mirror of
https://github.com/ethereum/solidity
synced 2023-10-03 13:03:40 +00:00
652 lines
24 KiB
C++
652 lines
24 KiB
C++
/*
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This file is part of solidity.
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solidity is free software: you can redistribute it and/or modify
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it under the terms of the GNU General Public License as published by
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the Free Software Foundation, either version 3 of the License, or
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(at your option) any later version.
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solidity is distributed in the hope that it will be useful,
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but WITHOUT ANY WARRANTY; without even the implied warranty of
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MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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GNU General Public License for more details.
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You should have received a copy of the GNU General Public License
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along with solidity. If not, see <http://www.gnu.org/licenses/>.
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*/
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/**
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* @author Ben Edgington <ben@benjaminion.xyz>
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* @date 2017
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* Tests for an ERC20 token implementation written in LLL
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*/
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#include <string>
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#include <boost/test/unit_test.hpp>
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#include <test/liblll/ExecutionFramework.h>
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#include <liblll/Compiler.h>
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#define TOKENSUPPLY 100000
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#define TOKENDECIMALS 2
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#define TOKENSYMBOL "BEN"
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#define TOKENNAME "Ben Token"
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#define ACCOUNT(n) h256(account(n), h256::AlignRight)
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#define SUCCESS encodeArgs(1)
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using namespace std;
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using namespace dev::eth;
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namespace dev
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{
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namespace lll
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{
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namespace test
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{
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namespace
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{
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static char const* erc20Code = R"DELIMITER(
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(seq
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;; --------------------------------------------------------------------------
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;; CONSTANTS
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;; Token parameters.
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;; 0x40 is a "magic number" - the text of the string is placed here
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;; when returning the string to the caller. See return-string below.
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(def 'token-name-string (lit 0x40 "Ben Token"))
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(def 'token-symbol-string (lit 0x40 "BEN"))
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(def 'token-decimals 2)
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(def 'token-supply 100000) ; 1000.00 total tokens
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;; Booleans
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(def 'false 0)
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(def 'true 1)
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;; Memory layout.
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(def 'mem-ret 0x00) ; Fixed due to compiler macro for return.
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(def 'mem-func 0x00) ; No conflict with mem-ret, so re-use.
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(def 'mem-keccak 0x00) ; No conflict with mem-func or mem-ret, so re-use.
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(def 'scratch0 0x20)
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(def 'scratch1 0x40)
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;; Precomputed function IDs.
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(def 'get-name 0x06fdde03) ; name()
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(def 'get-symbol 0x95d89b41) ; symbol()
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(def 'get-decimals 0x313ce567) ; decimals()
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(def 'get-total-supply 0x18160ddd) ; totalSupply()
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(def 'get-balance-of 0x70a08231) ; balanceOf(address)
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(def 'transfer 0xa9059cbb) ; transfer(address,uint256)
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(def 'transfer-from 0x23b872dd) ; transferFrom(address,address,uint256)
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(def 'approve 0x095ea7b3) ; approve(address,uint256)
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(def 'get-allowance 0xdd62ed3e) ; allowance(address,address)
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;; Event IDs
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(def 'transfer-event-id ; Transfer(address,address,uint256)
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0xddf252ad1be2c89b69c2b068fc378daa952ba7f163c4a11628f55a4df523b3ef)
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(def 'approval-event-id ; Approval(address,address,uint256)
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0x8c5be1e5ebec7d5bd14f71427d1e84f3dd0314c0f7b2291e5b200ac8c7c3b925)
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;; --------------------------------------------------------------------------
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;; UTILITIES
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;; --------------------------------------------------------------------------
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;; The following define the key data-structures:
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;; - balance(addr) => value
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;; - allowance(addr,addr) => value
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;; Balances are stored at s[owner_addr].
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(def 'balance (address) address)
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;; Allowances are stored at s[owner_addr + keccak256(spender_addr)]
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;; We use a crypto function here to avoid any situation where
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;; approve(me, spender) can be abused to do approve(target, me).
