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//set extensionHeaders
if(f_setExtensionHeaders( v_ipPkt,
v_ipPkt.ipv6Hdr.sourceAddress,
v_ipPkt.ipv6Hdr.destinationAddress) != e_success) {
log(" **** f_sendCoti: Error when calculating length of extension headers ****");
return e_error;
}
//send
ipPort.send(v_ipPkt);
return e_success;
}//end f_sendCoti
/*
* @desc This sends a IPv6 packet with MipExtHdr - CareOfTest
* from an IPv6 node to any NUT.
*
* @remark
* @param p_msg MIPHeader to be sent
* @return execution status
*/
function f_sendCot(template CareOfTest p_msg)
runs on LibIpv6Node
return FncRetCode {
//Variables
var CareOfTest v_ipPkt;
v_ipPkt := valueof(p_msg);
//calc payloadLen
v_ipPkt.ipv6Hdr.payloadLength := fx_payloadLength (v_ipPkt);
//set extensionHeaders
if(f_setExtensionHeaders( v_ipPkt,
v_ipPkt.ipv6Hdr.sourceAddress,
v_ipPkt.ipv6Hdr.destinationAddress) != e_success) {
log(" **** f_sendCoti: Error when calculating length of extension headers ****");
return e_error;
}
//send
ipPort.send(v_ipPkt);
return e_success;
}//end f_sendCot
/*
* @desc This sends a IPv6 packet with MipExtHdr - Fast Nbr Adv
* from an IPv6 node to any NUT.
*
* @remark
* @param p_msg MIPHeader to be sent
* @return execution status
*/
tepelmann
committed
function f_sendFastNbrAdv(template FastNeighborAdvertisement p_msg)
runs on LibIpv6Node
return FncRetCode {
//Variables
tepelmann
committed
var FastNeighborAdvertisement v_ipPkt;
//calc payloadLen
v_ipPkt.ipv6Hdr.payloadLength := fx_payloadLength (v_ipPkt);
//set extensionHeaders
if(f_setExtensionHeaders( v_ipPkt,
v_ipPkt.ipv6Hdr.sourceAddress,
v_ipPkt.ipv6Hdr.destinationAddress) != e_success) {
log(" **** f_sendFastNbrAdv: Error when calculating length of extension headers ****");
return e_error;
}
//send
ipPort.send(v_ipPkt);
return e_success;
}//end f_sendFastNbrAdv
}//end group rfc3775Mipv6_ExtHdrFunctions
group rfc4303Esp_ExtHdrFunctions {
// if( (f_getEncryptionIvLen(PX_ENCRYPTION_ALGO) != 0) and (f_getEncryptionIvLen(PX_ENCRYPTION_ALGO) != lengthof(PX_IV))) {
// v_ret := e_error;
// log("**** fx_setSecurityParameters: ERROR: Incorrect IV length for the selected encryption algorithm ****");
// }
berge
committed
if( f_checkEncryptionKeyLen(PX_ENCRYPTION_ALGO,lengthof(PX_ESP_ENCR_KEY)) != true) {
log("**** f_init_ipSecParams: ERROR: Incorrect key length for the selected encryption algorithm ****");
return e_error;
berge
committed
}
