void callback( int reason, Snmp *snmp, Pdu &pdu, SnmpTarget &target, void *cd)
{
Vb nextVb;
int pdu_error;
cout << "reason: " << reason << endl
<< "msg: " << snmp->error_msg(reason) << endl;
pdu_error = pdu.get_error_status();
if (pdu_error) {
cout << "Response contains error: "
<< snmp->error_msg(pdu_error)<< endl;
}
for (int i=0; i<pdu.get_vb_count(); i++)
{
pdu.get_vb(nextVb, i);
cout << "Oid: " << nextVb.get_printable_oid() << endl
<< "Val: " << nextVb.get_printable_value() << endl;
}
if (pdu.get_type() == sNMP_PDU_INFORM) {
cout << "pdu type: " << pdu.get_type() << endl;
cout << "sending response to inform: " << endl;
nextVb.set_value("This is the response.");
pdu.set_vb(nextVb, 0);
snmp->response(pdu, target);
}
cout << endl;
}
/////////////////////////////////////////////////////////////////////////////
// 函数:SetRequest //
// 说明:设置简单变量的结果 //
// 参数:无 //
// 返回值: //
// 成功返回0,否则返回一个非0 值 //
/////////////////////////////////////////////////////////////////////////////
int BasicSNMP::SetRequest()
{
int nResult = 0;
Pdu pdu; // construct a Pdu object
Vb vb; // construct a Vb object
vb.set_oid(oid); // set the Oid portion of the Vb
vb.set_value(m_nOIDValue); // set the Oid portion of the Vb
pdu += vb;
SnmpTarget *target;// = &ctarget;
if(version ==version3)
{//If SNMP Version Is 3
nResult = InitUTarget();//Init UTarget
pdu.set_security_level( m_nSecurityLevel);//Set the Security Level portion of Pdu
pdu.set_context_name (contextName);//Set the Context Name portion of Pdu
pdu.set_context_engine_id(contextEngineID);//Set the Context Engine ID portion of Pdu
target = &utarget; //Set SNMP Target
}
else
{
target = &ctarget; //Set SNMP Target
}
nResult = pSnmp->set(pdu,*target);//Get Reques
return nResult;
}
// this routine makes up the brains of the agent
// it knows only the MIB II system group set of variables for a get operation
int agent_impl::get_response(Vb& vb)
{
// these objects represent the MIB II system group per RFC 1213
static Oid sysDescr("1.3.6.1.2.1.1.1.0"),
sysObjectID("1.3.6.1.2.1.1.2.0"), sysUpTime("1.3.6.1.2.1.1.3.0"),
sysContact("1.3.6.1.2.1.1.4.0"), sysName("1.3.6.1.2.1.1.5.0"),
sysLocation("1.3.6.1.2.1.1.6.0"), sysServices("1.3.6.1.2.1.1.7.0");
Oid oid;
vb.get_oid(oid);
if (oid == sysDescr) {
OctetStr desc("ASNMP Prototype Agent 1.0");
vb.set_value(desc);
}
else if (oid == sysObjectID) { // the IANA gives assigns Enterprise Numbers
// see ftp://ftp.isi.edu/in-notes/iana/assignments/enterprise-numbers
// for the official list of enterprise numbers. Then under this tree
// assign a unique subtree to identify this agent
Oid id("1.3.6.1.4.1.2533.9.1");
vb.set_value(id);
}
else if (oid == sysUpTime) {
ACE_Time_Value tv;
agent_clock_.elapsed_time (tv);
TimeTicks tt(tv.msec());
vb.set_value(tt);
}
else if (oid == sysContact) {
OctetStr contact("*****@*****.**");
vb.set_value(contact);
}
else if (oid == sysName) {
OctetStr fqdn("foo.org"); // extract this from the gethostbyname() TODO
vb.set_value(fqdn);
}
else if (oid == sysLocation) {
OctetStr loc("");
vb.set_value(loc);
}
else if (oid == sysServices) {
SnmpInt32 svcs(72);
vb.set_value(svcs);
}
else
return 1; // noSuchName
return 0;
}
void MainWindow::async_callback(int reason, Snmp * /*snmp*/, Pdu &pdu,
SnmpTarget &target)
{
Vb nextVb;
int pdu_error;
QString prefix_text;
QString notify_text;
push_button_get_next->setEnabled(true);
// What is the reason for this callback?
if (reason == SNMP_CLASS_NOTIFICATION)
{
prefix_text = "Trap: ";
// get the notify id for traps
Oid id;
pdu.get_notify_id(id);
notify_text = QString(" ID: %1 Type %2 -- ").arg(id.get_printable())
.arg(pdu.get_type());
}
else if (reason == SNMP_CLASS_ASYNC_RESPONSE)
{
prefix_text = "Response ";
}
else if (reason == SNMP_CLASS_TIMEOUT)
{
prefix_text = "Timeout ";
}
else
{
QString err = QString("\nDid not receive async response/trap: (%1) %2\n")
.arg(reason).arg(Snmp::error_msg(reason));
text_edit_output->append(err);
}
// Look at the error status of the Pdu
pdu_error = pdu.get_error_status();
if (pdu_error)
{
QString err = "\nResponse contains error:\n";
err += Snmp::error_msg(pdu_error);
text_edit_output->append(err);
return;
}
// The Pdu must contain at least one Vb
if (pdu.get_vb_count() == 0)
{
QString err = "\nPdu is empty\n";
text_edit_output->append(err);
return;
}
for (int i=0; i<pdu.get_vb_count(); i++)
{
// Get the Vb of the Pdu
pdu.get_vb(nextVb, i);
// Get Oid and value from the Vb and display it
line_edit_obj_id->setText(nextVb.get_printable_oid());
