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ton/crypto/fift/lib/TonUtil.fif
Andrey Tvorozhkov c1f281d814
Add addr@+ / addr@ functions to parse addr from slice (#366) 
Add addr@ to parse `addr_none$00` / `addr_extern$01` / `addr_std$10` / `addr_var$11` from slice.

Tests:

```
<b b{00} s, b> <s addr@  ."addr_none$00 parsed: " print-addr cr  // addr_none$00
<b b{01} s, 10 9 u, b{1101010101} s, b> <s addr@ ."addr_extern$01 parsed: " print-addr cr // addr_extern$01
<b b{10} s, b{1} s, 10 30 u, b{1111111111} s, -1 8 i, x{8000000000000000000000000000000000000000000000000000000000000000} s, b> <s addr@ ."addr_std$10 with Anycast parsed: " print-addr  cr // addr_std$10 with Anycast
<b b{10} s, b{0} s, -1 8 i, x{8000000000000000000000000000000000000000000000000000000000000000} s, b> <s addr@ ."addr_std$10 without Anycast parsed: " print-addr cr // addr_std$10 without Anycast
<b b{11} s, b{1} s, 10 30 u, b{1111111111} s, 256 9 u, -10 32 i, x{8000000000000000000000000000000000000000000000000000000000000000} s, b> <s addr@ ."addr_var$11 with Anycast parsed: " print-addr cr // addr_var$11
<b b{11} s, b{0} s, 256 9 u, -10 32 i, x{8000000000000000000000000000000000000000000000000000000000000000} s, b> <s addr@ ."addr_var$10 with Anycast parsed: " print-addr cr // addr_var$11
```
2022-08-15 18:35:27 +03:00

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library TonUtil // TON Blockchain Fift Library
"Lists.fif" include
-1 constant Masterchain
0 constant Basechain
// parse workchain id
// ( S -- workchain )
{ (number) 1- abort"workchain id must be an integer"
dup 32 fits not abort"workchain id must fit in 32 bits"
} : parse-workchain-id
{ (number) 1- abort"integer expected" } : parse-int
{ over null? ' swap if drop } : replace-if-null
// Private key load/generate
// ( fname -- pubkey privkey )
{ dup ."Loading private key from file " type cr
file>B dup Blen 32 <> abort"Private key must be exactly 32 bytes long"
dup priv>pub swap
} : load-keypair
// ( fname -- pubkey privkey )
{ dup file-exists?
{ load-keypair }
{ dup newkeypair swap rot over swap B>file
rot ."Saved new private key to file " type cr
} cond
} : load-generate-keypair
// Parse smart-contract address
// ( S -- workchain addr bounce? )
{ $>smca not abort"invalid smart-contract address"
1 and 0=
} : parse-smc-addr
// ( x -- ) Displays a 64-digit hex number
{ 64 0x. } : 64x.
{ 64 0X. } : 64X.
// ( wc addr -- ) Show address in <workchain>:<account> form
{ swap ._ .":" 64x. } : .addr
// ( wc addr flags -- ) Show address in base64url form
{ smca>$ type } : .Addr
// ( wc addr fname -- ) Save address to file in 36-byte format
{ -rot 256 u>B swap 32 i>B B+ swap B>file } : save-address
// ( wc addr fname -- ) Save address and print message
{ dup ."(Saving address to file " type .")" cr save-address
} : save-address-verbose
// ( fname -- wc addr ) Load address from file
{ file>B 32 B|
dup Blen { 32 B>i@ } { drop Basechain } cond
swap 256 B>u@
} : load-address
// ( fname -- wc addr ) Load address from file and print message
{ dup ."(Loading address from file " type .")" cr load-address
} : load-address-verbose
// Parse string as address or load address from file (if string is prefixed by @)
// ( S default-bounce -- workchain addr bounce? )
{ over $len 0= abort"empty smart-contract address"
swap dup 1 $| swap "@" $=
{ nip load-address rot } { drop nip parse-smc-addr } cond
} : parse-load-address
// ( hex-str -- addr ) Parses ADNL address
{ dup $len 64 <> abort"ADNL address must consist of exactly 64 hexadecimal characters"
(hex-number) 1 <> abort"ADNL address must consist of 64 hexadecimal characters"
dup 256 ufits not abort"invalid ADNL address"
} : parse-adnl-address
// ( b wc addr -- b' ) Serializes address into Builder b
{ -rot 8 i, swap 256 u, } : addr,
{ over 8 fits { rot b{100} s, -rot addr, } {
rot b{110} s, 256 9 u, rot 32 i, swap 256 u, } cond
} : Addr,
// Gram utilities
1000000000 constant Gram
{ Gram swap */r } : Gram*/
{ Gram * } : Gram*
{ (number) dup { 1- ' Gram*/ ' Gram* cond true } if
} : $>GR?
