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/*
This file is part of cpp-ethereum.
cpp-ethereum is free software: you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation, either version 3 of the License, or
(at your option) any later version.
cpp-ethereum is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with cpp-ethereum. If not, see <http://www.gnu.org/licenses/>.
*/
/** @file main.cpp
* @author Gav Wood <i@gavwood.com>
* @date 2014
* RLP tool.
*/
#include <fstream>
#include <iostream>
#include <boost/regex.hpp>
#include <boost/algorithm/string.hpp>
#include "../test/JsonSpiritHeaders.h"
#include <libdevcore/CommonIO.h>
#include <libdevcore/RLP.h>
#include <libdevcore/SHA3.h>
#include <libethereum/Client.h>
using namespace std;
using namespace dev;
namespace js = json_spirit;
void help()
{
cout
<< "Usage abi enc <method_name> (<arg1>, (<arg2>, ... ))" << endl
<< " abi enc -a <abi.json> <method_name> (<arg1>, (<arg2>, ... ))" << endl
<< " abi dec -a <abi.json> [ <signature> | <unique_method_name> ]" << endl
<< "Options:" << endl
<< " -a,--abi-file <filename> Specify the JSON ABI file." << endl
<< " -h,--help Print this help message and exit." << endl
<< " -V,--version Show the version and exit." << endl
<< "Input options:" << endl
<< " -f,--format-prefix Require all input formats to be prefixed e.g. 0x for hex, + for decimal, ' for binary." << endl
<< " -F,--no-format-prefix Require no input format to be prefixed." << endl
<< " -t,--typing Require all arguments to be typed e.g. b32: (bytes32), u64: (uint64), b[]: (byte[]), i: (int256)." << endl
<< " -T,--no-typing Require no arguments to be typed." << endl
<< "Output options:" << endl
<< " -i,--index <n> Output only the nth (counting from 0) return value." << endl
<< " -d,--decimal All data should be displayed as decimal." << endl
<< " -x,--hex Display all data as hex." << endl
<< " -b,--binary Display all data as binary." << endl
<< " -p,--prefix Prefix by a base identifier." << endl
;
exit(0);
}
void version()
{
cout << "abi version " << dev::Version << endl;
exit(0);
}
enum class Mode
{
Encode,
Decode
};
enum class Encoding
{
Auto,
Decimal,
Hex,
Binary,
};
enum class Tristate
{
False = false,
True = true,
Mu
};
enum class Format
{
Binary,
Hex,
Decimal,
Open,
Close
};
struct InvalidUserString: public Exception {};
struct InvalidFormat: public Exception {};
enum class Base
{
Unknown,
Bytes,
Address,
Int,
Uint,
Fixed
};
static const map<Base, string> s_bases =
{
{ Base::Bytes, "bytes" },
{ Base::Address, "address" },
{ Base::Int, "int" },
{ Base::Uint, "uint" },
{ Base::Fixed, "fixed" }
};
struct EncodingPrefs
{
Encoding e = Encoding::Auto;
bool prefix = true;
};
struct ABIType
{
Base base = Base::Unknown;
unsigned size = 32;
unsigned ssize = 0;
vector<int> dims;
string name;
ABIType() = default;
ABIType(std::string const& _type, std::string const& _name):
name(_name)
{
string rest;
for (auto const& i: s_bases)
if (boost::algorithm::starts_with(_type, i.second))
{
base = i.first;
rest = _type.substr(i.second.size());
}
if (base == Base::Unknown)
throw InvalidFormat();
boost::regex r("(\\d*)(x(\\d+))?((\\[\\d*\\])*)");
boost::smatch res;
boost::regex_match(rest, res, r);
size = res[1].length() > 0 ? stoi(res[1]) : 0;
ssize = res[3].length() > 0 ? stoi(res[3]) : 0;
boost::regex r2("\\[(\\d*)\\](.*)");
for (rest = res[4]; boost::regex_match(rest, res, r2); rest = res[2])
dims.push_back(!res[1].length() ? -1 : stoi(res[1]));
}
ABIType(std::string const& _s)
{
if (_s.size() < 1)
return;
switch (_s[0])