line_edit_value->setText(nextVb.get_printable_value());
text_edit_output->append(prefix_text +
target.get_address().get_printable() +
" -- " +
notify_text +
line_edit_obj_id->text() + " = " +
line_edit_value->text() + "\n");
}
// If we received a inform pdu, we have to send a response
if (pdu.get_type() == sNMP_PDU_INFORM)
{
text_edit_output->append("Sending response to inform.\n");
// just change the value of the first vb
pdu.get_vb(nextVb, 0);
nextVb.set_value("This is the response.");
pdu.set_vb(nextVb, 0);
snmp->response(pdu, target);
}
}
int wpdu::restore_vbs(Pdu& pdu, const snmp_pdu *raw_pdu) const
{
Vb tempvb;
Oid tempoid;
struct variable_list *vp;
for(vp = raw_pdu->variables; vp; vp = vp->next_variable) {
// extract the oid portion
tempoid.set_data( (unsigned long *)vp->name,
( unsigned int) vp->name_length);
tempvb.set_oid( tempoid);
// extract the value portion
switch(vp->type) {
// octet string
case sNMP_SYNTAX_OCTETS:
case sNMP_SYNTAX_OPAQUE:
{
OctetStr octets( (char *) vp->val.string,
(long) vp->val_len);
tempvb.set_value( octets);
}
break;
// object id
case sNMP_SYNTAX_OID:
{
Oid oid( (unsigned long*) vp->val.objid,
(int) vp->val_len);
tempvb.set_value( oid);
}
break;
// timeticks
case sNMP_SYNTAX_TIMETICKS:
{
TimeTicks timeticks( (unsigned long) *(vp->val.integer));
tempvb.set_value( timeticks);
}
break;
// Gauge32
case sNMP_SYNTAX_GAUGE32:
{
Gauge32 gauge32( (unsigned long) *(vp->val.integer));
tempvb.set_value( gauge32);
}
break;
// 32 bit counter
case sNMP_SYNTAX_CNTR32:
{
Counter32 counter32( (unsigned long) *(vp->val.integer));
tempvb.set_value( counter32);
}
break;
// ip address
case sNMP_SYNTAX_IPADDR:
{
char buffer[20];
ACE_OS::sprintf( buffer,"%d.%d.%d.%d",
vp->val.string[0],
vp->val.string[1],
vp->val.string[2],
vp->val.string[3]);
IpAddress ipaddress( buffer);
tempvb.set_value( ipaddress);
}
break;
// 32 bit integer
case sNMP_SYNTAX_INT:
{
SnmpInt32 int32( (long) *(vp->val.integer));
tempvb.set_value( int32);
}
break;
// 32 bit unsigned integer
case sNMP_SYNTAX_UINT32:
{
SnmpUInt32 uint32( (unsigned long) *(vp->val.integer));
tempvb.set_value( uint32);
}
break;
// v2 counter 64's
case sNMP_SYNTAX_CNTR64:
break;
case sNMP_SYNTAX_NULL:
tempvb.set_null();
break;
// v2 vb exceptions
case sNMP_SYNTAX_NOSUCHOBJECT:
case sNMP_SYNTAX_NOSUCHINSTANCE:
case sNMP_SYNTAX_ENDOFMIBVIEW:
set_exception_status( &tempvb, vp->type);
break;
default:
tempvb.set_null();
} // end switch
// append the vb to the pdu
pdu += tempvb;
}
return 0;
}
// Send a report message.
int v3MP::send_report(unsigned char* scopedPDU, int scopedPDULength,
struct snmp_pdu *pdu, int errorCode, int sLevel,
int sModel, OctetStr &sName,
UdpAddress &destination, Snmp *snmp_session)
{
debugprintf(2, "v3MP::send_report: Sending report message.");
unsigned char *data;
int dataLength;
int pdu_type = 0;
unsigned char cEngineID[MAXLENGTH_ENGINEID+1];
unsigned char cName[MAXLENGTH_CONTEXT_NAME+1];
int cEngineIDLength = MAXLENGTH_ENGINEID+1;
int cNameLength = MAXLENGTH_CONTEXT_NAME+1;
debugprintf(2, "v3MP::send_report: securityLevel %d",sLevel);
if (scopedPDULength != MAX_SNMP_PACKET)
{
// try to get scopedPDU and PDU
data = asn1_parse_scoped_pdu(scopedPDU, &scopedPDULength,
cEngineID, &cEngineIDLength,
cName, &cNameLength);
if (data == NULL) {
debugprintf(1, "mp: Error while trying to parse scopedPDU!");
cEngineID[0] = '\0';
cEngineIDLength = 0;
cName[0] = '\0';
cNameLength = 0;
// Dont send encrypted report if decryption failed:
//if (sLevel == SNMP_SECURITY_LEVEL_AUTH_PRIV)
// sLevel = SNMP_SECURITY_LEVEL_AUTH_NOPRIV;
}
else { // data != NULL
dataLength = scopedPDULength;
// parse data of scopedPDU
snmp_parse_data_pdu(pdu, data, dataLength);
pdu_type = pdu->command;
if (!data) {
debugprintf(0, "mp: Error while trying to parse PDU!");
}
} // end of: if (data == NULL)
} // end if (scopedPDULength != MAX_SNMP_PACKET)
else { // scopedPDULength == MAX_SNMP_PACKET
cEngineID[0] = '\0';
cEngineIDLength = 0;
cName[0] = '\0';
cNameLength = 0;
pdu->reqid = 0;
}
clear_pdu(pdu); // Clear pdu and free all content
debugprintf(4, "pdu->reqid = %ld",pdu->reqid);
pdu->errstat = 0;
pdu->errindex = 0;
pdu->command = REPORT_MSG;
Vb counterVb;
Oid counterOid;
SmiLPOID smioid;
SmiVALUE smival;
switch (errorCode) {
case SNMPv3_MP_INVALID_MESSAGE:
case SNMPv3_USM_PARSE_ERROR: {
counterVb.set_oid(oidSnmpInvalidMsgs);
counterVb.set_value(Counter32(get_stats_invalid_msgs()));
break;
}
case SNMPv3_USM_NOT_IN_TIME_WINDOW:
case SNMPv3_MP_NOT_IN_TIME_WINDOW: {