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(def 'allowance (owner spender)
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(seq
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(mstore mem-keccak spender)
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(keccak256 mem-keccak 0x20)))
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;; --------------------------------------------------------------------------
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;; For convenience we have macros to refer to function arguments
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(def 'arg1 (calldataload 0x04))
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(def 'arg2 (calldataload 0x24))
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(def 'arg3 (calldataload 0x44))
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;; --------------------------------------------------------------------------
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;; Revert is a soft return that does not consume the remaining gas.
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;; We use it when rejecting invalid user input.
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;;
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;; Note: The REVERT opcode will be implemented in Metropolis (EIP 140).
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;; Meanwhile it just causes an invalid instruction exception (similar
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;; to a "throw" in Solidity). When fully implemented, Revert could be
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;; use to return error codes, or even messages.
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(def 'revert () (revert 0 0))
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;; --------------------------------------------------------------------------
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;; Macro for returning string names.
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;; Compliant with the ABI format for strings.
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(def 'return-string (string-literal)
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(seq
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(mstore 0x00 0x20) ; Points to our string's memory location
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(mstore 0x20 string-literal) ; Length. String itself is copied to 0x40.
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(return 0x00 (& (+ (mload 0x20) 0x5f) (~ 0x1f)))))
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; Round return up to 32 byte boundary
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;; --------------------------------------------------------------------------
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;; Convenience macro for raising Events
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(def 'event3 (id addr1 addr2 value)
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(seq
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(mstore scratch0 value)
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(log3 scratch0 0x20 id addr1 addr2)))
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;; --------------------------------------------------------------------------
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;; Determines whether the stored function ID matches a known
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;; function hash and executes <code-body> if so.
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;; @param function-hash The four-byte hash of a known function signature.
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;; @param code-body The code to run in the case of a match.
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(def 'function (function-hash code-body)
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(when (= (mload mem-func) function-hash)
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code-body))
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;; --------------------------------------------------------------------------
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;; Gets the function ID and stores it in memory for reference.
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;; The function ID is in the leftmost four bytes of the call data.
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(def 'uses-functions
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(mstore
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mem-func
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(shr (calldataload 0x00) 224)))
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;; --------------------------------------------------------------------------
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;; GUARDS
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;; --------------------------------------------------------------------------
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;; Checks that ensure that each function is called with the right
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;; number of arguments. For one thing this addresses the "ERC20
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;; short address attack". For another, it stops me making
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;; mistakes while testing. We use these only on the non-constant functions.
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(def 'has-one-arg (unless (= 0x24 (calldatasize)) (revert)))
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(def 'has-two-args (unless (= 0x44 (calldatasize)) (revert)))
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(def 'has-three-args (unless (= 0x64 (calldatasize)) (revert)))
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;; --------------------------------------------------------------------------
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;; Check that addresses have only 160 bits and revert if not.
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;; We use these input type-checks on the non-constant functions.
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(def 'is-address (addr)
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(when
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(shr addr 160)
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(revert)))
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;; --------------------------------------------------------------------------
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;; Check that transfer values are smaller than total supply and
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;; revert if not. This should effectively exclude negative values.
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(def 'is-value (value)
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(when (> value token-supply) (revert)))
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;; --------------------------------------------------------------------------
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;; Will revert if sent any Ether. We use the macro immediately so as
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;; to abort if sent any Ether during contract deployment.
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(def 'not-payable
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(when (callvalue) (revert)))
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not-payable
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;; --------------------------------------------------------------------------
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;; INITIALISATION
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;;
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;; Assign all tokens initially to the owner of the contract.
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(sstore (balance (caller)) token-supply)
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;; --------------------------------------------------------------------------
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;; CONTRACT CODE
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(returnlll
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(seq not-payable uses-functions
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;; ----------------------------------------------------------------------
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;; Getter for the name of the token.
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;; @abi name() constant returns (string)
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;; @return The token name as a string.