{
case 'b': base = Base::Bytes; break;
case 'a': base = Base::Address; break;
case 'i': base = Base::Int; break;
case 'u': base = Base::Uint; break;
case 'f': base = Base::Fixed; break;
default: throw InvalidFormat();
}
if (_s.size() < 2)
{
if (base == Base::Fixed)
size = ssize = 16;
else if (base == Base::Address || base == Base::Bytes)
size = 0;
else
size = 32;
return;
}
strings d;
boost::algorithm::split(d, _s, boost::is_any_of("*"));
string s = d[0];
if (s.find_first_of('x') == string::npos)
size = stoi(s.substr(1));
else
{
size = stoi(s.substr(1, s.find_first_of('x') - 1));
ssize = stoi(s.substr(s.find_first_of('x') + 1));
}
for (unsigned i = 1; i < d.size(); ++i)
if (d[i].empty())
dims.push_back(-1);
else
dims.push_back(stoi(d[i]));
}
string canon() const
{
string ret;
switch (base)
{
case Base::Bytes: ret = "bytes" + (size > 0 ? toString(size) : ""); break;
case Base::Address: ret = "address"; break;
case Base::Int: ret = "int" + toString(size); break;
case Base::Uint: ret = "uint" + toString(size); break;
case Base::Fixed: ret = "fixed" + toString(size) + "x" + toString(ssize); break;
default: throw InvalidFormat();
}
for (int i: dims)
ret += "[" + ((i > -1) ? toString(i) : "") + "]";
return ret;
}
bool isBytes() const { return base == Base::Bytes && !size; }
string render(bytes const& _data, EncodingPrefs _e) const
{
if (base == Base::Uint || base == Base::Int)
{
if (_e.e == Encoding::Hex)
return (_e.prefix ? "0x" : "") + toHex(toCompactBigEndian(fromBigEndian<bigint>(bytesConstRef(&_data).cropped(32 - size / 8))));
else
{
bigint i = fromBigEndian<bigint>(bytesConstRef(&_data).cropped(32 - size / 8));
if (base == Base::Int && i > (bigint(1) << (size - 1)))
i -= (bigint(1) << size);
return toString(i);
}
}
else if (base == Base::Address)
{
Address a = Address(h256(_data), Address::AlignRight);
return _e.e == Encoding::Binary ? asString(a.asBytes()) : ((_e.prefix ? "0x" : "") + toString(a));
}
else if (isBytes())
{
return _e.e == Encoding::Binary ? asString(_data) : ((_e.prefix ? "0x" : "") + toHex(_data));
}
else if (base == Base::Bytes)
{
bytesConstRef b(&_data);
b = b.cropped(0, size);
return _e.e == Encoding::Binary ? asString(b) : ((_e.prefix ? "0x" : "") + toHex(b));
}
else
throw InvalidFormat();
}
bytes unrender(bytes const& _data, Format _f) const
{
if (isBytes())
{
auto ret = _data;
while (ret.size() % 32 != 0)
ret.push_back(0);
return ret;
}
else
return aligned(_data, _f, 32);
}
void noteHexInput(unsigned _nibbles) { if (base == Base::Unknown) { if (_nibbles == 40) base = Base::Address; else { base = Base::Bytes; size = _nibbles / 2; } } }
void noteBinaryInput() { if (base == Base::Unknown) { base = Base::Bytes; size = 32; } }
void noteDecimalInput() { if (base == Base::Unknown) { base = Base::Uint; size = 32; } }
bytes aligned(bytes const& _b, Format _f, unsigned _length) const
{
bytes ret = _b;
while (ret.size() < _length)
if (base == Base::Bytes || (base == Base::Unknown && _f == Format::Binary))
ret.push_back(0);
else
ret.insert(ret.begin(), 0);
while (ret.size() > _length)
if (base == Base::Bytes || (base == Base::Unknown && _f == Format::Binary))
ret.pop_back();
else
ret.erase(ret.begin());
return ret;
}
};
tuple<bytes, ABIType, Format> fromUser(std::string const& _arg, Tristate _prefix, Tristate _typing)
{
ABIType type;
string val;
if (_typing == Tristate::True || (_typing == Tristate::Mu && _arg.find(':') != string::npos))
{
if (_arg.find(':') == string::npos)
throw InvalidUserString();
type = ABIType(_arg.substr(0, _arg.find(':')));
