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Ping (networking utility)

Ping is a computer network administration utility used to test the reachability of a host on an Internet Protocol (IP) network and to measure the round-trip time for messages sent from the originating host to a destination computer. The name comes from active sonar terminology which sends a pulse of sound and listens for the echo to detect objects underwater.[1]

Ping operates by sending Internet Control Message Protocol (ICMP) echo request packets to the target host and waiting for an ICMP response. In the process it measures the time from transmission to reception (round-trip time)[1] and records any packet loss. The results of the test are printed in the form of a statistical summary of the response packets received, including the minimum, maximum, and the mean round-trip times, and sometimes the standard deviation of the mean.

Depending on the implementation, the ping command can be run with various command line switches to enable special operational modes. Example options include: specifying the packet size used as the probe, automatic repeated operation for sending a specified count of probes, and time stamping.

Ping may be abused as a simple form of denial-of-service attack in the form of a ping flood, in which the attacker overwhelms the victim with ICMP echo request packets.

Contents

History

The ping utility was authored by Mike Muuss in December 1983 as a tool to troubleshoot problems in an IP network. He named it after the sound that sonar makes, since its methodology is similar to sonar's echo location. [1][2]

Host discovery or ping scanning or ping sweep is still a part of network scanning tools like nmap, as it may give basic evidence about the existence of a remote machine.

RFC 1122 prescribes that any host must accept an echo-request and issue an echo-reply in return.[3] This has been characterized as a security risk.[4]

ICMP packet

IP Datagram
 Bit 0 - 7Bit 8 - 15Bit 16 - 23Bit 24 - 31
IP Header
(20 bytes)		Version/IHLType of serviceLength
Identificationflags and offset
Time To Live (TTL)ProtocolChecksum
Source IP address
Destination IP address
ICMP Header
(8 bytes)		Type of messageCodeChecksum
Header Data
ICMP Payload
(optional)		Payload Data

Generic composition of an ICMP packet[5]

  • IP Header (in blue):
    • Protocol set to 1 (ICMP) and Type of Service set to 0.
  • ICMP Header (in red):
    • Type of ICMP message (8 bits)
    • Code (8 bits)
    • Checksum (16 bits), calculated with the ICMP part of the packet (the header is not used). It is the 16-bit one's complement of the one's complement sum of the ICMP message starting with the Type field[6]
    • Header Data (32 bits) field, which in this case (ICMP echo request and replies), will be composed of identifier (16 bits) and sequence number (16 bits).
  • ICMP Payload
    • Payload for the different kind of answers (Can be an arbitrary length, left to implementation detail. However must be less than the maximum MTU of the network or risk being fragmented).
  • Data Transportation

Sample ping test

The following is the output of running ping with the target www.example.com for five probes.

# ping -n 5 www.example.comPING www.example.com (192.0.43.10) 56(84) bytes of data.64 bytes from 43-10.any.icann.org (192.0.43.10): icmp_seq=1 ttl=250 time=80.5 ms64 bytes from 43-10.any.icann.org (192.0.43.10): icmp_seq=2 ttl=250 time=80.4 ms64 bytes from 43-10.any.icann.org (192.0.43.10): icmp_seq=3 ttl=250 time=80.3 ms64 bytes from 43-10.any.icann.org (192.0.43.10): icmp_seq=4 ttl=250 time=80.3 ms64 bytes from 43-10.any.icann.org (192.0.43.10): icmp_seq=5 ttl=250 time=80.4 ms--- www.example.com ping statistics ---5 packets transmitted, 5 received, 0% packet loss, time 4006msrtt min/avg/max/mdev = 80.393/80.444/80.521/0.187 ms

The utility summarizes its results after completing the ping probes. The shortest round trip time was 80.393 ms, the average was 80.444 ms, and the maximum value was 80.521 ms. The measurement had a standard deviation of 0.187 ms.

Message format

Echo request

The echo request is an ICMP message whose data is expected to be received back in an echo reply ("ping"). The host must respond to all echo requests with an echo reply containing the exact data received in the request message.