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(function get-name
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(return-string token-name-string))
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;; ----------------------------------------------------------------------
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;; Getter for the symbol of the token.
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;; @abi symbol() constant returns (string)
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;; @return The token symbol as a string.
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(function get-symbol
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(return-string token-symbol-string))
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;; ----------------------------------------------------------------------
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;; Getter for the number of decimals assigned to the token.
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;; @abi decimals() constant returns (uint256)
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;; @return The token decimals.
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(function get-decimals
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(return token-decimals))
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;; ----------------------------------------------------------------------
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;; Getter for the total token supply.
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;; @abi totalSupply() constant returns (uint256)
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;; @return The token supply.
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(function get-total-supply
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(return token-supply))
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;; ----------------------------------------------------------------------
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;; Returns the account balance of another account.
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;; @abi balanceOf(address) constant returns (uint256)
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;; @param owner The address of the account's owner.
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;; @return The account balance.
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(function get-balance-of
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(seq
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(def 'owner arg1)
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(return (sload (balance owner)))))
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;; ----------------------------------------------------------------------
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;; Transfers _value amount of tokens to address _to. The command
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;; should throw if the _from account balance has not enough
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;; tokens to spend.
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;; @abi transfer(address, uint256) returns (bool)
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;; @param to The account to receive the tokens.
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;; @param value The quantity of tokens to transfer.
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;; @return Success (true). Other outcomes result in a Revert.
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(function transfer
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(seq has-two-args (is-address arg1) (is-value arg2)
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(def 'to arg1)
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(def 'value arg2)
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(when value ; value == 0 is a no-op
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(seq
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;; The caller's balance. Save in memory for efficiency.
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(mstore scratch0 (sload (balance (caller))))
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;; Revert if the caller's balance is not sufficient.
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(when (> value (mload scratch0))
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(revert))
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;; Make the transfer
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;; It would be good to check invariants (sum of balances).
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(sstore (balance (caller)) (- (mload scratch0) value))
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(sstore (balance to) (+ (sload (balance to)) value))
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;; Event - Transfer(address,address,uint256)
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(event3 transfer-event-id (caller) to value)))
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(return true)))
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;; ----------------------------------------------------------------------
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;; Send _value amount of tokens from address _from to address _to
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;; @abi transferFrom(address,address,uint256) returns (bool)
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;; @param from The account to send the tokens from.
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;; @param to The account to receive the tokens.
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;; @param value The quantity of tokens to transfer.
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;; @return Success (true). Other outcomes result in a Revert.
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(function transfer-from
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(seq has-three-args (is-address arg1) (is-address arg2) (is-value arg3)
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(def 'from arg1)
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(def 'to arg2)
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(def 'value arg3)
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(when value ; value == 0 is a no-op
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(seq
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;; Save data to memory for efficiency.
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(mstore scratch0 (sload (balance from)))
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(mstore scratch1 (sload (allowance from (caller))))
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;; Revert if not enough funds, or not enough approved.
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(when
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(||
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(> value (mload scratch0))
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(> value (mload scratch1)))
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(revert))
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;; Make the transfer and update allowance.
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(sstore (balance from) (- (mload scratch0) value))
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(sstore (balance to) (+ (sload (balance to)) value))
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(sstore (allowance from (caller)) (- (mload scratch1) value))
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;; Event - Transfer(address,address,uint256)
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(event3 transfer-event-id from to value)))
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(return true)))
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;; ----------------------------------------------------------------------
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;; Allows _spender to withdraw from your account multiple times,
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;; up to the _value amount. If this function is called again it
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;; overwrites the current allowance with _value.
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;; @abi approve(address,uint256) returns (bool)
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;; @param spender The withdrawing account having its limit set.
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;; @param value The maximum allowed amount.
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;; @return Success (true). Other outcomes result in a Revert.
