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merge into: QPQ-AG/gmbytecode:PT-164629640-add_auth_tx_hash
Branches Tags
QPQ-AG/gmbytecode:master QPQ-AG/gmbytecode:uw-mldsa-crypto QPQ-AG/gmbytecode:bump_gmserialization QPQ-AG/gmbytecode:zomp-3.2.1 QPQ-AG/gmbytecode:zomp QPQ-AG/gmbytecode:call-fee QPQ-AG/gmbytecode:revert-string-compare QPQ-AG/gmbytecode:GH-204-fate-maps-gc-bug QPQ-AG/gmbytecode:lima QPQ-AG/gmbytecode:aens-subdomains QPQ-AG/gmbytecode:gas_measurements QPQ-AG/gmbytecode:aens-at-full-node-ver QPQ-AG/gmbytecode:pt-166866806-claim-with-name-fee QPQ-AG/gmbytecode:PT-164629640-add_auth_tx_hash QPQ-AG/gmbytecode:Run-property-based-tests-as-tests QPQ-AG/gmbytecode:fortuna QPQ-AG/gmbytecode:quickcheck-findings
QPQ-AG/gmbytecode:v3.4.0 QPQ-AG/gmbytecode:v3.3.0 QPQ-AG/gmbytecode:v3.2.0 QPQ-AG/gmbytecode:v3.1.1 QPQ-AG/gmbytecode:v3.1.0 QPQ-AG/gmbytecode:v3.0.0 QPQ-AG/gmbytecode:v2.0.1 QPQ-AG/gmbytecode:v2.0.0 QPQ-AG/gmbytecode:v1.0.0
...
pull from: QPQ-AG/gmbytecode:GH-204-fate-maps-gc-bug
Branches Tags
QPQ-AG/gmbytecode:uw-mldsa-crypto QPQ-AG/gmbytecode:bump_gmserialization QPQ-AG/gmbytecode:master QPQ-AG/gmbytecode:zomp-3.2.1 QPQ-AG/gmbytecode:zomp QPQ-AG/gmbytecode:call-fee QPQ-AG/gmbytecode:revert-string-compare QPQ-AG/gmbytecode:GH-204-fate-maps-gc-bug QPQ-AG/gmbytecode:lima QPQ-AG/gmbytecode:aens-subdomains QPQ-AG/gmbytecode:gas_measurements QPQ-AG/gmbytecode:aens-at-full-node-ver QPQ-AG/gmbytecode:pt-166866806-claim-with-name-fee QPQ-AG/gmbytecode:PT-164629640-add_auth_tx_hash QPQ-AG/gmbytecode:Run-property-based-tests-as-tests QPQ-AG/gmbytecode:fortuna QPQ-AG/gmbytecode:quickcheck-findings
QPQ-AG/gmbytecode:v3.4.0 QPQ-AG/gmbytecode:v3.3.0 QPQ-AG/gmbytecode:v3.2.0 QPQ-AG/gmbytecode:v3.1.1 QPQ-AG/gmbytecode:v3.1.0 QPQ-AG/gmbytecode:v3.0.0 QPQ-AG/gmbytecode:v2.0.1 QPQ-AG/gmbytecode:v2.0.0 QPQ-AG/gmbytecode:v1.0.0

105 Commits
PT-164629640-add_auth_tx_hash ... GH-204-fate-maps-gc-bug

Author SHA1 Message Date
Ulf Norell 4228605470 Set store map size theshold to 0 ifdef TEST 2020-02-03 11:39:48 +01:00
Hans Svensson 059d114a06 Merge pull request #88 from aeternity/GH-2850-add_fancy_crypto_bls12_381 
Add FATE-ops for BLS12-381
 2019-11-29 15:27:13 +01:00
Hans Svensson e4b09d7c5c Add FATE-ops for BLS12-381 2019-11-27 09:06:20 +01:00
skkw b040dccdef Merge pull request #87 from aeternity/PT-158904718-aens-update-sophia 
fixed documenting of AENS_UPDATE type
 2019-11-18 16:20:16 +01:00
skkw 211ee74df2 fixed documenting of AENS_UPDATE type 2019-11-18 16:00:36 +01:00
skkw 38f4f0ecd7 Merge pull request #81 from aeternity/PT-158904718-aens-update-sophia 
add support for AENS.update call
 2019-11-12 14:17:11 +01:00
Hans Svensson 281e9b210c Merge pull request #86 from aeternity/GH-2942-bytes_is_also_a_type 
TYPE_BYTES was missing in IS_TYPE_TAG
 2019-10-25 11:39:33 +02:00
Hans Svensson 3e7a8e4a69 TYPE_BYTES was missing in IS_TYPE_TAG 2019-10-25 11:30:47 +02:00
Ulf Norell ea5548be6c Merge pull request #84 from aeternity/store-gas 
Store gas
 2019-10-01 13:11:39 +02:00
Ulf Norell 48cfbd03b0 Recalibrate the store map threshold 
Now that we charge gas for store writes the math is changed.
 2019-10-01 10:52:54 +02:00
Ulf Norell 04878c5ed9 Add function to compute the byte size of a heap_value 
Used to compute store gas cost in AEVM
 2019-10-01 10:52:09 +02:00
Ulf Norell 4f4d6d30cd Merge pull request #83 from aeternity/address-to-contract-instruction 
Add ADDRESS_TO_CONTRACT
 2019-09-30 13:50:22 +02:00
Ulf Norell 176df87bb0 Add ADDRESS_TO_CONTRACT 2019-09-30 13:14:11 +02:00
Ulf Norell 2239bfb6f6 Merge pull request #82 from aeternity/fate-gas-cost-tweaks 
Bump gas cost for non-trivial instructions
 2019-09-30 12:27:55 +02:00
Ulf Norell 872766260b Bump gas cost for non-trivial instructions 2019-09-30 11:39:38 +02:00
skkw f184abeb87 add support for AENS.update call 2019-09-10 15:46:04 +02:00
Ulf Norell a66dc0a97f Merge pull request #80 from aeternity/bytes_concat 
Add FATE instructions for Bytes.concat and Bytes.split
 2019-09-09 19:08:06 +02:00
Ulf Norell 17c9656f5c Add FATE instructions for Bytes.concat and Bytes.split 2019-09-09 14:45:23 +02:00
Thomas Arts 3106ca1306 Merge pull request #79 from aeternity/fix-opcodees-in-QuickCheck-tests 
New opcodes after renumbering
 2019-09-06 15:00:16 +02:00
Thomas Arts 3565719c7a New opcodes after renumbering 2019-09-06 14:48:37 +02:00
Erik Stenman b036531dc2 Renumber ops and set base gas. (#78) 2019-09-06 14:13:51 +02:00
Tobias Lindahl 7f0593fbf2 Merge pull request #77 from aeternity/PT-168310969-expose-gas-costs 
Make api function for exposing gas costs of fate ops
 2019-09-05 16:20:45 +02:00
Hans Svensson a533fd5fcb Merge pull request #76 from aeternity/dont_crash_on_deserialize 
Don't crash in decode_calldata for FATE
 2019-09-05 14:26:00 +02:00
Hans Svensson 02a3462cf4 Don't crash in decode_calldata for FATE 2019-09-05 14:12:13 +02:00
Tobias Lindahl 69912db2b6 Make api function for exposing gas costs of ops 2019-09-05 13:27:33 +02:00
Hans Svensson 5e16b85ae2 Merge pull request #75 from aeternity/PT-168256282-disallow_calls_to_init 
Implement aeb_fate_code:strip_init_function/1
 2019-09-03 13:12:59 +02:00
Hans Svensson d272e821b2 Implement aeb_fate_code:strip_init_function/1 2019-09-03 11:00:32 +02:00
Thomas Arts 72b2a581d5 Merge pull request #73 from aeternity/aens-at-full-node-ver-ta 
Add argument to claim tx to enable bidding
 2019-09-02 08:51:09 +02:00
Thomas Arts 72d61471e0 Depend on newer aeserialization 2019-09-02 08:47:21 +02:00
sennui e21abb875e Add argument to claim tx to enable bidding 2019-08-28 11:02:21 +02:00
Ulf Norell e7f2be7ce8 Merge pull request #74 from aeternity/fate-map-fixes 
Fate map fixes
 2019-08-27 10:55:37 +02:00
Ulf Norell c6475fe1c2 Fix typo 2019-08-26 11:57:21 +02:00
Ulf Norell 4e4c20c387 Remember to unfold store map caches too! 2019-08-26 09:06:43 +02:00
Thomas Arts 1d5e5be252 Merge pull request #72 from aeternity/PT-166330348-check-map-keys-fate 
Pt 166330348 check map keys fate
 2019-08-26 08:37:52 +02:00
Ulf Norell 6efa4a0cb8 Merge pull request #71 from aeternity/missing-case-in-allocate-maps 
Add missing case for map tombstones
 2019-08-23 17:13:24 +02:00
Thomas Arts 59b7b786ac Update quickcheck/aefate_code_eqc.erl 
Co-Authored-By: Hans Svensson <hanssv@gmail.com>
 2019-08-23 15:50:39 +02:00
Thomas Arts f31887c2ed Update properties 2019-08-23 15:00:12 +02:00
Thomas Arts d794566363 Fix check for no maps in keys 2019-08-23 14:45:15 +02:00
Ulf Norell 850a5e2c35 Add missing case for map tombstones 2019-08-23 14:30:07 +02:00
Thomas Arts c270c794c3 Fix tests to new datastructure containing attributes 2019-08-23 11:31:54 +02:00
Hans Svensson 10cc127883 Merge pull request #70 from aeternity/PT-167996886-a_proper_ecverify 
PT-167996886 a proper ecverify
 2019-08-21 11:07:59 +02:00
Hans Svensson 50df849709 VERIFY_SIG_SECP256K1 was too long for code generation 2019-08-21 09:26:01 +02:00
Hans Svensson dfa9b80a3c Change ECVERIFY to VERIFY_SIG and add proper ECVERIFY 2019-08-21 09:25:28 +02:00
Hans Svensson befa1e3ff9 Merge pull request #69 from aeternity/PT-162578406-payable_modifier 
PT-162578406 Add payable modifier
 2019-08-19 08:54:31 +02:00
Hans Svensson efb4afeafa Add IS_PAYABLE opcode 2019-08-16 09:31:27 +02:00
Hans Svensson e75336486e Track payable (and private) in FATE/AEVM type info 
Privateness is only tracked for FATE.
 2019-08-16 09:31:27 +02:00
Ulf Norell fdd660a219 Merge pull request #67 from aeternity/PT-167221635-remote-type-check 
PT-167221635 remote type check
 2019-08-16 09:10:47 +02:00
Tino Breddin 3954bd22da Merge pull request #64 from aeternity/newby/ecrecover 
[PT-167805291] Add opcode for ecrecover
 2019-08-14 16:08:45 +02:00
Ulf Norell 13211887a3 Update src/aeb_fate_generate_ops.erl 
Co-Authored-By: Hans Svensson <hanssv@gmail.com>
 2019-08-14 09:32:23 +02:00
Ulf Norell 834ab298d1 typereps are values 2019-08-14 09:27:51 +02:00
Ulf Norell 52781060b2 fix type spec 2019-08-14 09:01:53 +02:00
Ulf Norell 3721fde7e8 Add typereps to remote call instructions 2019-08-14 09:01:53 +02:00
Tino Breddin 23ee7e0ca4 Add missing crypto entries to all_instructions 2019-08-13 16:24:17 +02:00
Ulf Norell af6224cb3b Merge pull request #66 from aeternity/PT-166788647-fate-efficient-maps 
PT-166788647 FATE efficient maps
 2019-08-13 15:51:13 +02:00
Tino Breddin 197dfd5da1 Let ecrecover only require two parameters 2019-08-13 15:15:03 +02:00
Ulf Norell 087ec31698 Fix bad type spec 2019-08-13 13:17:41 +02:00
Ulf Norell c49140fd5d Fix type and some code cleanup 2019-08-13 11:33:21 +02:00
Ulf Norell 414c45fbf7 Export refcount type 2019-08-13 11:25:54 +02:00
Ulf Norell f5a9be67d9 Remove CALL_TR and CALL_GTR 2019-08-13 09:20:29 +02:00
Ulf Norell 15095a74ab Add has_store_maps function 2019-08-12 14:40:34 +02:00
Ulf Norell 5aee70b8ff Add arity to CALL_R and CALL_GR 
and deprecate CALL_TR and CALL_GTR
 2019-08-12 14:38:10 +02:00
John Newby 44ec31d958 fixed ordering 2019-08-12 13:52:27 +02:00
John Newby 8fde1e5e24 Added FATE opcode for ecrecover 2019-08-12 13:36:49 +02:00
Ulf Norell 54dcf364e5 Store map reference counting 2019-08-12 10:59:30 +02:00
johnsnewby 7c6a80fef7 Update include/aeb_opcodes.hrl 
Co-Authored-By: Hans Svensson <hanssv@gmail.com>
 2019-08-12 10:52:47 +02:00
John Newby c0bc71b0b7 Added opcode for ecrecover 2019-08-09 16:32:00 +02:00
Ulf Norell c30bfd7b1c Unfolding store maps 2019-08-09 12:52:31 +02:00
Ulf Norell e184028261 Code for allocating store maps 2019-08-08 12:42:03 +02:00
Ulf Norell 986a7e6734 Add a store map fate value. 
A store map is a (contract local) unique id pointing to a map saved in the contract store, plus a cache of updates.
 2019-08-08 12:41:42 +02:00
Thomas Arts 2a9035d5ef Merge pull request #63 from aeternity/PT-167126818 
Pt 167126818
 2019-08-06 13:15:39 +02:00
Thomas Arts 8a50d20a67 Bring tests up-to-date 2019-08-06 13:04:25 +02:00
Thomas Arts 0b0cc38444 Provide API for querying implemented abi version 2019-08-06 12:21:51 +02:00
Tobias Lindahl 17c2a93e72 Merge pull request #62 from aeternity/PT-167164508-auto-generate-offchain-capabilities 
Add information on offchain capabilities of operation
 2019-07-10 11:10:49 +02:00
Tobias Lindahl e62cedb22c Add information on offchain capabilities of operation 2019-07-10 10:09:17 +02:00
Tobias Lindahl 76ae61b66c Merge pull request #61 from aeternity/PT-166927306-names-as-strings 
Pt 166927306 names as strings
 2019-06-28 13:48:42 +02:00
Tobias Lindahl edea526f38 Renum ordinals 2019-06-28 11:22:33 +02:00
Tobias Lindahl 487e087287 Use string instead of name hash for transfer and revoke 2019-06-26 15:33:24 +02:00
Tobias Lindahl c63ac888dd Pt 166233700 fate nameservice (#60) 
* Introduce AENS instructions in FATE

* Remove name object and fixup some documentation
 2019-06-26 13:19:44 +02:00
Hans Svensson 4d12b124f3 Merge pull request #59 from aeternity/PT-164629640-limit_fate_in_auth_context 
Add in_auth field to aeb_fate_generate_ops
 2019-06-26 12:29:17 +02:00
Hans Svensson 35ce283736 Add in_auth field to aeb_fate_generate_ops 2019-06-26 11:31:10 +02:00
Ulf Norell 677712b0b8 Merge pull request #58 from aeternity/PT-166233670-fate-events 
Add FATE oracle check instructions (and others)
 2019-06-25 19:56:56 +02:00
Ulf Norell 5171b800cc Add FATE oracle check instructions (and others) 2019-06-25 10:01:22 +02:00
Ulf Norell bf05e14661 Merge pull request #57 from aeternity/bytes-to-x 
Add bytes_to_int and bytes_to_str instructions to FATE
 2019-06-24 14:24:28 +02:00
Ulf Norell e3a00905de Add bytes_to_int and bytes_to_str instructions to FATE 2019-06-24 10:55:12 +02:00
Hans Svensson 59af12bf34 Merge pull request #56 from aeternity/PT-166788837-bytes 
PT-166788837 bytes
 2019-06-20 15:37:12 +02:00
Ulf Norell f7f0dfde51 Update and fix quickcheck fuzz test 2019-06-20 15:27:16 +02:00
Ulf Norell 33a1d5f4fb Perform sanity checks both in serialize and deserialize 2019-06-20 14:30:04 +02:00
Ulf Norell eeaf646a86 Allow variants as map keys 2019-06-20 14:30:04 +02:00
Ulf Norell 7fdc7a6cee Update asm tests 2019-06-20 14:30:04 +02:00
Ulf Norell f13ba67a2c Update and clean up quickcheck tests 2019-06-20 14:29:34 +02:00
Ulf Norell f421c1e361 Add bytes type and values 
and remove hash and signature
 2019-06-20 14:27:18 +02:00
Thomas Arts f91c8fabdd Merge pull request #51 from aeternity/PT-166696064-decode-calldata-fate 
Pt 166696064 decode calldata fate
 2019-06-20 13:05:44 +02:00
Tobias Lindahl 9dfc5f4f1d Merge pull request #55 from aeternity/PT-166786424-check-oracle-types 
Add oracle types to some oracle instructions
 2019-06-20 09:21:23 +02:00
Thomas Arts 1fda6912da Fix error 2019-06-19 17:41:47 +02:00
Thomas Arts cb83224c60 Add query to generate QuickCheck data 2019-06-19 17:41:47 +02:00
Thomas Arts 9840b22546 Add decoding function 2019-06-19 17:41:47 +02:00
Thomas Arts e3f843fd91 Do not return types, create_calldata does not need those 2019-06-19 17:41:47 +02:00
Thomas Arts 803ebc0854 Three new opcodes had been added 2019-06-19 17:41:47 +02:00
Hans Svensson 7e96e3baef Merge pull request #54 from aeternity/fix-bad-spec 
Fix incorrect type spec
 2019-06-19 13:26:54 +02:00
Hans Svensson 768e0d4fbb Fix incorrect type spec 2019-06-19 13:25:05 +02:00
Tobias Lindahl f92e23c955 Add oracle types to some oracle instructions 2019-06-19 12:11:22 +02:00
Tobias Lindahl e321882b98 Pt 166233685 fate oracles (#52) 
* Introduce typereps

* Use typereps for registering oracles

* Add TTL to oracle register

* Introduce oracle query object and ORACLE_QUERY operation

* Stub the remaining oracle instructions

* Adapt oracle respond and extend

* Document oracle ops

* Add unit tests for all oracle instructions
 2019-06-18 13:56:48 +02:00
Hans Svensson b45509962e Merge pull request #53 from aeternity/fate_abi_fun 
Auth.tx_hash + new functions in aeb_fate_abi
 2019-06-18 13:54:21 +02:00
Hans Svensson c1fb3a47c7 More functions in aeb_fate_abi 2019-06-18 13:51:06 +02:00
Hans Svensson a0c3a990ed Add function_name_from_function_hash to aeb_fate_abi 2019-06-18 11:59:54 +02:00
26 changed files with 1146 additions and 479 deletions
Expand all files Collapse all files
README.md
+4 -6
View File
@@ -49,7 +49,7 @@ or start with stack followed by an integer
`stack1`
`a`
Immediate values can be of 11 types:
Immediate values can be of 10 types:
1. Integers as decimals: {Digits} or -{Digits}
`42`
@@ -70,8 +70,8 @@ Immediate values can be of 11 types:
2c. Oracle address: @ok_{base58char}+
`@ok_nv5B93FPzRHrGNmMdTDfGdd5xGZvep3MVSpJqzcQmMp59bBCv`
2d. Name address: @nm_{base58char}+
`@nm_nv5B93FPzRHrGNmMdTDfGdd5xGZvep3MVSpJqzcQmMp59bBCv`
2d. Oracle query: @oq_{base58char}+
`@oq_nv5B93FPzRHrGNmMdTDfGdd5xGZvep3MVSpJqzcQmMp59bBCv`
2e. Channel address: @ch_{base58char}+
`@ch_nv5B93FPzRHrGNmMdTDfGdd5xGZvep3MVSpJqzcQmMp59bBCv`
@@ -104,11 +104,9 @@ Immediate values can be of 11 types:
9. Variants: (| [Arities] | Tag | ( Elements ) |)
`(| [1,3,5,2] | 3 | ( "foo", 12) |)`
10. Hashes: #{base64char}+
10. Bytes: #{base64char}+
`#AQIDCioLFQ==`
11. Signatures: $sg_{base58char}+
Where
include/aeb_fate_data.hrl
+20 -13
View File
@@ -5,30 +5,35 @@
-define(FATE_LIST_T, list()).
-define(FATE_UNIT_T, {tuple, {}}).
-define(FATE_MAP_T, #{ fate_type() => fate_type() }).
-define(FATE_STORE_MAP_T, {store_map, #{ fate_type() => fate_type() | ?FATE_MAP_TOMBSTONE }, integer()}).
-define(FATE_STRING_T, binary()).
-define(FATE_ADDRESS_T, {address, <<_:256>>}).
-define(FATE_HASH_T, {hash, binary()}).
-define(FATE_SIGNATURE_T, {signature, binary()}).
-define(FATE_BYTES_T(N), {bytes, binary()}).
-define(FATE_CONTRACT_T, {contract, <<_:256>>}).
-define(FATE_ORACLE_T, {oracle, <<_:256>>}).
-define(FATE_NAME_T, {name, <<_:256>>}).
-define(FATE_ORACLE_Q_T, {oracle_query, <<_:256>>}).
-define(FATE_CHANNEL_T, {channel, <<_:256>>}).
-define(FATE_VARIANT_T, {variant, [byte()], ?FATE_BYTE_T, tuple()}).
-define(FATE_VOID_T, void).
-define(FATE_TUPLE_T, {tuple, tuple()}).
-define(FATE_BITS_T, {bits, integer()}).
-define(FATE_TYPEREP_T, {typerep, fate_type_type()}).
-define(IS_FATE_INTEGER(X), (is_integer(X))).
-define(IS_FATE_LIST(X), (is_list(X))).
-define(IS_FATE_STRING(X), (is_binary(X))).
-define(IS_FATE_STORE_MAP(X), (is_tuple(X) andalso tuple_size(X) == 3
andalso store_map == element(1, X)
andalso is_map(element(2, X))
andalso is_integer(element(3, X)))).
-define(IS_FATE_MAP(X), (is_map(X))).
-define(IS_FATE_TUPLE(X), (is_tuple(X) andalso (tuple == element(1, X) andalso is_tuple(element(2, X))))).
-define(IS_FATE_ADDRESS(X), (is_tuple(X) andalso (address == element(1, X) andalso is_binary(element(2, X))))).
-define(IS_FATE_HASH(X), (is_tuple(X) andalso (hash == element(1, X) andalso is_binary(element(2, X))))).
-define(IS_FATE_SIGNATURE(X), (is_tuple(X) andalso (signature == element(1, X) andalso is_binary(element(2, X))))).
-define(IS_FATE_BYTES(X), (is_tuple(X) andalso (bytes == element(1, X) andalso is_binary(element(2, X))))).
-define(IS_FATE_BYTES(N, X), (?IS_FATE_BYTES(X) andalso byte_size(element(2, X)) == (N))).
-define(IS_FATE_CONTRACT(X), (is_tuple(X) andalso (contract == element(1, X) andalso is_binary(element(2, X))))).
-define(IS_FATE_ORACLE(X), (is_tuple(X) andalso (oracle == element(1, X) andalso is_binary(element(2, X))))).
