645 lines
18 KiB
Java
645 lines
18 KiB
Java
<h2>Comments</h2>
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<pre><code># Single line comment
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</code></pre>
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<h2>Strings</h2>
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<pre><code>
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"a", "b"
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</code></pre>
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<h2>Numbers</h2>
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<pre><code>123
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123.456
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-123.456
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</code></pre>
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<h2>Misc</h2>
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<pre><code>
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@ifndef ourexp
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@load-sigs somesigs
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</code></pre>
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<h2>Full example</h2>
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<pre><code>
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##! Scan detector ported from Bro 1.x.
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##!
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##! This script has evolved over many years and is quite a mess right now. We
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##! have adapted it to work with Bro 2.x, but eventually Bro 2.x will
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##! get its own rewritten and generalized scan detector.
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@load base/frameworks/notice/main
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module Scan;
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export {
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redef enum Notice::Type += {
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## The source has scanned a number of ports.
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PortScan,
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## The source has scanned a number of addresses.
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AddressScan,
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## Apparent flooding backscatter seen from source.
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BackscatterSeen,
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## Summary of scanning activity.
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ScanSummary,
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## Summary of distinct ports per scanner.
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PortScanSummary,
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## Summary of distinct low ports per scanner.
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LowPortScanSummary,
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## Source reached :bro:id:`Scan::shut_down_thresh`
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ShutdownThresh,
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## Source touched privileged ports.
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LowPortTrolling,
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};
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# Whether to consider UDP "connections" for scan detection.
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# Can lead to false positives due to UDP fanout from some P2P apps.
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const suppress_UDP_scan_checks = F &redef;
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const activate_priv_port_check = T &redef;
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const activate_landmine_check = F &redef;
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const landmine_thresh_trigger = 5 &redef;
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const landmine_address: set[addr] &redef;
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const scan_summary_trigger = 25 &redef;
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const port_summary_trigger = 20 &redef;
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const lowport_summary_trigger = 10 &redef;
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# Raise ShutdownThresh after this many failed attempts
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const shut_down_thresh = 100 &redef;
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# Which services should be analyzed when detecting scanning
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# (not consulted if analyze_all_services is set).
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const analyze_services: set[port] &redef;
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const analyze_all_services = T &redef;
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# Track address scaners only if at least these many hosts contacted.
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const addr_scan_trigger = 0 &redef;
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# Ignore address scanners for further scan detection after
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# scanning this many hosts.
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# 0 disables.
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const ignore_scanners_threshold = 0 &redef;
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# Report a scan of peers at each of these points.
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const report_peer_scan: vector of count = {
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20, 100, 1000, 10000, 50000, 100000, 250000, 500000, 1000000,
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} &redef;
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const report_outbound_peer_scan: vector of count = {
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100, 1000, 10000,
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} &redef;
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# Report a scan of ports at each of these points.
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const report_port_scan: vector of count = {
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50, 250, 1000, 5000, 10000, 25000, 65000,
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} &redef;
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# Once a source has scanned this many different ports (to however many
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# different remote hosts), start tracking its per-destination access.
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const possible_port_scan_thresh = 20 &redef;
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# Threshold for scanning privileged ports.
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const priv_scan_trigger = 5 &redef;
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const troll_skip_service = {
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25/tcp, 21/tcp, 22/tcp, 20/tcp, 80/tcp,
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} &redef;
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const report_accounts_tried: vector of count = {
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20, 100, 1000, 10000, 100000, 1000000,
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} &redef;
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const report_remote_accounts_tried: vector of count = {
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100, 500,
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} &redef;
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# Report a successful password guessing if the source attempted
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# at least this many.
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const password_guessing_success_threshhold = 20 &redef;
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const skip_accounts_tried: set[addr] &redef;
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const addl_web = {
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81/tcp, 443/tcp, 8000/tcp, 8001/tcp, 8080/tcp, }
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&redef;
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const skip_services = { 113/tcp, } &redef;
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const skip_outbound_services = { 21/tcp, addl_web, }
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&redef;
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const skip_scan_sources = {
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255.255.255.255, # who knows why we see these, but we do
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} &redef;
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const skip_scan_nets: set[subnet] = {} &redef;
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# List of well known local server/ports to exclude for scanning
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# purposes.