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(function approve
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(seq has-two-args (is-address arg1) (is-value arg2)
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(def 'spender arg1)
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(def 'value arg2)
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;; Force users set the allowance to 0 before setting it to
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;; another value for the same spender. Prevents this attack:
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;; https://docs.google.com/document/d/1YLPtQxZu1UAvO9cZ1O2RPXBbT0mooh4DYKjA_jp-RLM
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(when
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(&& value (sload (allowance (caller) spender)))
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(revert))
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(sstore (allowance (caller) spender) value)
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;; Event - Approval(address,address,uint256)
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(event3 approval-event-id (caller) spender value)
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(return true)))
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;; ----------------------------------------------------------------------
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;; Returns the amount which _spender is still allowed to withdraw
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;; from _owner.
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;; @abi allowance(address,address) constant returns (uint256)
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;; @param owner The owning account.
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;; @param spender The withdrawing account.
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;; @return The allowed amount remaining.
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(function get-allowance
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(seq
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(def 'owner arg1)
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(def 'spender arg2)
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(return (sload (allowance owner spender)))))
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;; ----------------------------------------------------------------------
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;; Fallback: No functions matched the function ID provided.
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(revert)))
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)
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)DELIMITER";
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static unique_ptr<bytes> s_compiledErc20;
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class LLLERC20TestFramework: public LLLExecutionFramework
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{
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protected:
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void deployErc20()
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{
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if (!s_compiledErc20)
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{
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vector<string> errors;
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s_compiledErc20.reset(new bytes(compileLLL(erc20Code, dev::test::Options::get().evmVersion(), dev::test::Options::get().optimize, &errors)));
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BOOST_REQUIRE(errors.empty());
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}
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sendMessage(*s_compiledErc20, true);
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BOOST_REQUIRE(!m_output.empty());
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}
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};
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}
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// Test suite for an ERC20 contract written in LLL.
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BOOST_FIXTURE_TEST_SUITE(LLLERC20, LLLERC20TestFramework)
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BOOST_AUTO_TEST_CASE(creation)
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{
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deployErc20();
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// All tokens are initially assigned to the contract creator.
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BOOST_CHECK(callContractFunction("balanceOf(address)", ACCOUNT(0)) == encodeArgs(TOKENSUPPLY));
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}
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BOOST_AUTO_TEST_CASE(constants)
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{
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deployErc20();
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BOOST_CHECK(callContractFunction("totalSupply()") == encodeArgs(TOKENSUPPLY));
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BOOST_CHECK(callContractFunction("decimals()") == encodeArgs(TOKENDECIMALS));
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BOOST_CHECK(callContractFunction("symbol()") == encodeDyn(string(TOKENSYMBOL)));
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BOOST_CHECK(callContractFunction("name()") == encodeDyn(string(TOKENNAME)));
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}
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BOOST_AUTO_TEST_CASE(send_value)
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{
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deployErc20();
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// Send value to the contract. Should always fail.
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m_sender = account(0);
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auto contractBalance = balanceAt(m_contractAddress);
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// Fallback: check value is not transferred.
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BOOST_CHECK(callFallbackWithValue(42) != SUCCESS);
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BOOST_CHECK(balanceAt(m_contractAddress) == contractBalance);
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// Transfer: check nothing happened.
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BOOST_CHECK(callContractFunctionWithValue("transfer(address,uint256)", ACCOUNT(1), 100, 42) != SUCCESS);
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BOOST_CHECK(balanceAt(m_contractAddress) == contractBalance);
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BOOST_CHECK(callContractFunction("balanceOf(address)", ACCOUNT(1)) == encodeArgs(0));
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BOOST_CHECK(callContractFunction("balanceOf(address)", ACCOUNT(0)) == encodeArgs(TOKENSUPPLY));
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}
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BOOST_AUTO_TEST_CASE(transfer)
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{
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deployErc20();
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// Transfer 100 tokens from account(0) to account(1).