counterVb.set_oid(oidUsmStatsNotInTimeWindows);
counterVb.set_value(Counter32(usm->get_stats_not_in_time_windows()));
break;
}
case SNMPv3_USM_DECRYPTION_ERROR: {
counterVb.set_oid(oidUsmStatsDecryptionErrors);
counterVb.set_value(Counter32(usm->get_stats_decryption_errors()));
//sLevel = SNMP_SECURITY_LEVEL_NOAUTH_NOPRIV;
break;
}
case SNMPv3_USM_AUTHENTICATION_ERROR:
case SNMPv3_USM_AUTHENTICATION_FAILURE: {
counterVb.set_oid(oidUsmStatsWrongDigests);
counterVb.set_value(Counter32(usm->get_stats_wrong_digests()));
//sLevel = SNMP_SECURITY_LEVEL_NOAUTH_NOPRIV;
break;
}
case SNMPv3_USM_UNKNOWN_ENGINEID:
case SNMPv3_MP_INVALID_ENGINEID: {
//sLevel = SNMP_SECURITY_LEVEL_NOAUTH_NOPRIV;
counterVb.set_oid(oidUsmStatsUnknownEngineIDs);
counterVb.set_value(Counter32(usm->get_stats_unknown_engine_ids()));
break;
}
case SNMPv3_MP_UNSUPPORTED_SECURITY_MODEL: {
counterVb.set_oid(oidSnmpUnknownSecurityModels);
counterVb.set_value(Counter32(get_stats_unknown_security_models()));
sModel = SNMP_SECURITY_MODEL_USM;
sLevel = SNMP_SECURITY_LEVEL_NOAUTH_NOPRIV;
break;
}
case SNMPv3_USM_UNKNOWN_SECURITY_NAME: {
counterVb.set_oid(oidUsmStatsUnknownUserNames);
counterVb.set_value(Counter32(usm->get_stats_unknown_user_names()));
sLevel = SNMP_SECURITY_LEVEL_NOAUTH_NOPRIV;
debugprintf(2, "Report: SecurityName: %s",sName.get_printable());
break;
}
case SNMPv3_USM_UNSUPPORTED_SECURITY_LEVEL: {
counterVb.set_oid(oidUsmStatsUnsupportedSecLevels);
counterVb.set_value(Counter32(usm->get_stats_unsupported_sec_levels()));
sLevel = SNMP_SECURITY_LEVEL_NOAUTH_NOPRIV;
break;
}
default: {
counterVb.set_oid(oidSnmpInvalidMsgs);
counterVb.set_value(Counter32(get_stats_invalid_msgs()));
sModel = SNMP_SECURITY_MODEL_USM;
sLevel = SNMP_SECURITY_LEVEL_NOAUTH_NOPRIV;
sName.set_data(0, 0);
debugprintf(2, "ErrorCode was %i in snmp_parse", errorCode);
}
} // end switch
counterVb.get_oid(counterOid);
smioid = counterOid.oidval();
int status = convertVbToSmival(counterVb, &smival);
if (status != SNMP_CLASS_SUCCESS) {
return SNMPv3_MP_ERROR;
}
snmp_add_var(pdu, smioid->ptr,
(int) smioid->len, &smival);
freeSmivalDescriptor(&smival);
Buffer<unsigned char> sendbuffer(MAX_SNMP_PACKET);
int sendbufferlen= MAX_SNMP_PACKET;
status = snmp_build( pdu, sendbuffer.get_ptr(), &sendbufferlen,
own_engine_id_oct, sName, sModel, sLevel,
OctetStr(cEngineID, cEngineIDLength),
OctetStr(cName, cNameLength));
if (status != SNMPv3_MP_OK) {
debugprintf(2, "v3MP::send_report: error serializing message (mpSnmpBuild returns: %i).", status);
return SNMPv3_MP_ERROR;
}
SnmpSocket send_fd = INVALID_SOCKET;
if (pdu_type == sNMP_PDU_INFORM)
{
debugprintf(4, "Received a snmpInform pdu.");
if (snmp_session->get_eventListHolder()->notifyEventList())
send_fd = snmp_session->get_eventListHolder()->notifyEventList()->get_notify_fd();
}
status = snmp_session->send_raw_data(sendbuffer.get_ptr(),
(size_t)sendbufferlen,// pdu to send
destination, // target address
send_fd); // the fd to use
if ( status != 0)
{
debugprintf(1, "v3MP::send_report: error sending message (%i)", status);
return SNMPv3_MP_ERROR;
}
debugprintf(3, "v3MP::send_report: Report sent.");
return SNMPv3_MP_OK;
}
set::set(int argc, char *argv[]): valid_(0)
{
Vb vb; // construct a Vb object
Oid req;
if ( argc < 2)
return;
target_.get_write_community(community_);
address_ = argv[argc - 1];
if ( !address_.valid()) {
cout << "ERROR: Invalid IPv4 address or DNS hostname: " \
<< argv[argc] << "\n";
return;
}
ACE_Get_Opt get_opt (argc, argv, "o:c:r:t:I:U:C:G:T:O:S:P:");
for (int c; (c = get_opt ()) != -1; )
switch (c)
{
case 'o':
req = get_opt.optarg;
if (req.valid() == 0)
cout << "ERROR: oid value: " <<get_opt.optarg \
<< "is not valid. using default.\n";
break;
case 'c':
community_ = get_opt.optarg;
target_.set_write_community(community_);
break;
case 'r':
target_.set_retry(ACE_OS::atoi (get_opt.optarg));
break;
case 't':
target_.set_timeout(ACE_OS::atoi (get_opt.optarg));
break;
case 'I': // Integer32
{
SnmpInt32 o(ACE_OS::atoi(get_opt.optarg));
vb.set_value(o);
pdu_ += vb;
}
break;
case 'U': // Unsigned32
{
SnmpUInt32 o(ACE_OS::atoi(get_opt.optarg));
vb.set_value(o);
pdu_ += vb;
}
break;
case 'C': // Counter32
{
Counter32 o(ACE_OS::atoi(get_opt.optarg));
vb.set_value(o);
pdu_ += vb;
}
break;
case 'G': // Gauge32
{
Gauge32 o(ACE_OS::atoi(get_opt.optarg));
vb.set_value(o);
pdu_ += vb;
}
break;
case 'T': // TimeTicks
{
TimeTicks o(ACE_OS::atoi(get_opt.optarg));
vb.set_value(o);
pdu_ += vb;
}
break;
