPMSG->flags)) = ((DHCP_FLAGSUNICAST & 0xFF00)>> 8); *((uint8_t*)(&pDHCPMSG->flags)+1) = (DHCP_FLAGSUNICAST & 0x00FF); pDHCPMSG->ciaddr[0] = DHCP_allocated_ip[0]; pDHCPMSG->ciaddr[1] = DHCP_allocated_ip[1]; pDHCPMSG->ciaddr[2] = DHCP_allocated_ip[2]; pDHCPMSG->ciaddr[3] = DHCP_allocated_ip[3]; ip[0] = DHCP_SIP[0]; ip[1] = DHCP_SIP[1]; ip[2] = DHCP_SIP[2]; ip[3] = DHCP_SIP[3]; } else { ip[0] = 255; ip[1] = 255; ip[2] = 255; ip[3] = 255; } k = 4; // because MAGIC_COOKIE already made by makeDHCPMSG() // Option Request Param. pDHCPMSG->OPT[k++] = dhcpMessageType; pDHCPMSG->OPT[k++] = 0x01; pDHCPMSG->OPT[k++] = DHCP_REQUEST; pDHCPMSG->OPT[k++] = dhcpClientIdentifier; pDHCPMSG->OPT[k++] = 0x07; pDHCPMSG->OPT[k++] = 0x01; pDHCPMSG->OPT[k++] = DHCP_CHADDR[0]; pDHCPMSG->OPT[k++] = DHCP_CHADDR[1]; pDHCPMSG->OPT[k++] = DHCP_CHADDR[2]; pDHCPMSG->OPT[k++] = DHCP_CHADDR[3]; pDHCPMSG->OPT[k++] = DHCP_CHADDR[4]; pDHCPMSG->OPT[k++] = DHCP_CHADDR[5]; if(ip[3] == 255) // if(dchp_state == STATE_DHCP_LEASED || dchp_state == DHCP_REREQUEST_STATE) { pDHCPMSG->OPT[k++] = dhcpRequestedIPaddr; pDHCPMSG->OPT[k++] = 0x04; pDHCPMSG->OPT[k++] = DHCP_allocated_ip[0]; pDHCPMSG->OPT[k++] = DHCP_allocated_ip[1]; pDHCPMSG->OPT[k++] = DHCP_allocated_ip[2]; pDHCPMSG->OPT[k++] = DHCP_allocated_ip[3]; pDHCPMSG->OPT[k++] = dhcpServerIdentifier; pDHCPMSG->OPT[k++] = 0x04; pDHCPMSG->OPT[k++] = DHCP_SIP[0]; pDHCPMSG->OPT[k++] = DHCP_SIP[1]; pDHCPMSG->OPT[k++] = DHCP_SIP[2]; pDHCPMSG->OPT[k++] = DHCP_SIP[3]; } // host name pDHCPMSG->OPT[k++] = hostName; pDHCPMSG->OPT[k++] = 0; // length of hostname for(i = 0 ; HOST_NAME[i] != 0; i++) pDHCPMSG->OPT[k++] = HOST_NAME[i]; pDHCPMSG->OPT[k++] = DHCP_CHADDR[3]; pDHCPMSG->OPT[k++] = DHCP_CHADDR[4]; pDHCPMSG->OPT[k++] = DHCP_CHADDR[5]; pDHCPMSG->OPT[k - (i+3+1)] = i+3; // length of hostname pDHCPMSG->OPT[k++] = dhcpParamRequest; pDHCPMSG->OPT[k++] = 0x08; pDHCPMSG->OPT[k++] = subnetMask; pDHCPMSG->OPT[k++] = routersOnSubnet; pDHCPMSG->OPT[k++] = dns; pDHCPMSG->OPT[k++] = domainName; pDHCPMSG->OPT[k++] = dhcpT1value; pDHCPMSG->OPT[k++] = dhcpT2value; pDHCPMSG->OPT[k++] = performRouterDiscovery; pDHCPMSG->OPT[k++] = staticRoute; pDHCPMSG->OPT[k++] = endOption; for (i = k; i < OPT_SIZE; i++) pDHCPMSG->OPT[i] = 0; #ifdef _DHCP_DEBUG_ printf("> Send DHCP_REQUEST\r\n"); #endif WIZCHIP_EXPORT(sendto)(DHCP_SOCKET, (uint8_t *)pDHCPMSG, RIP_MSG_SIZE, ip, DHCP_SERVER_PORT); } /* SEND