-define(IS_FATE_NAME(X), (is_tuple(X) andalso (name == element(1, X) andalso is_binary(element(2, X))))).
-define(IS_FATE_ORACLE_Q(X), (is_tuple(X) andalso (oracle_query == element(1, X) andalso is_binary(element(2, X))))).
-define(IS_FATE_CHANNEL(X), (is_tuple(X) andalso (channel == element(1, X) andalso is_binary(element(2, X))))).
-define(IS_FATE_BITS(X), (is_tuple(X) andalso (bits == element(1, X) andalso is_integer(element(2, X))))).
-define(IS_FATE_VARIANT(X), (is_tuple(X)
@@ -39,18 +44,20 @@
andalso is_tuple(element(4, X))
))).
-define(IS_FATE_BOOLEAN(X), is_boolean(X)).
-define(IS_FATE_TYPEREP(X), (is_tuple(X) andalso tuple_size(X) =:= 2 andalso element(1, X) =:= typerep)).
-define(FATE_UNIT, {tuple, {}}).
-define(FATE_TUPLE(T), {tuple, T}).
-define(FATE_ADDRESS(A), {address, A}).
-define(FATE_HASH(X), {hash, X}).
-define(FATE_SIGNATURE(S), {signature, S}).
-define(FATE_BYTES(X), {bytes, X}).
-define(FATE_CONTRACT(X), {contract, X}).
-define(FATE_ORACLE(X), {oracle, X}).
-define(FATE_NAME(X), {name, X}).
-define(FATE_ORACLE_Q(X), {oracle_query, X}).
-define(FATE_CHANNEL(X), {channel, X}).
-define(FATE_BITS(B), {bits, B}).
-define(FATE_TYPEREP(T), {typerep, T}).
-define(FATE_STORE_MAP(Cache, Id), {store_map, Cache, Id}).
-define(FATE_MAP_TOMBSTONE, '__DELETED__').
-define(FATE_INTEGER_VALUE(X), (X)).
-define(FATE_BOOLEAN_VALUE(X), (X)).
@@ -58,14 +65,14 @@
-define(FATE_TUPLE_ELEMENTS(X), (tuple_to_list(element(2, X)))).
-define(FATE_STRING_VALUE(X), (X)).
-define(FATE_ADDRESS_VALUE(X), (element(2, X))).
-define(FATE_HASH_VALUE(X), (element(2, X))).
-define(FATE_SIGNATURE_VALUE(X), (element(2, X))).
-define(FATE_BYTES_VALUE(X), (element(2, X))).
-define(FATE_CONTRACT_VALUE(X), (element(2, X))).
-define(FATE_ORACLE_VALUE(X), (element(2, X))).
-define(FATE_NAME_VALUE(X), (element(2, X))).
-define(FATE_CHANNEL_VALUE(X), (element(2, X))).
-define(FATE_BITS_VALUE(X), (element(2, X))).
-define(FATE_MAP_VALUE(X), (X)).
-define(FATE_STORE_MAP_CACHE(X), (element(2, X))).
-define(FATE_STORE_MAP_ID(X), (element(3, X))).
-define(FATE_MAP_SIZE(X), (map_size(X))).
-define(FATE_STRING_SIZE(X), (byte_size(X))).
-define(FATE_TRUE, true).
include/aeb_opcodes.hrl
+10 -7
View File
@@ -186,13 +186,15 @@
-define(PRIM_CALL_MAP_TOLIST, 305).
-define(PRIM_CALL_IN_CRYPTO_RANGE(__TTYPE__), (((__TTYPE__) > 399) andalso ((__TTYPE__) < 500))).
-define(PRIM_CALL_CRYPTO_ECVERIFY, 400).
-define(PRIM_CALL_CRYPTO_SHA3, 401).
-define(PRIM_CALL_CRYPTO_SHA256, 402).
-define(PRIM_CALL_CRYPTO_BLAKE2B, 403).
-define(PRIM_CALL_CRYPTO_SHA256_STRING, 404).
-define(PRIM_CALL_CRYPTO_BLAKE2B_STRING, 405).
-define(PRIM_CALL_CRYPTO_ECVERIFY_SECP256K1, 410).
-define(PRIM_CALL_CRYPTO_VERIFY_SIG, 400).
-define(PRIM_CALL_CRYPTO_SHA3, 401).
-define(PRIM_CALL_CRYPTO_SHA256, 402).
-define(PRIM_CALL_CRYPTO_BLAKE2B, 403).
-define(PRIM_CALL_CRYPTO_SHA256_STRING, 404).
-define(PRIM_CALL_CRYPTO_BLAKE2B_STRING, 405).
-define(PRIM_CALL_CRYPTO_VERIFY_SIG_SECP256K1, 410).
-define(PRIM_CALL_CRYPTO_ECVERIFY_SECP256K1, 420).
-define(PRIM_CALL_CRYPTO_ECRECOVER_SECP256K1, 421).
-define(PRIM_CALL_IN_AUTH_RANGE(__TTYPE__), (((__TTYPE__) > 499) andalso ((__TTYPE__) < 600))).
-define(PRIM_CALL_AUTH_TX_HASH, 500).
@@ -200,3 +202,4 @@
-define(PRIM_CALL_IN_ADDRESS_RANGE(__TTYPE__), (((__TTYPE__) > 599) andalso ((__TTYPE__) < 700))).
-define(PRIM_CALL_ADDR_IS_ORACLE, 600).
-define(PRIM_CALL_ADDR_IS_CONTRACT, 601).
-define(PRIM_CALL_ADDR_IS_PAYABLE, 610).
quickcheck/aeb_fate_encoding_tests.erl
+1
View File
@@ -22,5 +22,6 @@ quickcheck_test_() ->
{setup, fun() -> eqc:start() end,
[ ?EQC_EUNIT(aefate_type_eqc, prop_roundtrip, 1000),
?EQC_EUNIT(aefate_eqc, prop_serializes, 1000),
?EQC_EUNIT(aefate_eqc, prop_no_maps_in_keys, 1000),
?EQC_EUNIT(aefate_eqc, prop_idempotent, 1000)
]}.
quickcheck/aefate_code_eqc.erl
+65 -31
View File
@@ -27,36 +27,42 @@
prop_serializes() ->
in_parallel(
?FORALL(FateCode, fate_code(0),
?WHENFAIL(eqc:format("Trying to serialize/deserialize ~p failed~n", [FateCode]),
begin
Binary = aeb_fate_code:serialize(FateCode),
?WHENFAIL(eqc:format("serialized: ~p~n", [Binary]),
begin
Decoded = aeb_fate_code:deserialize(Binary),
measure(binary_size, size(Binary),
equals(Decoded, FateCode))
end)
end))).
begin
{T0, Binary} = timer:tc(fun() -> aeb_fate_code:serialize(FateCode) end),
?WHENFAIL(eqc:format("serialized:\n ~120p~n", [Binary]),
begin
{T1, Decoded} = timer:tc(fun() -> aeb_fate_code:deserialize(Binary) end),
measure(binary_size, size(Binary),
measure(serialize, T0 / 1000,
measure(deserialize, T1 / 1000,
conjunction([{equal, equals(Decoded, FateCode)},
{serialize_time, T0 / 1000 < 500},
{deserialize_time, T1 / 1000 < 500}]))))
end)
end)).
prop_fail_serializes() ->
conjunction([{Failure, eqc:counterexample(
?FORALL(FateCode, fate_code(Failure),
?FORALL(Binary, catch aeb_fate_code:serialize(FateCode),
is_binary(aeb_fate_code:serialize(FateCode)))))
=/= true} || Failure <- [1,2,3,4, 5] ]).
is_binary(Binary))))
=/= true} || Failure <- [1, 2, 3, 4, 5] ]).
prop_fuzz() ->
in_parallel(
?FORALL(Binary, ?LET(FateCode, fate_code(0), aeb_fate_code:serialize(FateCode)),
?FORALL(InjectedBin, injection(Binary),
try Org = aeb_fate_code:deserialize(InjectedBin),
NewBin = aeb_fate_code:serialize(Org),
NewOrg = aeb_fate_code:deserialize(NewBin),
?WHENFAIL(eqc:format("Deserialize ~p gives\n~p\nSerializes to ~p\n", [InjectedBin, Org, NewOrg]),
equals(NewBin, InjectedBin))
catch _:_ ->
true
end))).
?FORALL(FuzzedBin, fuzz(Binary),
try aeb_fate_code:deserialize(FuzzedBin) of
Code ->
?WHENFAIL(eqc:format("Code:\n ~p\n", [Code]),
begin
Bin1 = aeb_fate_code:serialize(Code),
Code1 = aeb_fate_code:deserialize(Bin1),
?WHENFAIL(eqc:format("Reserialized\n ~120p\n", [Bin1]),
equals(Code, Code1))
end)
catch _:_ -> true
end))).
prop_opcodes() ->
?FORALL(Opcode, choose(0, 16#ff),
@@ -71,7 +77,7 @@ prop_opcodes() ->
valid_opcodes() ->
lists:seq(0, 16#72) ++ lists:seq(16#fa, 16#fd).
lists:seq(0, 16#80) ++ lists:seq(16#fa, 16#fd).
fate_code(Failure) ->
@@ -79,17 +85,25 @@ fate_code(Failure) ->
?LET({FMap, SMap, AMap},
{non_empty(map(if Failure == 1 -> binary(1);
true -> binary(4) end,
{{list(aefate_type_eqc:fate_type(Size div 3)), aefate_type_eqc:fate_type(Size div 3)}, bbs_code(Failure)})),
map(small_fate_data_key(5), small_fate_data(4)),
map(small_fate_data_key(5), small_fate_data(4))},
{sublist(lists:sort([private, payable])), %% deserialize sorts them
{list(aefate_type_eqc:fate_type(Size div 3)), aefate_type_eqc:fate_type(Size div 3)}, bbs_code(Failure)})),
small_map(small_fate_data_key(5), small_fate_data(4)),
small_map(small_fate_data_key(5), small_fate_data(4))},
aeb_fate_code:update_annotations(
aeb_fate_code:update_symbols(
aeb_fate_code:update_functions(
aeb_fate_code:new(), FMap), SMap), AMap))).
short_list(Max, Gen) ->
?LET(N, choose(0, Max), eqc_gen:list(N, Gen)).
small_map(KeyGen, ValGen) ->
?LET(KeyVals, short_list(6, {KeyGen, ValGen}),
return(maps:from_list(KeyVals))).
bbs_code(Failure) ->
frequency([{if Failure == 2 -> 5; true -> 0 end, #{0 => []}},
{10, ?LET(BBs, list(bb_code(Failure)),
{10, ?LET(BBs, short_list(6, bb_code(Failure)),
maps:from_list(
lists:zip(lists:seq(0, length(BBs)-1), BBs)))}]).
@@ -97,9 +111,9 @@ bb_code(Failure) ->
EndBB = [ Op || Op <- valid_opcodes(), aeb_fate_opcodes:end_bb(Op) ],
NonEndBB = valid_opcodes() -- EndBB,
frequency(
[{if Failure == 3 -> 5; true -> 0 end, ?LET(Ops, non_empty(list(elements(NonEndBB))), bblock(Failure, Ops))},
{if Failure == 4 -> 5; true -> 0 end, ?LET({Ops, Op}, {list(elements(valid_opcodes())), elements(EndBB)}, bblock(Failure, Ops ++ [Op]))},
{10, ?LET({Ops, Op}, {list(elements(NonEndBB)), elements(EndBB)},
[{if Failure == 3 -> 5; true -> 0 end, ?LET(Ops, non_empty(short_list(6, elements(NonEndBB))), bblock(Failure, Ops))},
{if Failure == 4 -> 5; true -> 0 end, ?LET({Ops, Op}, {short_list(6, elements(valid_opcodes())), elements(EndBB)}, bblock(Failure, Ops ++ [Op]))},
{10, ?LET({Ops, Op}, {short_list(6, elements(NonEndBB)), elements(EndBB)},
bblock(Failure, Ops ++ [Op]))}]).
bblock(Failure, Ops) ->
@@ -118,14 +132,34 @@ bblock(Failure, Ops) ->
end
end || Op <- Ops ].
injection(Binary) ->
?LET({N, Inj}, {choose(0, byte_size(Binary) - 1), choose(0,255)},
fuzz(Binary) ->
?LET({N, Inj}, {choose(0, byte_size(Binary) - 1), choose(0, 255)},
begin
M = N * 8,
<<X:M, _:8, Z/binary>> = Binary,
<<X:M, Inj:8, Z/binary>>
end).
prop_small() ->
?FORALL(Value, small_fate_data(4),
begin
Bin = aeb_fate_encoding:serialize(Value),
Size = byte_size(Bin),
measure(size, Size,
?WHENFAIL(eqc:format("Size: ~p\n", [Size]),
Size < 1000))
end).
prop_small_type() ->
?FORALL(Type, ?SIZED(Size, aefate_type_eqc:fate_type(Size div 3)),
begin
Bin = iolist_to_binary(aeb_fate_encoding:serialize_type(Type)),
Size = byte_size(Bin),
measure(size, Size,
?WHENFAIL(eqc:format("Size: ~p\n", [Size]),
Size < 1000))
end).
small_fate_data(N) ->
?SIZED(Size, resize(Size div N, aefate_eqc:fate_data())).
quickcheck/aefate_eqc.erl
+99 -71
View File
@@ -10,6 +10,7 @@
-module(aefate_eqc).
-include_lib("eqc/include/eqc.hrl").
-include("../include/aeb_fate_data.hrl").
-compile([export_all, nowarn_export_all]).
@@ -23,7 +24,7 @@ prop_roundtrip() ->
end)).
prop_format_scan() ->
?FORALL(FateData, fate_data(),
?FORALL(FateData, fate_data([variant, map]),
?WHENFAIL(eqc:format("Trying to format ~p failed~n", [FateData]),
begin
String = aeb_fate_data:format(FateData),
@@ -32,23 +33,29 @@ prop_format_scan() ->
end)).
prop_serializes() ->
?FORALL(FateDatas, non_empty(?SIZED(Size, resize(Size div 2, list(fate_data())))),
?WHENFAIL(eqc:format("Trying to serialize/deserialize ~p failed~n", [FateDatas]),
?FORALL({Data, Garbage}, {fate_data(), binary()},
?WHENFAIL(eqc:format("Trying to serialize/deserialize ~p failed~n", [Data]),
begin
{T1, Binary} =
timer:tc( fun() ->
<< begin B = aeb_fate_encoding:serialize(Data),
<<B/binary>> end || Data <- FateDatas >>
end),
{T2, {FateData, _}} =
timer:tc(fun() -> aeb_fate_encoding:deserialize_one(Binary) end),
Binary = <<(aeb_fate_encoding:serialize(Data))/binary, Garbage/binary>>,
{FateData, Rest} = aeb_fate_encoding:deserialize_one(Binary),
measure(binary_size, size(Binary),
measure(encode, T1,
measure(decode, T2,
conjunction([{equal, equals(hd(FateDatas), FateData)},
{size, size(Binary) < 500000}]))))
conjunction([{equal, equals(Data, FateData)},
{rest, equals(Garbage, Rest)},
{size, size(Binary) < 500000}]))
end)).
prop_no_maps_in_keys() ->
?FORALL(FateData, fate_bad_map(), %% may contain a map in its keys
begin
HasMapInKeys = lists:any(fun(K) -> has_map(K) end, maps:keys(FateData)),
try aeb_fate_encoding:serialize(FateData),
?WHENFAIL(eqc:format("Should not serialize, contains a map in key\n", []),
not HasMapInKeys)
catch error:Reason ->
?WHENFAIL(eqc:format("(~p) Should serialize\n", [Reason]), HasMapInKeys)
end
end).
prop_fuzz() ->
in_parallel(
?FORALL(Binary, ?LET(FateData, ?SIZED(Size, resize(Size div 4, fate_data())), aeb_fate_encoding:serialize(FateData)),
@@ -65,13 +72,14 @@ prop_fuzz() ->
prop_order() ->
?FORALL(Items, vector(3, fate_data()),
?FORALL(Items, vector(3, fate_data([variant, map])),
begin
%% Use lt to take minimum
Min = lt_min(Items),
Max = lt_max(Items),
conjunction([ {minimum, is_empty([ {Min, '>', I} || I<-Items, aeb_fate_data:lt(I, Min)])},
{maximum, is_empty([ {Max, '<', I} || I<-Items, aeb_fate_data:lt(Max, I)])}])
{maximum, is_empty([ {Max, '<', I} || I<-Items, aeb_fate_data:lt(Max, I)])},
{asym, aeb_fate_data:lt(Min, Max) orelse Min == Max}])
end).
lt_min([X, Y | Rest]) ->
@@ -94,76 +102,85 @@ prop_idempotent() ->
aeb_fate_encoding:sort(aeb_fate_encoding:sort(Items)))).
fate_data(Kind) ->
?SIZED(Size, ?LET(Data, fate_data(Size, Kind), eqc_symbolic:eval(Data))).
fate_data() ->
?SIZED(Size, ?LET(Data, fate_data(Size, [map, variant]), eqc_symbolic:eval(Data))).
fate_data([map, variant, store_map]).
%% keys may contain variants but no maps
fate_data_key() ->
?SIZED(Size, ?LET(Data, fate_data(Size div 4, []), eqc_symbolic:eval(Data))).
fate_data([variant]).
fate_data(0, _Options) ->
fate_data(0, Options) ->
?LAZY(
oneof([fate_integer(),
fate_boolean(),
fate_nil(),
fate_unit(),
fate_string(),
fate_address(),
fate_hash(),
fate_signature(),
fate_contract(),
fate_oracle(),
fate_name(),
fate_bits(),
fate_channel()]));
frequency(
[{50, oneof([fate_integer(), fate_boolean(), fate_nil(), fate_unit()])},
{10, oneof([fate_string(), fate_address(), fate_bytes(), fate_contract(),
fate_oracle(), fate_oracle_q(), fate_bits(), fate_channel()])}] ++
[{1, fate_store_map()} || lists:member(store_map, Options)]));
fate_data(Size, Options) ->
oneof([?LAZY(fate_data(Size - 1, Options)),
?LAZY(fate_list( fate_data(Size div 5, Options) )),
?LAZY(fate_tuple( list(fate_data(Size div 5, Options)) ))] ++
[?LAZY(fate_variant( list(fate_data(Size div 5, Options))))
|| lists:member(variant, Options)
] ++
[
?LAZY(fate_map( fate_data(Size div 8, Options -- [map, variant]),
fate_data(Size div 5, Options)))
|| lists:member(map, Options)
]).
?LAZY(
oneof([fate_data(0, Options),
fate_list(Size, Options),
fate_tuple(Size, Options)] ++
[fate_variant(Size, Options)
|| lists:member(variant, Options)] ++
[fate_map(Size, Options)
|| lists:member(map, Options)])).
fate_integer() -> {call, aeb_fate_data, make_integer, [oneof([int(), largeint()])]}.
fate_bits() -> {call, aeb_fate_data, make_bits, [oneof([int(), largeint()])]}.
fate_boolean() -> {call, aeb_fate_data, make_boolean, [elements([true, false])]}.
fate_nil() -> {call, aeb_fate_data, make_list, [[]]}.
fate_unit() -> {call, aeb_fate_data, make_unit, []}.
fate_string() -> {call, aeb_fate_data, make_string,
[frequency([{10, non_quote_string()}, {2, list(non_quote_string())},
{1, ?LET(N, choose(64-3, 64+3), vector(N, $a))}])]}.
fate_address() -> {call, aeb_fate_data, make_address, [non_zero_binary(256 div 8)]}.
fate_hash() -> {call, aeb_fate_data, make_hash, [non_zero_binary(32)]}.
fate_signature() -> {call, aeb_fate_data, make_signature, [non_zero_binary(64)]}.
fate_contract() -> {call, aeb_fate_data, make_contract, [non_zero_binary(256 div 8)]}.
fate_oracle() -> {call, aeb_fate_data, make_oracle, [non_zero_binary(256 div 8)]}.
fate_name() -> {call, aeb_fate_data, make_name, [non_zero_binary(256 div 8)]}.
fate_channel() -> {call, aeb_fate_data, make_channel, [non_zero_binary(256 div 8)]}.
fate_integer() -> ?LET(X, oneof([int(), largeint()]), return(aeb_fate_data:make_integer(X))).
fate_bits() -> ?LET(X, oneof([int(), largeint()]), return(aeb_fate_data:make_bits(X))).
fate_boolean() -> ?LET(X, elements([true, false]), return(aeb_fate_data:make_boolean(X))).
fate_nil() -> aeb_fate_data:make_list([]).
fate_unit() -> aeb_fate_data:make_unit().
fate_string() -> ?LET(X, frequency([{10, non_quote_string()}, {2, list(non_quote_string())},
{1, ?LET(N, choose(64-3, 64+3), vector(N, $a))}]),
return(aeb_fate_data:make_string(X))).
fate_address() -> ?LET(X, binary(256 div 8), return(aeb_fate_data:make_address(X))).
fate_bytes() -> ?LET(X, non_empty(binary()), return(aeb_fate_data:make_bytes(X))).
fate_contract() -> ?LET(X, binary(256 div 8), return(aeb_fate_data:make_contract(X))).
fate_oracle() -> ?LET(X, binary(256 div 8), return(aeb_fate_data:make_oracle(X))).
fate_oracle_q() -> ?LET(X, binary(256 div 8), return(aeb_fate_data:make_oracle_query(X))).
fate_channel() -> ?LET(X, binary(256 div 8), return(aeb_fate_data:make_channel(X))).
fate_values(Size, N, Options) ->
eqc_gen:list(N, fate_data(Size div max(1, N), Options)).
%% May shrink to fate_unit
fate_tuple(ListGen) ->
{call, aeb_fate_data, make_tuple, [?LET(Elements, ListGen, list_to_tuple(Elements))]}.
fate_tuple(Size, Options) ->
?LET(N, choose(0, 6),
?LETSHRINK(Elements, fate_values(Size, N, Options),
return(aeb_fate_data:make_tuple(list_to_tuple(Elements))))).
fate_variant(ListGen) ->
?LET({L1, L2, TupleAsList}, {list(choose(0, 255)), list(choose(0,255)), ListGen},
{call, aeb_fate_data, make_variant,
[L1 ++ [length(TupleAsList)] ++ L2, length(L1), list_to_tuple(TupleAsList)]}).
fate_variant(Size, Options) ->
?LET({L1, L2, {tuple, Args}}, {list(choose(0, 255)), list(choose(0,255)), fate_tuple(Size, Options)},
return(aeb_fate_data:make_variant(L1 ++ [tuple_size(Args)] ++ L2,
length(L1), Args))).
fate_list(Gen) ->
{call, aeb_fate_data, make_list, [frequency([{20, list(Gen)}, {1, ?LET(N, choose(64-3, 64+3), vector(N, Gen))}])]}.
fate_list(Size, Options) ->
?LET(N, frequency([{20, choose(0, 6)}, {1, choose(64 - 3, 64 + 3)}]),
?LETSHRINK(Vs, fate_values(Size, N, Options),
return(aeb_fate_data:make_list(Vs)))).
fate_map(KeyGen, ValGen) ->
{call, aeb_fate_data, make_map, [map(KeyGen, ValGen)]}.
fate_map(Size, Options) ->
?LET(N, choose(0, 6),
?LETSHRINK(Values, fate_values(Size, N, Options),
?LET(Keys, vector(length(Values), fate_data(Size div max(1, N * 2), Options -- [map, store_map])),
return(aeb_fate_data:make_map(maps:from_list(lists:zip(Keys, Values))))))).
fate_store_map() ->
%% only #{} is allowed as cache in serialization
?LET(X, oneof([int(), largeint()]),
return(aeb_fate_data:make_store_map(abs(X)))).
non_zero_binary(N) ->
Bits = N*8,
?SUCHTHAT(Bin, binary(N), begin <<V:Bits>> = Bin, V =/= 0 end).
fate_bad_map() ->
?LET(N, choose(0, 6),
?LET(Values, vector(N, ?SIZED(Size, resize(Size div 8, fate_data()))),
?LET(Keys, vector(N, ?SIZED(Size, resize(Size div 4, fate_data()))),
return(aeb_fate_data:make_map(maps:from_list(lists:zip(Keys, Values))))))).
non_quote_string() ->
?SUCHTHAT(S, utf8(), [ quote || <<34>> <= S ] == []).
