sha256.bcpl

get "streams.d"
external
[
// Outgoing procedures
Sha256PartialChunk; Sha256Init; Sha256Chunk;

// Incoming procedures
MulFull; DoubleAdd;
]

//-----------------------------------------------------------------------------------------
let Sha256PartialChunk(a, b) be
//-----------------------------------------------------------------------------------------
// Sha256 requires chunks to be 512 bits (64 bytes, 32 words) long.
// For a partial chunk at address a with total message length b bytes, add the padding to the chunk.
// This does minimal padding for Bitcoin and doesn't handle all lengths
// Assumes b is even
[
   let partialLen = b & 63 // Length of the partial chunk in bytes
   let w = partialLen / 2 // Length of the partial chunk in words
   a!w = #100000 // Append 1 bit
   for i = w + 1 to 30 do a!i = 0 // Clear remainder
   a!31 = b * 8 // Total length in bits
]

//-----------------------------------------------------------------------------------------
// hash = vec 16 of storage for result.
and Sha256Init(hash) be
//-----------------------------------------------------------------------------------------
[
hash!0 = #65011
hash!1 = #163147 // 0x6a09e667
hash!2 = #135547
hash!3 = #127205 // 0xbb67ae85
hash!4 = #36156
hash!5 = #171562 // 0x3c6ef372
hash!6 = #122517
hash!7 = #172472 // 0xa54ff53a
hash!8 = #50416
hash!9 = #51177 // 0x510e527f
hash!10 = #115405
hash!11 = #64214 // 0x9b05688c
hash!12 = #17603
hash!13 = #154653 // 0x1f83d9ab
hash!14 = #55740
hash!15 = #146431 // 0x5be0cd19
]

//-----------------------------------------------------------------------------------------
and Sha256Chunk(hash, chunk) be
//-----------------------------------------------------------------------------------------
[
let w = vec 128 // 64-entry message schedule array
for i = 0 to 31 do w!i = chunk!i // Copy first 16 words of chunk into w
let s0 = vec 2
let s1 = vec 2
for i = 16 to 63 do
[
   // s0 := (w[i-15] rightrotate 7) xor (w[i-15] rightrotate 18) xor (w[i-15] rightshift 3)
   let i0 = 2*i - 30
   let i1 = i0 + 1
   s0!0 = (w!i0 rshift 7 + w!i1 lshift 9) xor (w!i0 lshift 14 + w!i1 rshift 2) xor (w!i0 rshift 3)
   s0!1 = (w!i1 rshift 7 + w!i0 lshift 9) xor (w!i1 lshift 14 + w!i0 rshift 2) xor (w!i1 rshift 3 + w!i0 lshift 13)

   // s1 := (w[i-2] rightrotate 17) xor (w[i-2] rightrotate 19) xor (w[i-2] rightshift 10)
   i0 = 2*i - 4
   i1 = i0 + 1
   s1!0 = (w!i0 lshift 15 + w!i1 rshift 1) xor (w!i0 lshift 13 + w!i1 rshift 3) xor (w!i0 rshift 10)
   s1!1 = (w!i1 lshift 15 + w!i0 rshift 1) xor (w!i1 lshift 13 + w!i0 rshift 3) xor (w!i1 rshift 10 + w!i0 lshift 6)

   // w[i] := w[i-16] + s0 + w[i-7] + s1
   w!(2*i) = w!(2*i-32)
   w!(2*i+1) = w!(2*i-31)
   DoubleAdd(w + 2*i, s0)
   DoubleAdd(w + 2*i, w + 2*i - 14)
   DoubleAdd(w + 2*i, s1)
]

let a = vec 2
let b = vec 2
let c = vec 2
let d = vec 2
let e = vec 2
let f = vec 2
let g = vec 2
let h = vec 2

