Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

I am trying to mimic a DHCP client from my end using C++ Code. My objective is to get some free/unused IP's from the DHCP server to assign it to different equipments - similar to a DHCP Relay, but not technically the same. My CLIENT is running on an Embedded linux platform and talks to a DHCP server via our internal network.

As per the DHCP protocol there is a formal procedure (DISCOVER, OFFER, REQUEST, ACK/NAK, RELEASE) to communicate with the DHCP server.According to the RFC's(2131), when I do a DISCOVER, I receive and OFFER with an unused IP address in the YIAddr field. I further use this IP address in my REQUEST message using option 50 as mentioned in RFC 2132.

My main router, make- Edgewater(which is also the DHCP server) on sending a DISCOVER message, sends back an OFFER message with an unused IP address in the YIAddr field (I used this unused IP in my consequent REQUEST message), which is my requirement. I did the same experiment with few other router's (NetGear, Dlink, Broadcom) and found that the OFFER message is sending me back the same IP address of the CLIENT that is requesting the unused IP's. I am curious to know why this is happening. As I understand, I'm following the steps mentioned in RFC2131/RFC2131/RFC4361 for creating my DHCP packet format.

Is there a specific format or specific option that the other DHCP server/Routers are expecting to give out unused IP's? I am using a unique client identifier in my option field as mentioned in RFC4361.

This is a snap shot of the section where I'm creating the dhcp packet.

    request_packet.m_OperationCode  =   0x01;
request_packet.m_HwareType  =   0x01;
request_packet.m_HwareLen   =   0x06;
request_packet.m_Hops       =   0x01;
request_packet.m_XID        =   htonl(XID[m_numberOfIPs]);
request_packet.m_Secs       =   htons(0x10);
request_packet.m_flags      =   htons(0x8000);
request_packet.m_CIAddr     =   0x000000; //Client IP
request_packet.m_YIAddr     =   0x000000; //Your IP
request_packet.m_SIAddr     =   0x000000; //Server IP
request_packet.m_GIAddr         =   0x000000;
request_packet.m_CHAddr[0]  =   MACADDRESS[m_numberOfIPs][0];
request_packet.m_CHAddr[1]  =   MACADDRESS[m_numberOfIPs][1];//[1];
request_packet.m_CHAddr[2]  =   MACADDRESS[m_numberOfIPs][2];//[2];
request_packet.m_CHAddr[3]  =   MACADDRESS[m_numberOfIPs][3];//[3];
request_packet.m_CHAddr[4]  =   MACADDRESS[m_numberOfIPs][4];//[4];
request_packet.m_CHAddr[5]  =   MACADDRESS[m_numberOfIPs][5];//[5];
memset(request_packet.m_CHAddr+6, 0, 10);
memset(request_packet.m_SName, 0, 64);      
memset(request_packet.m_File, 0, 128);  
request_packet.m_pOptions[0]    =   99; //Start of magic cookie
request_packet.m_pOptions[1]    =   130;            
request_packet.m_pOptions[2]    =   83;
request_packet.m_pOptions[3]    =   99; //end of magic cookie

Options Field

DISCOVER message

CID and DUID are random unique numbers to create a unique client identifier

 request_packet.m_pOptions[4]   =   53; //DHCP MESSAGE TYPE OPTION CODE
 request_packet.m_pOptions[5]   =   1;  //OPTION DATA LEN
 request_packet.m_pOptions[6]   =   1;  //DHCP DISCOVER

 request_packet.m_pOptions[7]   =   55; //Parameter Request List
 request_packet.m_pOptions[8]   =   7; //Length
 request_packet.m_pOptions[9]   =   1; //Subnet Mask
 request_packet.m_pOptions[10]  =   3; //Router
 request_packet.m_pOptions[11]  =   6; //Domain Name Server
 request_packet.m_pOptions[12]  =   12; // Host Name
 request_packet.m_pOptions[13]  =   15; //Domain Name
 request_packet.m_pOptions[14]  =   28; //Broadcast Address
 request_packet.m_pOptions[15]  =   42; //NTP servers