val = _arg.substr(_arg.find(':') + 1);
}
else
val = _arg;
if (_prefix != Tristate::False)
{
if (val.substr(0, 2) == "0x")
{
type.noteHexInput(val.size() - 2);
return make_tuple(fromHex(val), type, Format::Hex);
}
if (val.substr(0, 1) == "+")
{
type.noteDecimalInput();
return make_tuple(toCompactBigEndian(bigint(val.substr(1))), type, Format::Decimal);
}
if (val.substr(0, 1) == "'")
{
type.noteBinaryInput();
return make_tuple(asBytes(val.substr(1)), type, Format::Binary);
}
if (val == "[")
return make_tuple(bytes(), type, Format::Open);
if (val == "]")
return make_tuple(bytes(), type, Format::Close);
}
if (_prefix != Tristate::True)
{
if (val.find_first_not_of("0123456789") == string::npos)
{
type.noteDecimalInput();
return make_tuple(toCompactBigEndian(bigint(val)), type, Format::Decimal);
}
if (val.find_first_not_of("0123456789abcdefABCDEF") == string::npos)
{
type.noteHexInput(val.size());
return make_tuple(fromHex(val), type, Format::Hex);
}
if (val == "[")
return make_tuple(bytes(), type, Format::Open);
if (val == "]")
return make_tuple(bytes(), type, Format::Close);
type.noteBinaryInput();
return make_tuple(asBytes(val), type, Format::Binary);
}
throw InvalidUserString();
}
struct ExpectedAdditionalParameter: public Exception {};
struct ExpectedOpen: public Exception {};
struct ExpectedClose: public Exception {};
struct ABIMethod
{
string name;
vector<ABIType> ins;
vector<ABIType> outs;
bool isConstant = false;
// isolation *IS* documentation.
ABIMethod() = default;
ABIMethod(js::mObject _o)
{
name = _o["name"].get_str();
isConstant = _o["constant"].get_bool();
if (_o.count("inputs"))
for (auto const& i: _o["inputs"].get_array())
{
js::mObject a = i.get_obj();
ins.push_back(ABIType(a["type"].get_str(), a["name"].get_str()));
}
if (_o.count("outputs"))
for (auto const& i: _o["outputs"].get_array())
{
js::mObject a = i.get_obj();
outs.push_back(ABIType(a["type"].get_str(), a["name"].get_str()));
}
}
ABIMethod(string const& _name, vector<ABIType> const& _args)
{
name = _name;
ins = _args;
}
string sig() const
{
string methodArgs;
for (auto const& arg: ins)
methodArgs += (methodArgs.empty() ? "" : ",") + arg.canon();
return name + "(" + methodArgs + ")";
}
FixedHash<4> id() const { return FixedHash<4>(sha3(sig())); }
std::string solidityDeclaration() const
{
ostringstream ss;
ss << "function " << name << "(";
int f = 0;
for (ABIType const& i: ins)
ss << (f++ ? ", " : "") << i.canon() << " " << i.name;
ss << ") ";
if (isConstant)
ss << "constant ";
if (!outs.empty())
{
ss << "returns(";
f = 0;
for (ABIType const& i: outs)
ss << (f++ ? ", " : "") << i.canon() << " " << i.name;
ss << ")";
}
return ss.str();
}
bytes encode(vector<pair<bytes, Format>> const& _params) const
{
bytes ret = name.empty() ? bytes() : id().asBytes();
bytes suffix;
// int int[] int
// example: 42 [ 1 2 3 ] 69
// int[2][][3]
// example: [ [ [ 1 2 3 ] [ 4 5 6 ] ] [ ] ]
unsigned pi = 0;
for (ABIType const& a: ins)
{
if (pi >= _params.size())
throw ExpectedAdditionalParameter();
auto put = [&]() {
if (a.isBytes())
ret += h256(u256(_params[pi].first.size())).asBytes();
suffix += a.unrender(_params[pi].first, _params[pi].second);
pi++;
if (pi >= _params.size())
throw ExpectedAdditionalParameter();
};
function<void(vector<int>, unsigned)> putDim = [&](vector<int> addr, unsigned q) {
if (addr.size() == a.dims.size())
put();
else
{
if (_params[pi].second != Format::Open)
throw ExpectedOpen();
++pi;
int l = a.dims[a.dims.size() - 1 - addr.size()];
if (l == -1)
{
// read ahead in params and discover the arity.
