Authors: Neal Stephenson
Tags: #Literature, #U.S.A., #American Literature, #21st Century, #Fiction, #Science Fiction, #v.5, #Amazon.com, #Retail
Some other fellow—one who actually bothered to shave, shower, and put on a uniform—introduces bathrobe man as
Commander Shane-spelled-s-c-h-o-e-n, but Schoen is having none of it; he turns his back on them, exposing the back side of his bathrobe, which around the buttocks is worn transparent as a negligee. Reading from a notebook, he writes out the following in block letters:
19 17 17 19 14
20 23 18 19 8
12 16 19 8 3
21 8 25 18 14
18 6 3 18 8
15 18 22 18 11
Around the time that the fourth or fifth number is going up on the chalkboard, Waterhouse feels the hairs standing up on the back of his neck. By the time the third group of five numbers is written out, he has not failed to notice that none of them is larger than 26—that being the number of letters in the alphabet. His heart is pounding more wildly than it did when Nipponese bombs were tracing parabolic trajectories toward the deck of the grounded
Nevada
. He pulls a pencil out of his pocket. Finding no paper handy, he writes down the numbers from 1 to 26 on the surface of his little writing desk.
By the time the man in the bathrobe is done writing out the last group of numbers, Waterhouse is already well into his frequency count. He wraps it up as Bathrobe Man is saying something along the lines of “this might look like a meaningless sequence of numbers to you, but to a Nip naval officer it might look like something entirely different.” Then the man laughs nervously, shakes his head sadly, squares his jaw resolutely, and runs through a litany of other emotion-laden expressions not a single one of which is appropriate here.
Waterhouse’s frequency count is simply a tally of how frequently each number appears on the blackboard. It looks like this:
The most interesting thing about this is that ten of the possible symbols (viz. 1, 2, 4, 5, 7, 9, 10, 13, 24, and 26) are not even used. Only sixteen different numbers appear in the message. Assuming each of those sixteen represents one and only one letter of the alphabet, this message has (Lawrence reckons in his head) 111136315345735680000 possible meanings. This is a funny number because it begins with four ones and ends with four zeroes; Lawrence snickers, wipes his nose, and gets on with it.
The most common number is 18. It probably represents the letter E. If he substitutes E into the message everywhere he sees an 18, then—
Well, to be honest, then he’ll have to write out the whole message again, substituting Es for 18s, and it will take a long time, and it might be time wasted because he might have guessed wrong. On the other hand, if he just
retrains
his mind to
construe
18s as Es—an operation that he thinks of as being loosely analogous to changing the presets on a pipe organ’s console—then what he sees in his mind’s eye when he looks at the blackboard is
19 17 17 19 14
20 23 E 19 8
12 16 19 8 3
21 8 25 E 14
E 6 3 E 8
15 E 22 E 11
which only has 10103301395066880000 possible meanings. This is a funny number too because of all those ones and zeroes—but it is an absolutely meaningless coincidence.
“The science of making secret codes is called cryptography,” Commander Schoen says, “and the science of breaking them is cryptanalysis.” Then he sighs, grapples visibly with some more widely divergent emotional states, and resignedly plods into the mandatory exercise of breaking
these words down into their roots, which are either Latin or Greek (Lawrence isn’t paying attention, doesn’t care, only glimpses the stark word CRYPTO written in handsized capitals).
The opening sequence “19 17 17 19” is peculiar. 19, along with 8, is the second most common number in the list. 17 is only half as common. You can’t have four vowels or four consonants in a row (unless the words are German) so either 17 is a vowel and 19 a consonant or the other way round. Since 19 appears more frequently (four times) in the message, it is more likely to be the vowel than 17 (which only appears twice). A is the most common vowel after E, so if he assumes that 19 is A, he gets
A 17 17 A 14
20 23 E A 8
12 16 A 8 3
21 8 25 E 14
E 6 3 E 8
15 E 22 E 11
This narrows it down quite a bit, to a mere 841941782922240000 possible answers. He’s already reduced the solution space by a couple of orders of magnitude!
Schoen has talked himself up into a disturbingly heavy sweat, now, and is almost bodily flinging himself into a historical overview of the science of CRYPTOLOGY, as the union of cryptography and cryptanalysis is called. There’s some talk about an English fellow name of Wilkins, and book called
Cryptonomicon
that he wrote hundreds of years ago, but (perhaps because he doesn’t rate the intelligence of his audience too highly) he goes very easy on the historical background, and jumps directly from Wilkins to Paul Revere’s “one if by land, two if by sea” code. He even makes a mathematics in-joke about this being one of the earliest practical applications of binary notation. Lawrence dutifully brays and snorts, drawing an appalled look from the saxophonist seated in front of him.
Earlier in his talk, Schoen mentioned that this message was (in what’s obviously a fictional scenario ginned up to make this mathematical exercise more interesting to a bunch of musicians who are assumed not to give a shit about math) addressed to a Nip naval officer. Given that
context, Lawrence cannot but guess that the first word of the message is ATTACK. This would mean that 17 represented T, 14 C, and 20 K. When he fills these in, he gets
A T T A C
K 23 E A 8
12 16 A 8 3
21 R 25 E C
E 6 3 E 8
15 E 22 E 11
and then the rest is so obvious he doesn’t bother to write it out. He cannot restrain himself from jumping to his feet. He’s so excited he forgets about the weak legs and topples over across a couple of his neighbors’ desks, which makes a lot of noise.