@@ -181,3 +198,14 @@ injection(Binary) ->
is_empty(L) ->
?WHENFAIL(eqc:format("~p\n", [L]), L == []).
has_map(L) when is_list(L) ->
lists:any(fun(V) -> has_map(V) end, L);
has_map(T) when is_tuple(T) ->
has_map(tuple_to_list(T));
has_map(M) when is_map(M) ->
true;
has_map(?FATE_STORE_MAP(_, _)) ->
true;
has_map(_) ->
false.
quickcheck/aefate_type_eqc.erl
+17 -10
View File
@@ -11,9 +11,12 @@
-compile([export_all, nowarn_export_all]).
kind(X) when is_atom(X) -> X;
kind(T) when is_tuple(T) -> element(1, T).
prop_roundtrip() ->
?FORALL(FateType, fate_type(),
collect(FateType,
collect(kind(FateType),
begin
Serialized = aeb_fate_encoding:serialize_type(FateType),
BinSerialized = list_to_binary(Serialized),
@@ -32,18 +35,22 @@ fate_type(0) ->
oneof([integer,
boolean,
address,
hash,
signature,
{bytes, nat()},
contract,
oracle,
name,
channel,
bits,
string]);
fate_type(Size) ->
oneof([?LAZY(fate_type(Size div 2)),
{list, ?LAZY(fate_type(Size div 2))},
{tuple, list(?LAZY(fate_type(Size div 2)))},
{variant, list(?LAZY(fate_type(Size div 2)))},
?LETSHRINK([T1, T2], [?LAZY(fate_type(Size div 2)), ?LAZY(fate_type(Size div 2))],
{map, T1, T2})]).
?LAZY(
oneof([fate_type(0),
{list, fate_type(Size div 2)},
?LETSHRINK(Ts, fate_types(Size), {tuple, Ts}),
?LETSHRINK(Ts, fate_types(Size), {variant, Ts}),
?LETSHRINK([T1, T2], vector(2, fate_type(Size div 2)),
{map, T1, T2})])).
fate_types(Size) ->
?LET(N, choose(0, 6),
eqc_gen:list(N, fate_type(Size div max(2, N)))).
rebar.config
+2 -2
View File
@@ -6,7 +6,7 @@
{deps, [ {eblake2, "1.0.0"}
, {aeserialization, {git, "https://github.com/aeternity/aeserialization.git",
{ref, "816bf99"}}}
{ref, "47aaa8f"}}}
, {getopt, "1.0.1"}
]}.
@@ -40,7 +40,7 @@
{profiles, [{binary, [
{deps, [ {eblake2, "1.0.0"}
, {aeserialization, {git, "https://github.com/aeternity/aeserialization.git",
{ref, "b55c372"}}}
{ref, "47aaa8f"}}}
, {getopt, "1.0.1"}
]},
rebar.lock
+5 -1
View File
@@ -1,13 +1,17 @@
{"1.1.0",
[{<<"aeserialization">>,
{git,"https://github.com/aeternity/aeserialization.git",
{ref,"816bf994ffb5cee218c3f22dc5fea296c9e0882e"}},
{ref,"47aaa8f5434b365c50a35bfd1490340b19241991"}},
0},
{<<"base58">>,
{git,"https://github.com/aeternity/erl-base58.git",
{ref,"60a335668a60328a29f9731b67c4a0e9e3d50ab6"}},
1},
{<<"eblake2">>,{pkg,<<"eblake2">>,<<"1.0.0">>},0},
{<<"enacl">>,
{git,"https://github.com/aeternity/enacl.git",
{ref,"26180f42c0b3a450905d2efd8bc7fd5fd9cece75"}},
1},
{<<"getopt">>,{pkg,<<"getopt">>,<<"1.0.1">>},0}]}.
[
{pkg_hash,[
src/aeb_aevm_abi.erl
+78 -34
View File
@@ -11,14 +11,16 @@
-define(HASH_SIZE, 32).
-export([ create_calldata/4
, check_calldata/2
, function_type_info/3
, check_calldata/3
, function_type_info/4
, function_type_hash/3
, arg_typerep_from_function/2
, type_hash_from_function_name/2
, typereps_from_type_hash/2
, function_name_from_type_hash/2
, get_function_hash_from_calldata/1
, is_payable/2
, abi_version/0
]).
-type hash() :: <<_:256>>. %% 256 = ?HASH_SIZE * 8.
@@ -26,6 +28,7 @@
-type typerep() :: aeb_aevm_data:type().
-type function_type_info() :: { FunctionHash :: hash()
, FunctionName :: function_name()
, Payable :: boolean()
, ArgType :: binary() %% binary typerep
, OutType :: binary() %% binary typerep
}.
@@ -35,6 +38,11 @@
%%% API
%%%===================================================================
%% Shall match ?ABI_AEVM_SOPHIA_1
-spec abi_version() -> integer().
abi_version() ->
1.
%%%===================================================================
%%% Handle calldata
@@ -43,32 +51,42 @@ create_calldata(FunName, Args, ArgTypes0, RetType) ->
<<TypeHashInt:?HASH_SIZE/unit:8>> =
function_type_hash(list_to_binary(FunName), ArgTypes, RetType),
Data = aeb_heap:to_binary({TypeHashInt, list_to_tuple(Args)}),
{ok, Data, {tuple, [word, ArgTypes]}, RetType}.
{ok, Data}.
-spec check_calldata(binary(), type_info()) ->
-spec check_calldata(binary(), type_info(), boolean()) ->
{'ok', typerep(), typerep()} | {'error', atom()}.
check_calldata(CallData, TypeInfo) ->
check_calldata(CallData, TypeInfo, CheckPayable) ->
%% The first element of the CallData should be the function name
case get_function_hash_from_calldata(CallData) of
{ok, Hash} ->
case typereps_from_type_hash(Hash, TypeInfo) of
{ok, ArgType, OutType} ->
try aeb_heap:from_binary({tuple, [word, ArgType]}, CallData) of
{ok, _Something} ->
{ok, {tuple, [word, ArgType]}, OutType};
{error, _} ->
{error, bad_call_data}
catch
_T:_E ->
{error, bad_call_data}
end;
{error, _} ->
{error, unknown_function}
end;
check_calldata(Hash, CallData, TypeInfo, CheckPayable);
{error, _What} ->
{error, bad_call_data}
end.
check_calldata(Hash, CallData, TypeInfo, true) ->
case is_payable(Hash, TypeInfo) of
{ok, true} -> check_calldata(Hash, CallData, TypeInfo, false);
{ok, false} -> {error, function_is_not_payable};
Err = {error, _} -> Err
end;
check_calldata(Hash, CallData, TypeInfo, false) ->
case typereps_from_type_hash(Hash, TypeInfo) of
{ok, ArgType, OutType} ->
try aeb_heap:from_binary({tuple, [word, ArgType]}, CallData) of
{ok, _Something} ->
{ok, {tuple, [word, ArgType]}, OutType};
{error, _} ->
{error, bad_call_data}
catch
_T:_E ->
{error, bad_call_data}
end;
{error, _} ->
{error, unknown_function}
end.
-spec get_function_hash_from_calldata(CallData::binary()) ->
{ok, binary()} | {error, term()}.
get_function_hash_from_calldata(CallData) ->
@@ -80,12 +98,13 @@ get_function_hash_from_calldata(CallData) ->
%%%===================================================================
%%% Handle type info from contract meta data
-spec function_type_info(function_name(), [typerep()], typerep()) ->
-spec function_type_info(function_name(), boolean(), [typerep()], typerep()) ->
function_type_info().
function_type_info(Name, ArgTypes, OutType) ->
function_type_info(Name, Payable, ArgTypes, OutType) ->
ArgType = {tuple, ArgTypes},
{ function_type_hash(Name, ArgType, OutType)
, Name
, Payable
, aeb_heap:to_binary(ArgType)
, aeb_heap:to_binary(OutType)
}.
@@ -104,35 +123,46 @@ function_type_hash(Name, ArgType, OutType) when is_binary(Name) ->
{'ok', typerep()} | {'error', 'bad_type_data' | 'unknown_function'}.
arg_typerep_from_function(Function, TypeInfo) ->
case lists:keyfind(Function, 2, TypeInfo) of
{_TypeHash, Function, ArgTypeBin,_OutTypeBin} ->
case aeb_heap:from_binary(typerep, ArgTypeBin) of
{ok, ArgType} -> {ok, ArgType};
{error,_} -> {error, bad_type_data}
end;
{_TypeHash, Function, ArgTypeBin, _OutTypeBin} ->
arg_typerep_from_type_binary(ArgTypeBin);
{_TypeHash, Function, _Payable, ArgTypeBin, _OutTypeBin} ->
arg_typerep_from_type_binary(ArgTypeBin);
false ->
{error, unknown_function}
end.
arg_typerep_from_type_binary(ArgTBin) ->
case aeb_heap:from_binary(typerep, ArgTBin) of
{ok, ArgT} -> {ok, ArgT};
{error,_} -> {error, bad_type_data}
end.
-spec typereps_from_type_hash(hash(), type_info()) ->
{'ok', typerep(), typerep()} | {'error', 'bad_type_data' | 'unknown_function'}.
typereps_from_type_hash(TypeHash, TypeInfo) ->
case lists:keyfind(TypeHash, 1, TypeInfo) of
{TypeHash,_Function, ArgTypeBin, OutTypeBin} ->
case {aeb_heap:from_binary(typerep, ArgTypeBin),
aeb_heap:from_binary(typerep, OutTypeBin)} of
{{ok, ArgType}, {ok, OutType}} -> {ok, ArgType, OutType};
{_, _} -> {error, bad_type_data}
end;
{TypeHash, _Function, ArgTypeBin, OutTypeBin} ->
typereps_from_type_binaries(ArgTypeBin, OutTypeBin);
{TypeHash, _Function, _Payable, ArgTypeBin, OutTypeBin} ->
typereps_from_type_binaries(ArgTypeBin, OutTypeBin);
false ->
{error, unknown_function}
end.
typereps_from_type_binaries(ArgTBin, OutTBin) ->
case {aeb_heap:from_binary(typerep, ArgTBin), aeb_heap:from_binary(typerep, OutTBin)} of
{{ok, ArgT}, {ok, OutT}} -> {ok, ArgT, OutT};
{_, _} -> {error, bad_type_data}
end.
-spec function_name_from_type_hash(hash(), type_info()) ->
{'ok', function_name()}
| {'error', 'unknown_function'}.
function_name_from_type_hash(TypeHash, TypeInfo) ->
case lists:keyfind(TypeHash, 1, TypeInfo) of
{TypeHash, Function,_ArgTypeBin,_OutTypeBin} ->
{TypeHash, Function, _ArgTypeBin, _OutTypeBin} ->
{ok, Function};
{TypeHash, Function, _Payable, _ArgTypeBin, _OutTypeBin} ->
{ok, Function};
false ->
{error, unknown_function}
@@ -143,8 +173,22 @@ function_name_from_type_hash(TypeHash, TypeInfo) ->
| {'error', 'unknown_function'}.
type_hash_from_function_name(Name, TypeInfo) ->
case lists:keyfind(Name, 2, TypeInfo) of
{TypeHash, Name,_ArgTypeBin,_OutTypeBin} ->
{TypeHash, Name, _ArgTypeBin, _OutTypeBin} ->
{ok, TypeHash};
{TypeHash, Name, _Payable, _ArgTypeBin, _OutTypeBin} ->
{ok, TypeHash};
false ->
{error, unknown_function}
end.
-spec is_payable(hash(), type_info()) -> {ok, boolean()} | {error, 'unknown_function'}.
is_payable(TypeHash, TypeInfo) ->
case lists:keyfind(TypeHash, 1, TypeInfo) of
{TypeHash, _Function, _ArgTypeBin, _OutTypeBin} ->
{ok, true};
{TypeHash, _Function, Payable, _ArgTypeBin, _OutTypeBin} ->
{ok, Payable};
false ->
{error, unknown_function}
end.
src/aeb_fate_abi.erl
+57 -1
View File
@@ -9,15 +9,71 @@
%%%-------------------------------------------------------------------
-module(aeb_fate_abi).
-export([ create_calldata/2 ]).
-export([ create_calldata/2
, decode_calldata/2
, get_function_hash_from_calldata/1
, get_function_name_from_function_hash/2
, get_function_type_from_function_hash/2
, abi_version/0 ]).
-include("../include/aeb_fate_data.hrl").
%%%===================================================================
%%% API
%%%===================================================================
%% Shall match ?ABI_FATE_SOPHIA_1
-spec abi_version() -> integer().
abi_version() ->
3.
-spec create_calldata(list(), [term()]) -> {ok, binary()}.
create_calldata(FunName, Args) ->
FunctionId = aeb_fate_code:symbol_identifier(list_to_binary(FunName)),
{ok, aeb_fate_encoding:serialize(
aeb_fate_data:make_tuple({FunctionId,
aeb_fate_data:make_tuple(list_to_tuple(Args))}))}.
-spec decode_calldata(list(), binary()) -> {ok, term()} | {error, term()}.
decode_calldata(FunName, Calldata) ->
FunctionId = aeb_fate_code:symbol_identifier(list_to_binary(FunName)),
try ?FATE_TUPLE_ELEMENTS(aeb_fate_encoding:deserialize(Calldata)) of
[FunctionId, FateArgs] -> {ok, ?FATE_TUPLE_ELEMENTS(FateArgs)};
_ -> {error, decode_error}
catch _:_ ->
{error, decode_error}
end.
-spec get_function_name_from_function_hash(binary(), aeb_fate_code:fcode()) ->
{ok, term()} | {error, term()}.
get_function_name_from_function_hash(<<SymbolHash:4/binary, _:28/binary>>, FateCode) ->
get_function_name_from_function_hash(SymbolHash, FateCode);
get_function_name_from_function_hash(SymbolHash = <<_:4/binary>>, FateCode) ->
Symbols = aeb_fate_code:symbols(FateCode),
case maps:get(SymbolHash, Symbols, undefined) of
undefined -> {error, no_function_matching_function_hash};
Function -> {ok, Function}
end.
-spec get_function_hash_from_calldata(binary()) ->
{ok, binary()} | {error, term()}.
get_function_hash_from_calldata(CallData) ->
try ?FATE_TUPLE_ELEMENTS(aeb_fate_encoding:deserialize(CallData)) of
[FunHash, _Args] -> {ok, FunHash};
_ -> {error, bad_calldata}
catch _:_ ->
{error, bad_calldata}
end.
-spec get_function_type_from_function_hash(binary(), aeb_fate_code:fcode()) ->
{ok, term(), term()} | {error, term()}.
get_function_type_from_function_hash(<<SymbolHash:4/binary, _:28/binary>>, FateCode) ->
get_function_type_from_function_hash(SymbolHash, FateCode);
get_function_type_from_function_hash(SymbolHash, FateCode) ->
Functions = aeb_fate_code:functions(FateCode),
case maps:get(SymbolHash, Functions, undefined) of
undefined ->
{error, no_function_matching_function_hash};
{_Attrs, {ArgTypes, RetType}, _Code} ->
{ok, ArgTypes, RetType}
end.
src/aeb_fate_asm.erl
+22 -18
View File
@@ -33,7 +33,7 @@
%%% References to the top of the stack is the letter a (for accumulator)
%%% a
%%%
%%% Immediate values can be of 11 types:
%%% Immediate values can be of 10 types:
%%% 1a. Integers as decimals: {Digits} or -{Digits}
%%% 42
%%% -2374683271468723648732648736498712634876147
@@ -42,7 +42,7 @@
%%% 2a. account addresses, a base58c encoded string prefixed with @ak_
%%% 2b. contract address: @ct_{base58char}+
%%% 2c. oracle address: @ok_{base58char}+
%%% 2d. name address: @nm_{base58char}+
%%% 2d. oracle query id: @oq_{base58char}+
%%% 2e. channel address: @ch_{base58char}+
%%% 3. Boolean true or false
%%% true
@@ -65,9 +65,8 @@
%%% (1, "foo")
%%% 9. Variants: (| [Arities] | Tag | ( Elements ) |)
%%% (| [0,1,2] | 2 | ( "foo", 12) |)
%%% 10. Hashes: #{base64char}+
%%% 10. Bytes: #{base64char}+
%%% #AQIDCioLFQ==
%%% 11. Signatures: $sg_{base58char}+
%%%
%%% Where Digits: [0123456789]
%%% Hexdigits: [0123456789abcdef]
@@ -154,7 +153,7 @@ format_functions(Functions, Symbols) ->
lists:sort(maps:to_list(CodeMap)),
Symbols)
||
{Name, {Sig, CodeMap}} <- maps:to_list(Functions)].
{Name, {_Attrs, Sig, CodeMap}} <- maps:to_list(Functions)].
format(Name, Sig, BBs, Symbols) ->
@@ -267,25 +266,20 @@ to_bytecode([{object,_line, {oracle, Value}}|Rest],
to_bytecode(Rest, Address, Env,
[{immediate, aeb_fate_data:make_oracle(Value)}|Code],
Opts);
to_bytecode([{object,_line, {name, Value}}|Rest],
to_bytecode([{object,_line, {oracle_query, Value}}|Rest],
Address, Env, Code, Opts) ->
to_bytecode(Rest, Address, Env,
[{immediate, aeb_fate_data:make_name(Value)}|Code],
[{immediate, aeb_fate_data:make_oracle_query(Value)}|Code],
Opts);
to_bytecode([{object,_line, {channel, Value}}|Rest],
Address, Env, Code, Opts) ->
to_bytecode(Rest, Address, Env,
[{immediate, aeb_fate_data:make_contract(Value)}|Code],
Opts);
to_bytecode([{hash,_line, Value}|Rest],
to_bytecode([{bytes,_line, Value}|Rest],
Address, Env, Code, Opts) ->
to_bytecode(Rest, Address, Env,
[{immediate, aeb_fate_data:make_hash(Value)}|Code],
Opts);
to_bytecode([{signature,_line, {signature, Value}}|Rest],
Address, Env, Code, Opts) ->
to_bytecode(Rest, Address, Env,
[{immediate, aeb_fate_data:make_signature(Value)}|Code],
[{immediate, aeb_fate_data:make_bytes(Value)}|Code],
Opts);
to_bytecode([{id,_line, ID}|Rest], Address, Env, Code, Opts) ->
{Env2, Id} = insert_symbol(list_to_binary(ID), Env),
@@ -304,6 +298,10 @@ to_bytecode([{start_variant,_line}|_] = Tokens, Address, Env, Code, Opts) ->
{Arities, Tag, Values, Rest} = parse_variant(Tokens),
Variant = aeb_fate_data:make_variant(Arities, Tag, Values),
to_bytecode(Rest, Address, Env, [{immediate, Variant}|Code], Opts);
to_bytecode([{typerep,_line}|Rest], Address, Env, Code, Opts) ->
{Type, Rest1} = to_type(Rest),
TypeRep = aeb_fate_data:make_typerep(Type),
to_bytecode(Rest1, Address, Env, [{immediate, TypeRep}|Code], Opts);
to_bytecode([{bits,_line, Bits}|Rest], Address, Env, Code, Opts) ->
to_bytecode(Rest, Address, Env,
[{immediate, aeb_fate_data:make_bits(Bits)}|Code], Opts);
@@ -396,14 +394,16 @@ parse_value([{object,_line, {contract, Address}} | Rest]) ->
{aeb_fate_data:make_contract(Address), Rest};
parse_value([{object,_line, {oracle, Address}} | Rest]) ->
{aeb_fate_data:make_oracle(Address), Rest};
parse_value([{object,_line, {name, Address}} | Rest]) ->
{aeb_fate_data:make_name(Address), Rest};
parse_value([{object,_line, {oracle_query, Address}} | Rest]) ->
{aeb_fate_data:make_oracle_query(Address), Rest};
parse_value([{object,_line, {channel, Address}} | Rest]) ->
{aeb_fate_data:make_channel(Address), Rest};
parse_value([{hash,_line, Hash} | Rest]) ->
{aeb_fate_data:make_hash(Hash), Rest};
parse_value([{signature,_line, Hash} | Rest]) ->
{aeb_fate_data:make_signature(Hash), Rest}.
{aeb_fate_data:make_signature(Hash), Rest};
parse_value([{typerep,_line} | Rest]) ->
to_type(Rest).
to_fun_def([{id, _, Name}, {'(', _} | Rest]) ->
{ArgsType, [{'to', _} | Rest2]} = to_arg_types(Rest),
@@ -429,6 +429,7 @@ to_type([{id, _, "string"} | Rest]) -> {string, Rest};
to_type([{id, _, "address"} | Rest]) -> {address, Rest};
to_type([{id, _, "contract"} | Rest]) -> {contract, Rest};
to_type([{id, _, "oracle"} | Rest]) -> {oracle, Rest};
to_type([{id, _, "oracle_query"} | Rest]) -> {oracle_query, Rest};
to_type([{id, _, "name"} | Rest]) -> {name, Rest};
to_type([{id, _, "channel"} | Rest]) -> {channel, Rest};
to_type([{id, _, "hash"} | Rest]) -> {hash, Rest};
@@ -447,6 +448,9 @@ to_type([{'{', _}, {id, _, "map"}, {',', _} | Rest]) ->
{KeyType, [{',', _}| Rest2]} = to_type(Rest),
{ValueType, [{'}', _}| Rest3]} = to_type(Rest2),
{{map, KeyType, ValueType}, Rest3};
to_type([{'{', _}, {id, _, "bytes"}, {',', _}, {int, _, Size}, {'}', _} | Rest]) ->
%% TODO: Error handling
{{bytes, Size}, Rest};
to_type([{'{', _}
, {id, _, "variant"}
, {',', _}
@@ -480,7 +484,7 @@ insert_fun({NameString, ArgType, RetType}, Code, #{ fate_code := FateCode
{FateCode1, Id} = aeb_fate_code:insert_symbol(Name, FateCode),
BodyByteCode = aeb_fate_code:serialize_code(lists:reverse(Code)),
SigByteCode = aeb_fate_code:serialize_signature({ArgType, RetType}),
FunByteCode = [?FUNCTION, Id, SigByteCode, BodyByteCode],
FunByteCode = [?FUNCTION, Id, aeb_fate_encoding:serialize(0), SigByteCode, BodyByteCode],
Env#{ functions => Funs#{ Id => FunByteCode }
, fate_code => FateCode1}.
src/aeb_fate_asm_scan.template
+5 -7
View File
@@ -17,8 +17,7 @@ BASE64 = [A-Za-z0-9+/=]
INT = {DIGIT}+
HEX = 0x{HEXDIGIT}+
OBJECT = @[a-z][a-z]_{BASE58}+
HASH = #{BASE64}+
SIG = \$sg_{BASE58}+
BYTES = #{BASE64}+
WS = [\000-\s]
ID = {LOWER}[a-zA-Z0-9_]*
STRING = "[^"]*"
@@ -36,10 +35,8 @@ false : {token, {boolean, TokenLine, false}}.
