/- *btc |% :: big endian sha256: input and output are both big endian ++ bsha256 |= =byts ^- @ux %+ swp 3 (shay wid.byts (swp 3 dat.byts)) ++ hash-160 |= pubkey=@ux ^- @ux =, ripemd:crypto %+ ripemd-160 32 %- bsha256 [(met 3 pubkey) pubkey] :: Converts a list of bits to a list of n-bit numbers :: input-bits should be big-endian :: ++ bits |% :: rip atom of bitwidth wordlen. Preserve leading 0s, big endian :: ++ zeros-brip |= [bitwidth=@ a=@] ^- (list @) =/ bits=(list @) (flop (rip 0 a)) =/ r=@ (mod (lent bits) bitwidth) ?: =(0 r) bits :: no remainder, i.e. no leading zeros (weld (reap (sub bitwidth r) 0) bits) :: converts from atom a with bitwidth s to a list of atoms each with bitwidth d :: ++ convert |= [s=@ d=@ a=@] ^- (list @) =| ret=(list @) =/ bits (zeros-brip s a) |- ?~ bits ret =/ dest-bits (scag d ((list @) bits)) :: left-shift the "missing" number of bits =/ num=@ %: lsh 0 (sub d (lent dest-bits)) (rep 0 (flop dest-bits)) == $(ret (snoc ret num), bits (slag d ((list @) bits))) -- :: ++ bech32 |% ++ prefixes ^- (map network tape) (my [[%main "bc"] [%testnet "tb"] ~]) ++ charset "qpzry9x8gf2tvdw0s3jn54khce6mua7l" +$ raw-decoded [hrp=tape data=(list @) checksum=(list @)] :: ++ polymod |= values=(list @) |^ ^- @ =/ gen=(list @ux) ~[0x3b6a.57b2 0x2650.8e6d 0x1ea1.19fa 0x3d42.33dd 0x2a14.62b3] =/ chk=@ 1 |- ?~ values chk =/ top (rsh 0 25 chk) =. chk (mix i.values (lsh 0 5 (dis chk 0x1ff.ffff))) $(values t.values, chk (update-chk chk top gen)) :: ++ update-chk |= [chk=@ top=@ gen=(list @ux)] =/ is (gulf 0 4) |- ?~ is chk ?: =(1 (dis 1 (rsh 0 i.is top))) $(is t.is, chk (mix chk (snag i.is gen))) $(is t.is) -- :: ++ expand-hrp |= hrp=tape ^- (list @) =/ front (turn hrp |=(p=@tD (rsh 0 5 p))) =/ back (turn hrp |=(p=@tD (dis 31 p))) (zing ~[front ~[0] back]) :: ++ verify-checksum |= [hrp=tape data-and-checksum=(list @)] ^- ? %+ |=([a=@ b=@] =(a b)) 1 %- polymod (weld (expand-hrp hrp) data-and-checksum) :: ++ checksum |= [hrp=tape data=(list @)] ^- (list @) :: xor 1 with the polymod =/ pmod=@ %+ mix 1 %- polymod (zing ~[(expand-hrp hrp) data (reap 6 0)]) %+ turn (gulf 0 5) |=(i=@ (dis 31 (rsh 0 (mul 5 (sub 5 i)) pmod))) :: ++ charset-to-value |= c=@tD ^- (unit @) (find ~[c] charset) ++ value-to-charset |= value=@ ^- (unit @tD) ?: (gth value 31) ~ `(snag value charset) :: ++ is-valid |= [bech=tape last-1-pos=@] ^- ? ?& ?|(=((cass bech) bech) =((cuss bech) bech)) :: to upper or to lower is same as bech (gte last-1-pos 1) (lte (add last-1-pos 7) (lent bech)) (lte (lent bech) 90) (levy bech |=(c=@tD (gte c 33))) (levy bech |=(c=@tD (lte c 126))) == :: data should be 5bit words :: ++ encode-raw |= [hrp=tape data=(list @)] ^- tape =/ combined=(list @) (weld data (checksum hrp data)) (zing ~[hrp "1" (tape (murn combined value-to-charset))]) ++ decode-raw |= bech=tape ^- (unit raw-decoded) =. bech (cass bech) :: to lowercase =/ pos (flop (fand "1" bech)) ?~ pos ~ =/ last-1=@ i.pos ?. (is-valid bech last-1) :: check bech32 validity (not segwit validity or checksum) ~ =/ hrp (scag last-1 bech) =/ encoded-data-and-checksum=(list @) (slag +(last-1) bech) =/ data-and-checksum=(list @) %+ murn encoded-data-and-checksum charset-to-value ?. =((lent encoded-data-and-checksum) (lent data-and-checksum)) :: ensure all were in CHARSET ~ ?. (verify-checksum hrp data-and-checksum) ~ =/ checksum-pos (sub (lent data-and-checksum) 6) `[hrp (scag checksum-pos data-and-checksum) (slag checksum-pos data-and-checksum)] :: pubkey is the 33 byte ECC compressed public key ++ encode-pubkey |= [=network pubkey=@ux] ^- (unit tape) ?. =(33 (met 3 pubkey)) ~|('pubkey must be a 33 byte ECC compressed public key' !!) =/ prefix (~(get by prefixes) network) ?~ prefix ~ :- ~ %+ encode-raw u.prefix (weld ~[0] (convert:bits 8 5 (hash-160 pubkey))) -- :: --