DHCP DHCPDECLINE */ void send_DHCP_DECLINE(void) { int i; uint8_t ip[4]; uint16_t k = 0; makeDHCPMSG(); k = 4; // because MAGIC_COOKIE already made by makeDHCPMSG() *((uint8_t*)(&pDHCPMSG->flags)) = ((DHCP_FLAGSUNICAST & 0xFF00)>> 8); *((uint8_t*)(&pDHCPMSG->flags)+1) = (DHCP_FLAGSUNICAST & 0x00FF); // Option Request Param. pDHCPMSG->OPT[k++] = dhcpMessageType; pDHCPMSG->OPT[k++] = 0x01; pDHCPMSG->OPT[k++] = DHCP_DECLINE; pDHCPMSG->OPT[k++] = dhcpClientIdentifier; pDHCPMSG->OPT[k++] = 0x07; pDHCPMSG->OPT[k++] = 0x01; pDHCPMSG->OPT[k++] = DHCP_CHADDR[0]; pDHCPMSG->OPT[k++] = DHCP_CHADDR[1]; pDHCPMSG->OPT[k++] = DHCP_CHADDR[2]; pDHCPMSG->OPT[k++] = DHCP_CHADDR[3]; pDHCPMSG->OPT[k++] = DHCP_CHADDR[4]; pDHCPMSG->OPT[k++] = DHCP_CHADDR[5]; pDHCPMSG->OPT[k++] = dhcpRequestedIPaddr; pDHCPMSG->OPT[k++] = 0x04; pDHCPMSG->OPT[k++] = DHCP_allocated_ip[0]; pDHCPMSG->OPT[k++] = DHCP_allocated_ip[1]; pDHCPMSG->OPT[k++] = DHCP_allocated_ip[2]; pDHCPMSG->OPT[k++] = DHCP_allocated_ip[3]; pDHCPMSG->OPT[k++] = dhcpServerIdentifier; pDHCPMSG->OPT[k++] = 0x04; pDHCPMSG->OPT[k++] = DHCP_SIP[0]; pDHCPMSG->OPT[k++] = DHCP_SIP[1]; pDHCPMSG->OPT[k++] = DHCP_SIP[2]; pDHCPMSG->OPT[k++] = DHCP_SIP[3]; pDHCPMSG->OPT[k++] = endOption; for (i = k; i < OPT_SIZE; i++) pDHCPMSG->OPT[i] = 0; //send broadcasting packet ip[0] = 0xFF; ip[1] = 0xFF; ip[2] = 0xFF; ip[3] = 0xFF; #ifdef _DHCP_DEBUG_ printf("\r\n> Send DHCP_DECLINE\r\n"); #endif WIZCHIP_EXPORT(sendto)(DHCP_SOCKET, (uint8_t *)pDHCPMSG, RIP_MSG_SIZE, ip, DHCP_SERVER_PORT); } /* PARSE REPLY pDHCPMSG */ int8_t parseDHCPMSG(void) { uint8_t svr_addr[6]; uint16_t svr_port; uint16_t len; uint8_t * p; uint8_t * e; uint8_t type = 0; uint8_t opt_len; if((len = getSn_RX_RSR(DHCP_SOCKET)) > 0) { len = WIZCHIP_EXPORT(recvfrom)(DHCP_SOCKET, (uint8_t *)pDHCPMSG, len, svr_addr, &svr_port); #ifdef _DHCP_DEBUG_ printf("DHCP message : %d.%d.%d.%d(%d) %d received. \r\n",svr_addr[0],svr_addr[1],svr_addr[2], svr_addr[3],svr_port, len); #endif } else return 0; if (svr_port == DHCP_SERVER_PORT) { // compare mac address if ( (pDHCPMSG->chaddr[0] != DHCP_CHADDR[0]) || (pDHCPMSG->chaddr[1] != DHCP_CHADDR[1]) || (pDHCPMSG->chaddr[2] != DHCP_CHADDR[2]) || (pDHCPMSG->chaddr[3] != DHCP_CHADDR[3]) || (pDHCPMSG->chaddr[4] != DHCP_CHADDR[4]) || (pDHCPMSG->chaddr[5] != DHCP_CHADDR[5]) ) return 0; type = 0; p = (uint8_t *)(&pDHCPMSG->op); p = p + 240; // 240 = sizeof(RIP_MSG) + MAGIC_COOKIE size in RIP_MSG.opt - sizeof(RIP_MSG.opt) e = p + (len - 240); while ( p < e ) { switch ( *p ) { case endOption : p = e; // for break while(p < e) break; case padOption : p++; break; case dhcpMessageType : p++; p++; type = *p++; break; case subnetMask : p++; p++; DHCP_allocated_sn[0] = *p++; DHCP_allocated_sn[1] = *p++; DHCP_allocated_sn[2] = *p++; DHCP_allocated_sn[3] = *p++; break; case routersOnSubnet : p++; opt_len = *p++; DHCP_allocated_gw[0] = *p++; DHCP_allocated_gw[1] = *p++; DHCP_allocated_gw[2] = *p++; DHCP_allocated_gw[3] = *p++; p = p + (opt_len - 4); break; case dns : p++; opt_len = *p++; DHCP_allocated_dns[0] = *p++; DHCP_allocated_dns[1] = *p++; DHCP_allocated_dns[2] = *p++; DHCP_allocated_dns[3] = *p++; p = p + (opt_len - 4); break; case dhcpIPaddrLeaseTime : p++; opt_len = *p++; dhcp_lease_time = *p++; dhcp_lease_time = (dhcp_lease_time << 8) + *p++; dhcp_lease_time = (dhcp_lease_time << 8) + *p++; dhcp_lease_time = (dhcp_lease_time << 8) + *p++; #ifdef _DHCP_DEBUG_ dhcp_lease_time = 10; #endif break; case dhcpServerIdentifier : p++; opt_len = *p++; DHCP_SIP[0] = *p++; DHCP_SIP[1] = *p++; DHCP_SIP[2] = *p++; DHCP_SIP[3] = *p++; break; default : p++; opt_len = *p++; p += opt_len; break; } // switch } // while } // if return type; } uint8_t DHCP_run(void) { uint8_t type; uint8_t ret; if(dhcp_state == STATE_DHCP_STOP) return DHCP_STOPPED; if(getSn_SR(DHCP_SOCKET) != SOCK_UDP) WIZCHIP_EXPORT(socket)(DHCP_SOCKET, Sn_MR_UDP, DHCP_CLIENT_PORT, 0x00); ret = DHCP_RUNNING; type = parseDHCPMSG(); switch ( dhcp_state ) { case STATE_DHCP_INIT : DHCP_allocated_ip[0] = 0; DHCP_allocated_ip[1] = 0; DHCP_allocated_ip[2] = 0; DHCP_allocated_ip[3] = 0; send_DHCP_DISCOVER(); dhcp_state = STATE_DHCP_DISCOVER; break; case STATE_DHCP_DISCOVER : if (type == DHCP_OFFER){ #ifdef _DHCP_DEBUG_ printf("> Receive DHCP_OFFER\r\n"); #endif DHCP_allocated_ip[0] = pDHCPMSG->yiaddr[0]; DHCP_allocated_ip[1] = pDHCPMSG->yiaddr[1]; DHCP_allocated_ip[2] = pDHCPMSG->yiaddr[2]; DHCP_allocated_ip[3] = pDHCPMSG->yiaddr[3]; send_DHCP_REQUEST(); dhcp_state = STATE_DHCP_REQUEST; } else ret = check_DHCP_timeout(); break; case STATE_DHCP_REQUEST : if (type == DHCP_ACK) { #ifdef _DHCP_DEBUG_ printf("> Receive DHCP_ACK\r\n"); #endif if (check_DHCP_leasedIP()) { // Network info assignment from DHCP dhcp_ip_assign(); reset_DHCP_timeout(); dhcp_state = STATE_DHCP_LEASED; } else { // IP address conflict occurred reset_DHCP_timeout(); dhcp_ip_conflict(); dhcp_state = STATE_DHCP_INIT; } } else if (type == DHCP_NAK) { #ifdef _DHCP_DEBUG_ printf("> Receive DHCP_NACK\r\n"); #endif reset_DHCP_timeout(); dhcp_state = STATE_DHCP_DISCOVER; } else ret = check_DHCP_timeout(); break; case STATE_DHCP_LEASED : ret = DHCP_IP_LEASED; if ((dhcp_lease_time != INFINITE_LEASETIME) && ((dhcp_lease_time/2) < dhcp_tick_1s)) { #ifdef _DHCP_DEBUG_ printf("> Maintains the IP address \r\n"); #endif type = 0; OLD_allocated_ip[0] = DHCP_allocated_ip[0]; OLD_allocated_ip[1] = DHCP_allocated_ip[1]; OLD_allocated_ip[2] = DHCP_allocated_ip[2]; OLD_allocated_ip[3] = DHCP_allocated_ip[3]; DHCP_XID++; send_DHCP_REQUEST(); reset_DHCP_timeout(); dhcp_state = STATE_DHCP_REREQUEST; } break; case STATE_DHCP_REREQUEST : ret = DHCP_IP_LEASED; if (type == DHCP_ACK) { dhcp_retry_count = 0; if (OLD_allocated_ip[0] != DHCP_allocated_ip[0] || OLD_allocated_ip[1] != DHCP_allocated_ip[1] || OLD_allocated_ip[2] != DHCP_allocated_ip[2] || OLD_allocated_ip[3] != DHCP_allocated_ip[3]) { ret = DHCP_IP_CHANGED; dhcp_ip_update(); #ifdef _DHCP_DEBUG_ printf(">IP changed.\r\n"); #endif } #ifdef _DHCP_DEBUG_ else printf(">IP is continued.\r\n"); #endif reset_DHCP_timeout(); dhcp_state = STATE_DHCP_LEASED; } else if (type == DHCP_NAK) { #ifdef _DHCP_DEBUG_ printf("> Receive DHCP_NACK, Failed to maintain ip\r\n"); #endif reset_DHCP_timeout(); dhcp_state = STATE_DHCP_DISCOVER; } else ret = check_DHCP_timeout(); break; default : break; } return ret; } void DHCP_stop(void) { WIZCHIP_EXPORT(close)(DHCP_SOCKET); dhcp_state = STATE_DHCP_STOP; } uint8_t check_DHCP_timeout(void) { uint8_t ret = DHCP_RUNNING; if (dhcp_retry_count < MAX_DHCP_RETRY) { if (dhcp_tick_next < dhcp_tick_1s) { switch ( dhcp_state ) { case STATE_DHCP_DISCOVER : // printf("<> state : STATE_DHCP_DISCOVER\r\n"); send_DHCP_DISCOVER(); break; case STATE_DHCP_REQUEST : // printf("<> state : STATE_DHCP_REQUEST\r\n"); send_DHCP_REQUEST(); break; case STATE_DHCP_REREQUEST : // printf("<> state : STATE_DHCP_REREQUEST\r\n"); send_DHCP_REQUEST(); 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_FAILED; break; case STATE_DHCP_REQUEST: case STATE_DHCP_REREQUEST: send_DHCP_DISCOVER(); dhcp_state = STATE_DHCP_DISCOVER; break; default : break; } reset_DHCP_timeout(); } return ret; } int8_t