case 'O': // Oid as a variable identifier
{
oid_ = get_opt.optarg;
vb.set_oid(oid_); // when value is set, pdu updated
}
break;
case 'S': // Octet String
{
OctetStr o(get_opt.optarg);
vb.set_value(o); // set the Oid portion of the Vb
pdu_ += vb;
}
break;
case 'P': // Oid String as a value
{
Oid o(get_opt.optarg);
vb.set_value(o); // set the Oid portion of the Vb
pdu_ += vb;
}
break;
default:
break;
}
// if user didn't set anything use defaults
if (pdu_.get_vb_count() == 0) {
Oid def_oid("1.3.6.1.2.1.1.4.0"); // defualt is sysName
OctetStr def_value("sysName.0 updated by ASNMP set command");
vb.set_oid(def_oid);
vb.set_value(def_value);
pdu_ += vb;
cout << "INFO: using defaults, setting sysName to : " << \
def_value.to_string() << endl;
}
valid_ = 1;
}
int main(int argc, char **argv)
{
int status;
char *req_str = (char*) "get";
// char *dflt_req_oid = (char*) sysDescr;
char *dflt_trp_oid = (char*) coldStart;
char *genAddrStr = (char*) "127.0.0.1" ; // localhost
char *oid_str = (char*) NULL;
if (argc > 1) genAddrStr = argv[1];
if (argc > 2) req_str = argv[2];
if (argc > 3) oid_str = argv[3];
Snmp::socket_startup(); // Initialize socket subsystem
IpAddress ipAddr(genAddrStr);
if (!ipAddr.valid()) {
cout << "Invalid destination: " << genAddrStr << endl;
return(1);
}
// bind to any port and use IPv6 if needed
Snmp snmp(status, 0, (ipAddr.get_ip_version() == Address::version_ipv6));
if (status) {
cout << "Failed to create SNMP Session: " << status << endl;
return(1);
}
cout << "Created session successfully" << endl;
CTarget target(ipAddr);
if (! target.valid()) {
cout << "Invalid target" << endl;
return(1);
}
Pdu pdu;
Vb vb;
if ( strcmp(req_str, "get") == 0 ) {
Vb vbl[NUM_SYS_VBS];
vbl[0].set_oid(sysDescr);
vbl[1].set_oid(sysObjectID);
vbl[2].set_oid(sysUpTime);
vbl[3].set_oid(sysContact);
vbl[4].set_oid(sysName);
vbl[5].set_oid(sysLocation);
// vbl[6].set_oid(sysServices);
cout << "Send a GET-REQUEST to: " << ipAddr.get_printable() << endl;
if ( ! oid_str ) {
if ( strcmp(genAddrStr,"localhost" ) == 0 ||
strcmp(genAddrStr, "127.0.0.1") == 0 ) {
pdu.set_vblist(vbl, NUM_SYS_VBS);
} else {
for (int i=0; i<NUM_SYS_VBS; i++)
pdu += vbl[i];
}
}
else {
Oid req_oid(oid_str);
if ( ! req_oid.valid() ) {
cout << "Request oid constructor failed for:" << oid_str << endl;
return(1);
}
vb.set_oid(req_oid);
pdu += vb;
}
status = snmp.get(pdu, target);
if (status) {
cout << "Failed to issue SNMP Get: (" << status << ") "
<< snmp.error_msg(status) << endl;
return(1);
}
else {
cout << "Issued get successfully" << endl;
int vbcount = pdu.get_vb_count();
if ( vbcount == NUM_SYS_VBS ) {
pdu.get_vblist(vbl, vbcount);
for ( int i=0; i<vbcount ; i++ ) {
cout << vbl[i].get_printable_oid() << " : " <<
vbl[i].get_printable_value() << endl;
}
} else {
for ( int i=0; i<vbcount ; i++ ) {
pdu.get_vb(vb, i);
cout << vb.get_printable_oid() << " : " <<
vb.get_printable_value() << endl;
}
}
}
}
else if ( strcmp(req_str, "trap") == 0 ) {
cout << "Send a TRAP to: " << ipAddr.get_printable() << endl;
if ( ! oid_str )
oid_str = dflt_trp_oid;
Oid notify_oid(oid_str);
if ( ! notify_oid.valid() ) {
cout << "Notify oid constructor failed for:" << oid_str << endl;
return(1);
}
pdu.set_notify_id(notify_oid);
// Use a simple payload
vb.set_oid(sysLocation);
vb.set_value("This is a test");
pdu += vb;
status = snmp.trap(pdu, target);
if (status) {
cout << "Failed to issue SNMP Trap: (" << status << ") "
<< snmp.error_msg(status) << endl;
return(1);
} else {
cout << "Success" << endl;
}
}
else {
cout << "Invalid SNMP operation: " << req_str << endl ;
cout << "Usage: " << argv[0] << " hostname [get | trap]" << endl;
return(1);
}
Snmp::socket_cleanup(); // Shut down socket subsystem
return(0);
}
// unload the data into SNMP++ objects
int SnmpMessage::unload(Pdu &pdu, // Pdu object
OctetStr &community, // community object
snmp_version &version, // SNMP version #
OctetStr *engine_id, // optional v3
OctetStr *security_name, // optional v3
long int *security_model,
UdpAddress *from_addr,
Snmp *snmp_session)
{
pdu.clear();
if (!valid_flag)
return SNMP_CLASS_INVALID;
snmp_pdu *raw_pdu;
raw_pdu = snmp_pdu_create(0); // do a "snmp_free_pdu( raw_pdu)" before return
int status;
#ifdef _SNMPv3
OctetStr context_engine_id;
OctetStr context_name;
long int security_level = SNMP_SECURITY_LEVEL_NOAUTH_NOPRIV;
if ((security_model) && (security_name) && (engine_id) && (snmp_session)) {
status = v3MP::I->snmp_parse(snmp_session, raw_pdu,
databuff, (int)bufflen, *engine_id,
