9
int check_signature(int hash, slice signature, int public_key)
12
;; () throw_if(int excno, int cond) impure
15
cell get_data() asm "c4 PUSH";
16
() set_data(cell c) impure asm "c4 POP";
17
() accept_message() impure asm "ACCEPT";
19
slice begin_parse(cell c) asm "CTOS";
20
() end_parse(slice s) impure asm "ENDS";
21
(slice, cell) load_ref(slice s) asm( -> 1 0) "LDREF";
22
;; (slice, int) load_int(slice s, int len) asm(s len -> 1 0) "LDIX";
23
;; (slice, int) load_uint(slice s, int len) asm( -> 1 0) "LDUX";
24
;; int .preload_int(slice s, int len) asm "PLDIX";
25
;; int .preload_uint(slice s, int len) asm "PLDUX";
26
(slice, slice) load_bits(slice s, int len) asm(s len -> 1 0) "LDSLICEX";
27
;; slice .preload_bits(slice s, int len) asm "PLDSLICEX";
28
cell set_idict_ref(cell dict, int key_len, int index, cell value) asm(value index dict key_len) "DICTISETREF";
29
builder begin_cell() asm "NEWC";
30
builder store_ref(builder b, cell c) asm(c b) "STREF";
31
;;builder .store_uint(builder b, int x, int len) asm(x b len) "STUX";
32
;;builder .store_int(builder b, int x, int len) asm(x b len) "STIX";
33
cell .end_cell(builder b) asm "ENDC";
35
;; Simple configuration smart contract
37
() recv_internal(cell in_msg) impure {
38
;; do nothing for internal messages
41
() recv_external(cell in_msg) impure {
42
var (cs0, signature) = load_bits(begin_parse(in_msg), 512);
43
var (cs, msg_seqno) = load_uint(cs0, 32);
44
(cs, var valid_until) = load_uint(cs, 32);
45
throw_if(35, valid_until < now());
46
var (cs2, cfg_dict) = load_ref(begin_parse(get_data()));
47
(cs2, var stored_seqno) = load_uint(cs2, 32);
48
(cs2, var public_key) = load_uint(cs2, 256);
50
throw_unless(33, msg_seqno == stored_seqno);
51
throw_unless(34, check_signature(slice_hash(cs0), signature, public_key));
53
(cs, var param_index) = load_uint(cs, 32);
54
(cs, var param_value) = load_ref(cs);
56
set_data(begin_cell().store_ref(cfg_dict.set_idict_ref(32, param_index, param_value))
57
.store_uint(stored_seqno + 1, 32).store_uint(public_key, 256).end_cell());