arm.c (arm_return_in_memory): Fix return type.
[official-gcc.git] / gcc / ada / g-md5.adb
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1 ------------------------------------------------------------------------------
2 -- --
3 -- GNAT LIBRARY COMPONENTS --
4 -- --
5 -- G N A T . M D 5 --
6 -- --
7 -- B o d y --
8 -- --
9 -- Copyright (C) 2002-2006, AdaCore --
10 -- --
11 -- GNAT is free software; you can redistribute it and/or modify it under --
12 -- terms of the GNU General Public License as published by the Free Soft- --
13 -- ware Foundation; either version 2, or (at your option) any later ver- --
14 -- sion. GNAT is distributed in the hope that it will be useful, but WITH- --
15 -- OUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY --
16 -- or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License --
17 -- for more details. You should have received a copy of the GNU General --
18 -- Public License distributed with GNAT; see file COPYING. If not, write --
19 -- to the Free Software Foundation, 51 Franklin Street, Fifth Floor, --
20 -- Boston, MA 02110-1301, USA. --
21 -- --
22 -- As a special exception, if other files instantiate generics from this --
23 -- unit, or you link this unit with other files to produce an executable, --
24 -- this unit does not by itself cause the resulting executable to be --
25 -- covered by the GNU General Public License. This exception does not --
26 -- however invalidate any other reasons why the executable file might be --
27 -- covered by the GNU Public License. --
28 -- --
29 -- GNAT was originally developed by the GNAT team at New York University. --
30 -- Extensive contributions were provided by Ada Core Technologies Inc. --
31 -- --
32 ------------------------------------------------------------------------------
34 with Ada.Unchecked_Conversion;
36 package body GNAT.MD5 is
38 use Interfaces;
40 Padding : constant String :=
41 (1 => Character'Val (16#80#), 2 .. 64 => ASCII.NUL);
43 Hex_Digit : constant array (Unsigned_32 range 0 .. 15) of Character :=
44 ('0', '1', '2', '3', '4', '5', '6', '7',
45 '8', '9', 'a', 'b', 'c', 'd', 'e', 'f');
46 -- Look-up table for each hex digit of the Message-Digest.
47 -- Used by function Digest (Context).
49 -- The sixteen values used to rotate the context words.
50 -- Four for each rounds. Used in procedure Transform.
52 -- Round 1
54 S11 : constant := 7;
55 S12 : constant := 12;
56 S13 : constant := 17;
57 S14 : constant := 22;
59 -- Round 2
61 S21 : constant := 5;
62 S22 : constant := 9;
63 S23 : constant := 14;
64 S24 : constant := 20;
66 -- Round 3
68 S31 : constant := 4;
69 S32 : constant := 11;
70 S33 : constant := 16;
71 S34 : constant := 23;
73 -- Round 4
75 S41 : constant := 6;
76 S42 : constant := 10;
77 S43 : constant := 15;
78 S44 : constant := 21;
80 type Sixteen_Words is array (Natural range 0 .. 15)
81 of Interfaces.Unsigned_32;
82 -- Sixteen 32-bit words, converted from block of 64 characters.
83 -- Used in procedure Decode and Transform.
85 procedure Decode
86 (Block : String;
87 X : out Sixteen_Words);
88 -- Convert a String of 64 characters into 16 32-bit numbers
90 -- The following functions (F, FF, G, GG, H, HH, I and II) are the
91 -- equivalent of the macros of the same name in the example
92 -- C implementation in the annex of RFC 1321.