*security_name, context_engine_id, context_name,
security_level, *security_model, version, *from_addr);
if (status != SNMPv3_MP_OK) {
pdu.set_request_id( raw_pdu->reqid);
pdu.set_type( raw_pdu->command);
snmp_free_pdu( raw_pdu);
return status;
}
pdu.set_context_engine_id(context_engine_id);
pdu.set_context_name(context_name);
pdu.set_security_level(security_level);
pdu.set_message_id(raw_pdu->msgid);
pdu.set_maxsize_scopedpdu(raw_pdu->maxsize_scopedpdu);
}
else {
#endif
unsigned char community_name[MAX_LEN_COMMUNITY + 1];
int community_len = MAX_LEN_COMMUNITY + 1;
status = snmp_parse(raw_pdu, databuff, (int) bufflen,
community_name, community_len, version);
if (status != SNMP_CLASS_SUCCESS) {
snmp_free_pdu(raw_pdu);
return status;
}
community.set_data( community_name, community_len);
#ifdef _SNMPv3
}
#endif
// load up the SNMP++ variables
pdu.set_request_id(raw_pdu->reqid);
pdu.set_error_status((int) raw_pdu->errstat);
pdu.set_error_index((int) raw_pdu->errindex);
pdu.set_type( raw_pdu->command);
// deal with traps a little different
if ( raw_pdu->command == sNMP_PDU_V1TRAP) {
// timestamp
TimeTicks timestamp;
timestamp = raw_pdu->time;
pdu.set_notify_timestamp( timestamp);
// set the agent address
IpAddress agent_addr(inet_ntoa(raw_pdu->agent_addr.sin_addr));
if (agent_addr != "0.0.0.0")
{
pdu.set_v1_trap_address(agent_addr);
LOG_BEGIN(DEBUG_LOG | 4);
LOG("SNMPMessage: Trap address of received v1 trap");
LOG(agent_addr.get_printable());
LOG_END;
}
// set enterprise, notifyid
Oid enterprise;
if (raw_pdu->enterprise_length >0) {
for (int i=0; i< raw_pdu->enterprise_length; i++) {
enterprise += (int) (raw_pdu->enterprise[i]);
}
pdu.set_notify_enterprise(enterprise);
}
switch (raw_pdu->trap_type) {
case 0:
pdu.set_notify_id(coldStart);
break;
case 1:
pdu.set_notify_id(warmStart);
break;
case 2:
pdu.set_notify_id(linkDown);
break;
case 3:
pdu.set_notify_id(linkUp);
break;
case 4:
pdu.set_notify_id(authenticationFailure);
break;
case 5:
pdu.set_notify_id(egpNeighborLoss);
break;
case 6: { // enterprise specific
// base id + specific #
Oid eOid = enterprise;
eOid += 0ul;
eOid += raw_pdu->specific_type;
pdu.set_notify_id( eOid);
break;
}
default:
{
LOG_BEGIN(WARNING_LOG | 3);
LOG("SNMPMessage: Received trap with illegal trap type");
LOG(raw_pdu->trap_type);
LOG_END;
}
}
}
// vbs
Vb tempvb;
Oid tempoid;
struct variable_list *vp;
int vb_nr = 1;
for(vp = raw_pdu->variables; vp; vp = vp->next_variable, vb_nr++) {
// extract the oid portion
tempoid.set_data( (unsigned long *)vp->name,
( unsigned int) vp->name_length);
tempvb.set_oid( tempoid);
// extract the value portion
switch(vp->type){
// octet string
case sNMP_SYNTAX_OCTETS:
{
OctetStr octets( (unsigned char *) vp->val.string,
(unsigned long) vp->val_len);
tempvb.set_value( octets);
}
break;
case sNMP_SYNTAX_OPAQUE:
{
OpaqueStr octets( (unsigned char *) vp->val.string,
(unsigned long) vp->val_len);
tempvb.set_value( octets);
}
break;
// object id
case sNMP_SYNTAX_OID:
{
Oid oid( (unsigned long*) vp->val.objid,
(int) vp->val_len);
tempvb.set_value( oid);
if ((vb_nr == 2) &&
((raw_pdu->command == sNMP_PDU_TRAP) ||
(raw_pdu->command == sNMP_PDU_INFORM)) &&
(tempoid == SNMP_MSG_OID_TRAPID))
{
// set notify_id
pdu.set_notify_id(oid);
continue; // don't add vb to pdu
}
}
break;
// timeticks
case sNMP_SYNTAX_TIMETICKS:
{
TimeTicks timeticks( (unsigned long) *(vp->val.integer));
tempvb.set_value( timeticks);
if ((vb_nr == 1) &&
((raw_pdu->command == sNMP_PDU_TRAP) ||
(raw_pdu->command == sNMP_PDU_INFORM)) &&
(tempoid == SNMP_MSG_OID_SYSUPTIME))
{
// set notify_timestamp
pdu.set_notify_timestamp( timeticks);
continue; // don't add vb to pdu
}
}
break;
// 32 bit counter
case sNMP_SYNTAX_CNTR32:
{
Counter32 counter32( (unsigned long) *(vp->val.integer));
tempvb.set_value( counter32);
}
break;
// 32 bit gauge
case sNMP_SYNTAX_GAUGE32:
{
Gauge32 gauge32( (unsigned long) *(vp->val.integer));
tempvb.set_value( gauge32);
}
break;
// ip address
case sNMP_SYNTAX_IPADDR:
{
char buffer[42];
if (vp->val_len == 16)
sprintf( buffer, "%02x%02x:%02x%02x:%02x%02x:%02x%02x:"
"%02x%02x:%02x%02x:%02x%02x:%02x%02x",
vp->val.string[ 0], vp->val.string[ 1], vp->val.string[ 2],
vp->val.string[ 3], vp->val.string[ 4], vp->val.string[ 5],
vp->val.string[ 6], vp->val.string[ 7], vp->val.string[ 8],
vp->val.string[ 9], vp->val.string[10], vp->val.string[11],
vp->val.string[12], vp->val.string[13], vp->val.string[14],
vp->val.string[15]);
else
sprintf( buffer,"%d.%d.%d.%d",
vp->val.string[0], vp->val.string[1],