FUNCTION : {token, {function, TokenLine, 'FUNCTION' }}.
{HASH} :
{token, {hash, TokenLine, parse_hash(TokenChars)}}.
{SIG} :
{token, {signature, TokenLine, parse_object(TokenChars)}}.
{BYTES} :
{token, {bytes, TokenLine, parse_hash(TokenChars)}}.
{OBJECT} :
{token, {object, TokenLine, parse_object(TokenChars)}}.
{ID} :
@@ -75,6 +72,7 @@ FUNCTION : {token, {function, TokenLine, 'FUNCTION' }}.
\{ : {token, {'{', TokenLine}}.
\} : {token, {'}', TokenLine}}.
\| : {token, {'|', TokenLine}}.
\' : {token, {typerep, TokenLine}}.
;;.* :
{token, {comment, TokenLine, drop_prefix($;, TokenChars)}}.
@@ -118,7 +116,7 @@ parse_object([_|Chars]) ->
{account_pubkey, Bin} -> {address, Bin};
{contract_pubkey, Bin} -> {contract, Bin};
{oracle_pubkey, Bin} -> {oracle, Bin};
{name, Bin} -> {name, Bin};
{oracle_query_id, Bin} -> {oracle_query, Bin};
{channel, Bin} -> {channel, Bin};
{signature, Bin} -> {signature, Bin}
end.
src/aeb_fate_code.erl
+110 -52
View File
@@ -11,7 +11,7 @@
, deserialize/1
, functions/1
, insert_annotation/4
, insert_fun/4
, insert_fun/5
, insert_symbol/2
, new/0
, serialize/1
@@ -19,6 +19,7 @@
, serialize/3
, serialize_code/1
, serialize_signature/1
, strip_init_function/1
, symbol_identifier/1
, symbols/1
]).
@@ -27,7 +28,7 @@
-include("../include/aeb_fate_data.hrl").
-ifdef(EQC).
-export([update_annotations/2
-export([ update_annotations/2
, update_functions/2
, update_symbols/2]).
-endif.
@@ -39,6 +40,9 @@
-define(HASH_BYTES, 32).
-type fcode() :: #fcode{}.
-export_type([fcode/0]).
%%%===================================================================
%%% API
%%%===================================================================
@@ -69,9 +73,9 @@ symbol_identifier(Bin) ->
{ok, <<X:4/binary,_/binary>> } = eblake2:blake2b(?HASH_BYTES, Bin),
X.
insert_fun(Name, {ArgType, RetType}, #{} = BBs, FCode) ->
insert_fun(Name, Attrs, {ArgType, RetType}, #{} = BBs, FCode) ->
{F1, ID} = insert_symbol(Name, FCode),
update_functions(F1, #{ID => {{ArgType, RetType}, BBs}}).
update_functions(F1, #{ID => {Attrs, {ArgType, RetType}, BBs}}).
insert_symbol(Name, #fcode{ symbols = Syms } = F) ->
ID = symbol_identifier(Name),
@@ -89,6 +93,13 @@ insert_annotation(comment =_Type, Line, Comment, FCode) ->
Value = aeb_fate_data:make_string(Comment),
update_annotations(FCode, #{ Key => Value }).
strip_init_function(#fcode{ functions = Funs,
symbols = Syms } = FCode) ->
Id = symbol_identifier(<<"init">>),
Funs1 = maps:remove(Id, Funs),
Syms1 = maps:remove(Id, Syms),
FCode#fcode{ functions = Funs1, symbols = Syms1 }.
%%%===================================================================
%%% Serialization
%%%===================================================================
@@ -97,6 +108,7 @@ serialize(#fcode{} = F) ->
serialize(F, []).
serialize(#fcode{} = F, Options) ->
sanity_check(F),
serialize(F, serialize_functions(F), Options).
serialize(#fcode{} = F, Functions, Options) ->
@@ -124,12 +136,17 @@ to_hexstring(ByteList) ->
serialize_functions(#fcode{ functions = Functions }) ->
%% Sort the functions on name to get a canonical serialisation.
iolist_to_binary(
lists:foldr(fun({Id, {Sig, C}}, Acc) when byte_size(Id) == 4 ->
[[?FUNCTION, Id, serialize_signature(Sig), serialize_bbs(C)] | Acc];
({Id, _}, _) ->
error({illegal_function_id, Id})
lists:foldr(fun({Id, {Attrs, Sig, C}}, Acc) ->
[[?FUNCTION, Id, serialize_attributes(Attrs), serialize_signature(Sig), serialize_bbs(C)] | Acc]
end, [], lists:sort(maps:to_list(Functions)))).
serialize_attributes(Attrs) ->
AttrVal = lists:sum([ attr_value(Attr) || Attr <- Attrs ]),
aeb_fate_encoding:serialize(?MAKE_FATE_INTEGER(AttrVal)).
attr_value(private) -> 1;
attr_value(payable) -> 2.
serialize_signature({Args, RetType}) ->
[aeb_fate_encoding:serialize_type({tuple, Args}) |
aeb_fate_encoding:serialize_type(RetType)].
@@ -137,7 +154,7 @@ serialize_signature({Args, RetType}) ->
serialize_symbol_table(#fcode{ symbols = Symbols }) ->
aeb_fate_encoding:serialize(aeb_fate_data:make_map(Symbols)).
serialize_annotations(#fcode{ annotations = Annotations}) ->
serialize_annotations(#fcode{ annotations = Annotations }) ->
aeb_fate_encoding:serialize(aeb_fate_data:make_map(Annotations)).
serialize_bbs(#{} = BBs) ->
@@ -145,46 +162,70 @@ serialize_bbs(#{} = BBs) ->
serialize_bbs(BBs, N, Acc) ->
case maps:get(N, BBs, none) of
none ->
%% Assert that the BBs were contiguous
Size = maps:size(BBs),
case Size =:= N of
true ->
lists:reverse(Acc);
false ->
error({not_contiguous_labels, lists:sort(maps:keys(BBs))})
end;
[] ->
error({empty_code_block, N});
BB ->
serialize_bbs(BBs, N + 1, [serialize_bb(BB, [])|Acc])
none -> lists:reverse(Acc);
BB -> serialize_bbs(BBs, N + 1, [serialize_bb(BB, [])|Acc])
end.
serialize_bb([Op], Acc) ->
lists:reverse([serialize_op(true, Op)|Acc]);
lists:reverse([serialize_op(Op)|Acc]);
serialize_bb([Op|Rest], Acc) ->
serialize_bb(Rest, [serialize_op(false, Op)|Acc]).
%% serialize_bb([], Acc) ->
%% lists:reverse(Acc).
serialize_bb(Rest, [serialize_op(Op)|Acc]).
serialize_op(Kind, Op) ->
serialize_op(Op) ->
[Mnemonic|Args] =
case is_tuple(Op) of
true -> tuple_to_list(Op);
false -> [Op]
end,
safe_serialize(Kind, aeb_fate_opcodes:m_to_op(Mnemonic), Args).
[aeb_fate_opcodes:m_to_op(Mnemonic) | serialize_code(Args)].
safe_serialize(Last, Op, Args) ->
sanity_check(#fcode{ functions = Funs }) ->
_ = [ case Def of
{_, _, BBs} when byte_size(Id) == 4 -> sanity_check_bbs(BBs);
_ -> error({illegal_function_id, Id})
end || {Id, Def} <- maps:to_list(Funs) ],
ok.
sanity_check_bbs(#{} = BBs) ->
sanity_check_bbs(BBs, 0).
sanity_check_bbs(BBs, N) ->
case maps:get(N, BBs, none) of
none ->
%% Assert that the BBs were contiguous
case maps:size(BBs) =:= N of
true -> ok;
false -> error({not_contiguous_labels, lists:sort(maps:keys(BBs))})
end;
[] ->
error({empty_code_block, N});
BB ->
sanity_check_bb(BB),
sanity_check_bbs(BBs, N + 1)
end.
sanity_check_bb([Op]) ->
sanity_check_op(true, Op);
sanity_check_bb([Op|Rest]) ->
sanity_check_op(false, Op),
sanity_check_bb(Rest).
sanity_check_op(IsLast, Op) ->
[Mnemonic|Args] =
case is_tuple(Op) of
true -> tuple_to_list(Op);
false -> [Op]
end,
safe_sanity_check(IsLast, aeb_fate_opcodes:m_to_op(Mnemonic), Args).
safe_sanity_check(IsLast, Op, Args) ->
case length(Args) == aeb_fate_opcodes:args(Op) of
true ->
case Last == aeb_fate_opcodes:end_bb(Op) of
true -> [Op|serialize_code(Args)];
false ->
error({wrong_opcode_in_bb, Op})
case IsLast == aeb_fate_opcodes:end_bb(Op) of
true -> ok;
false -> error({wrong_opcode_in_bb, Op})
end;
false ->
error({wrong_nr_args_opcode, Op})
false -> error({wrong_nr_args_opcode, Op})
end.
@@ -263,10 +304,13 @@ deserialize(Bytes) ->
, functions => #{}
, code => #{}
},
#fcode{ functions = deserialize_functions(ByteCode, Env)
, annotations = deserialize_annotations(Annotations)
, symbols = deserialize_symbols(SymbolTable)
}.
Fcode =
#fcode{ functions = deserialize_functions(ByteCode, Env)
, annotations = deserialize_annotations(Annotations)
, symbols = deserialize_symbols(SymbolTable)
},
sanity_check(Fcode),
Fcode.
deserialize_functions(<<?FUNCTION:8, A, B, C, D, Rest/binary>>,
@@ -274,33 +318,35 @@ deserialize_functions(<<?FUNCTION:8, A, B, C, D, Rest/binary>>,
, bb := 0
, current_bb_code := []
} = Env) ->
{Sig, Rest2} = deserialize_signature(Rest),
Env2 = Env#{function => {<<A,B,C,D>>, Sig}},
deserialize_functions(Rest2, Env2);
{Attrs, Rest2} = deserialize_attributes(Rest),
{Sig, Rest3} = deserialize_signature(Rest2),
Env2 = Env#{function => {<<A,B,C,D>>, Attrs, Sig}},
deserialize_functions(Rest3, Env2);
deserialize_functions(<<?FUNCTION:8, A, B, C, D, Rest/binary>>,
#{ function := {F, Sig}
#{ function := {F, Attrs, Sig}
, bb := BB
, current_bb_code := Code
, code := Program
, functions := Funs} = Env) ->
{NewSig, Rest2} = deserialize_signature(Rest),
{NewAttrs, Rest2} = deserialize_attributes(Rest),
{NewSig, Rest3} = deserialize_signature(Rest2),
case Code of
[] ->
Env2 = Env#{ bb => 0
, current_bb_code => []
, function => {<<A,B,C,D>>, NewSig}
, function => {<<A,B,C,D>>, NewAttrs, NewSig}
, code => #{}
, functions => Funs#{F => {Sig, Program}}},
deserialize_functions(Rest2, Env2);
, functions => Funs#{F => {Attrs, Sig, Program}}},
deserialize_functions(Rest3, Env2);
_ ->
Env2 = Env#{ bb => 0
, current_bb_code => []
, function => {<<A,B,C,D>>, NewSig}
, function => {<<A,B,C,D>>, NewAttrs, NewSig}
, code => #{}
, functions =>
Funs#{F => {Sig,
Funs#{F => {Attrs, Sig,
Program#{ BB => lists:reverse(Code)}}}},
deserialize_functions(Rest2, Env2)
deserialize_functions(Rest3, Env2)
end;
deserialize_functions(<<_Op:8, _Rest/binary>>,
#{ function := none }) ->
@@ -322,7 +368,7 @@ deserialize_functions(<<Op:8, Rest/binary>>,
deserialize_functions(<<>>, #{ function := none
, functions := Funs}) ->
Funs;
deserialize_functions(<<>>, #{ function := {F, Sig}
deserialize_functions(<<>>, #{ function := {F, Attrs, Sig}
, bb := BB
, current_bb_code := Code
, code := Program
@@ -332,7 +378,7 @@ deserialize_functions(<<>>, #{ function := {F, Sig}
[] -> Program;
_ -> Program#{ BB => lists:reverse(Code)}
end,
Funs#{F => {Sig, FunctionCode}}.
Funs#{F => {Attrs, Sig, FunctionCode}}.
deserialize_op(Op, Rest, Code) ->
OpName = aeb_fate_opcodes:mnemonic(Op),
@@ -370,6 +416,18 @@ deserialize_n_args(N, <<M7:2, M6:2, M5:2, M4:2, M3:2, M2:2, M1:2, M0:2,
end
end, Rest, ArgMods).
deserialize_attributes(Binary) ->
{AttrVal, Rest} = aeb_fate_encoding:deserialize_one(Binary),
Attrs = [ attr(AVal) || AVal <- attr_vals(1, AttrVal) ],
{lists:sort(Attrs), Rest}.
attr_vals(_, 0) -> [];
attr_vals(X, N) when N rem 2 == 0 -> attr_vals(X + 1, N div 2);
attr_vals(X, N) -> [X | attr_vals(X + 1, N div 2)].
attr(1) -> private;
attr(2) -> payable.
deserialize_signature(Binary) ->
{{tuple, Args}, Rest} = aeb_fate_encoding:deserialize_type(Binary),
{RetType, Rest2} = aeb_fate_encoding:deserialize_type(Rest),
src/aeb_fate_data.erl
+65 -43
View File
@@ -10,17 +10,18 @@
-type fate_list() :: ?FATE_LIST_T.
-type fate_unit() :: ?FATE_UNIT_T.
-type fate_map() :: ?FATE_MAP_T.
-type fate_store_map() :: ?FATE_STORE_MAP_T.
-type fate_string() :: ?FATE_STRING_T.
-type fate_address() :: ?FATE_ADDRESS_T.
-type fate_hash() :: ?FATE_HASH_T.
-type fate_hash() :: ?FATE_BYTES_T(32).
-type fate_signature() :: ?FATE_BYTES_T(64).
-type fate_contract() :: ?FATE_CONTRACT_T.
-type fate_oracle() :: ?FATE_ORACLE_T.
-type fate_name() :: ?FATE_NAME_T.
-type fate_channel() :: ?FATE_CHANNEL_T.
-type fate_signature() :: ?FATE_SIGNATURE_T.
-type fate_variant() :: ?FATE_VARIANT_T.
-type fate_tuple() :: ?FATE_TUPLE_T.
-type fate_bits() :: ?FATE_BITS_T.
-type fate_typerep() :: ?FATE_TYPEREP_T.
-type fate_type_type() :: integer
| boolean
@@ -32,7 +33,6 @@
| signature
| contract
| oracle
| name
| channel
| bits
| string
@@ -52,11 +52,11 @@
| fate_signature()
| fate_contract()
| fate_oracle()
| fate_name()
| fate_channel()
| fate_variant()
| fate_map()
| fate_bits().
| fate_bits()
| fate_typerep().
-export_type([fate_type/0
, fate_boolean/0
@@ -71,10 +71,10 @@
, fate_signature/0
, fate_contract/0
, fate_oracle/0
, fate_name/0
, fate_channel/0
, fate_variant/0
, fate_map/0
, fate_store_map/0
, fate_bits/0
, fate_type_type/0
]).
@@ -86,15 +86,19 @@
, make_tuple/1
, make_string/1
, make_map/1
, make_store_map/1
, make_store_map/2
, make_address/1
, make_bytes/1
, make_hash/1
, make_signature/1
, make_contract/1
, make_oracle/1
, make_name/1
, make_oracle_query/1
, make_channel/1
, make_bits/1
, make_unit/0
, make_typerep/1
]).
-export([
elt/2
@@ -110,18 +114,22 @@ make_list(L) -> ?MAKE_FATE_LIST(L).
make_unit() -> ?FATE_UNIT.
make_tuple(T) -> ?FATE_TUPLE(T).
make_map(M) -> ?MAKE_FATE_MAP(M).
make_store_map(Id) -> make_store_map(#{}, Id).
make_store_map(Cache, Id) -> ?FATE_STORE_MAP(Cache, Id).
make_address(X) -> ?FATE_ADDRESS(X).
make_hash(X) -> ?FATE_HASH(X).
make_signature(X) -> ?FATE_SIGNATURE(X).
make_bytes(X) -> ?FATE_BYTES(X).
make_hash(X) -> make_bytes(X).
make_signature(X) -> make_bytes(X).
make_contract(X) -> ?FATE_CONTRACT(X).
make_oracle(X) -> ?FATE_ORACLE(X).
make_name(X) -> ?FATE_NAME(X).
make_oracle_query(X) -> ?FATE_ORACLE_Q(X).
make_channel(X) -> ?FATE_CHANNEL(X).
make_integer(I) when is_integer(I) -> ?MAKE_FATE_INTEGER(I).
make_bits(I) when is_integer(I) -> ?FATE_BITS(I).
make_string(S) when is_list(S) ->
?FATE_STRING(iolist_to_binary(S));
make_string(S) when is_binary(S) -> ?FATE_STRING(S).
make_typerep(T) -> ?FATE_TYPEREP(T).
%% Tag points to the selected variant (zero based)
%% The arity of this variant is read from the list of provided arities
@@ -164,19 +172,19 @@ format(?FATE_VARIANT(Arities, Tag, T)) ->
" |)"];
format(M) when ?IS_FATE_MAP(M) ->
["{ ", format_kvs(maps:to_list(?FATE_MAP_VALUE(M))), " }"];
format(?FATE_HASH(X)) -> ["#", base64:encode(X)];
format(?FATE_BYTES(X)) -> ["#", base64:encode(X)];
format(?FATE_ADDRESS(X)) ->
["@", aeser_api_encoder:encode(account_pubkey, X)];
format(?FATE_SIGNATURE(X)) ->
["$", aeser_api_encoder:encode(signature, X)];
format(?FATE_CONTRACT(X)) ->
["@", aeser_api_encoder:encode(contract_pubkey, X)];
format(?FATE_ORACLE(X)) ->
["@", aeser_api_encoder:encode(oracle_pubkey, X)];
format(?FATE_NAME(X)) ->
["@", aeser_api_encoder:encode(name, X)];
format(?FATE_ORACLE_Q(X)) ->
["@", aeser_api_encoder:encode(oracle_query_id, X)];
format(?FATE_CHANNEL(X)) ->
["@", aeser_api_encoder:encode(channel, X)];
format(?FATE_TYPEREP(X)) ->
["'", io_lib:format("~p", [X])];
format(V) -> exit({not_a_fate_type, V}).
format_bits(0, Acc) -> Acc;
@@ -200,24 +208,38 @@ format_kvs(List) ->
%% Total order of FATE terms.
%% Integers < Booleans < Address < Channel < Contract < Name < Oracle
%% Integers < Booleans < Address < Channel < Contract < Oracle
%% < Hash < Signature < Bits < String < Tuple < Map < List < Variant
-define(ORD_INTEGER , 0).
-define(ORD_BOOLEAN , 1).
-define(ORD_ADDRESS , 2).
-define(ORD_CHANNEL , 3).
-define(ORD_CONTRACT , 4).
-define(ORD_ORACLE , 5).
-define(ORD_BYTES , 6).
-define(ORD_BITS , 7).
-define(ORD_STRING , 8).
-define(ORD_TUPLE , 9).
-define(ORD_MAP , 10).
-define(ORD_LIST , 11).
-define(ORD_VARIANT , 12).
-define(ORD_ORACLE_Q , 13).
-spec ordinal(fate_type()) -> integer().
ordinal(T) when ?IS_FATE_INTEGER(T) -> 0;
ordinal(T) when ?IS_FATE_BOOLEAN(T) -> 1;
ordinal(T) when ?IS_FATE_ADDRESS(T) -> 2;
ordinal(T) when ?IS_FATE_CHANNEL(T) -> 3;
ordinal(T) when ?IS_FATE_CONTRACT(T) -> 4;
ordinal(T) when ?IS_FATE_NAME(T) -> 5;
ordinal(T) when ?IS_FATE_ORACLE(T) -> 6;
ordinal(T) when ?IS_FATE_HASH(T) -> 7;
ordinal(T) when ?IS_FATE_SIGNATURE(T) -> 8;
ordinal(T) when ?IS_FATE_BITS(T) -> 9;
ordinal(T) when ?IS_FATE_STRING(T) -> 10;
ordinal(T) when ?IS_FATE_TUPLE(T) -> 11;
ordinal(T) when ?IS_FATE_MAP(T) -> 12;
ordinal(T) when ?IS_FATE_LIST(T) -> 13;
ordinal(T) when ?IS_FATE_VARIANT(T) -> 14.
ordinal(T) when ?IS_FATE_INTEGER(T) -> ?ORD_INTEGER;
ordinal(T) when ?IS_FATE_BOOLEAN(T) -> ?ORD_BOOLEAN;
ordinal(T) when ?IS_FATE_ADDRESS(T) -> ?ORD_ADDRESS;
ordinal(T) when ?IS_FATE_CHANNEL(T) -> ?ORD_CHANNEL;
ordinal(T) when ?IS_FATE_CONTRACT(T) -> ?ORD_CONTRACT;
ordinal(T) when ?IS_FATE_ORACLE(T) -> ?ORD_ORACLE;
ordinal(T) when ?IS_FATE_BYTES(T) -> ?ORD_BYTES;
ordinal(T) when ?IS_FATE_BITS(T) -> ?ORD_BITS;
ordinal(T) when ?IS_FATE_STRING(T) -> ?ORD_STRING;
ordinal(T) when ?IS_FATE_TUPLE(T) -> ?ORD_TUPLE;
ordinal(T) when ?IS_FATE_MAP(T) -> ?ORD_MAP;
ordinal(T) when ?IS_FATE_LIST(T) -> ?ORD_LIST;
ordinal(T) when ?IS_FATE_VARIANT(T) -> ?ORD_VARIANT;
ordinal(T) when ?IS_FATE_ORACLE_Q(T) -> ?ORD_ORACLE_Q.
-spec lt(fate_type(), fate_type()) -> boolean().
@@ -229,12 +251,12 @@ lt(A, B) ->
end.