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const skip_dest_server_ports: set[addr, port] = {} &redef;
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# Reverse (SYN-ack) scans seen from these ports are considered
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# to reflect possible SYN-flooding backscatter, and not true
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# (stealth) scans.
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const backscatter_ports = {
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80/tcp, 8080/tcp, 53/tcp, 53/udp, 179/tcp, 6666/tcp, 6667/tcp,
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} &redef;
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const report_backscatter: vector of count = {
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20,
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} &redef;
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global check_scan:
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function(c: connection, established: bool, reverse: bool): bool;
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# The following tables are defined here so that we can redef
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# the expire timeouts.
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# FIXME: should we allow redef of attributes on IDs which
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# are not exported?
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# How many different hosts connected to with a possible
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# backscatter signature.
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global distinct_backscatter_peers: table[addr] of table[addr] of count
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&read_expire = 15 min;
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# Expire functions that trigger summaries.
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global scan_summary:
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function(t: table[addr] of set[addr], orig: addr): interval;
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global port_summary:
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function(t: table[addr] of set[port], orig: addr): interval;
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global lowport_summary:
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function(t: table[addr] of set[port], orig: addr): interval;
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# Indexed by scanner address, yields # distinct peers scanned.
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# pre_distinct_peers tracks until addr_scan_trigger hosts first.
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global pre_distinct_peers: table[addr] of set[addr]
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&read_expire = 15 mins &redef;
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global distinct_peers: table[addr] of set[addr]
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&read_expire = 15 mins &expire_func=scan_summary &redef;
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global distinct_ports: table[addr] of set[port]
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&read_expire = 15 mins &expire_func=port_summary &redef;
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global distinct_low_ports: table[addr] of set[port]
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&read_expire = 15 mins &expire_func=lowport_summary &redef;
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# Indexed by scanner address, yields a table with scanned hosts
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# (and ports).
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global scan_triples: table[addr] of table[addr] of set[port];
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global remove_possible_source:
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function(s: set[addr], idx: addr): interval;
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global possible_scan_sources: set[addr]
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&expire_func=remove_possible_source &read_expire = 15 mins;
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# Indexed by source address, yields user name & password tried.
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global accounts_tried: table[addr] of set[string, string]
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&read_expire = 1 days;
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global ignored_scanners: set[addr] &create_expire = 1 day &redef;
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# These tables track whether a threshold has been reached.
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# More precisely, the counter is the next index of threshold vector.
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global shut_down_thresh_reached: table[addr] of bool &default=F;
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global rb_idx: table[addr] of count
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&default=1 &read_expire = 1 days &redef;
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global rps_idx: table[addr] of count
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&default=1 &read_expire = 1 days &redef;
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global rops_idx: table[addr] of count
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&default=1 &read_expire = 1 days &redef;
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global rpts_idx: table[addr,addr] of count
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&default=1 &read_expire = 1 days &redef;
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global rat_idx: table[addr] of count
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&default=1 &read_expire = 1 days &redef;
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global rrat_idx: table[addr] of count
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&default=1 &read_expire = 1 days &redef;
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}
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global thresh_check: function(v: vector of count, idx: table[addr] of count,
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orig: addr, n: count): bool;
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global thresh_check_2: function(v: vector of count,
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idx: table[addr,addr] of count, orig: addr,
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resp: addr, n: count): bool;
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function scan_summary(t: table[addr] of set[addr], orig: addr): interval
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{
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local num_distinct_peers = orig in t ? |t[orig]| : 0;
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if ( num_distinct_peers >= scan_summary_trigger )
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NOTICE([$note=ScanSummary, $src=orig, $n=num_distinct_peers,
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$identifier=fmt("%s", orig),
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$msg=fmt("%s scanned a total of %d hosts",
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orig, num_distinct_peers)]);
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return 0 secs;
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}
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function port_summary(t: table[addr] of set[port], orig: addr): interval
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{
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local num_distinct_ports = orig in t ? |t[orig]| : 0;
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if ( num_distinct_ports >= port_summary_trigger )
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NOTICE([$note=PortScanSummary, $src=orig, $n=num_distinct_ports,
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$identifier=fmt("%s", orig),
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$msg=fmt("%s scanned a total of %d ports",
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orig, num_distinct_ports)]);
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return 0 secs;
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}
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function lowport_summary(t: table[addr] of set[port], orig: addr): interval
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{
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local num_distinct_lowports = orig in t ? |t[orig]| : 0;
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if ( num_distinct_lowports >= lowport_summary_trigger )
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NOTICE([$note=LowPortScanSummary, $src=orig,
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$n=num_distinct_lowports,
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$identifier=fmt("%s", orig),
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$msg=fmt("%s scanned a total of %d low ports",