vp->val.string[2], vp->val.string[3]);
IpAddress ipaddress( buffer);
tempvb.set_value( ipaddress);
}
break;
// 32 bit integer
case sNMP_SYNTAX_INT:
{
SnmpInt32 int32( (long) *(vp->val.integer));
tempvb.set_value( int32);
}
break;
// 32 bit unsigned integer
/* Not distinguishable from Gauge32
case sNMP_SYNTAX_UINT32:
{
SnmpUInt32 uint32( (unsigned long) *(vp->val.integer));
tempvb.set_value( uint32);
}
break;
*/
// v2 counter 64's
case sNMP_SYNTAX_CNTR64:
{ // Frank Fock (was empty before)
Counter64 c64(((counter64*)vp->val.counter64)->high,
((counter64*)vp->val.counter64)->low);
tempvb.set_value( c64);
break;
}
case sNMP_SYNTAX_NULL:
tempvb.set_null();
break;
// v2 vb exceptions
case sNMP_SYNTAX_NOSUCHOBJECT:
case sNMP_SYNTAX_NOSUCHINSTANCE:
case sNMP_SYNTAX_ENDOFMIBVIEW:
tempvb.set_exception_status(vp->type);
break;
default:
tempvb.set_null();
} // end switch
// append the vb to the pdu
pdu += tempvb;
}
snmp_free_pdu( raw_pdu);
return SNMP_CLASS_SUCCESS;
}
int SnmpMessage::load(const Pdu &cpdu,
const OctetStr &community,
const snmp_version version,
const OctetStr* engine_id,
const OctetStr* security_name,
const int security_model)
{
int status;
const Pdu *pdu = &cpdu;
Pdu temppdu;
// make sure pdu is valid
if ( !pdu->valid())
return SNMP_CLASS_INVALID_PDU;
// create a raw pdu
snmp_pdu *raw_pdu;
raw_pdu = snmp_pdu_create( (int) pdu->get_type());
Oid enterprise;
// load it up
raw_pdu->reqid = pdu->get_request_id();
#ifdef _SNMPv3
raw_pdu->msgid = pdu->get_message_id();
#endif
raw_pdu->errstat= (unsigned long) pdu->get_error_status();
raw_pdu->errindex= (unsigned long) pdu->get_error_index();
// if its a V1 trap then load up other values
// for v2, use normal pdu format
if (raw_pdu->command == sNMP_PDU_V1TRAP)
{
// DON'T forget about the v1 trap agent address (changed by Frank Fock)
GenAddress gen_addr;
IpAddress ip_addr;
int addr_set = FALSE;
if (pdu->get_v1_trap_address(gen_addr))
{
/* User did set the v1 trap address */
if ((gen_addr.get_type() != Address::type_ip) &&
(gen_addr.get_type() != Address::type_udp) )
{
LOG_BEGIN(ERROR_LOG | 4);
LOG("SNMPMessage: Bad v1 trap address type in pdu");
LOG(gen_addr.get_type());
LOG_END;
snmp_free_pdu( raw_pdu);
return SNMP_CLASS_INVALID_PDU;
}
ip_addr = gen_addr;
if (!ip_addr.valid())
{
LOG_BEGIN(ERROR_LOG | 1);
LOG("SNMPMessage: Copied v1 trap address not valid");
LOG_END;
snmp_free_pdu( raw_pdu);
return SNMP_CLASS_RESOURCE_UNAVAIL;
}
addr_set = TRUE;
}
else
{
/* User did not set the v1 trap address */
char addrString[256];
if (gethostname(addrString, 255) == 0)
{
ip_addr = addrString;
addr_set = TRUE;
}
}
struct sockaddr_in agent_addr; // agent address socket struct
// prepare the agent address
memset(&agent_addr, 0, sizeof(agent_addr));
agent_addr.sin_family = AF_INET;
if (addr_set)
{
agent_addr.sin_addr.s_addr
= inet_addr(((IpAddress &)ip_addr).IpAddress::get_printable());
LOG_BEGIN(INFO_LOG | 7);
LOG("SNMPMessage: Setting v1 trap address");
LOG(((IpAddress &)ip_addr).IpAddress::get_printable());
LOG_END;
}
raw_pdu->agent_addr = agent_addr;
//-----[ compute generic trap value ]-------------------------------
// determine the generic value
// 0 - cold start
// 1 - warm start
// 2 - link down
// 3 - link up
// 4 - authentication failure
// 5 - egpneighborloss
// 6 - enterprise specific
Oid trapid;
pdu->get_notify_id( trapid);
if ( !trapid.valid() || trapid.len() < 2 )
{
snmp_free_pdu( raw_pdu);
return SNMP_CLASS_INVALID_NOTIFYID;
}
raw_pdu->specific_type=0;
if ( trapid == coldStart)
raw_pdu->trap_type = 0; // cold start
else if ( trapid == warmStart)
raw_pdu->trap_type = 1; // warm start
else if( trapid == linkDown)
raw_pdu->trap_type = 2; // link down
else if ( trapid == linkUp)
raw_pdu->trap_type = 3; // link up
else if ( trapid == authenticationFailure )
raw_pdu->trap_type = 4; // authentication failure
else if ( trapid == egpNeighborLoss)
raw_pdu->trap_type = 5; // egp neighbor loss
else {
raw_pdu->trap_type = 6; // enterprise specific
// last oid subid is the specific value
// if 2nd to last subid is "0", remove it
// enterprise is always the notify oid prefix
raw_pdu->specific_type = (int) trapid[(int) (trapid.len()-1)];
trapid.trim(1);
if ( trapid[(int)(trapid.len()-1)] == 0 )
trapid.trim(1);
enterprise = trapid;
}
if ( raw_pdu->trap_type !=6)
pdu->get_notify_enterprise( enterprise);
if ( enterprise.len() >0) {
// note!!
// these are hooks into an SNMP++ oid
// and therefor the raw_pdu enterprise
// should not free them. null them out!!