94 function F (X, Y, Z : Unsigned_32) return Unsigned_32;
95 pragma Inline (F);
97 procedure FF
98 (A : in out Unsigned_32;
99 B, C, D : Unsigned_32;
100 X : Unsigned_32;
101 AC : Unsigned_32;
102 S : Positive);
103 pragma Inline (FF);
105 function G (X, Y, Z : Unsigned_32) return Unsigned_32;
106 pragma Inline (G);
108 procedure GG
109 (A : in out Unsigned_32;
110 B, C, D : Unsigned_32;
111 X : Unsigned_32;
112 AC : Unsigned_32;
113 S : Positive);
114 pragma Inline (GG);
116 function H (X, Y, Z : Unsigned_32) return Unsigned_32;
117 pragma Inline (H);
119 procedure HH
120 (A : in out Unsigned_32;
121 B, C, D : Unsigned_32;
122 X : Unsigned_32;
123 AC : Unsigned_32;
124 S : Positive);
125 pragma Inline (HH);
127 function I (X, Y, Z : Unsigned_32) return Unsigned_32;
128 pragma Inline (I);
130 procedure II
131 (A : in out Unsigned_32;
132 B, C, D : Unsigned_32;
133 X : Unsigned_32;
134 AC : Unsigned_32;
135 S : Positive);
136 pragma Inline (II);
138 procedure Transform
139 (C : in out Context;
140 Block : String);
141 -- Process one block of 64 characters
143 ------------
144 -- Decode --
145 ------------
147 procedure Decode
148 (Block : String;
149 X : out Sixteen_Words)
151 Cur : Positive := Block'First;
153 begin
154 pragma Assert (Block'Length = 64);
156 for Index in X'Range loop
157 X (Index) :=
158 Unsigned_32 (Character'Pos (Block (Cur))) +
159 Shift_Left (Unsigned_32 (Character'Pos (Block (Cur + 1))), 8) +
160 Shift_Left (Unsigned_32 (Character'Pos (Block (Cur + 2))), 16) +
161 Shift_Left (Unsigned_32 (Character'Pos (Block (Cur + 3))), 24);
162 Cur := Cur + 4;
163 end loop;
164 end Decode;
166 ------------
167 -- Digest --
168 ------------
170 function Digest (C : Context) return Message_Digest is
171 Result : Message_Digest;
173 Cur : Natural := 1;
174 -- Index in Result where the next character will be placed
176 Last_Block : String (1 .. 64);
178 C1 : Context := C;
180 procedure Convert (X : Unsigned_32);
181 -- Put the contribution of one of the four words (A, B, C, D) of the
182 -- Context in Result. Increments Cur.
184 -------------
185 -- Convert --
186 -------------
188 procedure Convert (X : Unsigned_32) is
189 Y : Unsigned_32 := X;
190 begin
191 for J in 1 .. 4 loop
192 Result (Cur + 1) := Hex_Digit (Y and Unsigned_32'(16#0F#));
193 Y := Shift_Right (Y, 4);
194 Result (Cur) := Hex_Digit (Y and Unsigned_32'(16#0F#));
195 Y := Shift_Right (Y, 4);
196 Cur := Cur + 2;
197 end loop;
198 end Convert;
200 -- Start of processing for Digest
202 begin
203 -- Process characters in the context buffer, if any
205 Last_Block (1 .. C.Last) := C.Buffer (1 .. C.Last);
207 -- Too many magic literals below, should be defined as constants ???