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orig, num_distinct_lowports)]);
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return 0 secs;
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}
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function clear_addr(a: addr)
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{
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delete distinct_peers[a];
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delete distinct_ports[a];
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delete distinct_low_ports[a];
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delete scan_triples[a];
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delete possible_scan_sources[a];
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delete distinct_backscatter_peers[a];
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delete pre_distinct_peers[a];
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delete rb_idx[a];
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delete rps_idx[a];
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delete rops_idx[a];
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delete rat_idx[a];
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delete rrat_idx[a];
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delete shut_down_thresh_reached[a];
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delete ignored_scanners[a];
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}
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function ignore_addr(a: addr)
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{
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clear_addr(a);
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add ignored_scanners[a];
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}
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function check_scan(c: connection, established: bool, reverse: bool): bool
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{
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local id = c$id;
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local service = "ftp-data" in c$service ? 20/tcp
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: (reverse ? id$orig_p : id$resp_p);
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local rev_service = reverse ? id$resp_p : id$orig_p;
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local orig = reverse ? id$resp_h : id$orig_h;
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local resp = reverse ? id$orig_h : id$resp_h;
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local outbound = Site::is_local_addr(orig);
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# The following works better than using get_conn_transport_proto()
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# because c might not correspond to an active connection (which
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# causes the function to fail).
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if ( suppress_UDP_scan_checks &&
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service >= 0/udp && service <= 65535/udp )
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return F;
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if ( service in skip_services && ! outbound )
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return F;
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if ( outbound && service in skip_outbound_services )
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return F;
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if ( orig in skip_scan_sources )
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return F;
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if ( orig in skip_scan_nets )
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return F;
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# Don't include well known server/ports for scanning purposes.
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if ( ! outbound && [resp, service] in skip_dest_server_ports )
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return F;
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if ( orig in ignored_scanners)
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return F;
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if ( ! established &&
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# not established, service not expressly allowed
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# not known peer set
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(orig !in distinct_peers || resp !in distinct_peers[orig]) &&
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# want to consider service for scan detection
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(analyze_all_services || service in analyze_services) )
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{
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if ( reverse && rev_service in backscatter_ports &&
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# reverse, non-priv backscatter port
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service >= 1024/tcp )
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{
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if ( orig !in distinct_backscatter_peers )
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{
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local empty_bs_table:
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table[addr] of count &default=0;
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distinct_backscatter_peers[orig] =
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empty_bs_table;
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}
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if ( ++distinct_backscatter_peers[orig][resp] <= 2 &&
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# The test is <= 2 because we get two check_scan()
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# calls, once on connection attempt and once on
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# tear-down.
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distinct_backscatter_peers[orig][resp] == 1 &&
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# Looks like backscatter, and it's not scanning
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# a privileged port.
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thresh_check(report_backscatter, rb_idx, orig,
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|distinct_backscatter_peers[orig]|)
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)
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{
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NOTICE([$note=BackscatterSeen, $src=orig,
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$p=rev_service,
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$identifier=fmt("%s", orig),
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$msg=fmt("backscatter seen from %s (%d hosts; %s)",
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orig, |distinct_backscatter_peers[orig]|, rev_service)]);
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}
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if ( ignore_scanners_threshold > 0 &&
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|distinct_backscatter_peers[orig]| >
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ignore_scanners_threshold )
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ignore_addr(orig);
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}
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else
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{ # done with backscatter check
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local ignore = F;
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if ( orig !in distinct_peers && addr_scan_trigger > 0 )
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{
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if ( orig !in pre_distinct_peers )
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pre_distinct_peers[orig] = set();
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add pre_distinct_peers[orig][resp];
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if ( |pre_distinct_peers[orig]| < addr_scan_trigger )
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ignore = T;
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}
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if ( ! ignore )
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{ # XXXXX
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if ( orig !in distinct_peers )
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distinct_peers[orig] = set() &mergeable;
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if ( resp !in distinct_peers[orig] )
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add distinct_peers[orig][resp];
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local n = |distinct_peers[orig]|;
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# Check for threshold if not outbound.