%% Integers are ordered as usual.
lt(0, A, B) when ?IS_FATE_INTEGER(A), ?IS_FATE_INTEGER(B) ->
lt(?ORD_INTEGER, A, B) when ?IS_FATE_INTEGER(A), ?IS_FATE_INTEGER(B) ->
?FATE_INTEGER_VALUE(A) < ?FATE_INTEGER_VALUE(B);
%% false is smaller than true (true also for erlang booleans).
lt(1, A, B) when ?IS_FATE_BOOLEAN(A), ?IS_FATE_BOOLEAN(B) ->
lt(?ORD_BOOLEAN, A, B) when ?IS_FATE_BOOLEAN(A), ?IS_FATE_BOOLEAN(B) ->
?FATE_BOOLEAN_VALUE(A) < ?FATE_BOOLEAN_VALUE(B);
lt(9, A, B) when ?IS_FATE_BITS(A), ?IS_FATE_BITS(B) ->
lt(?ORD_BITS, A, B) when ?IS_FATE_BITS(A), ?IS_FATE_BITS(B) ->
BitsA = ?FATE_BITS_VALUE(A),
BitsB = ?FATE_BITS_VALUE(B),
if BitsA < 0 ->
@@ -245,7 +267,7 @@ lt(9, A, B) when ?IS_FATE_BITS(A), ?IS_FATE_BITS(B) ->
true;
true -> BitsA < BitsB
end;
lt(10,?FATE_STRING(A), ?FATE_STRING(B)) ->
lt(?ORD_STRING,?FATE_STRING(A), ?FATE_STRING(B)) ->
SizeA = size(A),
SizeB = size(B),
case SizeA - SizeB of
@@ -253,23 +275,23 @@ lt(10,?FATE_STRING(A), ?FATE_STRING(B)) ->
N -> N < 0
end;
lt(11,?FATE_TUPLE(A), ?FATE_TUPLE(B)) ->
lt(?ORD_TUPLE,?FATE_TUPLE(A), ?FATE_TUPLE(B)) ->
SizeA = size(A),
SizeB = size(B),
case SizeA - SizeB of
0 -> tuple_elements_lt(0, A, B, SizeA);
N -> N < 0
end;
lt(12, ?FATE_MAP_VALUE(A), ?FATE_MAP_VALUE(B)) ->
lt(?ORD_MAP, ?FATE_MAP_VALUE(A), ?FATE_MAP_VALUE(B)) ->
SizeA = maps:size(A),
SizeB = maps:size(B),
case SizeA - SizeB of
0 -> maps_lt(A, B);
N -> N < 0
end;
lt(13, ?FATE_LIST_VALUE(_), ?FATE_LIST_VALUE([])) -> false;
lt(13, ?FATE_LIST_VALUE([]), ?FATE_LIST_VALUE(_)) -> true;
lt(13, ?FATE_LIST_VALUE([A|RA]), ?FATE_LIST_VALUE([B|RB])) ->
lt(?ORD_LIST, ?FATE_LIST_VALUE(_), ?FATE_LIST_VALUE([])) -> false;
lt(?ORD_LIST, ?FATE_LIST_VALUE([]), ?FATE_LIST_VALUE(_)) -> true;
lt(?ORD_LIST, ?FATE_LIST_VALUE([A|RA]), ?FATE_LIST_VALUE([B|RB])) ->
O1 = ordinal(A),
O2 = ordinal(B),
if O1 == O2 ->
@@ -278,8 +300,8 @@ lt(13, ?FATE_LIST_VALUE([A|RA]), ?FATE_LIST_VALUE([B|RB])) ->
end;
true -> O1 < O2
end;
lt(14, ?FATE_VARIANT(AritiesA, TagA, TA),
?FATE_VARIANT(AritiesB, TagB, TB)) ->
lt(?ORD_VARIANT, ?FATE_VARIANT(AritiesA, TagA, TA),
?FATE_VARIANT(AritiesB, TagB, TB)) ->
if length(AritiesA) < length(AritiesB) -> true;
length(AritiesA) > length(AritiesB) -> false;
true ->
src/aeb_fate_encoding.erl
+57 -26
View File
@@ -73,7 +73,7 @@
-define(TYPE_MAP , 2#01100111). %% 0110 0111 | Type | Type
-define(TYPE_STRING , 2#01110111). %% 0111 0111 - string typedef
-define(TYPE_VARIANT , 2#10000111). %% 1000 0111 | [Arities] | [Type]
%% 1001 0111
-define(TYPE_BYTES , 2#10010111). %% 1001 0111 - Bytes typedef
%% 1010 0111
%% 1011 0111
%% 1100 0111
@@ -93,6 +93,7 @@
%% %% 1000 1111 - FREE (Possibly for bytecode in the future.)
-define(OBJECT , 2#10011111). %% 1001 1111 | ObjectType | RLP encoded Array
-define(VARIANT , 2#10101111). %% 1010 1111 | [encoded arities] | encoded tag | [encoded values]
-define(MAP_ID , 2#10111111). %% 1011 1111 | RLP encoded integer (store map id)
-define(NEG_BITS , 2#11001111). %% 1100 1111 | RLP encoded integer (infinite 1:s bitfield)
-define(EMPTY_MAP , 2#11011111). %% 1101 1111
-define(NEG_BIG_INT , 2#11101111). %% 1110 1111 | RLP encoded (integer - 64)
@@ -108,12 +109,24 @@
%% Object types
-define(OTYPE_ADDRESS, 0).
-define(OTYPE_HASH, 1).
-define(OTYPE_SIGNATURE, 2).
-define(OTYPE_CONTRACT, 3).
-define(OTYPE_ORACLE, 4).
-define(OTYPE_NAME, 5).
-define(OTYPE_CHANNEL, 6).
-define(OTYPE_BYTES, 1).
-define(OTYPE_CONTRACT, 2).
-define(OTYPE_ORACLE, 3).
-define(OTYPE_ORACLE_Q, 4).
-define(OTYPE_CHANNEL, 5).
-define(IS_TYPE_TAG(X), (X =:= ?TYPE_INTEGER orelse
X =:= ?TYPE_BOOLEAN orelse
X =:= ?TYPE_ANY orelse
X =:= ?TYPE_VAR orelse
X =:= ?TYPE_LIST orelse
X =:= ?TYPE_TUPLE orelse
X =:= ?TYPE_OBJECT orelse
X =:= ?TYPE_BITS orelse
X =:= ?TYPE_BYTES orelse
X =:= ?TYPE_MAP orelse
X =:= ?TYPE_STRING orelse
X =:= ?TYPE_VARIANT)).
%% --------------------------------------------------
%% Serialize
@@ -140,18 +153,16 @@ serialize(String) when ?IS_FATE_STRING(String),
<<?LONG_STRING,
(serialize_integer(?FATE_STRING_SIZE(String) - ?SHORT_STRING_SIZE))/binary
, Bytes/binary>>;
serialize(?FATE_BYTES(Bytes)) when is_binary(Bytes) ->
<<?OBJECT, ?OTYPE_BYTES, (serialize(?FATE_STRING(Bytes)))/binary>>;
serialize(?FATE_ADDRESS(Address)) when is_binary(Address) ->
<<?OBJECT, ?OTYPE_ADDRESS, (aeser_rlp:encode(Address))/binary>>;
serialize(?FATE_HASH(Address)) when is_binary(Address) ->
<<?OBJECT, ?OTYPE_HASH, (aeser_rlp:encode(Address))/binary>>;
serialize(?FATE_SIGNATURE(Address)) when is_binary(Address) ->
<<?OBJECT, ?OTYPE_SIGNATURE, (aeser_rlp:encode(Address))/binary>>;
serialize(?FATE_CONTRACT(Address)) when is_binary(Address) ->
<<?OBJECT, ?OTYPE_CONTRACT, (aeser_rlp:encode(Address))/binary>>;
serialize(?FATE_ORACLE(Address)) when is_binary(Address) ->
<<?OBJECT, ?OTYPE_ORACLE, (aeser_rlp:encode(Address))/binary>>;
serialize(?FATE_NAME(Address)) when is_binary(Address) ->
<<?OBJECT, ?OTYPE_NAME, (aeser_rlp:encode(Address))/binary>>;
serialize(?FATE_ORACLE_Q(Address)) when is_binary(Address) ->
<<?OBJECT, ?OTYPE_ORACLE_Q, (aeser_rlp:encode(Address))/binary>>;
serialize(?FATE_CHANNEL(Address)) when is_binary(Address) ->
<<?OBJECT, ?OTYPE_CHANNEL, (aeser_rlp:encode(Address))/binary>>;
serialize(?FATE_TUPLE(T)) when size(T) > 0 ->
@@ -184,6 +195,9 @@ serialize(Map) when ?IS_FATE_MAP(Map) ->
<<?MAP,
(rlp_encode_int(Size))/binary,
(Elements)/binary>>;
serialize(?FATE_STORE_MAP(Cache, Id)) when Cache =:= #{} ->
%% We should never get to serialization without having flushed the caches.
<<?MAP_ID, (rlp_encode_int(Id))/binary>>;
serialize(?FATE_VARIANT(Arities, Tag, Values)) ->
Arities = [A || A <- Arities, is_integer(A), A < 256],
Size = length(Arities),
@@ -200,7 +214,9 @@ serialize(?FATE_VARIANT(Arities, Tag, Values)) ->
(serialize(?FATE_TUPLE(Values)))/binary
>>
end
end.
end;
serialize(?FATE_TYPEREP(T)) ->
iolist_to_binary(serialize_type(T)).
%% -----------------------------------------------------
@@ -216,12 +232,12 @@ serialize_type({tuple, Ts}) ->
N when N =< 255 ->
[?TYPE_TUPLE, N | [serialize_type(T) || T <- Ts]]
end;
serialize_type({bytes, N}) when 0 =< N ->
[?TYPE_BYTES | binary_to_list(serialize_integer(N))];
serialize_type(address) -> [?TYPE_OBJECT, ?OTYPE_ADDRESS];
serialize_type(hash) -> [?TYPE_OBJECT, ?OTYPE_HASH];
serialize_type(signature) -> [?TYPE_OBJECT, ?OTYPE_SIGNATURE];
serialize_type(contract) -> [?TYPE_OBJECT, ?OTYPE_CONTRACT];
serialize_type(oracle) -> [?TYPE_OBJECT, ?OTYPE_ORACLE];
serialize_type(name) -> [?TYPE_OBJECT, ?OTYPE_NAME];
serialize_type(oracle_query)-> [?TYPE_OBJECT, ?OTYPE_ORACLE_Q];
serialize_type(channel) -> [?TYPE_OBJECT, ?OTYPE_CHANNEL];
serialize_type(bits) -> [?TYPE_BITS];
serialize_type({map, K, V}) -> [?TYPE_MAP
@@ -245,14 +261,16 @@ deserialize_type(<<?TYPE_LIST, Rest/binary>>) ->
deserialize_type(<<?TYPE_TUPLE, N, Rest/binary>>) ->
{Ts, Rest2} = deserialize_types(N, Rest, []),
{{tuple, Ts}, Rest2};
deserialize_type(<<?TYPE_BYTES, Rest/binary>>) ->
{N, Rest2} = deserialize_one(Rest),
true = is_integer(N) andalso N >= 0,
{{bytes, N}, Rest2};
deserialize_type(<<?TYPE_OBJECT, ObjectType, Rest/binary>>) ->
case ObjectType of
?OTYPE_ADDRESS -> {address, Rest};
?OTYPE_HASH -> {hash, Rest};
?OTYPE_SIGNATURE -> {signature, Rest};
?OTYPE_CONTRACT -> {contract, Rest};
?OTYPE_ORACLE -> {oracle, Rest};
?OTYPE_NAME -> {name, Rest};
?OTYPE_ORACLE_Q -> {oracle_query, Rest};
?OTYPE_CHANNEL -> {channel, Rest}
end;
deserialize_type(<<?TYPE_BITS, Rest/binary>>) -> {bits, Rest};
@@ -354,6 +372,7 @@ deserialize2(<<?POS_BITS, Rest/binary>>) ->
{?FATE_BITS(Bint), Rest2};
deserialize2(<<?LONG_STRING, Rest/binary>>) ->
{S, Rest2} = deserialize_one(Rest),
true = is_integer(S) andalso S >= 0,
Size = S + ?SHORT_STRING_SIZE,
String = binary:part(Rest2, 0, Size),
Rest3 = binary:part(Rest2, byte_size(Rest2), - (byte_size(Rest2) - Size)),
@@ -362,16 +381,18 @@ deserialize2(<<S:6, ?SHORT_STRING:2, Rest/binary>>) ->
String = binary:part(Rest, 0, S),
Rest2 = binary:part(Rest, byte_size(Rest), - (byte_size(Rest) - S)),
{?MAKE_FATE_STRING(String), Rest2};
deserialize2(<<?OBJECT, ?OTYPE_BYTES, Rest/binary>>) ->
{String, Rest2} = deserialize_one(Rest),
true = ?IS_FATE_STRING(String),
{?FATE_BYTES(?FATE_STRING_VALUE(String)), Rest2};
deserialize2(<<?OBJECT, ObjectType, Rest/binary>>) ->
{A, Rest2} = aeser_rlp:decode_one(Rest),
Val =
case ObjectType of
?OTYPE_ADDRESS -> ?FATE_ADDRESS(A);
?OTYPE_HASH -> ?FATE_HASH(A);
?OTYPE_SIGNATURE -> ?FATE_SIGNATURE(A);
?OTYPE_CONTRACT -> ?FATE_CONTRACT(A);
?OTYPE_ORACLE -> ?FATE_ORACLE(A);
?OTYPE_NAME -> ?FATE_NAME(A);
?OTYPE_ORACLE_Q -> ?FATE_ORACLE_Q(A);
?OTYPE_CHANNEL -> ?FATE_CHANNEL(A)
end,
{Val, Rest2};
@@ -410,6 +431,9 @@ deserialize2(<<?MAP, Rest/binary>>) ->
false ->
error({unknown_map_serialization_format, KVList})
end;
deserialize2(<<?MAP_ID, Rest/binary>>) ->
{Id, Rest1} = rlp_decode_int(Rest),
{?FATE_STORE_MAP(#{}, Id), Rest1};
deserialize2(<<?VARIANT, Rest/binary>>) ->
{AritiesBin, <<Tag:8, Rest2/binary>>} = aeser_rlp:decode_one(Rest),
Arities = binary_to_list(AritiesBin),
@@ -424,7 +448,10 @@ deserialize2(<<?VARIANT, Rest/binary>>) ->
true ->
{?FATE_VARIANT(Arities, Tag, T), Rest3}
end
end.
end;
deserialize2(<<TypeTag, _/binary>> = Bin) when ?IS_TYPE_TAG(TypeTag) ->
{Type, Rest} = deserialize_type(Bin),
{?FATE_TYPEREP(Type), Rest}.
insert_kv([]) -> [];
insert_kv([K, V | R]) -> [{K, V} | insert_kv(R)].
@@ -461,7 +488,11 @@ sort(KVList) ->
valid_key_type(K) when ?IS_FATE_MAP(K) ->
error({map_as_key_in_map, K});
valid_key_type(K) when ?IS_FATE_VARIANT(K) ->
error({variant_as_key_in_map, K});
valid_key_type(?FATE_STORE_MAP(_, _) = K) ->
error({map_as_key_in_map, K});
valid_key_type(K) when is_list(K) ->
lists:all(fun(E) -> valid_key_type(E) end, K);
valid_key_type(K) when is_tuple(K) ->
lists:all(fun(E) -> valid_key_type(E) end, tuple_to_list(K));
valid_key_type(_K) ->
true.
src/aeb_fate_generate_ops.erl
+217 -142
View File
@@ -4,7 +4,7 @@
, generate/0
, generate_documentation/1
, get_ops/0
, test_asm_generator/1]).
, test_asm_generator/1 ]).
gen_and_halt([SrcDirArg, IncludeDirArg]) ->
generate(atom_to_list(SrcDirArg),
@@ -42,136 +42,177 @@ check_numbering(_, []) -> true.
%% TODO: Some real gas numbers...
ops_defs() ->
%% Opname, Opcode, end_bb, gas, format, Constructor, ArgType, ResType, Documentation
[ { 'RETURN', 16#00, true, 2, [], return, {}, any, "Return from function call, top of stack is return value . The type of the retun value has to match the return type of the function."}
, { 'RETURNR', 16#01, true, 2, [a], returnr, {any}, any, "Push Arg0 and return from function. The type of the retun value has to match the return type of the function."}
, { 'CALL', 16#02, true, 4, [a], call, {string}, any, "Call the function Arg0 with args on stack. The types of the arguments has to match the argument typs of the function."}
, { 'CALL_R', 16#03, true, 8, [a,is,a], call_r, {contract, string, integer}, any, "Remote call to contract Arg0 and function Arg1 with value Arg2. The types of the arguments has to match the argument typs of the function."}
, { 'CALL_T', 16#04, true, 4, [a], call_t, {string}, any, "Tail call to function Arg0. The types of the arguments has to match the argument typs of the function. And the return type of the called function has to match the type of the current function."}
, { 'CALL_TR', 16#05, true, 8, [a,is,a], call_tr, {contract, string, integer}, any, "Remote tail call to contract Arg0 and function Arg1 with value Arg2. The types of the arguments has to match the argument typs of the function. And the return type of the called function has to match the type of the current function."}
, { 'CALL_GR', 16#06, true, 8, [a,is,a,a], call_gr, {contract, string, integer, integer}, any, "Remote call with gas cap in Arg3. Otherwise as CALL_R."}
, { 'CALL_GTR', 16#07, true, 8, [a,is,a,a], call_gtr, {contract, string, integer, integer}, any, "Remote tail call with gas cap in Arg3. Otherwise as CALL_TR."}
, { 'JUMP', 16#08, true, 3, [ii], jump, {integer}, none, "Jump to a basic block. The basic block has to exist in the current function."}
, { 'JUMPIF', 16#09, true, 4, [a,ii], jumpif, {boolean, integer}, none, "Conditional jump to a basic block. If Arg0 then jump to Arg1."}
, { 'SWITCH_V2', 16#0a, true, 4, [a,ii,ii], switch, {variant, integer, ingeger}, none, "Conditional jump to a basic block on variant tag."}
, { 'SWITCH_V3', 16#0b, true, 4, [a,ii,ii,ii], switch, {variant, integer, integer, ingeger}, none, "Conditional jump to a basic block on variant tag."}
, { 'SWITCH_VN', 16#0c, true, 4, [a, li], switch, {variant, {list, integer}}, none, "Conditional jump to a basic block on variant tag."}
, { 'CALL_VALUE', 16#0d, false, 3, [a], call_value, {}, integer, "The value sent in the current remote call."}
, { 'PUSH', 16#0e, false, 2, [a], push, {any}, any, "Push argument to stack."}
, { 'DUPA', 16#0f, false, 3, [], dup, {any}, any, "Duplicate top of stack."}
, { 'DUP', 16#10, false, 3, [a], dup, {any}, any, "push Arg0 stack pos on top of stack."}
, { 'POP', 16#11, false, 3, [a], pop, {integer}, integer, "Arg0 := top of stack."}
, { 'INCA', 16#12, false, 2, [], inc, {integer}, integer, "Increment accumulator."}
, { 'INC', 16#13, false, 2, [a], inc, {integer}, integer, "Increment argument."}
, { 'DECA', 16#14, false, 2, [], dec, {integer}, integer, "Decrement accumulator."}
, { 'DEC', 16#15, false, 2, [a], dec, {integer}, integer, "Decrement argument."}
, { 'ADD', 16#16, false, 3, [a,a,a], add, {integer, integer}, integer, "Arg0 := Arg1 + Arg2."}
, { 'SUB', 16#17, false, 3, [a,a,a], sub, {integer, integer}, integer, "Arg0 := Arg1 - Arg2."}
, { 'MUL', 16#18, false, 3, [a,a,a], mul, {integer, integer}, integer, "Arg0 := Arg1 * Arg2."}
, { 'DIV', 16#19, false, 3, [a,a,a], divide, {integer, integer}, integer, "Arg0 := Arg1 / Arg2."}
, { 'MOD', 16#1a, false, 3, [a,a,a], modulo, {integer, integer}, integer, "Arg0 := Arg1 mod Arg2."}
, { 'POW', 16#1b, false, 3, [a,a,a], pow, {integer, integer}, integer, "Arg0 := Arg1 ^ Arg2."}
, { 'STORE', 16#1c, false, 3, [a,a], store, {any}, any, "Arg0 := Arg1."}
, { 'SHA3', 16#1d, false, 30, [a,a], sha3, {any}, hash, "Arg0 := sha3(Arg1)."}
, { 'SHA256', 16#1e, false, 30, [a,a], sha256, {any}, hash, "Arg0 := sha256(Arg1)."}
, { 'BLAKE2B', 16#1f, false, 30, [a,a], blake2b, {any}, hash, "Arg0 := blake2b(Arg1)."}
, { 'LT', 16#20, false, 3, [a,a,a], lt, {integer, integer}, boolean, "Arg0 := Arg1 < Arg2."}
, { 'GT', 16#21, false, 3, [a,a,a], gt, {integer, integer}, boolean, "Arg0 := Arg1 > Arg2."}
, { 'EQ', 16#22, false, 3, [a,a,a], eq, {integer, integer}, boolean, "Arg0 := Arg1 = Arg2."}
, { 'ELT', 16#23, false, 3, [a,a,a], elt, {integer, integer}, boolean, "Arg0 := Arg1 =< Arg2."}
, { 'EGT', 16#24, false, 3, [a,a,a], egt, {integer, integer}, boolean, "Arg0 := Arg1 >= Arg2."}
, { 'NEQ', 16#25, false, 3, [a,a,a], neq, {integer, integer}, boolean, "Arg0 := Arg1 /= Arg2."}
, { 'AND', 16#26, false, 3, [a,a,a], and_op, {boolean, boolean}, boolean, "Arg0 := Arg1 and Arg2."}
, { 'OR', 16#27, false, 3, [a,a,a], or_op, {boolean, boolean}, boolean, "Arg0 := Arg1 or Arg2."}
, { 'NOT', 16#28, false, 3, [a,a], not_op, {boolean}, boolean, "Arg0 := not Arg1."}
, { 'TUPLE', 16#29, false, 3, [a,ii], tuple, {integer}, tuple, "Arg0 := tuple of size = Arg1. Elements on stack."}
, { 'ELEMENT', 16#2a, false, 3, [a,a,a], element_op, {integer, tuple}, any, "Arg1 := element(Arg2, Arg3)."}
, { 'SETELEMENT', 16#2b, false, 3, [a,a,a,a], setelement, {integer, tuple, any}, tuple, "Arg0 := a new tuple similar to Arg2, but with element number Arg1 replaced by Arg3."}
, { 'MAP_EMPTY', 16#2c, false, 3, [a], map_empty, {}, map, "Arg0 := #{}."}
, { 'MAP_LOOKUP', 16#2d, false, 3, [a,a,a], map_lookup, {map, any}, any, "Arg0 := lookup key Arg2 in map Arg1."}
, { 'MAP_LOOKUPD', 16#2e, false, 3, [a,a,a,a], map_lookup, {map, any, any}, any, "Arg0 := lookup key Arg2 in map Arg1 if key exists in map otherwise Arg0 := Arg3."}
, { 'MAP_UPDATE', 16#2f, false, 3, [a,a,a,a], map_update, {map, any, any}, map, "Arg0 := update key Arg2 in map Arg1 with value Arg3."}
, { 'MAP_DELETE', 16#30, false, 3, [a,a,a], map_delete, {map, any}, map, "Arg0 := delete key Arg2 from map Arg1."}
, { 'MAP_MEMBER', 16#31, false, 3, [a,a,a], map_member, {map, any}, boolean, "Arg0 := true if key Arg2 is in map Arg1."}
, { 'MAP_FROM_LIST', 16#32, false, 3, [a,a], map_from_list, {{list, {tuple, [any, any]}}}, map, "Arg0 := make a map from (key, value) list in Arg1."}
, { 'IS_NIL', 16#33, false, 3, [a,a], is_nil, {list}, boolean, "Arg0 := true if Arg1 == []."}
, { 'CONS', 16#34, false, 3, [a,a,a], cons, {any, list}, list, "Arg0 := [Arg1|Arg2]."}
, { 'HD', 16#35, false, 3, [a,a], hd, {list}, any, "Arg0 := head of list Arg1."}
, { 'TL', 16#36, false, 3, [a,a], tl, {list}, list, "Arg0 := tail of list Arg1."}
, { 'LENGTH', 16#37, false, 3, [a,a], length, {list}, integer, "Arg0 := length of list Arg1."}
, { 'NIL', 16#38, false, 3, [a], nil, {}, list, "Arg0 := []."}
, { 'STR_JOIN', 16#39, false, 3, [a,a,a], str_join, {string, string}, string, "Arg0 := string Arg1 followed by string Arg2."}
, { 'INT_TO_STR', 16#3a, false, 3, [a,a], int_to_str, {integer}, string, "Arg0 := turn integer Arg1 into a string."}
, { 'ADDR_TO_STR', 16#3b, false, 3, [a,a], addr_to_str, {address}, string, "Arg0 := turn address Arg1 into a string."}
, { 'STR_REVERSE', 16#3c, false, 3, [a,a], str_reverse, {string}, string, "Arg0 := the reverse of string Arg1."}
, { 'APPEND', 16#3d, false, 3, [a,a,a], append, {list, list}, list, "Arg0 := Arg1 ++ Arg2."}
, { 'INT_TO_ADDR', 16#3e, false, 3, [a,a], int_to_addr, {integer}, address, "Arg0 := turn integer Arg1 into an address."}
, { 'VARIANT', 16#3f, false, 3, [a,a,a,a], variant, {integer, integer, integer}, variant, "Arg0 := create a variant of size Arg1 with the tag Arg2 (Arg2 < Arg1) and take Arg3 elements from the stack."}
, { 'VARIANT_TEST', 16#40, false, 3, [a,a,a], variant_test, {variant, integer}, boolean, "Arg0 := true if variant Arg1 has the tag Arg2."}