209 if C.Last > 55 then
210 Last_Block (C.Last + 1 .. 64) := Padding (1 .. 64 - C.Last);
211 Transform (C1, Last_Block);
212 Last_Block := (others => ASCII.NUL);
214 else
215 Last_Block (C.Last + 1 .. 56) := Padding (1 .. 56 - C.Last);
216 end if;
218 -- Add the input length (as stored in the context) as 8 characters
220 Last_Block (57 .. 64) := (others => ASCII.NUL);
222 declare
223 L : Unsigned_64 := Unsigned_64 (C.Length) * 8;
224 Idx : Positive := 57;
226 begin
227 while L > 0 loop
228 Last_Block (Idx) := Character'Val (L and 16#Ff#);
229 L := Shift_Right (L, 8);
230 Idx := Idx + 1;
231 end loop;
232 end;
234 Transform (C1, Last_Block);
236 Convert (C1.A);
237 Convert (C1.B);
238 Convert (C1.C);
239 Convert (C1.D);
240 return Result;
241 end Digest;
243 function Digest (S : String) return Message_Digest is
244 C : Context;
245 begin
246 Update (C, S);
247 return Digest (C);
248 end Digest;
250 function Digest
251 (A : Ada.Streams.Stream_Element_Array) return Message_Digest
253 C : Context;
254 begin
255 Update (C, A);
256 return Digest (C);
257 end Digest;
259 -------
260 -- F --
261 -------
263 function F (X, Y, Z : Unsigned_32) return Unsigned_32 is
264 begin
265 return (X and Y) or ((not X) and Z);
266 end F;
268 --------
269 -- FF --
270 --------
272 procedure FF
273 (A : in out Unsigned_32;
274 B, C, D : Unsigned_32;
275 X : Unsigned_32;
276 AC : Unsigned_32;
277 S : Positive)
279 begin
280 A := A + F (B, C, D) + X + AC;
281 A := Rotate_Left (A, S);
282 A := A + B;
283 end FF;
285 -------
286 -- G --
287 -------
289 function G (X, Y, Z : Unsigned_32) return Unsigned_32 is
290 begin
291 return (X and Z) or (Y and (not Z));
292 end G;
294 --------
295 -- GG --
296 --------
298 procedure GG
299 (A : in out Unsigned_32;
300 B, C, D : Unsigned_32;
301 X : Unsigned_32;
302 AC : Unsigned_32;
303 S : Positive)
305 begin
306 A := A + G (B, C, D) + X + AC;
307 A := Rotate_Left (A, S);
308 A := A + B;
309 end GG;
311 -------
312 -- H --
313 -------
315 function H (X, Y, Z : Unsigned_32) return Unsigned_32 is
316 begin
317 return X xor Y xor Z;
318 end H;
320 --------
321 -- HH --
322 --------
324 procedure HH
325 (A : in out Unsigned_32;
326 B, C, D : Unsigned_32;
327 X : Unsigned_32;
328 AC : Unsigned_32;
329 S : Positive)
331 begin
332 A := A + H (B, C, D) + X + AC;
333 A := Rotate_Left (A, S);
334 A := A + B;
335 end HH;
337 -------
338 -- I --
339 -------
341 function I (X, Y, Z : Unsigned_32) return Unsigned_32 is
342 begin
343 return Y xor (X or (not Z));
344 end I;
346 --------
347 -- II --
348 --------
350 procedure II
351 (A : in out Unsigned_32;
352 B, C, D : Unsigned_32;
353 X : Unsigned_32;
354 AC : Unsigned_32;
355 S : Positive)
357 begin
358 A := A + I (B, C, D) + X + AC;
359 A := Rotate_Left (A, S);
360 A := A + B;
361 end II;
363 ---------------
364 -- Transform --
365 ---------------
367 procedure Transform
368 (C : in out Context;
369 Block : String)
371 X : Sixteen_Words;