 request_packet.m_pOptions[16]  =   51; //IP Address Lease Time
 request_packet.m_pOptions[17]  =   4;  
 request_packet.m_pOptions[18]  =   0x00;
 request_packet.m_pOptions[19]  =   0x00;
 request_packet.m_pOptions[20]  =   0xFF;
 request_packet.m_pOptions[21]  =   0xFF;

 request_packet.m_pOptions[22]  =   61;//Client Identifier code
 request_packet.m_pOptions[23]  =   15;//Length
 request_packet.m_pOptions[24]  =   255;//IAID Type
 printf("The CID generated inside REQUEST is %x\n", CID[m_numberOfIPs]);
 request_packet.m_pOptions[25]  =   CID[m_numberOfIPs][0];
 request_packet.m_pOptions[26]  =   CID[m_numberOfIPs][1];
 request_packet.m_pOptions[27]  =   CID[m_numberOfIPs][2];
 request_packet.m_pOptions[28]  =   CID[m_numberOfIPs][3];
 request_packet.m_pOptions[29]  =   0x00;//DUID Type
 request_packet.m_pOptions[30]  =   0x03;//DUID Type
 request_packet.m_pOptions[31]  =   0x00;//HW Type code - Ethernet
 request_packet.m_pOptions[32]  =   0x01;//HW Type code - Ethernet
 request_packet.m_pOptions[33]  =   DUID[m_numberOfIPs][0];
 request_packet.m_pOptions[34]  =   DUID[m_numberOfIPs][1];
 request_packet.m_pOptions[35]  =   DUID[m_numberOfIPs][2];
 request_packet.m_pOptions[36]  =   DUID[m_numberOfIPs][3];
 request_packet.m_pOptions[37]  =   DUID[m_numberOfIPs][4];
 request_packet.m_pOptions[38]  =   DUID[m_numberOfIPs][5];


 request_packet.m_pOptions[39]  =   (0xff);  // End option

REQUEST message

request_packet.m_pOptions[4]    =   53; //DHCP MESSAGE TYPE OPTION CODE
request_packet.m_pOptions[5]    =   1;  //OPTION DATA LEN
request_packet.m_pOptions[6]    =   3;  //DHCP REQUEST

request_packet.m_pOptions[7]    =   50; //DHCP REQUESTION OPTION
request_packet.m_pOptions[8]    =   4;  //OPTION DATA LEN
request_packet.m_pOptions[9]    =   (m_YourIP & 0xff000000)>>24;  //first byte
request_packet.m_pOptions[10]   =   (m_YourIP & 0xff0000)>>16;  //second byte
request_packet.m_pOptions[11]   =   (m_YourIP & 0xff00)>>8;  //third byte
request_packet.m_pOptions[12]   =   (m_YourIP & 0xff);  //fourth byte
/*- Added by JA. Refer 3.1.3 Section of RFC2131.txt - Server identifier option*/
 request_packet.m_pOptions[13]  =   54;
 request_packet.m_pOptions[14]   =  4;
 request_packet.m_pOptions[15]  =   (m_ServerIP & 0xff000000) >> 24; //first byte
 request_packet.m_pOptions[16]  =   (m_ServerIP & 0xff0000)>>16;  //second byte
 request_packet.m_pOptions[17]  =   (m_ServerIP & 0xff00)>>8;  //third byte
 request_packet.m_pOptions[18]  =   (m_ServerIP & 0xff);  //fourth byte

 request_packet.m_pOptions[19]  =   55; //Parameter Request List
 request_packet.m_pOptions[20]  =   7; //Length
 request_packet.m_pOptions[21]  =   1; //Subnet Mask
 request_packet.m_pOptions[22]  =   3; //Router
 request_packet.m_pOptions[23]  =   6; //Domain Name Server
 request_packet.m_pOptions[24]  =   12; // Host Name
 request_packet.m_pOptions[25]  =   15; //Domain Name
 request_packet.m_pOptions[26]  =   28; //Broadcast Address
 request_packet.m_pOptions[27]  =   42; //NTP servers

     request_packet.m_pOptions[28]  =   51; //IP Address Lease Time
     request_packet.m_pOptions[29]  =   4;  
     request_packet.m_pOptions[30]  =   0x00;
     request_packet.m_pOptions[31]  =   0x00;
     request_packet.m_pOptions[32]  =   0xFF;
     request_packet.m_pOptions[33]  =   0xFF;