“Do you have a problem, sailor?” says one of the officers in the corner, one who actually bothered to wear a uniform.
“Sir! The message is, ‘Attack Pearl Harbor December Seven!’ Sir!” Lawrence shouts, and then sits down. His whole body is quivering with excitement. Adrenaline has taken over his body and mind. He could strangle twenty sumo wrestlers on the spot.
Commander Schoen is completely impassive except that he blinks once, very slowly. He turns to one of his subordinates, who is standing against the wall with his hands clasped behind his back, and says, “Get this one a copy of the
Cryptonomicon
. And a desk—as close to the coffee machine as possible. And why don’t you promote the son of a bitch as long as you’re at it.”
The part about the promotion turns out to be either military humor or further evidence of Commander Schoen’s mental instability. Other than that small bit of drollery, the story of Waterhouse past this point, for the next ten months, is not much more complicated than the story of a bomb that has just been released from the belly of a plunging airplane. The barriers placed in his path (working his way through the
Cryptonomicon,
breaking the Nipponese Air Force Meteorological Code, breaking the Coral naval attache machine cipher, breaking Unnamed Nipponese Army Water Transport Code 3A, breaking the Greater East Asia Ministry Code) present about as much resistance as successive decks of a worm-eaten wooden frigate. Within a
couple of months he is actually writing
new
chapters of the
Cryptonomicon
. People speak of it as though it were a book, but it’s not. It is basically a compilation of all of the papers and notes that have drifted up in a particular corner of Commander Schoen’s office over the roughly two-year period that he’s been situated at Station Hypo, as this place is called.
*
It is everything that Commander Schoen knows about breaking codes, which amounts to everything that the United States of America knows. At any moment it could have been annihilated if a janitor had stepped into the room for a few minutes and tidied the place up. Understanding this, Commander Schoen’s colleagues in the officers’ ranks of Station Hypo have devised strenuous measures to prevent any type of tidying or hygienic operations, of any description, in the entire wing of the building that contains Commander Schoen’s office. They know enough, in other words, to understand that the
Cryptonomicon
is terribly important, and they have the wit to take the measures necessary to keep it safe. Some of them actually consult it from time to time, and use its wisdom to break Nipponese messages, or even solve whole cryptosystems. But Waterhouse is the first guy to come along who is good enough to (at first) point out errors in what Schoen has written, and (soon) assemble the contents of the pile into something like an orderly work, and (eventually) add original material onto it.
At some point Schoen takes him downstairs and leads him to the end of a long windowless corridor to a slab of a door guarded by hulking Myrmidons and lets him see the second coolest thing they’ve got at Pearl Harbor, a roomful of machinery from the Electrical Till Corporation that they use mainly for doing frequency counts on Nip intercepts.
The most remarkable machine
*
at Station Hypo, however—and the first coolest thing in Pearl Harbor—is even deeper in the cloaca of the building. It is contained in something that might be likened to a bank vault if it weren’t
all wired up with explosives so that its contents can be vaporized in the event of a total Nip invasion.
This is the machine that Commander Schoen made, more than a year ago, for breaking the Nipponese cipher called Indigo. Apparently, as of the beginning of 1940, Schoen was a well-adjusted and mentally healthy young man into whose lap was dumped some great big long lists of numbers compiled from intercept stations around the Pacific (perhaps, Waterhouse thinks, Alpha, Bravo, etc.). These numbers were Nipponese messages that had been encrypted somehow—circumstantial evidence suggested that it had been done by some kind of machine. But absolutely nothing was known
about
the machine: whether it used gears or rotary switches or plugboards, or some combination thereof, or some other kind of mechanism that hadn’t even been thought of by white people yet; how
many
such mechanisms it did or didn’t use; specific details of
how
it used them. All that could be said was that these numbers, which seemed completely random, had been transmitted, perhaps even incorrectly. Other than that, Schoen had nothing—
nothing
—to work on.
As of the middle of 1941, then, this machine existed in this vault, here at Station Hypo. It existed because Schoen had built it. The machine perfectly decrypted every Indigo message that the intercept stations picked up, and was, therefore, necessarily an exact functional duplication of the Nipponese Indigo code machine, though neither Schoen nor any other American had ever laid eyes on one. Schoen had built the thing simply by looking at those great big long lists of essentially random numbers, and using some process of induction to figure it out. Somewhere along the line he had become totally debilitated psychologically, and begun to suffer nervous breakdowns at the rate of about one every week or two.
As of the actual outbreak of war with Nippon, Schoen is on disability, and taking lots of drugs. Waterhouse spends as much time with Schoen as he is allowed to, because he’s pretty sure that whatever happened inside of Schoen’s head, between when the lists of apparently random numbers were dumped into his lap and when he finished building his machine, is an example of a noncomputable process.