:: lib/bitcoin-utils.hoon :: Utilities for working with BTC data types and transactions :: /- sur=bitcoin =, sur ~% %bitcoin-utils-lib ..part ~ |% :: :: TODO: move this bit/byt stuff to zuse :: bit/byte utilities :: :: :: +blop: munge bit and byt sequences (cat, flip, take, drop) :: ++ blop ~/ %blop |_ =bloq +$ biyts [wid=@ud dat=@] ++ cat |= bs=(list biyts) ^- biyts :- (roll (turn bs |=(b=biyts -.b)) add) (can bloq (flop bs)) :: +flip: flip endianness while preserving lead/trail zeroes :: ++ flip |= b=biyts ^- biyts [wid.b (rev bloq b)] :: +take: take n bloqs from front :: pads front with extra zeroes if n is longer than input :: ++ take |= [n=@ b=biyts] ^- biyts ?: (gth n wid.b) [n dat.b] [n (rsh [bloq (sub wid.b n)] dat.b)] :: +drop: drop n bloqs from front :: returns 0^0 if n >= width :: ++ drop |= [n=@ b=biyts] ^- biyts ?: (gte n wid.b) 0^0x0 =+ n-take=(sub wid.b n) [n-take (end [bloq n-take] dat.b)] -- ++ byt ~(. blop 3) :: ++ bit ~/ %bit =/ bl ~(. blop 0) |% ++ cat cat:bl:bit ++ flip flip:bl:bit ++ take take:bl:bit ++ drop drop:bl:bit ++ from-atoms |= [bitwidth=@ digits=(list @)] ^- bits %- cat:bit %+ turn digits |= a=@ ?> (lte (met 0 a) bitwidth) [bitwidth `@ub`a] :: +to-atoms: convert bits to atoms of bitwidth :: ++ to-atoms |= [bitwidth=@ bs=bits] ^- (list @) =| res=(list @) ?> =(0 (mod wid.bs bitwidth)) |- ?: =(0 wid.bs) res %= $ res (snoc res dat:(take:bit bitwidth bs)) bs (drop:bit bitwidth bs) == -- :: big endian sha256: input and output are both MSB first (big endian) :: ++ sha256 |= =byts ^- hexb %- flip:byt [32 (shay (flip:byt byts))] :: ++ dsha256 |= =byts (sha256 (sha256 byts)) :: ++ hash-160 |= val=byts ^- hexb =, ripemd:crypto :- 20 %- ripemd-160 (sha256 val) :: :: hxb: hex parsing utilities :: ++ hxb ~/ %hxb |% ++ from-cord |= h=@t ^- hexb ?: =('' h) 1^0x0 :: Add leading 00 :: =+ (lsh [3 2] h) :: Group by 4-size block :: =+ (rsh [3 2] -) :: Parse hex to atom :: :: TODO: replace with (met 3 h) :- (div (met 3 h) 2) `@ux`(rash - hex) :: ++ to-cord |= =hexb ^- cord (en:base16:mimes:html hexb) -- :: :: +csiz: CompactSize integers (a Bitcoin-specific datatype) :: https://btcinformation.org/en/developer-reference#compactsize-unsigned-integers :: - encode: big endian to little endian :: - decode: little endian to big endian :: ++ csiz ~/ %csiz |% ++ en |= a=@ ^- hexb =/ l=@ (met 3 a) ?: =(l 1) 1^a ?: =(l 2) (cat:byt ~[1^0xfd (flip:byt 2^a)]) ?: (lte l 4) (cat:byt ~[1^0xfe (flip:byt 4^a)]) ?: (lte l 8) (cat:byt ~[1^0xff (flip:byt 8^a)]) ~|("Cannot encode CompactSize longer than 8 bytes" !!) :: ++ de |= h=hexb ^- [n=hexb rest=hexb] =/ s=@ux dat:(take:byt 1 h) ?: (lth s 0xfd) [1^s (drop:byt 1 h)] ~| "Invalid compact-size at start of {}" =/ len=bloq ?+ s !! %0xfd 1 %0xfe 2 %0xff 3 == :_ (drop:byt (add 1 len) h) %- flip:byt (take:byt (bex len) (drop:byt 1 h)) :: +dea: atom instead of hexb for parsed CompactSize :: ++ dea |= h=hexb ^- [a=@ rest=hexb] => (de h) [dat.n rest] -- --