// ( S -- nanograms )
{ $>GR? not abort"not a valid Gram amount"
} : $>GR
{ bl word $>GR 1 'nop } ::_ GR$
// ( nanograms -- S )
{ dup abs <# ' # 9 times char . hold #s rot sign #>
nip -trailing0 } : (.GR)
{ (.GR) ."GR$" type } : .GR_
{ .GR_ space } : .GR
// b x -- b' ( serializes a Gram amount )
{ -1 { 1+ 2dup 8 * ufits } until
rot over 4 u, -rot 8 * u, } : Gram,
// s -- x s' ( deserializes a Gram amount )
{ 4 u@+ swap 8 * u@+ } : Gram@+
// s -- x
{ 4 u@+ swap 8 * u@ } : Gram@
// currency collections
// b x --> b' ( serializes a VarUInteger32 )
{ -1 { 1+ 2dup 8 * ufits } until
rot over 5 u, -rot 8 * u, } : VarUInt32,
// s --> x ( deserializes a VarUInteger32 )
{ 5 u@+ swap 8 * u@ } : VarUInt32@
32 constant cc-key-bits
' VarUInt32, : val,
' VarUInt32@ : val@
// d k v -- d'
{ <b swap val, b> <s swap rot cc-key-bits idict!+ not abort"cannot add key-value to CurrencyCollection"
} : +newccpair
{ dup { -rot tuck swap cc-key-bits idict@- { val@ 2swap -rot + } { swap rot } cond +newccpair
} { 2drop } cond
} : +ccpair
dictnew constant cc0 // zero currency collection
// ( v k -- d ) Creates currency collection representing v units of currency k
{ cc0 swap rot +ccpair } : of-cc
{ dictnew { over null? not } { swap uncons -rot unpair +ccpair } while nip } : list>cc
{ dup null? { ."(null)" drop } { val@ ._ } cond } dup : .maybeVarUInt32 : .val
{ swap cc-key-bits { rot { ."+" } if .val ."*$" ._ true true } idictforeach drop } : (.cc)
{ false (.cc) { ."0" } ifnot } : .cc_
{ .cc_ space } : .cc
{ true (.cc) drop } : .+cc_
{ .+cc_ space } : .+cc
{ cc-key-bits { rot . ."-> " swap .val .val ."; " true } dictdiff drop cr } : show-cc-diff
{ cc-key-bits { val@ swap val@ + val, true } dictmerge } : cc+
{ null swap cc-key-bits { val@ pair swap cons true } idictforeach drop } : cc>list-rev
{ cc>list-rev list-reverse } : cc>list
forget val, forget val@ forget .val
// ( S -- x -1 or 0 )
{ (number) dup 2 = { -rot 2drop } if 1 = } : int?
{ int? dup { drop dup 0< { drop false } { true } cond } if } : pos-int?
// ( S -- k v -1 or 0 ) Parses expression <value>*<currency> or <value>*$<currency>
{ dup "*" $pos dup 0< { 2drop false } {
$| dup $len 2 < { 2drop false } {
1 $| nip dup 1 $| swap "$" $= { swap } if drop
int? dup { over 32 fits { 2drop false } ifnot } if
not { drop false } {
swap pos-int? not { drop false } {
true
} cond } cond } cond } cond
} : cc-key-value?
// ( S -- D -1 or 0 ) Parses an extra currency collection
// e.g. "10000*$3+7777*$-11" means "10000 units of currency #3 and 7777 units of currency #-11"
{ dictnew { // S D
swap dup "+" $pos dup 0< { drop null -rot } { $| 1 $| nip -rot } cond
cc-key-value? { +ccpair over null? dup { rot drop true } if } { 2drop false true } cond
} until
} : $>xcc?