SmiLPOID rawOid;
rawOid = enterprise.oidval();
raw_pdu->enterprise = rawOid->ptr;
raw_pdu->enterprise_length = (int) rawOid->len;
}
// timestamp
TimeTicks timestamp;
pdu->get_notify_timestamp( timestamp);
raw_pdu->time = ( unsigned long) timestamp;
}
// if its a v2 trap then we need to make a few adjustments
// vb #1 is the timestamp
// vb #2 is the id, represented as an Oid
if (( raw_pdu->command == sNMP_PDU_TRAP) ||
( raw_pdu->command == sNMP_PDU_INFORM))
{
Vb tempvb;
temppdu = *pdu;
temppdu.trim(temppdu.get_vb_count());
// vb #1 is the timestamp
TimeTicks timestamp;
tempvb.set_oid(SNMP_MSG_OID_SYSUPTIME); // sysuptime
pdu->get_notify_timestamp( timestamp);
tempvb.set_value ( timestamp);
temppdu += tempvb;
// vb #2 is the id
Oid trapid;
tempvb.set_oid(SNMP_MSG_OID_TRAPID);
pdu->get_notify_id( trapid);
tempvb.set_value( trapid);
temppdu += tempvb;
// append the remaining vbs
for (int z=0; z<pdu->get_vb_count(); z++) {
pdu->get_vb( tempvb,z);
temppdu += tempvb;
}
pdu = &temppdu; // reassign the pdu to the temp one
}
// load up the payload
// for all Vbs in list, add them to the pdu
int vb_count;
Vb tempvb;
Oid tempoid;
SmiLPOID smioid;
SmiVALUE smival;
vb_count = pdu->get_vb_count();
for (int z=0;z<vb_count;z++) {
pdu->get_vb( tempvb,z);
tempvb.get_oid( tempoid);
smioid = tempoid.oidval();
// clear the value portion, in case its
// not already been done so by the app writer
// only do it in the case its a get,next or bulk
if ((raw_pdu->command == sNMP_PDU_GET) ||
(raw_pdu->command == sNMP_PDU_GETNEXT) ||
(raw_pdu->command == sNMP_PDU_GETBULK))
tempvb.set_null();
status = convertVbToSmival( tempvb, &smival );
if ( status != SNMP_CLASS_SUCCESS) {
snmp_free_pdu( raw_pdu);
return status;
}
// add the vb to the raw pdu
snmp_add_var( raw_pdu, smioid->ptr, (int) smioid->len, &smival);
freeSmivalDescriptor( &smival);
}
// ASN1 encode the pdu
#ifdef _SNMPv3
if (version == version3)
{
if ((!engine_id) || (!security_name))
{
LOG_BEGIN(ERROR_LOG | 4);
LOG("SNMPMessage: Need security name and engine id for v3 message");
LOG_END;
// prevention of SNMP++ Enterprise Oid death
if ( enterprise.len() >0) {
raw_pdu->enterprise = 0;
raw_pdu->enterprise_length=0;
}
snmp_free_pdu( raw_pdu);
return SNMP_CLASS_INVALID_TARGET;
}
status = v3MP::I->snmp_build(raw_pdu, databuff, (int *)&bufflen,
*engine_id, *security_name, security_model,
pdu->get_security_level(),
pdu->get_context_engine_id(),
pdu->get_context_name());
if (status == SNMPv3_MP_OK) {
if ((pdu->get_type() == sNMP_PDU_RESPONSE) &&
((int)pdu->get_maxsize_scopedpdu() < pdu->get_asn1_length())) {
LOG_BEGIN(ERROR_LOG | 1);
LOG("SNMPMessage: *BUG*: Serialized response pdu is too big (len) (max)");
LOG(pdu->get_asn1_length());
LOG(pdu->get_maxsize_scopedpdu());
LOG_END;
// prevention of SNMP++ Enterprise Oid death
if ( enterprise.len() >0) {
raw_pdu->enterprise = 0;
raw_pdu->enterprise_length=0;
}
snmp_free_pdu( raw_pdu);
return SNMP_ERROR_TOO_BIG;
}
}
}
else
#endif
status = snmp_build( raw_pdu, databuff, (int *) &bufflen, version,
community.data(), (int) community.len());
LOG_BEGIN(DEBUG_LOG | 4);
LOG("SNMPMessage: return value for build message");
LOG(status);
LOG_END;
if ((status != 0)
#ifdef _SNMPv3
&& ((version != version3) || (status != SNMPv3_MP_OK))
#endif
) {
valid_flag = false;
// prevention of SNMP++ Enterprise Oid death
if ( enterprise.len() >0) {
raw_pdu->enterprise = 0;
raw_pdu->enterprise_length=0;
}
snmp_free_pdu( raw_pdu);
#ifdef _SNMPv3
if (version == version3)
return status;
else
#endif
// NOTE: This is an assumption - in most cases during normal
// operation the reason is a tooBig - another could be a
// damaged variable binding.
return SNMP_ERROR_TOO_BIG;
}
valid_flag = true;
// prevention of SNMP++ Enterprise Oid death
if ( enterprise.len() >0) {
raw_pdu->enterprise = 0;
raw_pdu->enterprise_length=0;
}
snmp_free_pdu( raw_pdu);
return SNMP_CLASS_SUCCESS;
}
int main(int argc, char **argv)
{
//---------[ check the arg count ]----------------------------------------
if ( argc < 2) {
cout << "Usage:\n";
cout << "snmpTraps IpAddress | DNSName [Id] [options]\n";
cout << "Id = default is 1.3.6.1.6.3.1.1.5.1 = ColdStart";
cout << "options: -vN , use SNMP version 1, 2 or 3, default is 1\n";
cout << " -PPort , remote port to use\n";
cout << " -CCommunity_name, specify community default is 'public' \n";
#ifdef _SNMPv3
cout << " -snSecurityName, " << endl;
cout << " -slN , securityLevel to use, default N = 3 = authPriv" << endl;
cout << " -smN , securityModel to use, only default N = 3 = USM possible\n";
cout << " -cnContextName, default empty string" << endl;
cout << " -ceContextEngineID, as hex e.g. 800007E580, default empty string" << endl;
cout << " -authPROT, use authentication protocol NONE, SHA or MD5\n";
cout << " -privPROT, use privacy protocol NONE, DES, 3DESEDE, IDEA, AES128, AES192 or AES256\n";
cout << " -uaAuthPassword\n";
cout << " -upPrivPassword\n";
#endif
return 1;
}
Snmp::socket_startup(); // Initialize socket subsystem
//---------[ make a GenAddress and Oid object to retrieve ]---------------
UdpAddress address( argv[1]); // make a SNMP++ Generic address
if ( !address.valid()) { // check validity of address
cout << "Invalid Address or DNS Name, " << argv[1] << "\n";
return 1;
}
Oid oid( COLDSTART); // default is ColdStart
if ( argc >= 3) { // if 3 args, then use the callers Oid
if ( strstr( argv[2],"-")==0) {
oid = argv[2];
if ( !oid.valid()) { // check validity of user oid
cout << "Invalid Oid, " << argv[2] << "\n";