let k = table [ #41212; #27630; // 0x428a2f98
   #70467; #42221; // 0x71374491
   #132700; #175717; // 0xb5c0fbcf
   #164665; #155645; // 0xe9b5dba5
   #34526; #141133; // 0x3956c25b
   #54761; #10761; // 0x59f111f1
   #111077; #101244; // 0x923f82a4
   #125434; #57325; // 0xab1c5ed5
   #154007; #125230; // 0xd807aa98
   #11203; #55401; // 0x12835b01
   #22061; #102676; // 0x243185be
   #52414; #76703; // 0x550c7dc3
   #71276; #56564; // 0x72be5d74
   #100336; #130776; // 0x80deb1fe
   #115734; #3247; // 0x9bdc06a7
   #140633; #170564; // 0xc19bf174
   #162233; #64701; // 0xe49b69c1
   #167676; #43606; // 0xefbe4786
   #7701; #116706; // 0x0fc19dc6
   #22014; #120714; // 0x240ca1cc
   #26751; #26157; // 0x2de92c6f
   #45164; #102252; // 0x4a7484aa
   #56260; #124734; // 0x5cb0a9dc
   #73371; #104332; // 0x76f988da
   #114076; #50522; // 0x983e5152
   #124061; #143155; // 0xa831c66d
   #130003; #23710; // 0xb00327c8
   #137531; #77707; // 0xbf597fc7
   #143340; #5763; // 0xc6e00bf3
   #152647; #110507; // 0xd5a79147
   #3312; #61521; // 0x06ca6351
   #12051; #24547; // 0x14292967
   #23667; #5205; // 0x27b70a85
   #27033; #20470; // 0x2e1b2138
   #46454; #66774; // 0x4d2c6dfc
   #51470; #6423; // 0x53380d13
   #62412; #71524; // 0x650a7354
   #73152; #5273; // 0x766a0abb
   #100702; #144456; // 0x81c2c92e
   #111162; #26205; // 0x92722c85
   #121277; #164241; // 0xa2bfe8a1
   #124032; #63113; // 0xa81a664b
   #141113; #105560; // 0xc24b8b70
   #143554; #50643; // 0xc76c51a3
   #150622; #164031; // 0xd192e819
   #153231; #3044; // 0xd6990624
   #172016; #32605; // 0xf40e3585
   #10152; #120160; // 0x106aa070
   #14644; #140426; // 0x19a4c116
   #17067; #66010; // 0x1e376c08
   #23510; #73514; // 0x2748774c
   #32260; #136265; // 0x34b0bcb5
   #34434; #6263; // 0x391c0cb3
   #47330; #125112; // 0x4ed8aa4a
   #55634; #145117; // 0x5b9cca4f
   #64056; #67763; // 0x682e6ff3
   #72217; #101356; // 0x748f82ee
   #74245; #61557; // 0x78a5636f
   #102310; #74024; // 0x84c87814
   #106307; #1010; // 0x8cc70208
   #110276; #177772; // 0x90befffa
   #122120; #66353; // 0xa4506ceb
   #137371; #121767; // 0xbef9a3f7
   #143161; #74362; ] // 0xc67178f2

a!0 = hash!0 // h0
a!1 = hash!1
b!0 = hash!2 // h1
b!1 = hash!3
c!0 = hash!4 // h2
c!1 = hash!5
d!0 = hash!6 // h3
d!1 = hash!7
e!0 = hash!8 // h4
e!1 = hash!9
f!0 = hash!10 // h5
f!1 = hash!11
g!0 = hash!12 // h6
g!1 = hash!13
h!0 = hash!14 // h7
h!1 = hash!15

let S1 = vec 2
let ch = vec 2
let temp1 = vec 2
let S0 = vec 2
let maj = vec 2
let temp2 = vec 2
for i = 0 to 63 do
   [
     // S1 := (e rightrotate 6) xor (e rightrotate 11) xor (e rightrotate 25)
     S1!0 = (e!0 rshift 6 + e!1 lshift 10) xor (e!0 rshift 11 + e!1 lshift 5) xor (e!0 lshift 7 + e!1 rshift 9)
     S1!1 = (e!1 rshift 6 + e!0 lshift 10) xor (e!1 rshift 11 + e!0 lshift 5) xor (e!1 lshift 7 + e!0 rshift 9)

     // ch := (e and f) xor ((not e) and g)
     ch!0 = (e!0 & f!0) xor ((not e!0) & g!0)
     ch!1 = (e!1 & f!1) xor ((not e!1) & g!1)

     // temp1 := h + S1 + ch + k[i] + w[i]
     temp1!0 = h!0
     temp1!1 = h!1
     DoubleAdd(temp1, S1)
     DoubleAdd(temp1, ch)
     DoubleAdd(temp1, k + 2*i)
     DoubleAdd(temp1, w + 2*i)

     // S0 := (a rightrotate 2) xor (a rightrotate 13) xor (a rightrotate 22)
     S0!0 = (a!0 rshift 2 + a!1 lshift 14) xor (a!0 rshift 13 + a!1 lshift 3) xor (a!0 lshift 10 + a!1 rshift 6)
     S0!1 = (a!1 rshift 2 + a!0 lshift 14) xor (a!1 rshift 13 + a!0 lshift 3) xor (a!1 lshift 10 + a!0 rshift 6)

     // maj := (a and b) xor (a and c) xor (b and c)
     maj!0 = (a!0 & b!0) xor (a!0 & c!0) xor (b!0 & c!0)
     maj!1 = (a!1 & b!1) xor (a!1 & c!1) xor (b!1 & c!1)

     // temp2 := S0 + maj
     temp2!0 = S0!0
     temp2!1 = S0!1
     DoubleAdd(temp2, maj)

     h!0 = g!0
     h!1 = g!1

     g!0 = f!0
     g!1 = f!1

     f!0 = e!0
     f!1 = e!1

     e!0 = d!0
     e!1 = d!1
     DoubleAdd(e, temp1)

     d!0 = c!0
     d!1 = c!1

     c!0 = b!0
     c!1 = b!1

     b!0 = a!0
     b!1 = a!1

     a!0 = temp1!0
     a!1 = temp1!1
     DoubleAdd(a, temp2)
   ]

   DoubleAdd(hash, a) // h0 += a
   DoubleAdd(hash+2, b) // h1 += b
   DoubleAdd(hash+4, c) // h2 += c
   DoubleAdd(hash+6, d) // h3 += d
   DoubleAdd(hash+8, e) // h4 += e
   DoubleAdd(hash+10, f) // h5 += f
   DoubleAdd(hash+12, g) // h6 += g
   DoubleAdd(hash+14, h) // h7 += h
]