check_DHCP_leasedIP(void) { uint8_t tmp; int32_t ret; //WIZchip RCR value changed for ARP Timeout count control tmp = getRCR(); setRCR(0x03); // IP conflict detection : ARP request - ARP reply // Broadcasting ARP Request for check the IP conflict using UDP sendto() function ret = WIZCHIP_EXPORT(sendto)(DHCP_SOCKET, (uint8_t *)"CHECK_IP_CONFLICT", 17, DHCP_allocated_ip, 5000); // RCR value restore setRCR(tmp); if(ret == SOCKERR_TIMEOUT) { // UDP send Timeout occurred : allocated IP address is unique, DHCP Success #ifdef _DHCP_DEBUG_ printf("\r\n> Check leased IP - OK\r\n"); #endif return 1; } else { // Received ARP reply or etc : IP address conflict occur, DHCP Failed send_DHCP_DECLINE(); ret = dhcp_tick_1s; while((dhcp_tick_1s - ret) < 2) ; // wait for 1s over; wait to complete to send DECLINE message; return 0; } } void DHCP_init(uint8_t s, DHCP_INIT_BUFFER_TYPE* buf) { uint8_t zeroip[4] = {0,0,0,0}; getSHAR(DHCP_CHADDR); if((DHCP_CHADDR[0] | DHCP_CHADDR[1] | DHCP_CHADDR[2] | DHCP_CHADDR[3] | DHCP_CHADDR[4] | DHCP_CHADDR[5]) == 0x00) { // assign temporary mac address, you should be set SHAR before call this function. DHCP_CHADDR[0] = 0x00; DHCP_CHADDR[1] = 0x08; DHCP_CHADDR[2] = 0xdc; DHCP_CHADDR[3] = 0x00; DHCP_CHADDR[4] = 0x00; DHCP_CHADDR[5] = 0x00; setSHAR(DHCP_CHADDR); } DHCP_SOCKET = s; // SOCK_DHCP pDHCPMSG = (RIP_MSG*)buf; DHCP_XID = 0x12345678; // WIZchip Netinfo Clear setSIPR(zeroip); setSIPR(zeroip); setGAR(zeroip); reset_DHCP_timeout(); dhcp_state = STATE_DHCP_INIT; } /* Rset the DHCP timeout count and retry count. */ void reset_DHCP_timeout(void) { dhcp_tick_1s = 0; dhcp_tick_next = DHCP_WAIT_TIME; dhcp_retry_count = 0; } void DHCP_time_handler(void) { dhcp_tick_1s++; } void getIPfromDHCP(uint8_t* ip) { ip[0] = DHCP_allocated_ip[0]; ip[1] = DHCP_allocated_ip[1]; ip[2] = DHCP_allocated_ip[2]; ip[3] = DHCP_allocated_ip[3]; } void getGWfromDHCP(uint8_t* ip) { ip[0] =DHCP_allocated_gw[0]; ip[1] =DHCP_allocated_gw[1]; ip[2] =DHCP_allocated_gw[2]; ip[3] =DHCP_allocated_gw[3]; } void getSNfromDHCP(uint8_t* ip) { ip[0] = DHCP_allocated_sn[0]; ip[1] = DHCP_allocated_sn[1]; ip[2] = DHCP_allocated_sn[2]; ip[3] = DHCP_allocated_sn[3]; } void getDNSfromDHCP(uint8_t* ip) { ip[0] = DHCP_allocated_dns[0]; ip[1] = DHCP_allocated_dns[1]; ip[2] = DHCP_allocated_dns[2]; ip[3] = DHCP_allocated_dns[3]; } uint32_t getDHCPLeasetime(void) { return dhcp_lease_time; }