373 AA : Unsigned_32 := C.A;
374 BB : Unsigned_32 := C.B;
375 CC : Unsigned_32 := C.C;
376 DD : Unsigned_32 := C.D;
378 begin
379 pragma Assert (Block'Length = 64);
381 Decode (Block, X);
383 -- Round 1
385 FF (AA, BB, CC, DD, X (00), 16#D76aa478#, S11); -- 1
386 FF (DD, AA, BB, CC, X (01), 16#E8c7b756#, S12); -- 2
387 FF (CC, DD, AA, BB, X (02), 16#242070db#, S13); -- 3
388 FF (BB, CC, DD, AA, X (03), 16#C1bdceee#, S14); -- 4
390 FF (AA, BB, CC, DD, X (04), 16#f57c0faf#, S11); -- 5
391 FF (DD, AA, BB, CC, X (05), 16#4787c62a#, S12); -- 6
392 FF (CC, DD, AA, BB, X (06), 16#a8304613#, S13); -- 7
393 FF (BB, CC, DD, AA, X (07), 16#fd469501#, S14); -- 8
395 FF (AA, BB, CC, DD, X (08), 16#698098d8#, S11); -- 9
396 FF (DD, AA, BB, CC, X (09), 16#8b44f7af#, S12); -- 10
397 FF (CC, DD, AA, BB, X (10), 16#ffff5bb1#, S13); -- 11
398 FF (BB, CC, DD, AA, X (11), 16#895cd7be#, S14); -- 12
400 FF (AA, BB, CC, DD, X (12), 16#6b901122#, S11); -- 13
401 FF (DD, AA, BB, CC, X (13), 16#fd987193#, S12); -- 14
402 FF (CC, DD, AA, BB, X (14), 16#a679438e#, S13); -- 15
403 FF (BB, CC, DD, AA, X (15), 16#49b40821#, S14); -- 16
405 -- Round 2
407 GG (AA, BB, CC, DD, X (01), 16#f61e2562#, S21); -- 17
408 GG (DD, AA, BB, CC, X (06), 16#c040b340#, S22); -- 18
409 GG (CC, DD, AA, BB, X (11), 16#265e5a51#, S23); -- 19
410 GG (BB, CC, DD, AA, X (00), 16#e9b6c7aa#, S24); -- 20
412 GG (AA, BB, CC, DD, X (05), 16#d62f105d#, S21); -- 21
413 GG (DD, AA, BB, CC, X (10), 16#02441453#, S22); -- 22
414 GG (CC, DD, AA, BB, X (15), 16#d8a1e681#, S23); -- 23
415 GG (BB, CC, DD, AA, X (04), 16#e7d3fbc8#, S24); -- 24
417 GG (AA, BB, CC, DD, X (09), 16#21e1cde6#, S21); -- 25
418 GG (DD, AA, BB, CC, X (14), 16#c33707d6#, S22); -- 26
419 GG (CC, DD, AA, BB, X (03), 16#f4d50d87#, S23); -- 27
420 GG (BB, CC, DD, AA, X (08), 16#455a14ed#, S24); -- 28
422 GG (AA, BB, CC, DD, X (13), 16#a9e3e905#, S21); -- 29
423 GG (DD, AA, BB, CC, X (02), 16#fcefa3f8#, S22); -- 30
424 GG (CC, DD, AA, BB, X (07), 16#676f02d9#, S23); -- 31
425 GG (BB, CC, DD, AA, X (12), 16#8d2a4c8a#, S24); -- 32
427 -- Round 3
429 HH (AA, BB, CC, DD, X (05), 16#fffa3942#, S31); -- 33
430 HH (DD, AA, BB, CC, X (08), 16#8771f681#, S32); -- 34
431 HH (CC, DD, AA, BB, X (11), 16#6d9d6122#, S33); -- 35
432 HH (BB, CC, DD, AA, X (14), 16#fde5380c#, S34); -- 36
434 HH (AA, BB, CC, DD, X (01), 16#a4beea44#, S31); -- 37
435 HH (DD, AA, BB, CC, X (04), 16#4bdecfa9#, S32); -- 38
436 HH (CC, DD, AA, BB, X (07), 16#f6bb4b60#, S33); -- 39
437 HH (BB, CC, DD, AA, X (10), 16#bebfbc70#, S34); -- 40
439 HH (AA, BB, CC, DD, X (13), 16#289b7ec6#, S31); -- 41
440 HH (DD, AA, BB, CC, X (00), 16#eaa127fa#, S32); -- 42
441 HH (CC, DD, AA, BB, X (03), 16#d4ef3085#, S33); -- 43
442 HH (BB, CC, DD, AA, X (06), 16#04881d05#, S34); -- 44
444 HH (AA, BB, CC, DD, X (09), 16#d9d4d039#, S31); -- 45
445 HH (DD, AA, BB, CC, X (12), 16#e6db99e5#, S32); -- 46
446 HH (CC, DD, AA, BB, X (15), 16#1fa27cf8#, S33); -- 47