{ $>xcc? not abort"invalid extra currency collection" } : $>xcc
{ char } word dup $len { $>xcc } { drop dictnew } cond 1 'nop } ::_ CX{
// complete currency collections
{ $>xcc? { true } { drop false } cond } : end-parse-cc
// ( S -- x D -1 or 0 ) Parses a currency collection
// e.g. "1.2+300*$2" means "1200000000ng plus 300 units of currency #2"
{ 0 swap dup "+" $pos dup 0< { drop dup
$>GR? { nip nip dictnew true } { end-parse-cc } cond
} { over swap $| swap $>GR? { 2swap 2drop swap 1 $| nip } { drop
} cond end-parse-cc } cond
} : $>cc?
{ $>cc? not abort"invalid currency collection" } : $>cc
{ char } word dup $len { $>cc } { drop 0 dictnew } cond 2 'nop } ::_ CC{
// ( x D -- )
{ swap ?dup { .GR_ .+cc_ } { .cc_ } cond } : .GR+cc_
{ .GR+cc_ space } : .GR+cc
{ -rot Gram, swap dict, } : Gram+cc,
// Libraries
// ( -- D ) New empty library collection
' dictnew : Libs{
// ( D -- D ) Return library collection as dictionary
'nop : }Libs
// ( D c x -- D' ) Add a public/private library c to collection D
{ <b swap 1 u, over ref, b> <s swap hash rot 256 udict!+
0= abort"duplicate library in collection" } : lib+
// ( D c -- D' ) Add private library c to collection D
{ 0 lib+ } : private_lib
// ( D c -- D' ) Add public library c to collection D
{ 1 lib+ } : public_lib
// serialize simple transfers with long comments
// b B n -- b'
recursive append-long-bytes {
over Blen over <= { drop B, } {
B| <b swap 127 append-long-bytes b> -rot B, swap ref,
} cond
} swap !
// b S n -- b'
{ swap $>B swap append-long-bytes } : append-long-string
// S -- c
{ <b over $len { 0 32 u, swap 36 append-long-string } { nip } cond b>
} : simple-transfer-body
// ( S -- x ) parse public key
{ dup $len 48 <> abort"public key must be 48 characters long"
base64url>B dup Blen 36 <> abort"public key must be 48 characters long"
34 B| 16 B>u@ over crc16 <> abort"crc16 mismatch in public key"
16 B>u@+ 0x3ee6 <> abort"invalid tag in public key"
256 B>u@
} : parse-pubkey
{ bl word parse-pubkey 1 'nop } ::_ PK'
// ( x -- S ) serialize public key
{ 256 u>B B{3ee6} swap B+ dup crc16 16 u>B B+ B>base64 } : pubkey>$
{ pubkey>$ type } : .pubkey
// ( S -- x ) parse validator-encoded public key
{ base64>B dup Blen 36 <> abort"public key with magic must be 36 bytes long"
4 B| swap 32 B>u@ 0xC6B41348 <> abort"unknown magic for public key (not Ed25519)"
} : parse-val-pubkey
{ bl word parse-val-pubkey 1 'nop } ::_ VPK'
{ char } word base64>B 1 'nop } ::_ B64{
// adnl address parser
{ 256 u>B B{2D} swap B+ dup crc16 16 u>B B+ } : adnl-preconv
{ swap 32 /mod dup 26 < { 65 } { 24 } cond + rot swap hold } : Base32#
{ <# ' Base32# 8 times #> } : Base32#*8
{ "" over Blen 5 / { swap 40 B>u@+ Base32#*8 nip rot swap $+ } swap times nip } : B>Base32
// ( x -- S ) Converts an adnl-address from a 256-bit integer to a string
{ adnl-preconv B>Base32 1 $| nip } : adnl>$
{ 65 - dup 0>= { -33 and dup 26 < } { 41 + dup 25 > over 32 < and } cond ?dup nip } : Base32-digit?
{ Base32-digit? not abort"not a Base32 digit" } : Base32-digit
{ 0 { over $len } { swap 1 $| -rot (char) Base32-digit swap 5 << + } while nip } : Base32-number
{ B{} { over $len } { swap 8 $| -rot Base32-number 40 u>B B+ } while nip } : Base32>B
// ( S -- x ) Converts an adnl address from a string to 256-bit integer
{ dup $len 55 <> abort"not 55 alphanumeric characters" "F" swap $+ Base32>B
33 B| 16 B>u@ over crc16 <> abort"crc16 checksum mismatch"
8 B>u@+ 0x2D <> abort"not a valid adnl address" 256 B>u@ } : $>adnl
{ 65 - dup 0>= { -33 and 10 + dup 16 < } { 17 + dup 0>= over 10 < and } cond ?dup nip } : hex-digit?