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int transfer = 100;
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m_sender = account(0);
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BOOST_CHECK(callContractFunction("transfer(address,uint256)", ACCOUNT(1), u256(transfer)) == SUCCESS);
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BOOST_CHECK(callContractFunction("balanceOf(address)", ACCOUNT(0)) == encodeArgs(TOKENSUPPLY - transfer));
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BOOST_CHECK(callContractFunction("balanceOf(address)", ACCOUNT(1)) == encodeArgs(transfer));
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}
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BOOST_AUTO_TEST_CASE(transfer_from)
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{
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deployErc20();
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// Approve account(1) to transfer up to 1000 tokens from account(0).
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int allow = 1000;
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m_sender = account(0);
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BOOST_REQUIRE(callContractFunction("approve(address,uint256)", ACCOUNT(1), u256(allow)) == SUCCESS);
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BOOST_REQUIRE(callContractFunction("allowance(address,address)", ACCOUNT(0), ACCOUNT(1)) == encodeArgs(allow));
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// Send account(1) some ether for gas.
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sendEther(account(1), 1000 * ether);
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BOOST_REQUIRE(balanceAt(account(1)) >= 1000 * ether);
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// Transfer 300 tokens from account(0) to account(2); check that the allowance decreases.
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int transfer = 300;
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m_sender = account(1);
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BOOST_REQUIRE(callContractFunction("transferFrom(address,address,uint256)", ACCOUNT(0), ACCOUNT(2), u256(transfer)) == SUCCESS);
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BOOST_CHECK(callContractFunction("balanceOf(address)", ACCOUNT(2)) == encodeArgs(transfer));
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BOOST_CHECK(callContractFunction("balanceOf(address)", ACCOUNT(0)) == encodeArgs(TOKENSUPPLY - transfer));
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BOOST_CHECK(callContractFunction("allowance(address,address)", ACCOUNT(0), ACCOUNT(1)) == encodeArgs(allow - transfer));
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}
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BOOST_AUTO_TEST_CASE(transfer_event)
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{
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deployErc20();
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// Transfer 1000 tokens from account(0) to account(1).
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int transfer = 1000;
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m_sender = account(0);
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BOOST_REQUIRE(callContractFunction("transfer(address,uint256)", ACCOUNT(1), u256(transfer)) == SUCCESS);
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// Check that a Transfer event was recorded and contents are correct.
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BOOST_REQUIRE(m_logs.size() == 1);
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BOOST_CHECK(m_logs[0].data == encodeArgs(transfer));
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BOOST_REQUIRE(m_logs[0].topics.size() == 3);
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BOOST_CHECK(m_logs[0].topics[0] == keccak256(string("Transfer(address,address,uint256)")));
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BOOST_CHECK(m_logs[0].topics[1] == ACCOUNT(0));
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BOOST_CHECK(m_logs[0].topics[2] == ACCOUNT(1));
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}
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BOOST_AUTO_TEST_CASE(transfer_zero_no_event)
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{
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deployErc20();
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// Transfer 0 tokens from account(0) to account(1). This is a no-op.
|
|
int transfer = 0;
|
|
m_sender = account(0);
|
|
BOOST_REQUIRE(callContractFunction("transfer(address,uint256)", ACCOUNT(1), u256(transfer)) == SUCCESS);
|
|
|
|
// Check that no Event was recorded.
|
|
BOOST_CHECK(m_logs.size() == 0);
|
|
|
|
// Check that balances have not changed.
|
|
BOOST_CHECK(callContractFunction("balanceOf(address)", ACCOUNT(0)) == encodeArgs(TOKENSUPPLY - transfer));
|
|
BOOST_CHECK(callContractFunction("balanceOf(address)", ACCOUNT(1)) == encodeArgs(transfer));
|
|
}
|
|
|
|
BOOST_AUTO_TEST_CASE(approval_and_transfer_events)
|
|
{
|
|
deployErc20();
|
|
|
|
// Approve account(1) to transfer up to 10000 tokens from account(0).
|
|
int allow = 10000;
|
|
m_sender = account(0);
|
|
BOOST_REQUIRE(callContractFunction("approve(address,uint256)", ACCOUNT(1), u256(allow)) == SUCCESS);
|
|
|
|
// Check that an Approval event was recorded and contents are correct.
