urbit/pkg/arvo/lib/bitcoin.hoon

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:: bitcoin.hoon
:: top-level Bitcoin constants
:: expose BIP libraries
::
/- sur=bitcoin
/+ bech32=bip-b173, pbt=bip-b174, bcu=bitcoin-utils, bip-b158
=, sur
=, bcu
|%
++ overhead-weight ^-(vbytes 11)
++ input-weight
|= =bipt
^- vbytes
?- bipt
%44 148
%49 91
%84 68
==
++ output-weight
|= =bipt
^- vbytes
?- bipt
%44 34
%49 32
%84 31
==
::
++ xpub-type
|= =xpub
^- [=bipt =network]
=/ prefix=tape (scag 4 (trip xpub))
?: =("tpub" prefix) [%44 %testnet]
?: =("upub" prefix) [%49 %testnet]
?: =("vpub" prefix) [%84 %testnet]
?: =("xpub" prefix) [%44 %main]
?: =("ypub" prefix) [%49 %main]
?: =("zpub" prefix) [%84 %main]
~|("invalid xpub: {<xpub>}" !!)
::
:: adr: address manipulation
::
++ adr
|%
++ get-bipt
|= a=address
^- bipt
=/ spk=hexb (to-script-pubkey:adr a)
?: =(25 wid.spk) %44
?: =(23 wid.spk) %49
?: =(22 wid.spk) %84
?: =(34 wid.spk) %84
~|("Invalid address" !!)
::
++ to-cord
|= a=address ^- cord
?: ?=([%base58 *] a)
(scot %uc +.a)
+.a
::
++ from-pubkey
|= [=bipt =network pubkey=hexb]
^- address
?- bipt
%44
:- %base58
=< ^-(@uc dat)
%- cat:byt
:- ?- network
%main 1^0x0
%testnet 1^0x6f
==
~[(hash-160 pubkey)]
::
%49
:- %base58
=< ^-(@uc dat)
%- cat:byt
:~ ?- network
%main 1^0x5
%testnet 1^0xc4
==
%- hash-160
(cat:byt ~[2^0x14 (hash-160 pubkey)])
==
::
%84
:- %bech32
(need (encode-pubkey:bech32 network pubkey))
==
::
++ from-cord
|= addrc=@t
|^
=/ addrt=tape (trip addrc)
^- address
?: (is-base58 addrt)
[%base58 `@uc`(scan addrt fim:ag)]
?: (is-bech32 addrt)
[%bech32 addrc]
~|("Invalid address: {<addrc>}" !!)
::
++ is-base58
|= at=tape
^- ?
?| =("m" (scag 1 at))
=("1" (scag 1 at))
=("3" (scag 1 at))
=("2" (scag 1 at))
==
::
++ is-bech32
|= at=tape
^- ?
?| =("bc1" (scag 3 at))
=("tb1" (scag 3 at))
==
--
::
++ to-script-pubkey
|= =address
^- hexb
?- -.address
%bech32
=+ h=(from-address:bech32 +.address)
%- cat:byt
:~ 1^0x0
1^wid.h
h
==
::
%base58
=/ h=hexb [21 `@ux`+.address]
=+ lead-byt=dat:(take:byt 1 h)
=/ version-network=[bipt network]
?: =(0x0 lead-byt) [%44 %main]
?: =(0x6f lead-byt) [%44 %testnet]
?: =(0x5 lead-byt) [%49 %main]
?: =(0xc4 lead-byt) [%49 %testnet]
~|("Invalid base58 address: {<+.address>}" !!)
%- cat:byt
?: ?=(%44 -.version-network)
:~ 3^0x76.a914
(drop:byt 1 h)
2^0x88ac
==
:~ 2^0xa914
(drop:byt 1 h)
1^0x87
==
==
--
::
:: +txu: transaction utility core
:: - primarily used for calculating txids
:: - ignores signatures in inputs
::
++ txu
|%
++ en
|%
++ input
|= i=input:tx
^- hexb
%- cat:byt
:~ (flip:byt txid.i)
(flip:byt 4^pos.i)
?~ script-sig.i 1^0x0
%- cat:byt
~[(en:csiz wid.u.script-sig.i) u.script-sig.i]
(flip:byt sequence.i)
==
::
++ output
|= o=output:tx
^- hexb
%- cat:byt
:~ (flip:byt 8^value.o)
1^wid.script-pubkey.o
script-pubkey.o
==
--
::
++ de
|%
++ nversion
|= b=hexb
^- [nversion=@ud rest=hexb]
:- dat:(flip:byt (take:byt 4 b))
(drop:byt 4 b)
::
++ segwit
|= b=hexb
^- [segwit=(unit @ud) rest=hexb]
?. =(1^0x0 (take:byt 1 b))
[~ b]
:- [~ dat:(take:byt 2 b)]
(drop:byt 2 b)
::
++ script-sig
|= b=hexb
^- [sig=hexb rest=hexb]
=^ siglen=hexb b (de:csiz b)
:- (take:byt dat.siglen b)
(drop:byt dat.siglen b)
::
++ sequence
|= b=hexb
^- [seq=hexb rest=hexb]
[(flip:byt (take:byt 4 b)) (drop:byt 4 b)]
::
++ inputs
|= b=hexb
^- [is=(list input:tx) rest=hexb]
|^
=| acc=(list input:tx)
=^ count b (dea:csiz b)
|-
?: =(0 count) [acc b]
=^ i b (input b)
$(acc (snoc acc i), count (dec count))
::
++ input
|= b=hexb
^- [i=input:tx rest=hexb]
=/ txid (flip:byt (take:byt 32 b))
=/ pos dat:(flip:byt (take:byt 4 (drop:byt 32 b)))
=^ sig=hexb b (script-sig (drop:byt 36 b))
=^ seq=hexb b (sequence b)
:_ b
[txid pos seq ?:((gth wid.sig 0) `sig ~) ~ 0]
--
::
++ outputs
|= b=hexb
^- [os=(list output:tx) rest=hexb]
=| acc=(list output:tx)
=^ count b (dea:csiz b)
|-
?: =(0 count) [acc b]
=/ value (flip:byt (take:byt 8 b))
=^ scriptlen b (dea:csiz (drop:byt 8 b))
%= $
acc %+ snoc acc
:- (take:byt scriptlen b)
dat.value
b (drop:byt scriptlen b)
count (dec count)
==
--
:: +basic-encode: encodes data in a format suitable for hashing
::
++ basic-encode
|= =data:tx
^- hexb
%- cat:byt
%- zing
:~ ~[(flip:byt 4^nversion.data)]
~[(en:csiz (lent is.data))]
(turn is.data input:en)
~[(en:csiz (lent os.data))]
(turn os.data output:en)
~[(flip:byt 4^locktime.data)]
==
++ get-id
|= =data:tx
^- hexb
%- flip:byt
%- dsha256
(basic-encode data)
::
++ decode
|= b=hexb
^- data:tx
=^ nversion b
(nversion:de b)
=^ segwit b
(segwit:de b)
=^ inputs b
(inputs:de b)
=^ outputs b
(outputs:de b)
=/ locktime=@ud
dat:(take:byt 4 (flip:byt b))
[inputs outputs locktime nversion segwit]
--
--