// ( S -- x -1 or 0 ) Parses a hexadecimal integer
{ dup $len {
0 {
4 << swap 1 $| -rot (char) hex-digit? // S a d -1 or S a 0
{ + over $len 0= } { drop -1 true } cond
} until
dup 0< { 2drop false } { nip true } cond
} { drop false } cond
} : hex$>u?
// ( S -- x )
{ hex$>u? not abort"not a hexadecimal number" } : hex$>u
{ dup $len 64 = { hex$>u } {
dup $len 55 = { $>adnl } {
true abort"invalid adnl address"
} cond } cond
} : parse-adnl-addr
{ adnl>$ type } : .adnl
{ bl word parse-adnl-addr 1 'nop } ::_ adnl:
// ( x a b -- a<=x<=b )
{ 2 pick >= -rot >= and } : in-range?
// ( c i -- ? ) Checks whether c is a valid value for config param #i
def? config-valid? {
{ nip 0>= { ."warning: cannot check validity of configuration parameter value, use create-state instead of fift to check validity" cr } if
true } : config-valid?
} ifnot
{ dup -1000 = { drop <s ref@ <s 12 u@ 0xFF0 = } {
dup -1001 = { drop <s ref@ <s 12 u@ 0xFF0 = } {
over null? { 2drop true } {
config-valid?
} cond } cond } cond
} : is-valid-config?
// Get anycast depth / rewrite_pfx or return 0
// ( S -- x y S )
{
// maybe
1 u@+ swap 0 >
{
// anycast_info$_ depth:(#<= 30) { depth >= 1 }
// rewrite_pfx:(bits depth) = Anycast;
30 u@+ swap // get depth
dup 1 > {
dup 2 roll swap u@+ // get rewrite_pfx
// return depth, rewrite_pfx, slice
}
{
drop // drop depth (<=1)
0 0 2 roll // set anycast to none
} cond
}
{
0 0 2 roll // set anycast to none
} cond
} : maybe-anycast
// Rewrite first bits of addr with anycast info
{ // input: anycast depth, rewrite_pfx, workchain, slice, address length
4 -roll
3 roll dup dup 0 = { 2drop 2 roll drop }
{
rot swap u@+ swap drop
3 roll
<b swap 3 roll u, b> <s swap |+
} cond // rewrite first bits of address with rewrite_pfx
2 roll
u@+ // get address
} : parse-address-with-anycast
// Parse Slice S and return:
// 0 `addr_none S - if addr_none$00 is parsed
// addr `addr_extern S - if addr_extern$01 is parsed
// wc addr `addr_std S - if addr_std$10 is parsed
// wc addr `addr_var S - if addr_var$11 is parsed
// ( S -- 0 A S or addr A S or wc addr A S )
{ 2 u@+ swap dup 0> // Get addr: addr_none$00 / addr_extern$01 / addr_std$10 / addr_var$11
{ // if greater that zero
dup 1 >
{
2 =
{
// if addr_std$10
// anycast:(Maybe Anycast)
// workchain_id:int8
// address:bits256 = MsgAddressInt;
maybe-anycast // get anycast depth, bits, slice
8 i@+ // get workchain
256 parse-address-with-anycast
`addr-std swap
}
{
// if addr_var$11
// anycast:(Maybe Anycast)
// addr_len:(## 9)
// workchain_id:int32
// address:(bits addr_len) = MsgAddressInt;
maybe-anycast // get anycast depth, bits, slice
9 u@+ // get addr_len
32 i@+ // get workchain
swap 2 -roll // move workchain to neede position
swap parse-address-with-anycast
`addr-var swap
} cond
}
{
drop // drop header (dup for statment upper)
// if addr_extern$01
// addr_extern$01 len:(## 9)
// external_address:(bits len)
9 u@+ swap // bit len
u@+ // external_address
`addr-extern swap
} cond
}
{
swap
// if addr_none$00
`addr-none swap
} cond
} : addr@+
{ addr@+ drop } : addr@
// User-friendly prints output of addr@
// (0 A or addr A or wc addr A -- )
{
dup `addr-none eq?
{ 2drop ."addr_none" }
{
`addr-extern eq?
{ (dump) type }
{ (x.) swap (dump) ":" $+ swap $+ type }
cond
}
cond
} : print-addr // print addr with workchain
forget maybe-anycast
forget parse-address-with-anycast
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