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if ( ! shut_down_thresh_reached[orig] &&
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n >= shut_down_thresh &&
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! outbound && orig !in Site::neighbor_nets )
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{
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shut_down_thresh_reached[orig] = T;
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local msg = fmt("shutdown threshold reached for %s", orig);
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NOTICE([$note=ShutdownThresh, $src=orig,
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$identifier=fmt("%s", orig),
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$p=service, $msg=msg]);
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}
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else
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{
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local address_scan = F;
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if ( outbound &&
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# inside host scanning out?
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thresh_check(report_outbound_peer_scan, rops_idx, orig, n) )
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address_scan = T;
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if ( ! outbound &&
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thresh_check(report_peer_scan, rps_idx, orig, n) )
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address_scan = T;
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if ( address_scan )
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NOTICE([$note=AddressScan,
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$src=orig, $p=service,
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$n=n,
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$identifier=fmt("%s-%d", orig, n),
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$msg=fmt("%s has scanned %d hosts (%s)",
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orig, n, service)]);
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if ( address_scan &&
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ignore_scanners_threshold > 0 &&
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n > ignore_scanners_threshold )
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ignore_addr(orig);
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}
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}
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} # XXXX
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}
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if ( established )
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# Don't consider established connections for port scanning,
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# it's too easy to be mislead by FTP-like applications that
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# legitimately gobble their way through the port space.
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return F;
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# Coarse search for port-scanning candidates: those that have made
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# connections (attempts) to possible_port_scan_thresh or more
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# distinct ports.
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if ( orig !in distinct_ports || service !in distinct_ports[orig] )
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{
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if ( orig !in distinct_ports )
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distinct_ports[orig] = set() &mergeable;
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if ( service !in distinct_ports[orig] )
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add distinct_ports[orig][service];
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if ( |distinct_ports[orig]| >= possible_port_scan_thresh &&
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orig !in scan_triples )
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{
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scan_triples[orig] = table() &mergeable;
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add possible_scan_sources[orig];
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}
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}
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# Check for low ports.
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if ( activate_priv_port_check && ! outbound && service < 1024/tcp &&
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service !in troll_skip_service )
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{
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if ( orig !in distinct_low_ports ||
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service !in distinct_low_ports[orig] )
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{
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if ( orig !in distinct_low_ports )
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distinct_low_ports[orig] = set() &mergeable;
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add distinct_low_ports[orig][service];
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if ( |distinct_low_ports[orig]| == priv_scan_trigger &&
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orig !in Site::neighbor_nets )
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{
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local svrc_msg = fmt("low port trolling %s %s", orig, service);
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NOTICE([$note=LowPortTrolling, $src=orig,
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$identifier=fmt("%s", orig),
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$p=service, $msg=svrc_msg]);
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}
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if ( ignore_scanners_threshold > 0 &&
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|distinct_low_ports[orig]| >
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ignore_scanners_threshold )
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ignore_addr(orig);
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}
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}
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# For sources that have been identified as possible scan sources,
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# keep track of per-host scanning.
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if ( orig in possible_scan_sources )
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{
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if ( orig !in scan_triples )
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scan_triples[orig] = table() &mergeable;
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if ( resp !in scan_triples[orig] )
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scan_triples[orig][resp] = set() &mergeable;
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if ( service !in scan_triples[orig][resp] )
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{
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add scan_triples[orig][resp][service];
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if ( thresh_check_2(report_port_scan, rpts_idx,
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orig, resp,
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|scan_triples[orig][resp]|) )
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{
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local m = |scan_triples[orig][resp]|;
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NOTICE([$note=PortScan, $n=m, $src=orig,
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$p=service,
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|
$identifier=fmt("%s-%d", orig, n),
|
|
$msg=fmt("%s has scanned %d ports of %s",
|
|
orig, m, resp)]);
|
|
}
|
|
}
|
|
}
|
|
|
|
return T;