if( f_checkIntegrityKeyLen(PX_INTEGRITY_ALGO, lengthof(PX_INTEGRITY_KEY)) != true) {
log("**** f_init_ipSecParams: ERROR: Incorrect key length for the selected integrity algorithm ****");
return e_error;
berge
committed
}
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// SAD-OUT
vc_sad[c_saOut] := {
spi := PX_SPI/*f_createSpi()*/,
seqNr := c_uInt32Zero,
// AH Integrity
ahIntegrityAlgo := PX_INTEGRITY_ALGO,
ahIntegrityKey := PX_INTEGRITY_KEY/*f_createSecretKey()*/,
icvLen := f_getIcvLen(PX_INTEGRITY_ALGO),
icvPadLen := f_getIcvPadLen(PX_INTEGRITY_ALGO),
// ESP encryption
espEncryptionAlgo := PX_ENCRYPTION_ALGO,
espEncryptionKey := PX_ESP_ENCR_KEY/*f_createSecretKey()*/,
// ESP integrity
espIntegrityAlgo := PX_INTEGRITY_ALGO,
espIntegrityKey := PX_INTEGRITY_KEY/*f_createSecretKey()*/,
// Combined mode
espCombinedModeAlgo := PX_COMBINED_MODE_ALGO,
espCombinedModeKey := PX_COMBINED_MODE_KEY/*f_createSecretKey()*/,
// Protocol mode
ipSecProtocolMode := PX_IP_SEC_PROTOCOL_MODE
}
// SAD-IN
vc_sad[c_saIn] := {
spi := PX_SPI/*f_createSpi()*/,
// AH Integrity
ahIntegrityAlgo := PX_INTEGRITY_ALGO,
ahIntegrityKey := PX_INTEGRITY_KEY/*f_createSecretKey()*/,
icvLen := f_getIcvLen(PX_INTEGRITY_ALGO),
icvPadLen := f_getIcvPadLen(PX_INTEGRITY_ALGO),
// ESP encryption
espEncryptionAlgo := PX_ENCRYPTION_ALGO,
espEncryptionKey := PX_ESP_ENCR_KEY/*f_createSecretKey()*/,
// ESP integrity
espIntegrityAlgo := PX_INTEGRITY_ALGO,
espIntegrityKey := PX_INTEGRITY_KEY/*f_createSecretKey()*/,
// Combined mode
espCombinedModeAlgo := PX_COMBINED_MODE_ALGO,
espCombinedModeKey := PX_COMBINED_MODE_KEY/*f_createSecretKey()*/,
// Protocol mode
ipSecProtocolMode := PX_IP_SEC_PROTOCOL_MODE
}
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// SAD-OUT
vc_sad[c_saRrpOut] := {
spi := c_saRrpOut/*f_createSpi()*/,
seqNr := c_uInt32Zero,
// AH Integrity
ahIntegrityAlgo := PX_INTEGRITY_ALGO,
ahIntegrityKey := PX_INTEGRITY_KEY/*f_createSecretKey()*/,
icvLen := f_getIcvLen(PX_INTEGRITY_ALGO),
icvPadLen := f_getIcvPadLen(PX_INTEGRITY_ALGO),
// ESP encryption
espEncryptionAlgo := PX_ENCRYPTION_ALGO,
espEncryptionKey := PX_ESP_ENCR_KEY/*f_createSecretKey()*/,
// ESP integrity
espIntegrityAlgo := PX_INTEGRITY_ALGO,
espIntegrityKey := PX_INTEGRITY_KEY/*f_createSecretKey()*/,
// Combined mode
espCombinedModeAlgo := PX_COMBINED_MODE_ALGO,
espCombinedModeKey := PX_COMBINED_MODE_KEY/*f_createSecretKey()*/,
// Protocol mode
ipSecProtocolMode := PX_IP_SEC_PROTOCOL_MODE
