Fialka

In cryptography, Fialka (M-125) is the name of a Cold War-era Soviet cipher machine. A rotor machine, the device uses 10 rotors, each with 30 contacts along with mechanical pins to control stepping. It also makes use of a punched card mechanism. Fialka means "violet" in Russian. Information regarding the machine was quite scarce until c. 2005 because the device had been kept secret.

Fialka
The advanced Russian cipher machine Fialka (M-125) has only recently been made known to the public.
ClassificationRotor machine
IndustryMilitary
PoweredYes

Fialka contains a five-level paper tape reader on the right hand side at the front of the machine, and a paper tape punch and tape printing mechanism on top. The punched-card input for keying the machine is located on the left hand side. The Fialka requires 24 volt DC power and comes with a separate power supply that accepts power at 100 to 250 VAC, 50–400 Hz.

The machine's rotors are labelled with Cyrillic, requiring 30 points on the rotors; this is in contrast to many comparable Western machines with 26-contact rotors, corresponding to the Latin alphabet. The keyboard, at least in the examples of East German origin, had both Cyrillic and Latin markings. There are at least two versions known to exist, the M-125-MN and the M-125-3MN. The M-125-MN had a typewheel that could handle Latin and Cyrilic letters. The M-125-3MN had separate typewheels for Latin and Cyrilic. The M-125-3MN had three modes, single shift letters, double shift with letters and symbols, and digits only, for use with code books and to superencrypt numeric ciphers.

Encryption mechanism

Ten Fialka rotors fitted inside the machine.
Rotor stack removed from the machine, showing the 30 contact pins.

The Fialka rotor assembly has 10 rotors mounted on an axle and a 30 by 30 commutator (Kc 30x30). The commutator consists of two sets of 30 contact strips set at right angles to each other. A punched card is placed between the two sets of contacts via a door on the left hand side of the unit. Each punched card has 30 holes, with exactly one hole per row and column pair, and thereby specifies a permutation of the 30 rotor contact lines. This feature is comparable to the plug board on the Enigma machine. A triangular plate was used to enter the null permutation for testing purposes.

There are two types of rotors:

  • disassemblable (zerlegbar) rotors, used with the M-125-3MN. The rotorset name is "PROTON." The disassemblable rotors consist of an insert with electrical contacts and scramble wiring, and an outer ring with mechanical pins whose presence or absence control rotor stepping. As part of the key setup, the stepping control pins can be rotated relative to the outer ring. The inner, electrical ring can also be rotated relative to the outer ring and can be inserted in one of two ways, with side 1 or side 2 up.
  • unitary rotors, used with the M-125-MN. These have both electrical contacts and mechanical pins. The only key adjustment is the order of the rotors on the axle and the initial rotor settings. There is one combination for the disassemblable rotors that is compatible with the unitary rotor. One East German manual that has become public contains typed-in and hand written addenda that suggest the East Germans, at least, later stopped using the added features of the disassemblable rotors and only used them in unitary compatibility mode.

Adjacent rotors step in opposite directions. A spare rotor assembly could be kept in the unit's top cover.

Keying material

The keying material for the Fialka consists of a daily key book, a message key book and a message identifier book for broadcast traffic. The daily key book contains day keys for one month. A day key consists of a key table (in Cyrillic) and a punched card. For fixed rotor systems, the key table specifies the order of the rotors on the axle and the initial rotor settings to be used to decrypt the indicator of broadcast messages. As its name implies, the day key is valid (has a cryptoperiod in NSA parlance) for 24 hours and was changed at 00:01 hours. For the disassemblable rotors, the table also specifies the electrical insert for each outer rotor, which side was to be up, and the orientation of the insert relative to the outer rotor. Here is a sample M-125-3NM day key table for use on the 14th of the month:

ИДЖЗА ВКБГЕ 14
OCAHE PTБВЕ
БДВИА ГЕЗКЖ
2II22 I22I2
КУЛКЮ ЫХВУГ

The message key table contained the initial rotor settings to be used with each message. A message key was never to be used more than once. The keying material was distributed in a foil-covered package, with the daily key tables and punched cards fan-folded in a pouch with perforations between each item. The other tables were in a side pouch.

Comparison with other rotor machines

The Fialka design seems to derive from the Swiss NEMA, but the NEMA only has 5 electrical rotors vs. the Fialka's 10 and NEMA lacks a punched card commutator or an equivalent, such as a plug board. Fialka seems most comparable to the U.S. KL-7 which has eight electrical rotors and also lacks a commutator, but its keyboard permutor switch eliminated the need for a reflector, which proved to be a weakness in the Enigma system.

gollark: It's basically a very fault-tolerant bytecode VM using a register machine, designed for automatic program evolution.
gollark: Oh hey, I just designed Macron.
gollark: Or possibly syndicalism but close enough.
gollark: This is intepreted as communism.
gollark: Lyricly wants programmer socks to be produced by a worker collective and not corporations.

See also

References

  • M-125 Operation (Nutzung) manual, DV A 040/1/321, December 1978, National People's Army, German Democratic Republic (German, with updates), scanned PDF from Dr. Tom Perera,
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