447 HH (BB, CC, DD, AA, X (02), 16#c4ac5665#, S34); -- 48
449 -- Round 4
451 II (AA, BB, CC, DD, X (00), 16#f4292244#, S41); -- 49
452 II (DD, AA, BB, CC, X (07), 16#432aff97#, S42); -- 50
453 II (CC, DD, AA, BB, X (14), 16#ab9423a7#, S43); -- 51
454 II (BB, CC, DD, AA, X (05), 16#fc93a039#, S44); -- 52
456 II (AA, BB, CC, DD, X (12), 16#655b59c3#, S41); -- 53
457 II (DD, AA, BB, CC, X (03), 16#8f0ccc92#, S42); -- 54
458 II (CC, DD, AA, BB, X (10), 16#ffeff47d#, S43); -- 55
459 II (BB, CC, DD, AA, X (01), 16#85845dd1#, S44); -- 56
461 II (AA, BB, CC, DD, X (08), 16#6fa87e4f#, S41); -- 57
462 II (DD, AA, BB, CC, X (15), 16#fe2ce6e0#, S42); -- 58
463 II (CC, DD, AA, BB, X (06), 16#a3014314#, S43); -- 59
464 II (BB, CC, DD, AA, X (13), 16#4e0811a1#, S44); -- 60
466 II (AA, BB, CC, DD, X (04), 16#f7537e82#, S41); -- 61
467 II (DD, AA, BB, CC, X (11), 16#bd3af235#, S42); -- 62
468 II (CC, DD, AA, BB, X (02), 16#2ad7d2bb#, S43); -- 63
469 II (BB, CC, DD, AA, X (09), 16#eb86d391#, S44); -- 64
471 C.A := C.A + AA;
472 C.B := C.B + BB;
473 C.C := C.C + CC;
474 C.D := C.D + DD;
476 end Transform;
478 ------------
479 -- Update --
480 ------------
482 procedure Update
483 (C : in out Context;
484 Input : String)
486 Inp : constant String := C.Buffer (1 .. C.Last) & Input;
487 Cur : Positive := Inp'First;
489 begin
490 C.Length := C.Length + Input'Length;
492 while Cur + 63 <= Inp'Last loop
493 Transform (C, Inp (Cur .. Cur + 63));
494 Cur := Cur + 64;
495 end loop;
497 C.Last := Inp'Last - Cur + 1;
498 C.Buffer (1 .. C.Last) := Inp (Cur .. Inp'Last);
499 end Update;
501 procedure Update
502 (C : in out Context;
503 Input : Ada.Streams.Stream_Element_Array)
505 subtype Stream_Array is Ada.Streams.Stream_Element_Array (Input'Range);
506 subtype Stream_String is
507 String (1 + Integer (Input'First) .. 1 + Integer (Input'Last));
509 function To_String is new Ada.Unchecked_Conversion
510 (Stream_Array, Stream_String);
512 String_Input : constant String := To_String (Input);
513 begin
514 Update (C, String_Input);
515 end Update;
517 -----------------
518 -- Wide_Digest --
519 -----------------
521 function Wide_Digest (W : Wide_String) return Message_Digest is
522 C : Context;
523 begin
524 Wide_Update (C, W);
525 return Digest (C);
526 end Wide_Digest;
528 -----------------
529 -- Wide_Update --
530 -----------------
532 procedure Wide_Update
533 (C : in out Context;
534 Input : Wide_String)
536 String_Input : String (1 .. 2 * Input'Length);
537 Cur : Positive := 1;
539 begin
540 for Index in Input'Range loop
541 String_Input (Cur) :=
542 Character'Val
543 (Unsigned_32 (Wide_Character'Pos (Input (Index))) and 16#FF#);
544 Cur := Cur + 1;
545 String_Input (Cur) :=
546 Character'Val
547 (Shift_Right (Unsigned_32 (Wide_Character'Pos (Input (Index))), 8)
548 and 16#FF#);
549 Cur := Cur + 1;
550 end loop;
552 Update (C, String_Input);
553 end Wide_Update;
555 end GNAT.MD5;