JF Ptak Science Books Post 2320
This is a general report on the origin, development and status of the Hagelin "cryptographers"--a word used here to describe the physical machines (rather than the people working on codes). After his father invested in Aktiebolget Cryptograph, Boris C.W. Hagelin (1892-1983) took over ht leadership of the company in 1925, producing several fine models of encoding crypto machines, using Arthur Scherbius' (as in the "Scherbius Principle", 1878-1929) rotor designs, some of which were marketed under the name "Enigma" (models of which were purchaed by the Wehrmacht in 1926 and modified for heavy use in the '30's and through WWII). The company produced 140,000 units during WWII (while headquartered in the U.S) and is still in business today as Crypto AG, in Zug, Switzerland.
(The Hagelin Cryptographers, an Analysis. Stamped CONFIDENTIAL, mimeographed in New York, by Ericsson Telephone, 1942.)
Sections in the document include "Models Built at Express Demand of the French Authorities", "Evolution of Hand Cryptographer Type C-362", "Hagelin Cryptographer Models" (BC-38 and C-362), "Methods of Operation", "Superiority of Hagelin Cryptographers over Competing Makes", and others, including a final section "How to Sell Cryptographers". There is a mention of the "Enigma" machine on page 14, which is limited to mentioning that it is not sold outside of Germany. Although the Swiss firm founded by Boris Hagelin has manufactured, and continues to manufacture, many kinds of cipher machines, the words "Hagelin machine" will normally inspire thoughts of their unique lug and pin based machines.
From Wiki:
"The basic principle of a Hagelin lug and pin machine is easy enough to describe. In the C-38, used by the U.S. Army as the M-209, six pinwheels, with 17, 19, 21, 23, 25, and 26 positions on them, can be set by the user with an arbitrary series of pins that are active. For every letter enciphered, all the pinwheels rotate one space. The combination of active and inactive pins is presented to a cage with 27 sliding bars. Each bar has two sliding lugs on it, which can be placed either in a position where it is inactive, or in a position corresponding to any of the pinwheels, so that it will slide the bar to the left, if the pin currently presented by that pinwheel is active. The number of lugs sticking out rotates the cipher alphabet against the plain text alphabet. The two alphabets used are just the regular alphabet, and the alphabet in reverse order, from Z back to A. This meant that encipherment was reciprocal, although the machine still had a switch to select encipherment or decipherment: this determined if the machine printed its output in five letter groups, or if it translated one letter, chosen by the user, to a space. The C-52, a postwar version of the Hagelin lug and pin machine, added an extra five sliding bars to the cage that, instead of moving the cipher alphabet, caused the stepping of the pinwheels to be irregular. The first pinwheel always moved, but the remaining five pinwheels only moved when their corresponding bars were slid to the left. The six pinwheels were labeled A, B, C, D, E, and F from left to right; bar 1 controlled pinwheel B, bar 2 pinwheel C, and so on. Also, on the C-52 the lugs could be moved from bar to bar, and the six pinwheels were chosen from a set with lengths 25, 26, 29, 31, 34, 37, 38, 41, 42, 43, 46, and 47. Using the pinwheels with lengths 34, 38, 42, 46, 25, and 26 allowed one to achieve compatibility with the C-36: provided one also turned off the irregular pinwheel stepping feature. The alphabet always started from its normal position, instead of the position last used, before being rotated by the projecting slide bars. This was perhaps the machine's main weakness, as it made attacks based on frequency counts of displacements possible, but it was perhaps unavoidable, since there was always a slight possibility of occasional mechanical errors. Particularly as the machines were often used on battlefields."
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