Provided by: scamper_20191102-1_amd64 bug

NAME

     sc_analysis_dump — dump of traceroute data in a format that is easily parsed.

SYNOPSIS

     sc_analysis_dump [-cCdeghHilMopQrstT] [-D debug-count] [-G geo-server] [-S skip-count]
                      [file ...]

DESCRIPTION

     The sc_analysis_dump utility provides a dump of traceroute data in a format that is easily
     parsed by scripts.  Each line output contains a summary of a single trace, and includes the
     interfaces visited and the delay of each response.  The output format is identical to that
     of sk_analysis_dump from CAIDA, except that it uses the scamper file API to read both arts++
     files produced by skitter and warts files produced by scamper.  The sc_analysis_dump utility
     only outputs traceroute data; for parsing other types of measurement, use sc_warts2json(1)
     instead.  The options are as follows:

     -c      disables printing the cycle number in each line of output.

     -C      disables printing the comments about the output at the top of the output.

     -d      disables printing the destination address in each line of output.

     -D debug-count
             for each input file stop reading after the specified number of traces.

     -e      adds the response from the destination to each line of output.  Please read the bugs
             section below.

     -g      use geographical data from netacuity.  Not all builds of sc_analysis_dump support
             this option.

     -G geo-server
             specifies the name of the netacuity server to use.

     -h      prints a help message and then exits.

     -H      disables printing the halt fields: why traceroute halted and data for that reason.

     -i      disables printing the RTT to each hop, and how many tries were required.

     -l      disables printing the list id in each line of output.

     -M      prints any MPLS label stack objects embedded in ICMP responses.

     -o      prints each line of output using the old format from sk_analysis_dump 1.0.

     -p      disables print path data in each line of output.

     -Q      prints the IP-TTL from inside the ICMP quotation.

     -r      disables printing the data associated the response from a destination: the RTT, the
             TTL of the probe, and the TTL of the response.

     -s      disables printing the source IP address in each line of output.

     -S skip-count
             skips the defined number of traces from each input file.

     -t      disables printing the timestamp of when the traceroute began.

     -T      prints the IP-TTL of the response packet.

OUTPUT

     There is one trace per line.  Fields are separated by a tab character.  The output is
     structured into header fields (2 to 6), reply fields (7 to 10) corresponding to the response
     received from the destination, halt fields (11 and 12), and hop fields (beginning at index
     13).

           1.  Key

               Indicates the type of line and determines the meaning of the remaining fields.
               This will always be 'T' for an IP trace.

           2.  Source

               Source IP of skitter/scamper monitor performing the trace.

           3.  Destination

               Destination IP being traced.

           4.  ListId

               ID of the destination list containing this destination address.  This value will
               be zero if no list ID was provided.  A ListId is a 32 bit unsigned integer.

           5.  CycleId

               ID of current probing cycle.  A cycle is a single run through a given list.  A
               CycleId is a 32 bit unsigned integer.  For skitter traces, cycle IDs will be equal
               to or slightly earlier than the timestamp of the first trace in each cycle. There
               is no standard interpretation for scamper cycle IDs.  This value will be zero if
               no cycle ID was provided.

           6.  Timestamp

               Timestamp when trace began to this destination.

           7.  DestReplied

               Whether a response from the destination was received.  The character R is printed
               if a reply was received.  The character N is printed if no reply was received.
               Since skitter sends a packet with a TTL of 255 when it halts probing, it is still
               possible for the final destination to send a reply and for the HaltReasonData (see
               below) to not equal no_halt.  Note: scamper does not perform this last-ditch
               probing at TTL 255 by default.

           8.  DestRTT

               The RTT (ms) of first response packet from destination.  This value is zero if
               DestReplied is N.

           9.  RequestTTL

               TTL set in request packet which elicited a response (echo reply) from the
               destination.  This value is zero if DestReplied is N.

           10. ReplyTTL

               TTL found in reply packet from destination.  This value is zero if DestReplied is
               N.

           11. HaltReason

               A single character corresponding to the reason, if any, why incremental probing
               stopped.  S is printed if the destination was reached or there is no halt data.  U
               is printed if an ICMP unreachable message was received.  L is printed if a loop
               was detected.  G is printed if the gaplimit was reached.

           12. HaltReasonData

               Extra data about why probing halted.  If HaltReason is S, the zero is output.  If
               HaltReason is U, the ICMP code of the unreachable message is printed.  If
               HaltReason is L, the length of the loop is printed.  If HaltReason is G, the
               length of the gap is printed.

           13. PathComplete

               Whether all hops to destination were found.  C is printed if the trace is
               complete, all hops are found.  I is printed if the trace is incomplete, at least
               one hop is missing (i.e., did not respond).

           14. PerHopData

               Response data for each hop.  If multiple IP addresses respond at the same hop,
               response data for each IP address are separated by semicolons:

               IP,RTT,numTries (for only one responding IP) IP,RTT,numTries;IP,RTT,numTries;...
               (for multiple responding IPs)

               where IP is the IP address which sent a TTL expired packet, RTT is the RTT of the
               TTL expired packet, and numTries is the number of tries before a response was
               received from the TTL.

               This field has the value 'q' if there was no response at a hop.

               If the -M option is specified, any MPLS label stack objects embedded in the ICMP
               response will be included in the following format, and the four fields correspond
               to each of the fields in a MPLS header.

                  M|ttl|label|exp|s

               If the ICMP response embeds more than one MPLS header, they are given one at a
               time, each starting with an M.

               If the -Q option is specified, the TTL value found in a quoted IP packet is
               included with the following format:

                  Q|ttl

               If the -T option is specified, the TTL value of the response packet is included
               with the following format:

                  T|ttl

EXAMPLES

     The command:

        sc_analysis_dump file1.warts file2.warts

     will decode and print the traceroute objects in file1.warts, followed by the traceroute
     objects in file2.warts.

     The command:

        gzcat file1.warts.gz | sc_analysis_dump

     will decode and print the traceroute objects in the uncompressed file supplied on stdin.

BUGS

     When the -e option is used, any unresponsive hops between the last responding router and the
     destination are not printed, which could imply an IP link where none exists.  Use
     sc_warts2json(1) instead.

SEE ALSO

     scamper(1), sc_wartsdump(1), sc_warts2json(1)

AUTHORS

     sc_analysis_dump was written by Matthew Luckie <mjl@luckie.org.nz>.  It was derived from
     CAIDA's sk_analysis_dump program and should behave in an identical manner.