}
// SAD-IN
vc_sad[c_saRrpIn] := {
spi := c_saRrpIn/*f_createSpi()*/,
seqNr := c_uInt32Zero,
// AH Integrity
ahIntegrityAlgo := PX_INTEGRITY_ALGO,
ahIntegrityKey := PX_INTEGRITY_KEY/*f_createSecretKey()*/,
icvLen := f_getIcvLen(PX_INTEGRITY_ALGO),
icvPadLen := f_getIcvPadLen(PX_INTEGRITY_ALGO),
// ESP encryption
espEncryptionAlgo := PX_ENCRYPTION_ALGO,
espEncryptionKey := PX_ESP_ENCR_KEY/*f_createSecretKey()*/,
// ESP integrity
espIntegrityAlgo := PX_INTEGRITY_ALGO,
espIntegrityKey := PX_INTEGRITY_KEY/*f_createSecretKey()*/,
// Combined mode
espCombinedModeAlgo := PX_COMBINED_MODE_ALGO,
espCombinedModeKey := PX_COMBINED_MODE_KEY/*f_createSecretKey()*/,
// Protocol mode
ipSecProtocolMode := PX_IP_SEC_PROTOCOL_MODE
}
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// SAD-OUT
vc_sad[c_saCnOut] := {
spi := c_saCnOut/*f_createSpi()*/,
seqNr := c_uInt32Zero,
// AH Integrity
ahIntegrityAlgo := PX_INTEGRITY_ALGO,
ahIntegrityKey := PX_INTEGRITY_KEY/*f_createSecretKey()*/,
icvLen := f_getIcvLen(PX_INTEGRITY_ALGO),
icvPadLen := f_getIcvPadLen(PX_INTEGRITY_ALGO),
// ESP encryption
espEncryptionAlgo := PX_ENCRYPTION_ALGO,
espEncryptionKey := PX_ESP_ENCR_KEY/*f_createSecretKey()*/,
// ESP integrity
espIntegrityAlgo := PX_INTEGRITY_ALGO,
espIntegrityKey := PX_INTEGRITY_KEY/*f_createSecretKey()*/,
// Combined mode
espCombinedModeAlgo := PX_COMBINED_MODE_ALGO,
espCombinedModeKey := PX_COMBINED_MODE_KEY/*f_createSecretKey()*/,
// Protocol mode
ipSecProtocolMode := PX_IP_SEC_PROTOCOL_MODE
}
// SAD-IN
vc_sad[c_saCnIn] := {
spi := c_saCnIn/*f_createSpi()*/,
seqNr := c_uInt32Zero,
// AH Integrity
ahIntegrityAlgo := PX_INTEGRITY_ALGO,
ahIntegrityKey := PX_INTEGRITY_KEY/*f_createSecretKey()*/,
icvLen := f_getIcvLen(PX_INTEGRITY_ALGO),
icvPadLen := f_getIcvPadLen(PX_INTEGRITY_ALGO),
// ESP encryption
espEncryptionAlgo := PX_ENCRYPTION_ALGO,
espEncryptionKey := PX_ESP_ENCR_KEY/*f_createSecretKey()*/,
// ESP integrity
espIntegrityAlgo := PX_INTEGRITY_ALGO,
espIntegrityKey := PX_INTEGRITY_KEY/*f_createSecretKey()*/,
// Combined mode
espCombinedModeAlgo := PX_COMBINED_MODE_ALGO,
espCombinedModeKey := PX_COMBINED_MODE_KEY/*f_createSecretKey()*/,
// Protocol mode
ipSecProtocolMode := PX_IP_SEC_PROTOCOL_MODE
}
//TODO chose in function of PX_SPI the SAD to be used for testing
// v_ret := fx_setSecurityParameters(Sad:{vc_sad[c_saOut]});
//SMU 2007 how is it solved to know when to use which SAD?