0001020304050607080910111213141516171819202122232425262728293031
Type = 8Code = 0Header Checksum
IdentifierSequence Number
Time StampData
Data
  • The Identifier and Sequence Number can be used by the client to match the reply with the request that caused the reply. In practice, most Linux systems use a unique identifier for every ping process, and sequence number is an increasing number within that process. Windows uses a fixed identifier, which varies between Windows versions, and a sequence number that is only reset at boot time.
  • The data received in the Echo Request must be entirely included in the Echo Reply.

Echo reply

The echo reply is an ICMP message generated in response to an echo request, and is mandatory for all hosts and routers.

0001020304050607080910111213141516171819202122232425262728293031
Type = 0Code = 0Header Checksum
IdentifierSequence Number
Time StampData
Data
  • Type and code must be set to 0.
  • The identifier and sequence number can be used by the client to determine which echo requests are associated with the echo replies.
  • The data received in the echo request must be entirely included in the echo reply.

Possible reply messages include !H, !N, or !P (host, network or protocol unreachable) !S (source route failed) !F (fragmentation needed) !U or !W (destination network/host unknown) !I (source host is isolated) !A (communication with destination network administratively prohibited) !Z (communication with destination host administratively prohibited) !Q (for this ToS the destination network is unreachable) !T (for this ToS the destination host is unreachable) !X (communication administratively prohibited) !V (host precedence violation) !C (precedence cutoff in effect) !<num> (ICMP unreachable code <num>)

Other replies

In case of error, destination host or intermediate router will send back an ICMP error message, i.e. host unreachable or TTL exceeded in transit. In addition these messages include the first 8 bytes of original message (in this case header of ICMP echo request, including quench value), so ping utility can match it to originating query.[citation needed]

Payload

The payload of the packet is generally filled with ASCII characters, as the output of the tcpdump utility shows:

16:24:47.966461 IP (tos 0x0, ttl 128, id 15103, offset 0, flags [none],proto: ICMP (1), length: 60) 192.168.146.22 > 192.168.144.5: ICMP echo request,id 1, seq 38, length 40   0x0000:  4500 003c 3aff 0000 8001 5c55 c0a8 9216  E..<:.....\U....   0x0010:  c0a8 9005 0800 4d35 0001 0026 6162 6364  ......M5...&abcd   0x0020:  6566 6768 696a 6b6c 6d6e 6f70 7172 7374  efghijklmnopqrst   0x0030:  7576 7761 6263 6465 6667 6869 uvwabcdefghi

The payload includes a timestamp of when the message was sent, as well a sequence number. This allows ping to compute the round trip time in a stateless manner without needing to record when packets were sent. In cases of no answer and no error message, most implementations of ping display nothing, or periodically print notifications about timing out.[citation needed]

Other types of pinging

The term ping is commonly used to describe the transmission of any message or signal for the purpose of locating or testing network services or features. For example, a ping may be sent using the User Datagram Protocol (UDP) to a device located behind a network address translator (NAT) to keep the port binding on the NAT from timing out and removing the mapping. Other examples are short or empty instant messages, emails, voice mails, or missed-call notification to indicate availability.[citation needed]

In various network multi-player games, a video game ping performs a similar function as the ping program for Internet traffic. The game server measures the time required for a game packet to reach a client and a response to be received. This round-trip time is usually reported as the player's ping.[citation needed] It is an effective measurement of the player's latency, with lower ping times being desirable. This style of ping typically does not use ICMP packets.

See also

References

  1. ^ a b c Mike Muuss. "The Story of the PING Program". Adelphi, MD, USA: U.S. Army Research Laboratory. Archived from the original on 8 September 2010. Retrieved 8 September 2010. "I named it after the sound that a sonar makes, inspired by the whole principle of echo-location." 
  2. ^ Salus, Peter (1994). A Quarter Century of UNIX. Addison-Wesley. ISBN 0-201-54777-5. 
  3. ^ "RFC 1122 - Requirements for Internet Hosts -- Communication Layers". p. 42. Retrieved 2012-03-19. "Every host MUST implement an ICMP Echo server function that receives Echo Requests and sends corresponding Echo Replies." 
  4. ^ "Shields Up, Firewall Test. You get a warning about the dangers of ping if your computer answers ping request". Retrieved 4 June 2010. 
  5. ^ RFC 792
  6. ^ "RFC Sourcebook's page on ICMP". Retrieved 20 December 2010. 

External links

(Sebelumnya) Pinax (software)PING (software) (Berikutnya)