Everything about Lorenz Cipher totally explained
» "Tunny" redirects here. For the fish, see Tuna.
The
Lorenz SZ 40 and
SZ 42 (
Schlüsselzusatz, meaning "cipher attachment") were German
cipher machines used during
World War II for
teleprinter circuits. British codebreakers, who referred to encrypted German teleprinter traffic as "
Fish", termed the machine and its traffic "
Tunny". While the well-known
Enigma machine was generally used by field units, the Lorenz machine was used for high-level communications which could support the heavy machine, teletypewriter and attendant fixed
circuits. The machine itself measured 51cm × 46cm × 46cm (20in × 18in × 18in), and served as an attachment to a standard Lorenz teleprinter. The machines implemented a
stream cipher.
Operation
The teleprinters of the day output each character as five parallel
bits on five lines, typically encoded in the
Baudot code or something similar. The Lorenz machine output groups of five
pseudorandom bits to be
XORed with the
plaintext. The pseudorandom bits were generated by ten
pinwheels, five of which stepped regularly, termed the
("
chi") wheels, and five of which were stepped irregularly, termed the
("
psi") wheels. The stepping of the
wheels was determined by two more pinwheels, termed the "motor wheels". Apart from the stepping of the five irregular pinwheels (which either all stepped together, or all stayed together), the Lorenz machine is actually five parallel pseudorandom generators; there's no other interaction between the five lines. The numbers of pins on all the wheels were
relatively prime.
Colonel
Parker Hitt of the
US Army first proposed a very similar device in 1914. . He explained its use in his
Manual for Military Ciphers published in
1916. But Col. Hitt's design was without the feature that allowed the stepping of five wheels to be irregular.
Cryptanalysis
British cryptographers at
Bletchley Park had deduced the operation of the machine by January
1942 without ever having seen a Lorenz machine. This was made possible because of a mistake made by a German operator. On
30 August,
1941, a 4,000 character message was transmitted; however, the message wasn't received correctly at the other end, so (after the recipient sent an unencoded request for retransmission, which let the codebreakers know what was happening) the message was retransmitted with the same key settings (HQIBPEXEZMUG); a forbidden practice. Moreover, the second time the operator made a number of small alterations to the message, such as using abbreviations. From these two related ciphertexts,
John Tiltman was able to recover both the plaintext and the
keystream. From the keystream, the entire structure of the machine was reconstructed by
W. T. Tutte.
Tunny traffic was intercepted at
Knockholt in
Kent, before being sent to Bletchley Park.
Several complex machines were built by the British to attack Tunny. The first was a family of machines known as "
Heath Robinsons", which used several high-speed
paper tapes, along with electronic logic circuitry, to help break into Tunny.
The next was the
Colossus, the world's first electronic digital
computer. This was developed by the British engineer
Tommy Flowers at
Bletchley Park. Like
ENIAC, it didn't have a
stored program, and was programmed through plugboards and jumper cables. It was both faster and more reliable than the Heath Robinsons; using it, the British were able to read a large proportion of Tunny traffic.
The Swedish cryptanalytic service, the FRA (
Försvarets Radioanstalt), also broke into an early version of the Lorenz system; their break occurred in April,
1943. They tapped cables carrying traffic between Germany and Norway. The work was led by mathematician
Arne Beurling.
Further Information
Get more info on 'Lorenz Cipher'.
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