v_ret := fx_setSecurityParameters(vc_sad);
if (v_ret != e_success) {log("f_init_ipSecParams: Error when setting security parameters");}
return v_ret;
function f_getIcvLen(IntegrityAlgo p_integrityAlgo)
runs on LibIpv6Node
return UInt8 {
if(p_integrityAlgo == e_sha1) {
return 20;
}
else if (p_integrityAlgo == e_hmac_sha1_64){
return 8;
}
else if(p_integrityAlgo == e_null) {
return 0;
}
return 12;
}
function f_getIcvPadLen(IntegrityAlgo p_integrityAlgo)
runs on LibIpv6Node
return UInt8 {
if(p_integrityAlgo == e_sha1) {
return 0;
}
else if (p_integrityAlgo == e_hmac_sha1_64){
return 4;
}
return 0;
}
berge
committed
//in units of octets
function f_checkIntegrityKeyLen(IntegrityAlgo p_integrityAlgo, UInt8 p_keyLen)
runs on LibIpv6Node
return boolean {
if((p_integrityAlgo == e_sha1) and (p_keyLen != 20)) {
return false;
}
else if ((p_integrityAlgo == e_sha1_96) and (p_keyLen != 20)){
return false;
}
berge
committed
else if ((p_integrityAlgo == e_hmac_sha1_64) and (p_keyLen != 20)){
return false;
}
else if ((p_integrityAlgo == e_hmac_sha1_96) and (p_keyLen != 20)){
return false;
}
berge
committed
else if((p_integrityAlgo == e_hmac_md5_96) and (p_keyLen != 16)) {
return false;
}
return true;
}
berge
committed
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//in units of octets
function f_getEncryptionIvLen(EncryptionAlgo p_encryptionAlgo)
runs on LibIpv6Node
return UInt8 {
if(p_encryptionAlgo == e_tripleDes_cbc) {
return 8;
}
else if (p_encryptionAlgo == e_aes_cbc){
return 16;
}
else if(p_encryptionAlgo == e_aes_ctr) {
return 8;
}
else if(p_encryptionAlgo == e_des_cbc) {
return 8;
}
return 0;
}
//in units of octets
function f_checkEncryptionKeyLen(EncryptionAlgo p_encryptionAlgo, UInt8 p_keyLen)
runs on LibIpv6Node
return boolean {
if((p_encryptionAlgo == e_tripleDes_cbc) and (p_keyLen != 24)){
return false;
}
else if ((p_encryptionAlgo == e_aes_cbc) and ((p_keyLen < 0) or (p_keyLen > 32))){
berge
committed
return false;
}
else if((p_encryptionAlgo == e_aes_ctr)
and (p_keyLen != 20) and (p_keyLen != 28) and (p_keyLen != 36)){
return false;
}
else if((p_encryptionAlgo == e_des_cbc) and (p_keyLen != 8)){
return false;
}
return true;
}
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/*
* @desc This generates Security Parameters Index
* @return Security Parameters Index
*/
function f_createSpi()
runs on LibIpv6Node
return UInt32 {
var Oct4 v_spi := int2oct(float2int(int2float(20000-5000)*rnd())+5000, 4);
return oct2int(v_spi);
}//end f_createSpi
/*
* @desc This generates a secret key
* @return Secret key
*/
function f_createSecretKey()
runs on LibIpv6Node
return octetstring {
var Oct20 v_key := int2oct(float2int(int2float(20000-5000)*rnd())+5000, 20);
return v_key;
}//end f_createSecretKey
/*
* @desc
* This function is used when sending messages.
* @param p_msg ExtensionHeaderList to be treated
* @return execution status
*/
function f_getOriginalIpv6Packet( in Ipv6Packet p_ipv6Packet,
in EspHeader p_espHeader,
out Ipv6Packet p_originalIpv6Packet)
runs on LibIpv6Node
return FncRetCode {
var UInt8 i;
var boolean v_loop := true;
if (not(ispresent(p_espHeader.espPayload.espIpDatagram.extHdrList))
and not(ispresent(p_espHeader.espPayload.espIpDatagram.ipv6Payload))) {
log("**** f_setEspHeader: EspHeader.espPayload.espIpDatagram received that does neither contain extHdrList not ipv6Payload => EspHeader is not constructed correctly ****") ;
return e_error;
}
//Build original packet
p_originalIpv6Packet.ipv6Hdr := p_ipv6Packet.ipv6Hdr;
if (ispresent(p_espHeader.espPayload.espIpDatagram.extHdrList)) {
p_originalIpv6Packet.extHdrList := p_espHeader.espPayload.espIpDatagram.extHdrList;
}
if (ispresent(p_espHeader.espPayload.espIpDatagram.ipv6Payload)) {
p_originalIpv6Packet.ipv6Payload := p_espHeader.espPayload.espIpDatagram.ipv6Payload;
}
// is a tunneledIpv6Hdr in the extHdrList? If yes, then it becomes the Ipv6Hdr of the original packet
if (ispresent(p_espHeader.espPayload.espIpDatagram.extHdrList)) {
for (i:=0; i<sizeof(p_espHeader.espPayload.espIpDatagram.extHdrList) and v_loop ;i:=i+1) {
if (ischosen(p_espHeader.espPayload.espIpDatagram.extHdrList[i].tunneledIpv6)) {
p_originalIpv6Packet.ipv6Hdr := p_espHeader.espPayload.espIpDatagram.extHdrList[i].tunneledIpv6;
v_loop := false;
}
else {
p_originalIpv6Packet.extHdrList[i] := p_espHeader.espPayload.espIpDatagram.extHdrList[i];
}
}
}
p_originalIpv6Packet.ipv6Hdr.payloadLength := fx_payloadLength (p_originalIpv6Packet);
return e_success;
}//end f_setEspHeader
* This function is used when sending messages.