|
|
BOOST_REQUIRE(m_logs.size() == 1);
|
|
BOOST_CHECK(m_logs[0].data == encodeArgs(allow));
|
|
BOOST_REQUIRE(m_logs[0].topics.size() == 3);
|
|
BOOST_CHECK(m_logs[0].topics[0] == keccak256(string("Approval(address,address,uint256)")));
|
|
BOOST_CHECK(m_logs[0].topics[1] == ACCOUNT(0));
|
|
BOOST_CHECK(m_logs[0].topics[2] == ACCOUNT(1));
|
|
|
|
// Send account(1) some ether for gas.
|
|
sendEther(account(1), 1000 * ether);
|
|
BOOST_REQUIRE(balanceAt(account(1)) >= 1000 * ether);
|
|
|
|
// Transfer 3000 tokens from account(0) to account(2); check that the allowance decreases.
|
|
int transfer = 3000;
|
|
m_sender = account(1);
|
|
BOOST_REQUIRE(callContractFunction("transferFrom(address,address,uint256)", ACCOUNT(0), ACCOUNT(2), u256(transfer)) == SUCCESS);
|
|
|
|
// Check that a Transfer event was recorded and contents are correct.
|
|
BOOST_REQUIRE(m_logs.size() == 1);
|
|
BOOST_CHECK(m_logs[0].data == encodeArgs(transfer));
|
|
BOOST_REQUIRE(m_logs[0].topics.size() == 3);
|
|
BOOST_CHECK(m_logs[0].topics[0] == keccak256(string("Transfer(address,address,uint256)")));
|
|
BOOST_CHECK(m_logs[0].topics[1] == ACCOUNT(0));
|
|
BOOST_CHECK(m_logs[0].topics[2] == ACCOUNT(2));
|
|
}
|
|
|
|
BOOST_AUTO_TEST_CASE(invalid_transfer_1)
|
|
{
|
|
deployErc20();
|
|
|
|
// Transfer more than the total supply; ensure nothing changes.
|
|
int transfer = TOKENSUPPLY + 1;
|
|
m_sender = account(0);
|
|
BOOST_CHECK(callContractFunction("transfer(address,uint256)", ACCOUNT(1), u256(transfer)) != SUCCESS);
|
|
BOOST_CHECK(callContractFunction("balanceOf(address)", ACCOUNT(0)) == encodeArgs(TOKENSUPPLY));
|
|
BOOST_CHECK(callContractFunction("balanceOf(address)", ACCOUNT(1)) == encodeArgs(0));
|
|
}
|
|
|
|
BOOST_AUTO_TEST_CASE(invalid_transfer_2)
|
|
{
|
|
deployErc20();
|
|
|
|
// Separate transfers that together exceed initial balance.
|
|
int transfer = 1 + TOKENSUPPLY / 2;
|
|
m_sender = account(0);
|
|
|
|
// First transfer should succeed.
|
|
BOOST_REQUIRE(callContractFunction("transfer(address,uint256)", ACCOUNT(1), u256(transfer)) == SUCCESS);
|
|
BOOST_REQUIRE(callContractFunction("balanceOf(address)", ACCOUNT(0)) == encodeArgs(TOKENSUPPLY - transfer));
|
|
BOOST_REQUIRE(callContractFunction("balanceOf(address)", ACCOUNT(1)) == encodeArgs(transfer));
|
|
|
|
// Second transfer should fail.
|
|
BOOST_CHECK(callContractFunction("transfer(address,uint256)", ACCOUNT(1), u256(transfer)) != SUCCESS);
|
|
BOOST_CHECK(callContractFunction("balanceOf(address)", ACCOUNT(0)) == encodeArgs(TOKENSUPPLY - transfer));
|
|
BOOST_CHECK(callContractFunction("balanceOf(address)", ACCOUNT(1)) == encodeArgs(transfer));
|
|
}
|
|
|
|
BOOST_AUTO_TEST_CASE(invalid_transfer_from)
|
|
{
|
|
deployErc20();
|
|
|
|
// TransferFrom without approval.