return 1;
}
}
}
//---------[ determine options to use ]-----------------------------------
snmp_version version=version1; // default is v1
u_short port=161; // default snmp port is 161
OctetStr community("public"); // community name
Oid ent(ENTERPRISE); // default enterprise
#ifdef _SNMPv3
OctetStr privPassword("");
OctetStr authPassword("");
OctetStr securityName("");
int securityModel = SecurityModel_USM;
int securityLevel = SecurityLevel_authPriv;
OctetStr contextName("");
OctetStr contextEngineID("");
long authProtocol = SNMPv3_usmNoAuthProtocol;
long privProtocol = SNMPv3_usmNoPrivProtocol;
v3MP *v3_MP;
#endif
char *ptr;
for(int x=1; x<argc; x++) { // parse for version
if ( strstr( argv[x],"-v2")!= 0) {
version = version2c;
continue;
}
if ( strstr( argv[x],"-C")!=0) {
ptr = argv[x];
ptr++;
ptr++;
community = ptr;
continue;
}
if ( strstr( argv[x],"-P")!=0) {
ptr = argv[x];
ptr++;
ptr++;
sscanf(ptr, "%hu", &port);
continue;
}
#ifdef _SNMPv3
if ( strstr( argv[x],"-v3")!= 0) {
version = version3;
continue;
}
if ( strstr( argv[x],"-auth") != 0) {
ptr = argv[x];
ptr+=5;
if (strcasecmp(ptr, "SHA") == 0)
authProtocol = SNMP_AUTHPROTOCOL_HMACSHA;
else if (strcasecmp(ptr, "MD5") == 0)
authProtocol = SNMP_AUTHPROTOCOL_HMACMD5;
else
authProtocol = SNMP_AUTHPROTOCOL_NONE;
continue;
}
if ( strstr( argv[x],"-priv") != 0) {
ptr = argv[x];
ptr+=5;
if (strcasecmp(ptr, "DES") == 0)
privProtocol = SNMP_PRIVPROTOCOL_DES;
else if (strcasecmp(ptr, "3DESEDE") == 0)
privProtocol = SNMP_PRIVPROTOCOL_3DESEDE;
else if (strcasecmp(ptr, "IDEA") == 0)
privProtocol = SNMP_PRIVPROTOCOL_IDEA;
else if (strcasecmp(ptr, "AES128") == 0)
privProtocol = SNMP_PRIVPROTOCOL_AES128;
else if (strcasecmp(ptr, "AES192") == 0)
privProtocol = SNMP_PRIVPROTOCOL_AES192;
else if (strcasecmp(ptr, "AES256") == 0)
privProtocol = SNMP_PRIVPROTOCOL_AES256;
else
privProtocol = SNMP_PRIVPROTOCOL_NONE;
printf("\n\nPrivProt : %ld\n", privProtocol);
continue;
}
if ( strstr( argv[x],"-sn")!=0) {
ptr = argv[x];
ptr+=3;
securityName = ptr;
continue;
}
if ( strstr( argv[x], "-sl")!=0) {
ptr = argv[x];
ptr+=3;
securityLevel = atoi( ptr);
if (( securityLevel < SecurityLevel_noAuthNoPriv) ||
( securityLevel > SecurityLevel_authPriv))
securityLevel = SecurityLevel_authPriv;
continue;
}
if ( strstr( argv[x], "-sm")!=0) {
ptr = argv[x];
ptr+=3;
securityModel = atoi( ptr);
if (( securityModel < SecurityModel_v1) ||
( securityModel > SecurityModel_USM))
securityModel = SecurityModel_USM;
continue;
}
if ( strstr( argv[x],"-cn")!=0) {
ptr = argv[x];
ptr+=3;
contextName = ptr;
continue;
}
if ( strstr( argv[x],"-ce")!=0) {
ptr = argv[x];
ptr+=3;
contextEngineID = OctetStr::from_hex_string(ptr);
continue;
}
if ( strstr( argv[x],"-ua")!=0) {
ptr = argv[x];
ptr+=3;
authPassword = ptr;
continue;
}
if ( strstr( argv[x],"-up")!=0) {
ptr = argv[x];
ptr+=3;
privPassword = ptr;
continue;
}
#endif
}
//----------[ create a SNMP++ session ]-----------------------------------
int status;
Snmp *snmp;
if (address.get_ip_version() == Address::version_ipv4)
snmp = new Snmp(status, "0.0.0.0");
else
snmp = new Snmp(status, "::");
if ( status != SNMP_CLASS_SUCCESS) {
cout << "SNMP++ Session Create Fail, " << snmp->error_msg(status) << "\n";
return 1;
}
//---------[ init SnmpV3 ]--------------------------------------------
#ifdef _SNMPv3
if (version == version3) {
char *engineId = "TrapSender";
char *filename = "snmpv3_boot_counter";
unsigned int snmpEngineBoots = 0;
int status;
status = getBootCounter(filename, engineId, snmpEngineBoots);
if ((status != SNMPv3_OK) && (status < SNMPv3_FILEOPEN_ERROR))
{
cout << "Error loading snmpEngineBoots counter: " << status << endl;
return 1;
}
snmpEngineBoots++;
status = saveBootCounter(filename, engineId, snmpEngineBoots);
if (status != SNMPv3_OK)
{
cout << "Error saving snmpEngineBoots counter: " << status << endl;
return 1;
}
int construct_status;
v3_MP = new v3MP(engineId, snmpEngineBoots, construct_status);
USM *usm = v3_MP->get_usm();
usm->add_usm_user(securityName,
authProtocol, privProtocol,
authPassword, privPassword);
}
else
{
// MUST create a dummy v3MP object if _SNMPv3 is enabled!
int construct_status;
v3_MP = new v3MP("dummy", 0, construct_status);
}
#endif
//--------[ build up SNMP++ object needed ]-------------------------------
Pdu pdu; // construct a Pdu object
Vb vb; // variable binding object to use
vb.set_oid(PAYLOADID); // example oid for trap payload
vb.set_value(PAYLOAD); // example string for payload
pdu += vb; // append the vb to the pdu
pdu.set_notify_id( oid); // set the id of the trap
pdu.set_notify_enterprise( ent); // set up the enterprise of the trap
address.set_port(port);
CTarget ctarget( address); // make a target using the address
#ifdef _SNMPv3
UTarget utarget( address);
if (version == version3) {
utarget.set_version( version); // set the SNMP version SNMPV1 or V2 or V3
utarget.set_security_model( securityModel);
utarget.set_security_name( securityName);
pdu.set_security_level( securityLevel);
pdu.set_context_name (contextName);
pdu.set_context_engine_id(contextEngineID);
}
else {
#endif
ctarget.set_version( version); // set the SNMP version SNMPV1 or V2
ctarget.set_readcommunity( community); // set the read community name
#ifdef _SNMPv3
}
#endif
//-------[ Send the trap ]------------------------------------------------
cout << "SNMP++ Trap to " << argv[1] << " SNMPV"
#ifdef _SNMPv3
<< ((version==version3) ? (version) : (version+1));
#else
<< (version+1);