, { 'VARIANT_ELEMENT', 16#41, false, 3, [a,a,a], variant_element, {variant, integer}, any, "Arg0 := element number Arg2 from variant Arg1."}
, { 'BITS_NONEA', 16#42, false, 3, [], bits_none, {}, bits, "push an empty bitmap on the stack."}
, { 'BITS_NONE', 16#43, false, 3, [a], bits_none, {}, bits, "Arg0 := empty bitmap."}
, { 'BITS_ALLA', 16#44, false, 3, [], bits_all, {}, bits, "push a full bitmap on the stack."}
, { 'BITS_ALL', 16#45, false, 3, [a], bits_all, {}, bits, "Arg0 := full bitmap."}
, { 'BITS_ALL_N', 16#46, false, 3, [a,a], bits_all_n, {integer}, bits, "Arg0 := bitmap with Arg1 bits set."}
, { 'BITS_SET', 16#47, false, 3, [a,a,a], bits_set, {bits, integer}, bits, "Arg0 := set bit Arg2 of bitmap Arg1."}
, { 'BITS_CLEAR', 16#48, false, 3, [a,a,a], bits_clear, {bits, integer}, bits, "Arg0 := clear bit Arg2 of bitmap Arg1."}
, { 'BITS_TEST', 16#49, false, 3, [a,a,a], bits_test, {bits, integer}, boolean, "Arg0 := true if bit Arg2 of bitmap Arg1 is set."}
, { 'BITS_SUM', 16#4a, false, 3, [a,a], bits_sum, {bits}, integer, "Arg0 := sum of set bits in bitmap Arg1. Exception if infinit bitmap."}
, { 'BITS_OR', 16#4b, false, 3, [a,a,a], bits_or, {bits, bits}, bits, "Arg0 := Arg1 v Arg2."}
, { 'BITS_AND', 16#4c, false, 3, [a,a,a], bits_and, {bits, bits}, bits, "Arg0 := Arg1 ^ Arg2."}
, { 'BITS_DIFF', 16#4d, false, 3, [a,a,a], bits_diff, {bits, bits}, bits, "Arg0 := Arg1 - Arg2."}
, { 'BALANCE', 16#4e, false, 3, [a], balance, {}, integer, "Arg0 := The current contract balance."}
, { 'ORIGIN', 16#4f, false, 3, [a], origin, {}, address, "Arg0 := Address of contract called by the call transaction."}
, { 'CALLER', 16#50, false, 3, [a], caller, {}, address, "Arg0 := The address that signed the call transaction."}
, { 'GASPRICE', 16#51, false, 3, [a], gasprice, {}, integer, "Arg0 := The current gas price."}
, { 'BLOCKHASH', 16#52, false, 3, [a,a], blockhash, {integer}, hash, "Arg0 := The blockhash at height."}
, { 'BENEFICIARY', 16#53, false, 3, [a], beneficiary, {}, address, "Arg0 := The address of the current beneficiary."}
, { 'TIMESTAMP', 16#54, false, 3, [a], timestamp, {}, integer, "Arg0 := The current timestamp. Unrelaiable, don't use for anything."}
, { 'GENERATION', 16#55, false, 3, [a], generation, {}, integer, "Arg0 := The block height of the cureent generation."}
, { 'MICROBLOCK', 16#56, false, 3, [a], microblock, {}, integer, "Arg0 := The current micro block number."}
, { 'DIFFICULTY', 16#57, false, 3, [a], difficulty, {}, integer, "Arg0 := The current difficulty."}
, { 'GASLIMIT', 16#58, false, 3, [a], gaslimit, {}, integer, "Arg0 := The current gaslimit."}
, { 'GAS', 16#59, false, 3, [a], gas, {}, integer, "Arg0 := The amount of gas left."}
, { 'ADDRESS', 16#5a, false, 3, [a], address, {}, address, "Arg0 := The current contract address."}
%% Opname, Opcode, end_bb, in_auth offchain, gas, format, Constructor, ArgType, ResType, Documentation
[ { 'RETURN', 16#00, true, true, true, 10, [], return, {}, any, "Return from function call, top of stack is return value . The type of the retun value has to match the return type of the function."}
, { 'RETURNR', 16#01, true, true, true, 10, [a], returnr, {any}, any, "Push Arg0 and return from function. The type of the retun value has to match the return type of the function."}
, { 'CALL', 16#02, true, true, true, 10, [a], call, {string}, any, "Call the function Arg0 with args on stack. The types of the arguments has to match the argument typs of the function."}
, { 'CALL_R', 16#03, true, false, true, 100, [a,is,a,a,a], call_r, {contract, string, typerep, typerep, integer}, any, "Remote call to contract Arg0 and function Arg1 of type Arg2 => Arg3 with value Arg4. The types of the arguments has to match the argument types of the function."}
, { 'CALL_T', 16#04, true, true, true, 10, [a], call_t, {string}, any, "Tail call to function Arg0. The types of the arguments has to match the argument typs of the function. And the return type of the called function has to match the type of the current function."}
, { 'CALL_GR', 16#05, true, false, true, 100, [a,is,a,a,a,a], call_gr, {contract, string, typerep, typerep, integer, integer}, any, "Remote call with gas cap in Arg4. Otherwise as CALL_R."}
, { 'JUMP', 16#06, true, true, true, 10, [ii], jump, {integer}, none, "Jump to a basic block. The basic block has to exist in the current function."}
, { 'JUMPIF', 16#07, true, true, true, 10, [a,ii], jumpif, {boolean, integer}, none, "Conditional jump to a basic block. If Arg0 then jump to Arg1."}
, { 'SWITCH_V2', 16#08, true, true, true, 10, [a,ii,ii], switch, {variant, integer, ingeger}, none, "Conditional jump to a basic block on variant tag."}
, { 'SWITCH_V3', 16#09, true, true, true, 10, [a,ii,ii,ii], switch, {variant, integer, integer, ingeger}, none, "Conditional jump to a basic block on variant tag."}
, { 'SWITCH_VN', 16#0a, true, true, true, 10, [a, li], switch, {variant, {list, integer}}, none, "Conditional jump to a basic block on variant tag."}
, { 'CALL_VALUE', 16#0b, false, true, true, 10, [a], call_value, {}, integer, "The value sent in the current remote call."}
, { 'PUSH', 16#0c, false, true, true, 10, [a], push, {any}, any, "Push argument to stack."}
, { 'DUPA', 16#0d, false, true, true, 10, [], dup, {any}, any, "Duplicate top of stack."}
, { 'DUP', 16#0e, false, true, true, 10, [a], dup, {any}, any, "push Arg0 stack pos on top of stack."}
, { 'POP', 16#0f, false, true, true, 10, [a], pop, {integer}, integer, "Arg0 := top of stack."}
, { 'INCA', 16#10, false, true, true, 10, [], inc, {integer}, integer, "Increment accumulator."}
, { 'INC', 16#11, false, true, true, 10, [a], inc, {integer}, integer, "Increment argument."}
, { 'DECA', 16#12, false, true, true, 10, [], dec, {integer}, integer, "Decrement accumulator."}
, { 'DEC', 16#13, false, true, true, 10, [a], dec, {integer}, integer, "Decrement argument."}
, { 'ADD', 16#14, false, true, true, 10, [a,a,a], add, {integer, integer}, integer, "Arg0 := Arg1 + Arg2."}
, { 'SUB', 16#15, false, true, true, 10, [a,a,a], sub, {integer, integer}, integer, "Arg0 := Arg1 - Arg2."}
, { 'MUL', 16#16, false, true, true, 10, [a,a,a], mul, {integer, integer}, integer, "Arg0 := Arg1 * Arg2."}
, { 'DIV', 16#17, false, true, true, 10, [a,a,a], divide, {integer, integer}, integer, "Arg0 := Arg1 / Arg2."}
, { 'MOD', 16#18, false, true, true, 10, [a,a,a], modulo, {integer, integer}, integer, "Arg0 := Arg1 mod Arg2."}
, { 'POW', 16#19, false, true, true, 10, [a,a,a], pow, {integer, integer}, integer, "Arg0 := Arg1 ^ Arg2."}
, { 'STORE', 16#1a, false, true, true, 10, [a,a], store, {any}, any, "Arg0 := Arg1."}
, { 'SHA3', 16#1b, false, true, true, 100, [a,a], sha3, {any}, hash, "Arg0 := sha3(Arg1)."}
, { 'SHA256', 16#1c, false, true, true, 100, [a,a], sha256, {any}, hash, "Arg0 := sha256(Arg1)."}
, { 'BLAKE2B', 16#1d, false, true, true, 100, [a,a], blake2b, {any}, hash, "Arg0 := blake2b(Arg1)."}
, { 'LT', 16#1e, false, true, true, 10, [a,a,a], lt, {integer, integer}, boolean, "Arg0 := Arg1 < Arg2."}
, { 'GT', 16#1f, false, true, true, 10, [a,a,a], gt, {integer, integer}, boolean, "Arg0 := Arg1 > Arg2."}
, { 'EQ', 16#20, false, true, true, 10, [a,a,a], eq, {integer, integer}, boolean, "Arg0 := Arg1 = Arg2."}
, { 'ELT', 16#21, false, true, true, 10, [a,a,a], elt, {integer, integer}, boolean, "Arg0 := Arg1 =< Arg2."}
, { 'EGT', 16#22, false, true, true, 10, [a,a,a], egt, {integer, integer}, boolean, "Arg0 := Arg1 >= Arg2."}
, { 'NEQ', 16#23, false, true, true, 10, [a,a,a], neq, {integer, integer}, boolean, "Arg0 := Arg1 /= Arg2."}
, { 'AND', 16#24, false, true, true, 10, [a,a,a], and_op, {boolean, boolean}, boolean, "Arg0 := Arg1 and Arg2."}
, { 'OR', 16#25, false, true, true, 10, [a,a,a], or_op, {boolean, boolean}, boolean, "Arg0 := Arg1 or Arg2."}
, { 'NOT', 16#26, false, true, true, 10, [a,a], not_op, {boolean}, boolean, "Arg0 := not Arg1."}
, { 'TUPLE', 16#27, false, true, true, 10, [a,ii], tuple, {integer}, tuple, "Arg0 := tuple of size = Arg1. Elements on stack."}
, { 'ELEMENT', 16#28, false, true, true, 10, [a,a,a], element_op, {integer, tuple}, any, "Arg1 := element(Arg2, Arg3)."}
, { 'SETELEMENT', 16#29, false, true, true, 10, [a,a,a,a], setelement, {integer, tuple, any}, tuple, "Arg0 := a new tuple similar to Arg2, but with element number Arg1 replaced by Arg3."}
, { 'MAP_EMPTY', 16#2a, false, true, true, 10, [a], map_empty, {}, map, "Arg0 := #{}."}
, { 'MAP_LOOKUP', 16#2b, false, true, true, 10, [a,a,a], map_lookup, {map, any}, any, "Arg0 := lookup key Arg2 in map Arg1."}
, { 'MAP_LOOKUPD', 16#2c, false, true, true, 10, [a,a,a,a], map_lookup, {map, any, any}, any, "Arg0 := lookup key Arg2 in map Arg1 if key exists in map otherwise Arg0 := Arg3."}
, { 'MAP_UPDATE', 16#2d, false, true, true, 10, [a,a,a,a], map_update, {map, any, any}, map, "Arg0 := update key Arg2 in map Arg1 with value Arg3."}
, { 'MAP_DELETE', 16#2e, false, true, true, 10, [a,a,a], map_delete, {map, any}, map, "Arg0 := delete key Arg2 from map Arg1."}
, { 'MAP_MEMBER', 16#2f, false, true, true, 10, [a,a,a], map_member, {map, any}, boolean, "Arg0 := true if key Arg2 is in map Arg1."}
, { 'MAP_FROM_LIST', 16#30, false, true, true, 10, [a,a], map_from_list, {{list, {tuple, [any, any]}}}, map, "Arg0 := make a map from (key, value) list in Arg1."}
, { 'MAP_SIZE', 16#31, false, true, true, 10, [a,a], map_size_, {map}, integer, "Arg0 := The size of the map Arg1."}
, { 'MAP_TO_LIST', 16#32, false, true, true, 10, [a,a], map_to_list, {map}, list, "Arg0 := The tuple list representation of the map Arg1."}
, { 'IS_NIL', 16#33, false, true, true, 10, [a,a], is_nil, {list}, boolean, "Arg0 := true if Arg1 == []."}
, { 'CONS', 16#34, false, true, true, 10, [a,a,a], cons, {any, list}, list, "Arg0 := [Arg1|Arg2]."}
, { 'HD', 16#35, false, true, true, 10, [a,a], hd, {list}, any, "Arg0 := head of list Arg1."}
, { 'TL', 16#36, false, true, true, 10, [a,a], tl, {list}, list, "Arg0 := tail of list Arg1."}
, { 'LENGTH', 16#37, false, true, true, 10, [a,a], length, {list}, integer, "Arg0 := length of list Arg1."}
, { 'NIL', 16#38, false, true, true, 10, [a], nil, {}, list, "Arg0 := []."}
, { 'APPEND', 16#39, false, true, true, 10, [a,a,a], append, {list, list}, list, "Arg0 := Arg1 ++ Arg2."}
, { 'STR_JOIN', 16#3a, false, true, true, 10, [a,a,a], str_join, {string, string}, string, "Arg0 := string Arg1 followed by string Arg2."}
, { 'INT_TO_STR', 16#3b, false, true, true, 100, [a,a], int_to_str, {integer}, string, "Arg0 := turn integer Arg1 into a string."}
, { 'ADDR_TO_STR', 16#3c, false, true, true, 100, [a,a], addr_to_str, {address}, string, "Arg0 := turn address Arg1 into a string."}
, { 'STR_REVERSE', 16#3d, false, true, true, 100, [a,a], str_reverse, {string}, string, "Arg0 := the reverse of string Arg1."}
, { 'STR_LENGTH', 16#3e, false, true, true, 10, [a,a], str_length, {string}, integer, "Arg0 := The length of the string Arg1."}
, { 'BYTES_TO_INT', 16#3f, false, true, true, 10, [a,a], bytes_to_int, {bytes}, integer, "Arg0 := bytes_to_int(Arg1)"}
, { 'BYTES_TO_STR', 16#40, false, true, true, 100, [a,a], bytes_to_str, {bytes}, string, "Arg0 := bytes_to_str(Arg1)"}
, { 'BYTES_CONCAT', 16#41, false, true, true, 10, [a,a,a], bytes_concat, {bytes, bytes}, bytes, "Arg0 := bytes_concat(Arg1, Arg2)"}
, { 'BYTES_SPLIT', 16#42, false, true, true, 10, [a,a,a], bytes_split, {bytes, integer}, bytes, "Arg0 := bytes_split(Arg2, Arg1), where Arg2 is the length of the first chunk."}
, { 'INT_TO_ADDR', 16#43, false, true, true, 10, [a,a], int_to_addr, {integer}, address, "Arg0 := turn integer Arg1 into an address."}
, { 'VARIANT', 16#44, false, true, true, 10, [a,a,a,a], variant, {integer, integer, integer}, variant, "Arg0 := create a variant of size Arg1 with the tag Arg2 (Arg2 < Arg1) and take Arg3 elements from the stack."}
, { 'VARIANT_TEST', 16#45, false, true, true, 10, [a,a,a], variant_test, {variant, integer}, boolean, "Arg0 := true if variant Arg1 has the tag Arg2."}
, { 'VARIANT_ELEMENT', 16#46, false, true, true, 10, [a,a,a], variant_element, {variant, integer}, any, "Arg0 := element number Arg2 from variant Arg1."}
, { 'BITS_NONEA', 16#47, false, true, true, 10, [], bits_none, {}, bits, "push an empty bitmap on the stack."}
, { 'BITS_NONE', 16#48, false, true, true, 10, [a], bits_none, {}, bits, "Arg0 := empty bitmap."}
, { 'BITS_ALLA', 16#49, false, true, true, 10, [], bits_all, {}, bits, "push a full bitmap on the stack."}
, { 'BITS_ALL', 16#4a, false, true, true, 10, [a], bits_all, {}, bits, "Arg0 := full bitmap."}
, { 'BITS_ALL_N', 16#4b, false, true, true, 10, [a,a], bits_all_n, {integer}, bits, "Arg0 := bitmap with Arg1 bits set."}
, { 'BITS_SET', 16#4c, false, true, true, 10, [a,a,a], bits_set, {bits, integer}, bits, "Arg0 := set bit Arg2 of bitmap Arg1."}
, { 'BITS_CLEAR', 16#4d, false, true, true, 10, [a,a,a], bits_clear, {bits, integer}, bits, "Arg0 := clear bit Arg2 of bitmap Arg1."}
, { 'BITS_TEST', 16#4e, false, true, true, 10, [a,a,a], bits_test, {bits, integer}, boolean, "Arg0 := true if bit Arg2 of bitmap Arg1 is set."}
, { 'BITS_SUM', 16#4f, false, true, true, 10, [a,a], bits_sum, {bits}, integer, "Arg0 := sum of set bits in bitmap Arg1. Exception if infinit bitmap."}
, { 'BITS_OR', 16#50, false, true, true, 10, [a,a,a], bits_or, {bits, bits}, bits, "Arg0 := Arg1 v Arg2."}
, { 'BITS_AND', 16#51, false, true, true, 10, [a,a,a], bits_and, {bits, bits}, bits, "Arg0 := Arg1 ^ Arg2."}
, { 'BITS_DIFF', 16#52, false, true, true, 10, [a,a,a], bits_diff, {bits, bits}, bits, "Arg0 := Arg1 - Arg2."}
, { 'BALANCE', 16#53, false, true, true, 10, [a], balance, {}, integer, "Arg0 := The current contract balance."}
, { 'ORIGIN', 16#54, false, true, true, 10, [a], origin, {}, address, "Arg0 := Address of contract called by the call transaction."}
, { 'CALLER', 16#55, false, true, true, 10, [a], caller, {}, address, "Arg0 := The address that signed the call transaction."}
, { 'BLOCKHASH', 16#56, false, true, true, 10, [a,a], blockhash, {integer}, hash, "Arg0 := The blockhash at height."}
, { 'BENEFICIARY', 16#57, false, true, true, 10, [a], beneficiary, {}, address, "Arg0 := The address of the current beneficiary."}
, { 'TIMESTAMP', 16#58, false, true, true, 10, [a], timestamp, {}, integer, "Arg0 := The current timestamp. Unrelaiable, don't use for anything."}
, { 'GENERATION', 16#59, false, true, true, 10, [a], generation, {}, integer, "Arg0 := The block height of the cureent generation."}
, { 'MICROBLOCK', 16#5a, false, true, true, 10, [a], microblock, {}, integer, "Arg0 := The current micro block number."}
, { 'DIFFICULTY', 16#5b, false, true, true, 10, [a], difficulty, {}, integer, "Arg0 := The current difficulty."}
, { 'GASLIMIT', 16#5c, false, true, true, 10, [a], gaslimit, {}, integer, "Arg0 := The current gaslimit."}
, { 'GAS', 16#5d, false, true, true, 10, [a], gas, {}, integer, "Arg0 := The amount of gas left."}
, { 'ADDRESS', 16#5e, false, true, true, 10, [a], address, {}, address, "Arg0 := The current contract address."}
, { 'GASPRICE', 16#5f, false, true, true, 10, [a], gasprice, {}, integer, "Arg0 := The current gas price."}
, { 'LOG0', 16#5b, false, 3, [a], log, {string}, none, "Create a log message in the call object."}
, { 'LOG1', 16#5c, false, 3, [a,a], log, {integer, string}, none, "Create a log message with one topic in the call object."}
, { 'LOG2', 16#5d, false, 3, [a,a,a], log, {integer, integer, string}, none, "Create a log message with two topics in the call object."}
, { 'LOG3', 16#5e, false, 3, [a,a,a,a], log, {integer, integer, integer, string}, none, "Create a log message with three topics in the call object."}
, { 'LOG4', 16#5f, false, 3, [a,a,a,a,a], log, {integer, integer, integer, integer, string}, none, "Create a log message with four topics in the call object."}
, { 'LOG0', 16#60, false, true, true, 1000, [a], log, {string}, none, "Create a log message in the call object."}
, { 'LOG1', 16#61, false, true, true, 1100, [a,a], log, {integer, string}, none, "Create a log message with one topic in the call object."}
, { 'LOG2', 16#62, false, true, true, 1200, [a,a,a], log, {integer, integer, string}, none, "Create a log message with two topics in the call object."}
, { 'LOG3', 16#63, false, true, true, 1300, [a,a,a,a], log, {integer, integer, integer, string}, none, "Create a log message with three topics in the call object."}
, { 'LOG4', 16#64, false, true, true, 1400, [a,a,a,a,a], log, {integer, integer, integer, integer, string}, none, "Create a log message with four topics in the call object."}
%% Transaction ops
, { 'SPEND', 16#60, false, 3, [a,a], spend, {address, integer}, none, "Transfer Arg1 tokens to account Arg0. (If the contract account has at least that many tokens."}
, { 'ORACLE_REGISTER', 16#61, false, 3, [a,a,a,a,a,a], oracle_register, {any,any,any,any,any}, any, "NYI"}
%% TODO:
, { 'ORACLE_QUERY', 16#62, false, 3, [], oracle_query, {}, none, "NYI"}
, { 'ORACLE_RESPOND', 16#63, false, 3, [], oracle_respond, {}, none, "NYI"}
, { 'ORACLE_EXTEND', 16#64, false, 3, [], oracle_extend, {}, none, "NYI"}
, { 'ORACLE_GET_ANSWER', 16#65, false, 3, [], oracle_get_answer, {}, none, "NYI"}
, { 'ORACLE_GET_QUESTION', 16#66, false, 3, [], oracle_get_question, {}, none, "NYI"}
, { 'ORACLE_QUERY_FEE', 16#67, false, 3, [], oracle_query_fee, {}, none, "NYI"}
, { 'AENS_RESOLVE', 16#68, false, 3, [], aens_resolve, {}, none, "NYI"}
, { 'AENS_PRECLAIM', 16#69, false, 3, [], aens_preclaim, {}, none, "NYI"}
, { 'AENS_CLAIM', 16#6a, false, 3, [], aens_claim, {}, none, "NYI"}
, { 'AENS_UPDATE', 16#6b, false, 3, [], aend_update, {}, none, "NYI"}
, { 'AENS_TRANSFER', 16#6c, false, 3, [], aens_transfer, {}, none, "NYI"}
, { 'AENS_REVOKE', 16#6d, false, 3, [], aens_revoke, {}, none, "NYI"}
, { 'BALANCE_OTHER', 16#6e, false, 3, [a,a], balance_other, {address}, integer, "Arg0 := The balance of address Arg1."}
%% TODO: Reorder these before documenting the specification