|
|
int transfer = 300;
|
|
|
|
// Send account(1) some ether for gas.
|
|
m_sender = account(0);
|
|
sendEther(account(1), 1000 * ether);
|
|
BOOST_REQUIRE(balanceAt(account(1)) >= 1000 * ether);
|
|
|
|
// Try the transfer; ensure nothing changes.
|
|
m_sender = account(1);
|
|
BOOST_CHECK(callContractFunction("transferFrom(address,address,uint256)", ACCOUNT(0), ACCOUNT(2), u256(transfer)) != SUCCESS);
|
|
BOOST_CHECK(callContractFunction("balanceOf(address)", ACCOUNT(2)) == encodeArgs(0));
|
|
BOOST_CHECK(callContractFunction("balanceOf(address)", ACCOUNT(0)) == encodeArgs(TOKENSUPPLY));
|
|
BOOST_CHECK(callContractFunction("allowance(address,address)", ACCOUNT(0), ACCOUNT(1)) == encodeArgs(0));
|
|
}
|
|
|
|
BOOST_AUTO_TEST_CASE(invalid_reapprove)
|
|
{
|
|
deployErc20();
|
|
|
|
m_sender = account(0);
|
|
|
|
// Approve account(1) to transfer up to 1000 tokens from account(0).
|
|
int allow1 = 1000;
|
|
BOOST_REQUIRE(callContractFunction("approve(address,uint256)", ACCOUNT(1), u256(allow1)) == SUCCESS);
|
|
BOOST_REQUIRE(callContractFunction("allowance(address,address)", ACCOUNT(0), ACCOUNT(1)) == encodeArgs(allow1));
|
|
|
|
// Now approve account(1) to transfer up to 500 tokens from account(0).
|
|
// Should fail (we need to reset allowance to 0 first).
|
|
int allow2 = 500;
|
|
BOOST_CHECK(callContractFunction("approve(address,uint256)", ACCOUNT(1), u256(allow2)) != SUCCESS);
|
|
BOOST_CHECK(callContractFunction("allowance(address,address)", ACCOUNT(0), ACCOUNT(1)) == encodeArgs(allow1));
|
|
}
|
|
|
|
BOOST_AUTO_TEST_CASE(bad_data)
|
|
{
|
|
deployErc20();
|
|
|
|
m_sender = account(0);
|
|
|
|
// Correct data: transfer(address _to, 1).
|
|
sendMessage((bytes)fromHex("a9059cbb") + (bytes)fromHex("000000000000000000000000123456789a123456789a123456789a123456789a") + encodeArgs(1), false, 0);
|
|
BOOST_CHECK(m_output == SUCCESS);
|
|
|
|
// Too little data (address is truncated by one byte).
|
|
sendMessage((bytes)fromHex("a9059cbb") + (bytes)fromHex("000000000000000000000000123456789a123456789a123456789a12345678") + encodeArgs(1), false, 0);
|
|
BOOST_CHECK(m_output != SUCCESS);
|
|
|
|
// Too much data (address is extended with a zero byte).
|
|
sendMessage((bytes)fromHex("a9059cbb") + (bytes)fromHex("000000000000000000000000123456789a123456789a123456789a123456789a00") + encodeArgs(1), false, 0);
|
|
BOOST_CHECK(m_output != SUCCESS);
|
|
|
|
// Invalid address (a bit above the 160th is set).
|
|
sendMessage((bytes)fromHex("a9059cbb") + (bytes)fromHex("000000000000000000000100123456789a123456789a123456789a123456789a") + encodeArgs(1), false, 0);
|
|
BOOST_CHECK(m_output != SUCCESS);
|
|
}
|
|
|
|
BOOST_AUTO_TEST_SUITE_END()
|
|
|
|
}
|
|
}
|
|
} // end namespaces
|