|
|
}
|
|
|
|
|
|
# Hook into the catch&release dropping. When an address gets restored, we reset
|
|
# the source to allow dropping it again.
|
|
event Drop::address_restored(a: addr)
|
|
{
|
|
clear_addr(a);
|
|
}
|
|
|
|
event Drop::address_cleared(a: addr)
|
|
{
|
|
clear_addr(a);
|
|
}
|
|
|
|
# When removing a possible scan source, we automatically delete its scanned
|
|
# hosts and ports. But we do not want the deletion propagated, because every
|
|
# peer calls the expire_function on its own (and thus applies the delete
|
|
# operation on its own table).
|
|
function remove_possible_source(s: set[addr], idx: addr): interval
|
|
{
|
|
suspend_state_updates();
|
|
delete scan_triples[idx];
|
|
resume_state_updates();
|
|
|
|
return 0 secs;
|
|
}
|
|
|
|
# To recognize whether a certain threshhold vector (e.g. report_peer_scans)
|
|
# has been transgressed, a global variable containing the next vector index
|
|
# (idx) must be incremented. This cumbersome mechanism is necessary because
|
|
# values naturally don't increment by one (e.g. replayed table merges).
|
|
function thresh_check(v: vector of count, idx: table[addr] of count,
|
|
orig: addr, n: count): bool
|
|
{
|
|
if ( ignore_scanners_threshold > 0 && n > ignore_scanners_threshold )
|
|
{
|
|
ignore_addr(orig);
|
|
return F;
|
|
}
|
|
|
|
if ( idx[orig] <= |v| && n >= v[idx[orig]] )
|
|
{
|
|
++idx[orig];
|
|
return T;
|
|
}
|
|
else
|
|
return F;
|
|
}
|
|
|
|
# Same as above, except the index has a different type signature.
|
|
function thresh_check_2(v: vector of count, idx: table[addr, addr] of count,
|
|
orig: addr, resp: addr, n: count): bool
|
|
{
|
|
if ( ignore_scanners_threshold > 0 && n > ignore_scanners_threshold )
|
|
{
|
|
ignore_addr(orig);
|
|
return F;
|
|
}
|
|
|
|
if ( idx[orig,resp] <= |v| && n >= v[idx[orig, resp]] )
|
|
{
|
|
++idx[orig,resp];
|
|
return T;
|
|
}
|
|
else
|
|
return F;
|
|
}
|
|
|
|
event connection_established(c: connection)
|
|
{
|
|
local is_reverse_scan = (c$orig$state == TCP_INACTIVE);
|
|
Scan::check_scan(c, T, is_reverse_scan);
|
|
}
|
|
|
|
event partial_connection(c: connection)
|
|
{
|
|
Scan::check_scan(c, T, F);
|
|
}
|
|
|
|
event connection_attempt(c: connection)
|
|
{
|
|
Scan::check_scan(c, F, c$orig$state == TCP_INACTIVE);
|
|
}
|
|
|
|
event connection_half_finished(c: connection)
|
|
{
|
|
# Half connections never were "established", so do scan-checking here.
|
|
Scan::check_scan(c, F, F);
|
|
}
|
|
|
|
event connection_rejected(c: connection)
|
|
{
|
|
local is_reverse_scan = c$orig$state == TCP_RESET;
|
|
|
|
Scan::check_scan(c, F, is_reverse_scan);
|
|
}
|
|
|
|
event connection_reset(c: connection)
|
|
{
|
|
if ( c$orig$state == TCP_INACTIVE || c$resp$state == TCP_INACTIVE )
|
|
# We never heard from one side - that looks like a scan.
|
|
Scan::check_scan(c, c$orig$size + c$resp$size > 0,
|
|
c$orig$state == TCP_INACTIVE);
|
|
}
|
|
|
|
event connection_pending(c: connection)
|
|
{
|
|
if ( c$orig$state == TCP_PARTIAL && c$resp$state == TCP_INACTIVE )
|
|
Scan::check_scan(c, F, F);
|
|
}
|
|
|
|
# Report the remaining entries in the tables.
|
|
event bro_done()
|
|
{
|
|
for ( orig in distinct_peers )
|
|
scan_summary(distinct_peers, orig);
|
|
|
|
for ( orig in distinct_ports )
|
|
port_summary(distinct_ports, orig);
|
|
|
|
for ( orig in distinct_low_ports )
|
|
lowport_summary(distinct_low_ports, orig);
|
|
}
|
|
</code></pre> |