     /*- Added by JA. Refer 6.1 Section of RFC4361.txt - Client identifier option*/
     request_packet.m_pOptions[34]  =   61;//Client Identifier code
     request_packet.m_pOptions[35]  =   15;//Length
     request_packet.m_pOptions[36]  =   255;//IAID Type
     printf("The CID generated inside REQUEST is %x\n", CID[m_numberOfIPs]);
     request_packet.m_pOptions[37]  =   CID[m_numberOfIPs][0];
     request_packet.m_pOptions[38]  =   CID[m_numberOfIPs][1];
     request_packet.m_pOptions[39]  =   CID[m_numberOfIPs][2];
     request_packet.m_pOptions[40]  =   CID[m_numberOfIPs][3];
     request_packet.m_pOptions[41]  =   0x00;//DUID Type
     request_packet.m_pOptions[42]  =   0x03;//DUID Type
     request_packet.m_pOptions[43]  =   0x00;//HW Type code - Ethernet
     request_packet.m_pOptions[44]  =   0x01;//HW Type code - Ethernet
     request_packet.m_pOptions[45]  =   DUID[m_numberOfIPs][0];
     request_packet.m_pOptions[46]  =   DUID[m_numberOfIPs][1];
     request_packet.m_pOptions[47]  =   DUID[m_numberOfIPs][2];
     request_packet.m_pOptions[48]  =   DUID[m_numberOfIPs][3];
     request_packet.m_pOptions[49]  =   DUID[m_numberOfIPs][4];
     request_packet.m_pOptions[50]  =   DUID[m_numberOfIPs][5];
     request_packet.m_pOptions[51]  =   (0xff);  // End option
share|improve this question
    
I'm calling this function (which creates the packet) 'x' times depending on the number of free IP's I require. Now on giving a unique MAC address field in the m_ChAddr field for each DORA(Discover-Offer-Request-ACK) I am getting an unused IP address back in the m_YIAddr field which is what I need. From reading the rfc's I thought by keeping the MAC address the same and giving a unique client identifier for each DORA, it should have worked (and it is working with our main router - Edgewater). Do some routers expect a unique MAC address to be provided in each DORA to release an unused IP? –  Joel Abraham Jun 14 '12 at 13:54

1 Answer 1

Using router as DHCP relay and server it will assign you Unique IP based DHCP subnetwork configured on it say 10.1.2.0/24 is the pool defined on router for DHCP requests it will assign you very first non-allocated IP against your MAC only and this assignment is random you can not reserve mac on router.After DORA it triggers lease timer for that MAC-IP .

If you use DHCP server Microsoft/Unix they they have extended functionality as reserving IP for particular mac permanently.

share|improve this answer
    
Thanks for the reply. I understand an IP is allocated against a MAC addresses. I'm trying to figure out if the protocol/RFC's support a DHCP client to get different unique unallocated IP with the same MAC addresses( mac address of the DHCP client). –  Joel Abraham Oct 2 '12 at 14:52
    
router does not reserves ip for perticular mac permanently ; its possible to get unique ip via dhcp relay each time dhcp client queries. –  Amit Bhanushali Oct 2 '12 at 15:06
    
My dhcp client is in the same subnet as that of the dhcp server. I do not want to reserve IP for a mac permanently. I want the dhcp client to get some IP addresses(sort of like a relay agent, but not fully) based on it's MAC address and pass these IP's to various devices(these devices do not have MAC addresses) –  Joel Abraham Oct 2 '12 at 15:15

Your Answer

 
discard

By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.