, { 'MAP_SIZE', 16#6f, false, 3, [a,a], map_size_, {map}, integer, "Arg0 := The size of the map Arg1."}
, { 'MAP_TO_LIST', 16#70, false, 3, [a,a], map_to_list, {map}, list, "Arg0 := The tuple list representation of the map Arg1."}
, { 'STR_LENGTH', 16#71, false, 3, [a,a], str_length, {string}, integer, "Arg0 := The length of the string Arg1."}
, { 'SPEND', 16#65, false, false, true, 100, [a,a], spend, {address, integer}, none, "Transfer Arg1 tokens to account Arg0. (If the contract account has at least that many tokens."}
, { 'ORACLE_REGISTER', 16#66, false, false, false, 100, [a,a,a,a,a,a,a], oracle_register, {signature, address, integer, variant, typerep, typerep}, oracle, "Arg0 := New oracle with address Arg2, query fee Arg3, TTL Arg4, query type Arg5 and response type Arg6. Arg0 contains delegation signature."}
, { 'ORACLE_QUERY', 16#67, false, false, false, 100, [a,a,a,a,a,a,a,a], oracle_query, {oracle, any, integer, variant, variant, typerep, typerep}, oracle_query, "Arg0 := New oracle query for oracle Arg1, question in Arg2, query fee in Arg3, query TTL in Arg4, response TTL in Arg5. Typereps for checking oracle type is in Arg6 and Arg7."}
, { 'ORACLE_RESPOND', 16#68, false, false, false, 100, [a,a,a,a,a,a], oracle_respond, {signature, oracle, oracle_query,any, typerep, typerep}, none, "Respond as oracle Arg1 to query in Arg2 with response Arg3. Arg0 contains delegation signature. Typereps for checking oracle type is in Arg4 and Arg5."}
, { 'ORACLE_EXTEND', 16#69, false, false, false, 100, [a,a,a], oracle_extend, {signature, oracle, variant}, none, "Extend oracle in Arg1 with TTL in Arg2. Arg0 contains delegation signature."}
, { 'ORACLE_GET_ANSWER', 16#6a, false, false, true, 100, [a,a,a,a,a], oracle_get_answer, {oracle, oracle_query, typerep, typerep}, any, "Arg0 := option variant with answer (if any) from oracle query in Arg1 given by oracle Arg0. Typereps for checking oracle type is in Arg3 and Arg4."}
, { 'ORACLE_GET_QUESTION', 16#6b, false, false, true, 100, [a,a,a,a,a], oracle_get_question, {oracle, oracle_query, typerep, typerep}, any, "Arg0 := question in oracle query Arg2 given to oracle Arg1. Typereps for checking oracle type is in Arg3 and Arg4."}
, { 'ORACLE_QUERY_FEE', 16#6c, false, false, true, 100, [a,a], oracle_query_fee, {oracle}, integer, "Arg0 := query fee for oracle Arg1"}
, { 'AENS_RESOLVE', 16#6d, false, false, true, 100, [a,a,a,a], aens_resolve, {string, string, typerep}, variant, "Resolve name in Arg0 with tag Arg1. Arg2 describes the type parameter of the resolved name."}
, { 'AENS_PRECLAIM', 16#6e, false, false, false, 100, [a,a,a], aens_preclaim, {signature, address, hash}, none, "Preclaim the hash in Arg2 for address in Arg1. Arg0 contains delegation signature."}
, { 'AENS_CLAIM', 16#6f, false, false, false, 100, [a,a,a,a,a], aens_claim, {signature, address, string, integer, integer}, none, "Attempt to claim the name in Arg2 for address in Arg1 at a price in Arg4. Arg3 contains the salt used to hash the preclaim. Arg0 contains delegation signature."}
, { 'AENS_UPDATE', 16#70, false, false, false, 100, [a,a,a,a,a,a], aens_update, {signature, address, string, variant, variant, variant}, none, "Updates name in Arg2 for address in Arg1. Arg3 contains optional ttl (of type Chain.ttl), Arg4 contains optional client_ttl (of type int), Arg5 contains optional pointers (of type map(string, pointee))"}
, { 'AENS_TRANSFER', 16#71, false, false, false, 100, [a,a,a,a], aens_transfer,{signature, address, address, string}, none, "Transfer ownership of name Arg3 from account Arg1 to Arg2. Arg0 contains delegation signature."}
, { 'AENS_REVOKE', 16#72, false, false, false, 100, [a,a,a], aens_revoke, {signature, address, string}, none, "Revoke the name in Arg2 from owner Arg1. Arg0 contains delegation signature."}
, { 'BALANCE_OTHER', 16#73, false, true, true, 50, [a,a], balance_other, {address}, integer, "Arg0 := The balance of address Arg1."}
, { 'ECVERIFY', 16#72, false, 1300, [a,a,a,a], ecverify, {hash, address, signature}, boolean, "Arg0 := ecverify(Hash, PubKey, Signature)"}
, { 'ECVERIFY_SECP256K1', 16#73, false, 1300, [a,a,a,a], ecverify_secp256k1, {hash, signature, signature}, boolean, "Arg0 := ecverify_secp256k1(Hash, PubKey, Signature)"}
, { 'VERIFY_SIG', 16#74, false, true, true, 1300, [a,a,a,a], verify_sig, {bytes, address, bytes}, boolean, "Arg0 := verify_sig(Hash, PubKey, Signature)"}
, { 'VERIFY_SIG_SECP256K1',16#75, false, true, true, 1300, [a,a,a,a], verify_sig_secp256k1, {bytes, bytes, bytes}, boolean, "Arg0 := verify_sig_secp256k1(Hash, PubKey, Signature)"}
, { 'CONTRACT_TO_ADDRESS', 16#74, false, 3, [a,a], contract_to_address, {contract}, address, "Arg0 := Arg1 - A no-op type conversion"}
, { 'AUTH_TX_HASH', 16#75, false, 3, [a], auth_tx_hash, {}, variant, "If in GA authentication context return Some(TxHash) otherwise None."}
, { 'CONTRACT_TO_ADDRESS', 16#76, false, true, true, 10, [a,a], contract_to_address, {contract}, address, "Arg0 := Arg1 - A no-op type conversion"}
, { 'AUTH_TX_HASH', 16#77, false, true, true, 10, [a], auth_tx_hash, {}, variant, "If in GA authentication context return Some(TxHash) otherwise None."}
, { 'DEACTIVATE', 16#fa, false, 3, [], deactivate, {}, none, "Mark the current contract for deactivation."}
, { 'ABORT', 16#fb, true, 3, [a], abort, {string}, none, "Abort execution (dont use all gas) with error message in Arg0."}
, { 'EXIT', 16#fc, true, 3, [a], exit, {string}, none, "Abort execution (use upp all gas) with error message in Arg0."}
, { 'NOP', 16#fd, false, 1, [], nop, {}, none, "The no op. does nothing."}
, { 'ORACLE_CHECK', 16#78, false, false, true, 100, [a,a,a,a], oracle_check, {oracle, typerep, typerep}, bool, "Arg0 := is Arg1 an oracle with the given query (Arg2) and response (Arg3) types"}
, { 'ORACLE_CHECK_QUERY', 16#79, false, false, true, 100, [a,a,a,a,a], oracle_check_query, {oracle, oracle_query, typerep, typerep}, bool, "Arg0 := is Arg2 a query for the oracle Arg1 with the given types (Arg3, Arg4)"}
, { 'IS_ORACLE', 16#7a, false, false, true, 100, [a,a], is_oracle, {address}, bool, "Arg0 := is Arg1 an oracle"}
, { 'IS_CONTRACT', 16#7b, false, false, true, 100, [a,a], is_contract, {address}, bool, "Arg0 := is Arg1 a contract"}
, { 'IS_PAYABLE', 16#7c, false, false, true, 100, [a,a], is_payable, {address}, bool, "Arg0 := is Arg1 a payable address"}
, { 'CREATOR', 16#7d, false, true, true, 10, [a], contract_creator, {}, address, "Arg0 := contract creator"}
, { 'ECVERIFY_SECP256K1', 16#7e, false, true, true, 1300, [a,a,a,a], ecverify_secp256k1, {bytes, bytes, bytes}, bytes, "Arg0 := ecverify_secp256k1(Hash, Addr, Signature)"}
, { 'ECRECOVER_SECP256K1', 16#7f, false, true, true, 1300, [a,a,a], ecrecover_secp256k1, {bytes, bytes}, bytes, "Arg0 := ecrecover_secp256k1(Hash, Signature)"}
, { 'ADDRESS_TO_CONTRACT', 16#80, false, true, true, 10, [a,a], address_to_contract, {address}, contract, "Arg0 := Arg1 - A no-op type conversion"}
, { 'BLS12_381_G1_NEG', 16#81, false, true, true, 100, [a,a], bls12_381_g1_neg, {tuple}, tuple, "Arg0 := BLS12_381.g1_neg(Arg1) - Negate a G1-value"}
, { 'BLS12_381_G1_NORM', 16#82, false, true, true, 100, [a,a], bls12_381_g1_norm, {tuple}, tuple, "Arg0 := BLS12_381.g1_normalize(Arg1) - Normalize a G1-value"}
, { 'BLS12_381_G1_VALID', 16#83, false, true, true, 2000, [a,a], bls12_381_g1_valid, {tuple}, bool, "Arg0 := BLS12_381.g1_valid(Arg1) - Check if G1-value is a valid group member"}
, { 'BLS12_381_G1_IS_ZERO', 16#84, false, true, true, 30, [a,a], bls12_381_g1_is_zero, {tuple}, bool, "Arg0 := BLS12_381.g1_is_zero(Arg1) - Check if G1-value is zero"}
, { 'BLS12_381_G1_ADD', 16#85, false, true, true, 100, [a,a,a], bls12_381_g1_add, {tuple, tuple}, tuple, "Arg0 := BLS12_381.g1_add(Arg1, Arg2) - Add two G1-values"}
, { 'BLS12_381_G1_MUL', 16#86, false, true, true, 1000, [a,a,a], bls12_381_g1_mul, {tuple, tuple}, tuple, "Arg0 := BLS12_381.g1_mul(Arg1, Arg2) - Scalar multiplication for a G1-value (Arg1), and an Fr-value"}
, { 'BLS12_381_G2_NEG', 16#87, false, true, true, 100, [a,a], bls12_381_g2_neg, {tuple}, tuple, "Arg0 := BLS12_381.g2_neg(Arg1) - Negate a G2-value"}
, { 'BLS12_381_G2_NORM', 16#88, false, true, true, 100, [a,a], bls12_381_g2_norm, {tuple}, tuple, "Arg0 := BLS12_381.g2_normalize(Arg1) - Normalize a G2-value"}
, { 'BLS12_381_G2_VALID', 16#89, false, true, true, 2000, [a,a], bls12_381_g2_valid, {tuple}, bool, "Arg0 := BLS12_381.g2_valid(Arg1) - Check if G2-value is a valid group member"}
, { 'BLS12_381_G2_IS_ZERO', 16#8a, false, true, true, 30, [a,a], bls12_381_g2_is_zero, {tuple}, bool, "Arg0 := BLS12_381.g2_is_zero(Arg1) - Check if G2-value is zero"}
, { 'BLS12_381_G2_ADD', 16#8b, false, true, true, 100, [a,a,a], bls12_381_g2_add, {tuple, tuple}, tuple, "Arg0 := BLS12_381.g2_add(Arg1, Arg2) - Add two G2-values"}
, { 'BLS12_381_G2_MUL', 16#8c, false, true, true, 1000, [a,a,a], bls12_381_g2_mul, {tuple, tuple}, tuple, "Arg0 := BLS12_381.g2_mul(Arg1, Arg2) - Scalar multiplication for a G2-value (Arg2), and an Fr-value"}
, { 'BLS12_381_GT_INV', 16#8d, false, true, true, 100, [a,a], bls12_381_gt_inv, {tuple}, tuple, "Arg0 := BLS12_381.gt_inv(Arg1) - Invert a GT-value"}
, { 'BLS12_381_GT_ADD', 16#8e, false, true, true, 100, [a,a,a], bls12_381_gt_add, {tuple, tuple}, tuple, "Arg0 := BLS12_381.gt_add(Arg1, Arg2) - Add two GT-values"}
, { 'BLS12_381_GT_MUL', 16#8f, false, true, true, 100, [a,a,a], bls12_381_gt_mul, {tuple, tuple}, tuple, "Arg0 := BLS12_381.gt_mul(Arg1, Arg2) - Multiply two GT-values"}
, { 'BLS12_381_GT_POW', 16#90, false, true, true, 2000, [a,a,a], bls12_381_gt_pow, {tuple, tuple}, tuple, "Arg0 := BLS12_381.gt_pow(Arg1, Arg2) - Scalar exponentiation for a GT-value (Arg2), and an Fr-value"}
, { 'BLS12_381_GT_IS_ONE', 16#91, false, true, true, 30, [a,a], bls12_381_gt_is_one, {tuple}, bool, "Arg0 := BLS12_381.gt_is_one(Arg1) - Check if a GT value is \"one\""}
, { 'BLS12_381_PAIRING', 16#92, false, true, true, 12000, [a,a,a], bls12_381_pairing, {tuple, tuple}, tuple, "Arg0 := BLS12_381.pairing(Arg1, Arg2) - Find the pairing of a G1-value (Arg1) and a G2-value (Arg2)"}
, { 'BLS12_381_MILLER_LOOP', 16#93, false, true, true, 5000, [a,a,a], bls12_381_miller_loop, {tuple, tuple}, tuple, "Arg0 := BLS12_381.miller_loop(Arg1, Arg2) - Do the Miller-loop step of pairing for a G1-value (Arg1) and a G2-value (Arg2)"}
, { 'BLS12_381_FINAL_EXP', 16#94, false, true, true, 7000, [a,a], bls12_381_final_exp, {tuple}, tuple, "Arg0 := BLS12_381.final_exp(Arg1) - Do the final exponentiation in pairing"}
, { 'BLS12_381_INT_TO_FR', 16#95, false, true, true, 30, [a,a], bls12_381_int_to_fr, {tuple}, tuple, "Arg0 := to_montgomery(Arg1) - Convert (Big)integer to montgomery representation (32 bytes)"}
, { 'BLS12_381_INT_TO_FP', 16#96, false, true, true, 30, [a,a], bls12_381_int_to_fp, {tuple}, tuple, "Arg0 := to_montgomery(Arg1) - Convert (Big)integer to montgomery representation (48 bytes)"}
, { 'BLS12_381_FR_TO_INT', 16#97, false, true, true, 30, [a,a], bls12_381_fr_to_int, {tuple}, tuple, "Arg0 := from_montgomery(Arg1) - Convert montgomery representation (32 bytes) to integer"}
, { 'BLS12_381_FP_TO_INT', 16#98, false, true, true, 30, [a,a], bls12_381_fp_to_int, {tuple}, tuple, "Arg0 := from_montgomery(Arg1) - Convert montgomery representation (48 bytes) to integer"}
, { 'DEACTIVATE', 16#fa, false, true, true, 10, [], deactivate, {}, none, "Mark the current contract for deactivation."}
, { 'ABORT', 16#fb, true, true, true, 10, [a], abort, {string}, none, "Abort execution (dont use all gas) with error message in Arg0."}
, { 'EXIT', 16#fc, true, true, true, 10, [a], exit, {string}, none, "Abort execution (use upp all gas) with error message in Arg0."}
, { 'NOP', 16#fd, false, true, true, 1, [], nop, {}, none, "The no op. does nothing."}
%% FUNCTION 16#fe "Function declaration and entrypoint."
%% EXTEND 16#ff "Reserved for future extensions beyond one byte opcodes."
].
@@ -195,13 +236,19 @@ generate_opcodes_ops(Modulename, HrlFile, SrcDir, Ops) ->
ToOp = lists:flatten([gen_m_to_op(Op) || Op <- Ops]),
Args = lists:flatten([gen_args(Op) || Op <- Ops]),
EndBB = lists:flatten([gen_bb(Op) || Op <- Ops]),
InAuth = lists:flatten([gen_in_auth(Op) || Op <- Ops]),
Offchain = lists:flatten([gen_allowed_offchain(Op) || Op <- Ops]),
GasCost = lists:flatten([gen_gas_cost(Op) || Op <- Ops]),
io:format(File, "~s", [prelude("Provides opcode primitives.\n")]),
io:format(File, "~s", [ops_exports(Modulename, HrlFile,
["args/1\n"
" , end_bb/1\n"
" , in_auth/1\n"
" , allowed_offchain/1\n"
" , mnemonic/1\n"
" , m_to_op/1\n"
" , gas_cost/1\n"
])]),
io:format(File, "%% FATE mnemonics\n~s", [Mnemonic]),
@@ -216,6 +263,15 @@ generate_opcodes_ops(Modulename, HrlFile, SrcDir, Ops) ->
io:format(File, "%% Does FATE Op end a Basic Block?\n~s", [EndBB]),
io:format(File, "end_bb(_) -> false.\n\n", []),
io:format(File, "%% Is FATE Op allowed in GA Authentication context?\n~s", [InAuth]),
io:format(File, "in_auth(_) -> false.\n\n", []),
io:format(File, "%% Is FATE Op allowed in a state channel offchain context?\n~s", [Offchain]),
io:format(File, "allowed_offchain(_) -> false.\n\n", []),
io:format(File, "%% Base cost of operation\n~s", [GasCost]),
io:format(File, "gas_cost(Op) -> exit({bad_opcode, Op}).\n\n", []),
file:close(File).
generate_code_ops(Modulename, SrcDir, Ops) ->
@@ -258,7 +314,7 @@ generate_code_ops(Modulename, SrcDir, Ops) ->
file:close(File).
gen_type(#{type_name := TypeName, type := Type}) ->
lists:flatten(io_lib:format("-type ~-26s :: ~s.\n",
lists:flatten(io_lib:format("-type ~-29s :: ~s.\n",
[TypeName, Type])).
gen_fate_code_type(#{type_name := TypeName}) ->
@@ -336,22 +392,32 @@ ops_exports(Module, HrlFile, Exports) ->
[Module, Exports])).
gen_mnemonic(#{opname := Name, macro := Macro}) ->
lists:flatten(io_lib:format("mnemonic(~21s) -> ~21w ;\n",
lists:flatten(io_lib:format("mnemonic(~24s) -> ~24w ;\n",
[Macro, Name])).
gen_m_to_op(#{opname := Name, macro := Macro}) ->
lists:flatten(io_lib:format("m_to_op(~21w) -> ~21s ;\n",
lists:flatten(io_lib:format("m_to_op(~24w) -> ~24s ;\n",
[Name, Macro])).
gen_args(#{macro := Macro, arity := Arity}) ->
lists:flatten(io_lib:format("args(~21s) -> ~2w ;\n",
lists:flatten(io_lib:format("args(~24s) -> ~2w ;\n",
[Macro, Arity])).
gen_bb(#{macro := Macro, end_bb := EndBB}) ->
lists:flatten(io_lib:format("end_bb(~21s) -> ~w ;\n",
lists:flatten(io_lib:format("end_bb(~24s) -> ~w ;\n",
[Macro, EndBB])).
gen_in_auth(#{macro := Macro, in_auth := InAuth}) ->
lists:flatten(io_lib:format("in_auth(~24s) -> ~w ;\n",
[Macro, InAuth])).
gen_allowed_offchain(#{macro := Macro, offchain := Offchain}) ->
lists:flatten(io_lib:format("allowed_offchain(~24s) -> ~w ;\n",
[Macro, Offchain])).
gen_gas_cost(#{macro := Macro, gas := Gas}) ->
lists:flatten(io_lib:format("gas_cost(~24s) -> ~w ;\n",
[Macro, Gas])).
prelude(Doc) ->
"%%%-------------------------------------------------------------------\n"
@@ -367,11 +433,11 @@ prelude(Doc) ->
gen_defines(#{opname := Name, opcode := OpCode}) ->
lists:flatten(io_lib:format("-define(~-26w, 16#~2.16.0b).\n", [Name, OpCode])).
lists:flatten(io_lib:format("-define(~-29w, 16#~2.16.0b).\n", [Name, OpCode])).
gen([]) ->
[];
gen([{OpName, OpCode, EndBB, Gas, FateFormat, Constructor, ArgTypes, ResType, Doc} | Rest]) ->
gen([{OpName, OpCode, EndBB, InAuth, AllowedOffchain, Gas, FateFormat, Constructor, ArgTypes, ResType, Doc} | Rest]) ->
Arity = length(FateFormat),
Name = atom_to_list(OpName),
LowerName = string:to_lower(Name),
@@ -388,6 +454,8 @@ gen([{OpName, OpCode, EndBB, Gas, FateFormat, Constructor, ArgTypes, ResType, Do
, opcode => OpCode
, arity => Arity
, end_bb => EndBB
, in_auth => InAuth
, offchain => AllowedOffchain
, format => FateFormat
, macro => Macro
, type_name => TypeName
@@ -461,25 +529,33 @@ gen_asm_pp(Module, Path, Ops) ->
io:format(File, "format_op(Op, _Symbols) -> io_lib:format(\";; Bad Op: ~~w\\n\", [Op]).\n", []),
file:close(File).
gen_format(#{opname := Name}) when (Name =:= 'CALL_R') or (Name =:= 'CALL_TR') ->
io_lib:format("format_op({~w, {immediate, Contract}, {immediate, Function}, Value}, Symbols) ->\n"
gen_format(#{opname := Name}) when (Name =:= 'CALL_R') ->
io_lib:format("format_op({~w, {immediate, Contract}, {immediate, Function}, ArgType, RetType, Value}, Symbols) ->\n"
" [\"~s \", lookup(Contract, Symbols), \".\", "
"lookup(Function, Symbols), \" \", "
"format_arg(a, ArgType), \" \", "
"format_arg(a, RetType), \" \", "
"format_arg(a, Value)];\n"
"format_op({~w, Contract, {immediate, Function}, Value}, Symbols) ->\n"
"format_op({~w, Contract, {immediate, Function}, ArgType, RetType, Value}, Symbols) ->\n"
"[\"~s \", format_arg(a, Contract), \".\", "
"lookup(Function, Symbols), \" \", "
"format_arg(a, ArgType), \" \", "
"format_arg(a, RetType), \" \", "
"format_arg(a, Value)];\n",
[Name, atom_to_list(Name), Name, atom_to_list(Name)]);
gen_format(#{opname := Name}) when (Name =:= 'CALL_GR') or (Name =:= 'CALL_GTR') ->
io_lib:format("format_op({~w, {immediate, Contract}, {immediate, Function}, Value, Gas}, Symbols) ->\n"
gen_format(#{opname := Name}) when (Name =:= 'CALL_GR') ->
io_lib:format("format_op({~w, {immediate, Contract}, {immediate, Function}, ArgType, RetType, Value, Gas}, Symbols) ->\n"
" [\"~s \", lookup(Contract, Symbols), \".\", "
"lookup(Function, Symbols), \" \", "
"format_arg(a, ArgType), \" \", "
"format_arg(a, RetType), \" \", "
"format_arg(a, Value), \" \", "
"format_arg(a, Gas)];\n"
"format_op({~w, Contract, {immediate, Function}, Value, Gas}, Symbols) ->\n"
"format_op({~w, Contract, {immediate, Function}, ArgType, RetType, Value, Gas}, Symbols) ->\n"
"[\"~s \", format_arg(a, Contract), \".\", "
"lookup(Function, Symbols), \" \", "
"format_arg(a, ArgType), \" \", "
"format_arg(a, RetType), \" \", "
"format_arg(a, Value), \" \", "
"format_arg(a, Gas)];\n",
[Name, atom_to_list(Name), Name, atom_to_list(Name)]);
@@ -679,7 +755,7 @@ gen_variant() ->
end.