* @param p_msg ExtensionHeaderList to be treated
* @return execution status
*/
/* function f_setEspHeader( in Ipv6Packet p_ipv6Packet,
inout EspHeader p_espHeader)
runs on LibIpv6Node
return FncRetCode {
var Ipv6Header v_originalIpv6Hdr;
var EchoRequest v_originalEchoRequest;
var EchoReply v_originalEchoReply;
//treat MipHdr and other ext
if (ispresent(p_espHeader.espPayload.espIpDatagram.extHdrList)) {
}
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if (ispresent(p_espHeader.espPayload.espIpDatagram.ipv6Payload)) {
if (ischosen(p_espHeader.espPayload.espIpDatagram.ipv6Payload.echoRequestMsg)) {
if (ischosen(p_espHeader.espPayload.espIpDatagram.extHdrList[0].tunneledIpv6)) {//tunnelMode
v_originalIpv6Hdr := p_espHeader.espPayload.espIpDatagram.extHdrList[0].tunneledIpv6;
}
else { //transportMode
v_originalIpv6Hdr := p_ipv6Packet.ipv6Hdr;
}
//build original packet
v_originalEchoRequest := {
ipv6Hdr := v_originalIpv6Hdr,
extHdrList := omit,
ipv6Payload := p_espHeader.espPayload.espIpDatagram.ipv6Payload
}
//calc checksum
if (v_originalEchoRequest.ipv6Payload.echoRequestMsg.checksum != c_2ZeroBytes) {
//calc checksum
v_originalEchoRequest.ipv6Payload.echoRequestMsg.checksum := fx_icmpv6Checksum(v_originalEchoRequest);
}
//assign checksum
p_espHeader.espPayload.espIpDatagram.ipv6Payload.echoRequestMsg.checksum := v_originalEchoRequest.ipv6Payload.echoRequestMsg.checksum;
}
else if (ischosen(p_espHeader.espPayload.espIpDatagram.ipv6Payload.echoReplyMsg)) {
if (ischosen(p_espHeader.espPayload.espIpDatagram.extHdrList[0].tunneledIpv6)) {//tunnelMode
v_originalIpv6Hdr := p_espHeader.espPayload.espIpDatagram.extHdrList[0].tunneledIpv6;
}
else { //transportMode
v_originalIpv6Hdr := p_ipv6Packet.ipv6Hdr;
}
//build original packet
v_originalEchoReply := {
ipv6Hdr := v_originalIpv6Hdr,
extHdrList := omit,
ipv6Payload := p_espHeader.espPayload.espIpDatagram.ipv6Payload
}
//calc checksum
if (v_originalEchoReply.ipv6Payload.echoReplyMsg.checksum != c_2ZeroBytes) {
//calc checksum
v_originalEchoReply.ipv6Payload.echoReplyMsg.checksum := fx_icmpv6Checksum(v_originalEchoReply);
}
//assign checksum
p_espHeader.espPayload.espIpDatagram.ipv6Payload.echoReplyMsg.checksum := v_originalEchoReply.ipv6Payload.echoReplyMsg.checksum;
}