%% TODO: add gas cost.
%% TODO: add gas cost and end_bb/in_auth?
generate_documentation(Filename) ->
{ok, File} = file:open(Filename, [write]),
Instructions = lists:flatten([gen_doc(Op)++"\n" || Op <- get_ops()]),
@@ -725,4 +801,3 @@ format_arg_doc({is,_N}) -> "Identifier";
format_arg_doc({ii,_N}) -> "Integer";
format_arg_doc({li,_N}) -> "[Integers]";
format_arg_doc({t,_N}) -> "Type".
src/aeb_fate_maps.erl
+218
View File
@@ -0,0 +1,218 @@
%%%-------------------------------------------------------------------
%%% @copyright (C) 2019, Aeternity Anstalt
%%% @doc
%%% Functions for manipulating FATE maps. In particular for mediating
%%% between plain map values (represented by Erlang maps) and maps that are
%%% fully or partially saved in the contract store.
%%% @end
%%% -------------------------------------------------------------------
-module(aeb_fate_maps).
-include("aeb_fate_data.hrl").
-export([ allocate_store_maps/2
, has_store_maps/1
, unfold_store_maps/2
, refcount/1
, refcount_zero/0
, refcount_diff/2
, refcount_union/1
, refcount_union/2
, no_used_ids/0 ]).
-export_type([used_ids/0, maps/0, refcount/0]).
%% Size in bytes of serialization of a map for which we turn it into a store
%% map. It's not worth turning small maps into store maps.
%% Under consensus!
-ifdef(TEST).
-define(STORE_MAP_THRESHOLD, 0).
-else.
-define(STORE_MAP_THRESHOLD, 100).
-endif.
-type fate_value() :: aeb_fate_data:fate_type().
-type fate_value_or_tombstone() :: fate_value() | ?FATE_MAP_TOMBSTONE.
-type id() :: integer().
-type used_ids() :: list(id()).
-type maps() :: #{ id() => aeb_fate_data:fate_map() | aeb_fate_data:fate_store_map() }.
%% -- Allocating store maps --------------------------------------------------
-spec allocate_store_maps(used_ids(), [fate_value_or_tombstone()]) -> {[fate_value_or_tombstone()], maps()}.
allocate_store_maps(Used, Vals) ->
{_Used, Vals1, Maps} = allocate_store_maps_l(Used, Vals, #{}),
{Vals1, Maps}.
allocate_store_maps(Used, ?FATE_MAP_TOMBSTONE = Val, Maps) -> {Used, Val, Maps};
allocate_store_maps(Used, ?FATE_TRUE = Val, Maps) -> {Used, Val, Maps};
allocate_store_maps(Used, ?FATE_FALSE = Val, Maps) -> {Used, Val, Maps};
allocate_store_maps(Used, ?FATE_UNIT = Val, Maps) -> {Used, Val, Maps};
allocate_store_maps(Used, ?FATE_BITS(_) = Val, Maps) -> {Used, Val, Maps};
allocate_store_maps(Used, ?FATE_BYTES(_) = Val, Maps) -> {Used, Val, Maps};
allocate_store_maps(Used, ?FATE_ADDRESS(_) = Val, Maps) -> {Used, Val, Maps};
allocate_store_maps(Used, ?FATE_CONTRACT(_) = Val, Maps) -> {Used, Val, Maps};
allocate_store_maps(Used, ?FATE_ORACLE(_) = Val, Maps) -> {Used, Val, Maps};
allocate_store_maps(Used, ?FATE_ORACLE_Q(_) = Val, Maps) -> {Used, Val, Maps};
allocate_store_maps(Used, ?FATE_CHANNEL(_) = Val, Maps) -> {Used, Val, Maps};
allocate_store_maps(Used, ?FATE_TYPEREP(_) = Val, Maps) -> {Used, Val, Maps};
allocate_store_maps(Used, Val, Maps) when ?IS_FATE_INTEGER(Val) -> {Used, Val, Maps};
allocate_store_maps(Used, Val, Maps) when ?IS_FATE_STRING(Val) -> {Used, Val, Maps};
allocate_store_maps(Used, ?FATE_TUPLE(Val), Maps) ->
{Used1, Vals, Maps1} = allocate_store_maps_l(Used, tuple_to_list(Val), Maps),
{Used1, ?FATE_TUPLE(list_to_tuple(Vals)), Maps1};
allocate_store_maps(Used, Val, Maps) when ?IS_FATE_LIST(Val) ->
{Used1, Vals, Maps1} = allocate_store_maps_l(Used, ?FATE_LIST_VALUE(Val), Maps),
{Used1, ?MAKE_FATE_LIST(Vals), Maps1};
allocate_store_maps(Used, ?FATE_VARIANT(Arities, Tag, Vals), Maps) ->
{Used1, Vals1, Maps1} = allocate_store_maps_l(Used, tuple_to_list(Vals), Maps),
{Used1, ?FATE_VARIANT(Arities, Tag, list_to_tuple(Vals1)), Maps1};
allocate_store_maps(Used, Val, Maps) when ?IS_FATE_MAP(Val) ->
{Used1, KVs, Maps1} = allocate_store_maps_m(Used, ?FATE_MAP_VALUE(Val), Maps),
Val1 = ?MAKE_FATE_MAP(KVs),
case byte_size(aeb_fate_encoding:serialize(Val1)) < ?STORE_MAP_THRESHOLD of
true -> {Used1, Val1, Maps1};
false ->
{Id, Used2} = next_id(Used1),
{Used2, ?FATE_STORE_MAP(#{}, Id), Maps1#{Id => Val1}}
end;
allocate_store_maps(Used, ?FATE_STORE_MAP(Cache, _Id) = Val, Maps) when Cache =:= #{} ->
{Used, Val, Maps};
allocate_store_maps(Used, ?FATE_STORE_MAP(Cache, Id), Maps) ->
{NewId, Used1} = next_id(Used),
{Used2, Cache1, Maps1} = allocate_store_maps_m(Used1, Cache, Maps),
{Used2, ?FATE_STORE_MAP(#{}, NewId), Maps1#{NewId => ?FATE_STORE_MAP(Cache1, Id)}}.
allocate_store_maps_l(Used, [], Maps) -> {Used, [], Maps};
allocate_store_maps_l(Used, [H | T], Maps) ->
{Used1, H1, Maps1} = allocate_store_maps(Used, H, Maps),
{Used2, T1, Maps2} = allocate_store_maps(Used1, T, Maps1),
{Used2, [H1 | T1], Maps2}.
allocate_store_maps_m(Used, Val, Maps) ->
maps:fold(fun(K, V, {Us, M, Ms}) ->
{Us1, V1, Ms1} = allocate_store_maps(Us, V, Ms),
{Us1, M#{ K => V1 }, Ms1}
end, {Used, #{}, Maps}, Val).
%% -- Unfolding store maps ---------------------------------------------------
-type unfold_fun() :: fun((id()) -> aeb_fate_data:fate_map()).
-spec unfold_store_maps(unfold_fun(), fate_value_or_tombstone()) -> fate_value_or_tombstone().
unfold_store_maps(_Unfold, ?FATE_MAP_TOMBSTONE = Val) -> Val;
unfold_store_maps(_Unfold, ?FATE_TRUE = Val) -> Val;
unfold_store_maps(_Unfold, ?FATE_FALSE = Val) -> Val;
unfold_store_maps(_Unfold, ?FATE_UNIT = Val) -> Val;
unfold_store_maps(_Unfold, ?FATE_BITS(_) = Val) -> Val;
unfold_store_maps(_Unfold, ?FATE_BYTES(_) = Val) -> Val;
unfold_store_maps(_Unfold, ?FATE_ADDRESS(_) = Val) -> Val;
unfold_store_maps(_Unfold, ?FATE_CONTRACT(_) = Val) -> Val;
unfold_store_maps(_Unfold, ?FATE_ORACLE(_) = Val) -> Val;
unfold_store_maps(_Unfold, ?FATE_ORACLE_Q(_) = Val) -> Val;
unfold_store_maps(_Unfold, ?FATE_CHANNEL(_) = Val) -> Val;
unfold_store_maps(_Unfold, ?FATE_TYPEREP(_) = Val) -> Val;
unfold_store_maps(_Unfold, Val) when ?IS_FATE_INTEGER(Val) -> Val;
unfold_store_maps(_Unfold, Val) when ?IS_FATE_STRING(Val) -> Val;
unfold_store_maps(Unfold, ?FATE_TUPLE(Val)) ->
Vals = unfold_store_maps_l(Unfold, tuple_to_list(Val)),
?FATE_TUPLE(list_to_tuple(Vals));
unfold_store_maps(Unfold, Val) when ?IS_FATE_LIST(Val) ->
?MAKE_FATE_LIST(unfold_store_maps_l(Unfold, ?FATE_LIST_VALUE(Val)));
unfold_store_maps(Unfold, ?FATE_VARIANT(Arities, Tag, Vals)) ->
Vals1 = unfold_store_maps_l(Unfold, tuple_to_list(Vals)),
?FATE_VARIANT(Arities, Tag, list_to_tuple(Vals1));
unfold_store_maps(Unfold, Val) when ?IS_FATE_MAP(Val) ->
?MAKE_FATE_MAP(unfold_store_maps_m(Unfold, ?FATE_MAP_VALUE(Val)));
unfold_store_maps(Unfold, ?FATE_STORE_MAP(Cache, Id)) ->
StoreMap = Unfold(Id),
maps:fold(fun write_cache/3, unfold_store_maps(Unfold, StoreMap),
unfold_store_maps_m(Unfold, Cache)).
unfold_store_maps_l(Unfold, Vals) ->
[ unfold_store_maps(Unfold, Val) || Val <- Vals ].
unfold_store_maps_m(Unfold, Val) ->
maps:map(fun(_, V) -> unfold_store_maps(Unfold, V) end, Val).
write_cache(Key, ?FATE_MAP_TOMBSTONE, Map) ->
maps:remove(Key, Map);
write_cache(Key, Val, Map) ->
Map#{ Key => Val }.
%% -- Reference counting -----------------------------------------------------
-type refcount() :: #{id() => integer()}.
-spec refcount_zero() -> refcount().
refcount_zero() -> #{}.
-spec refcount_diff(refcount(), refcount()) -> refcount().
refcount_diff(New, Old) ->
maps:fold(fun(K, N, C) -> maps:update_with(K, fun(M) -> M - N end, -N, C) end,
New, Old).
-spec refcount_union([refcount()]) -> refcount().
refcount_union(Counts) -> lists:foldl(fun refcount_union/2, #{}, Counts).
-spec refcount_union(refcount(), refcount()) -> refcount().
refcount_union(A, B) ->
maps:fold(fun(K, N, C) -> maps:update_with(K, fun(M) -> M + N end, N, C) end,
B, A).
-spec has_store_maps(fate_value()) -> boolean().
has_store_maps(Val) ->
refcount_zero() /= refcount(Val).
-spec refcount(fate_value()) -> refcount().
refcount(Val) -> refcount(Val, #{}).
-spec refcount(fate_value_or_tombstone(), refcount()) -> refcount().
refcount(?FATE_MAP_TOMBSTONE, Count) -> Count;
refcount(?FATE_TRUE, Count) -> Count;
refcount(?FATE_FALSE, Count) -> Count;
refcount(?FATE_UNIT, Count) -> Count;
refcount(?FATE_BITS(_), Count) -> Count;
refcount(?FATE_BYTES(_), Count) -> Count;
refcount(?FATE_ADDRESS(_), Count) -> Count;
refcount(?FATE_CONTRACT(_), Count) -> Count;
refcount(?FATE_ORACLE(_), Count) -> Count;
refcount(?FATE_ORACLE_Q(_), Count) -> Count;
refcount(?FATE_CHANNEL(_), Count) -> Count;
refcount(?FATE_TYPEREP(_), Count) -> Count;
refcount(Val, Count) when ?IS_FATE_INTEGER(Val) -> Count;
refcount(Val, Count) when ?IS_FATE_STRING(Val) -> Count;
refcount(?FATE_TUPLE(Val), Count) ->
refcount_l(tuple_to_list(Val), Count);
refcount(Val, Count) when ?IS_FATE_LIST(Val) ->
refcount_l(?FATE_LIST_VALUE(Val), Count);
refcount(?FATE_VARIANT(_Arities, _Tag, Vals), Count) ->
refcount_l(tuple_to_list(Vals), Count);
refcount(Val, Count) when ?IS_FATE_MAP(Val) ->
refcount_m(?FATE_MAP_VALUE(Val), Count);
refcount(?FATE_STORE_MAP(Cache, Id), Count) ->
refcount_m(Cache, maps:update_with(Id, fun(N) -> N + 1 end, 1, Count)).
refcount_l(Vals, Count) ->
lists:foldl(fun refcount/2, Count, Vals).
refcount_m(Val, Count) ->
%% No maps in map keys
maps:fold(fun(_, ?FATE_MAP_TOMBSTONE, C) -> C;
(_, V, C) -> refcount(V, C) end, Count, Val).
%% -- Map id allocation ------------------------------------------------------
-spec no_used_ids() -> used_ids().
no_used_ids() -> [].
-spec next_id(used_ids()) -> {id(), used_ids()}.
next_id(UsedIds) ->
next_id(UsedIds, 0, []).
next_id(Used, J, Acc) when Used == []; J < hd(Used) ->
{J, lists:reverse(Acc) ++ [J | Used]};
next_id([I | Used], I, Acc) ->
next_id(Used, I + 1, [I | Acc]);
next_id([I | Used], J, Acc) when J > I ->
next_id(Used, J, [I | Acc]).
src/aeb_heap.erl
+20
View File
@@ -14,6 +14,7 @@
, heap_value_maps/1
, heap_value_offset/1
, heap_value_heap/1
, heap_value_byte_size/1
, heap_fragment_maps/1
, heap_fragment_offset/1
, heap_fragment_heap/1
@@ -90,6 +91,25 @@ heap_value_offset({_, Heap}) -> Heap#heap.offset.
binary() | #{non_neg_integer() => non_neg_integer()}.
heap_value_heap({_, Heap}) -> Heap#heap.heap.
%% -- Byte size of a heap value ----------------------------------------------
-spec heap_value_byte_size(heap_value()) -> non_neg_integer().
heap_value_byte_size({_, Heap}) ->
Value = Heap#heap.heap,
Maps = Heap#heap.maps,
ValueSize =
if is_binary(Value) -> byte_size(Value);
true -> 0 end,
MapsSize =
lists:sum([ pmap_size(Map) || Map <- maps:values(Maps#maps.maps) ]),
ValueSize + MapsSize.
pmap_size(#pmap{data = stored}) -> 0;
pmap_size(#pmap{data = Data}) when is_map(Data) ->
lists:sum([ byte_size(Key) + byte_size(Val)
|| {Key, Val} <- maps:to_list(Data),
Val /= tombstone ]).
%% -- Value to binary --------------------------------------------------------
-spec to_binary(aeb_aevm_data:data()) -> aeb_aevm_data:heap().
test/aeb_fate_asm_test.erl
+2
View File
@@ -47,6 +47,8 @@ sources() ->
, "tuple"
, "mapofmap"
, "immediates"
, "names"
, "oracles"
%% , "all_instructions"
].
test/aeb_serialize_test.erl
-1
View File
@@ -50,7 +50,6 @@ sources() ->
aeb_fate_data:make_hash(<<1,2,3,4,5>>),
aeb_fate_data:make_signature(<<1,2,3,4,5>>),
aeb_fate_data:make_contract(<<1,2,3,4,5>>),
aeb_fate_data:make_name(<<1,2,3,4,5>>),
aeb_fate_data:make_channel(<<1,2,3,4,5>>),
aeb_fate_data:make_list([True]),
aeb_fate_data:make_address(
test/asm_code/all_instructions.fate
+14 -2
View File
@@ -1,7 +1,7 @@
;; CONTRACT all_instructions
;; Dont expect this contract to typecheck or run.
;; Just used to check assembler rountrip of all instructions.
;; Just used to check assembler roundtrip of all instructions.
FUNCTION foo () : {tuple, []}
RETURN
@@ -224,7 +224,13 @@ FUNCTION foo () : {tuple, []}
AENS_REVOKE
ECVERIFY
ECRECOVER_SECP256K1
VERIFY_SIG
VERIFY_SIG_SECP256K1
ECVERIFY_SECP256K1
SHA3 a
@@ -247,3 +253,9 @@ FUNCTION foo () : {tuple, []}
AUTH_TX_HASH
CONTRACT_TO_ADDRESS @ct_nv5B93FPzRHrGNmMdTDfGdd5xGZvep3MVSpJqzcQmMp59bBCv
IS_ORACLE @ak_nv5B93FPzRHrGNmMdTDfGdd5xGZvep3MVSpJqzcQmMp59bBCv
IS_CONTRACT @ak_nv5B93FPzRHrGNmMdTDfGdd5xGZvep3MVSpJqzcQmMp59bBCv
IS_PAYABLE @ak_nv5B93FPzRHrGNmMdTDfGdd5xGZvep3MVSpJqzcQmMp59bBCv
test/asm_code/immediates.fate
-3
View File
@@ -74,9 +74,6 @@ FUNCTION oracle() : oracle
FUNCTION contract() : contract
RETURNR @ct_nv5B93FPzRHrGNmMdTDfGdd5xGZvep3MVSpJqzcQmMp59bBCv
FUNCTION name() : name
RETURNR @nm_nv5B93FPzRHrGNmMdTDfGdd5xGZvep3MVSpJqzcQmMp59bBCv
FUNCTION channel() : channel
RETURNR @ch_nv5B93FPzRHrGNmMdTDfGdd5xGZvep3MVSpJqzcQmMp59bBCv
test/asm_code/names.fate
+21
View File
@@ -0,0 +1,21 @@
;; CONTRACT names
FUNCTION preclaim(address, {bytes, 32}) : {tuple, []}
AENS_PRECLAIM #AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA== arg0 arg1
RETURNR {}
FUNCTION claim(address, string, integer, integer) : {tuple, []}
AENS_CLAIM #AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA== arg0 arg1 arg2 arg3
RETURNR {}
FUNCTION transfer(address, address, {bytes, 32}) : {tuple, []}
AENS_TRANSFER #AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA== arg0 arg1 arg2
RETURNR {}
FUNCTION revoke(address, {bytes, 32}) : {tuple, []}
AENS_REVOKE #AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA== arg0 arg1
RETURNR {}
FUNCTION resolve(string, string) : {variant, [{tuple, []}, {tuple, [address]}]}
AENS_RESOLVE a arg0 arg1 'address
RETURN
test/asm_code/oracles.fate
+32
View File
@@ -0,0 +1,32 @@
;; CONTRACT oracles
FUNCTION register (address, integer, {variant, [{tuple, [integer]}, {tuple, [integer]}]}) : oracle
ORACLE_REGISTER a #AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA== arg0 arg1 arg2 'string '{variant, [{tuple, []}, {tuple, [integer]}]}
RETURN
FUNCTION query (oracle, integer, string) : oracle_query
ORACLE_QUERY a arg0 arg1 arg2 (| [1,1] | 0 | (100) |) (| [1,1] | 0 | (100) |) 'string '{variant, [{tuple, []}, {tuple, [integer]}]}
RETURN
FUNCTION bogus_query () : oracle_query
RETURNR @oq_nv5B93FPzRHrGNmMdTDfGdd5xGZvep3MVSpJqzcQmMp59bBCv
FUNCTION respond (oracle, integer, string) : {tuple, []}
ORACLE_RESPOND #AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA== arg0 arg1 arg2 'string '{variant, [{tuple, []}, {tuple, [integer]}]}
RETURNR {}
FUNCTION extend (oracle, {variant, [{tuple, [integer]}, {tuple, [integer]}]}) : {tuple, []}
ORACLE_EXTEND #AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA== arg0 arg1
RETURNR {}
FUNCTION get_question (oracle, oracle_query) : string
ORACLE_GET_QUESTION a arg0 arg1 'string '{variant, [{tuple, []}, {tuple, [integer]}]}
RETURN
FUNCTION get_answer (oracle, oracle_query) : {variant, [{tuple, []}, {tuple, [string]}]}
ORACLE_GET_ANSWER a arg1 arg2 'string '{variant, [{tuple, []}, {tuple, [integer]}]}
RETURN
FUNCTION query_fee (oracle) : integer
ORACLE_QUERY_FEE a arg0
RETURN
test/asm_code/test.fate
+5 -9
View File
@@ -28,15 +28,11 @@ FUNCTION tailcall(integer) -> integer
INCA
CALL_T "inc"
FUNCTION remote_call(integer) : integer
PUSH arg0
CALL_R remote.add_five 0
INCA
RETURN
FUNCTION remote_tailcall(integer) : integer
PUSH arg0
CALL_TR remote add_five 0
;; FUNCTION remote_call(integer) : integer
;; PUSH arg0
;; CALL_R remote.add_five {tuple, [integer]} integer 0 ;; typereps don't parse
;; INCA
;; RETURN
;; Test the code from the shell
;; _build/default/rel/aessembler/bin/aessembler console