unsigned depth = 0;
l = 0;
for (unsigned pi2 = pi; depth || _params[pi2].second != Format::Close;)
{
if (_params[pi2].second == Format::Open)
++depth;
if (_params[pi2].second == Format::Close)
--depth;
if (!depth)
++l;
if (++pi2 == _params.size())
throw ExpectedClose();
}
ret += h256(u256(l)).asBytes();
}
q *= l;
for (addr.push_back(0); addr.back() < l; ++addr.back())
putDim(addr, q);
if (_params[pi].second != Format::Close)
throw ExpectedClose();
++pi;
}
};
putDim(vector<int>(), 1);
}
return ret + suffix;
}
string decode(bytes const& _data, int _index, EncodingPrefs _ep)
{
stringstream out;
unsigned di = 0;
vector<unsigned> catDims;
for (ABIType const& a: outs)
{
auto put = [&]() {
if (a.isBytes())
{
catDims.push_back(fromBigEndian<unsigned>(bytesConstRef(&_data).cropped(di, 32)));
di += 32;
}
};
function<void(vector<int>, unsigned)> putDim = [&](vector<int> addr, unsigned q) {
if (addr.size() == a.dims.size())
put();
else
{
int l = a.dims[a.dims.size() - 1 - addr.size()];
if (l == -1)
{
l = fromBigEndian<unsigned>(bytesConstRef(&_data).cropped(di, 32));
catDims.push_back(l);
di += 32;
}
q *= l;
for (addr.push_back(0); addr.back() < l; ++addr.back())
putDim(addr, q);
}
};
putDim(vector<int>(), 1);
}
unsigned d = 0;
for (ABIType const& a: outs)
{
if (_index == -1 && out.tellp() > 0)
out << ", ";
auto put = [&]() {
if (a.isBytes())
{
out << a.render(bytesConstRef(&_data).cropped(di, catDims[d]).toBytes(), _ep);
di += ((catDims[d] + 31) / 32) * 32;
d++;
}
else
{
out << a.render(bytesConstRef(&_data).cropped(di, 32).toBytes(), _ep);
di += 32;
}
};
function<void(vector<int>)> putDim = [&](vector<int> addr) {
if (addr.size() == a.dims.size())
put();
else
{
out << "[";
addr.push_back(0);
int l = a.dims[a.dims.size() - 1 - (addr.size() - 1)];
if (l == -1)
l = catDims[d++];
for (addr.back() = 0; addr.back() < l; ++addr.back())
{
if (addr.back())
out << ", ";
putDim(addr);
}
out << "]";
}
};
putDim(vector<int>());
}
return out.str();
}
};
string canonSig(string const& _name, vector<ABIType> const& _args)
{
try {
string methodArgs;
for (auto const& arg: _args)
methodArgs += (methodArgs.empty() ? "" : ",") + arg.canon();
return _name + "(" + methodArgs + ")";
}
catch (...) {
return string();
}
}
struct UnknownMethod: public Exception {};
struct OverloadedMethod: public Exception {};
class ABI
{
public:
ABI() = default;
ABI(std::string const& _json)
{
js::mValue v;
js::read_string(_json, v);
for (auto const& i: v.get_array())
{
js::mObject o = i.get_obj();
if (o["type"].get_str() != "function")
continue;
ABIMethod m(o);
m_methods[m.id()] = m;
}
}
ABIMethod method(string _nameOrSig, vector<ABIType> const& _args) const
{
auto id = FixedHash<4>(sha3(_nameOrSig));
if (!m_methods.count(id))
id = FixedHash<4>(sha3(canonSig(_nameOrSig, _args)));
if (!m_methods.count(id))
for (auto const& m: m_methods)
if (m.second.name == _nameOrSig)
{
if (m_methods.count(id))
throw OverloadedMethod();
id = m.first;
}
if (m_methods.count(id))
return m_methods.at(id);
throw UnknownMethod();
}
friend ostream& operator<<(ostream& _out, ABI const& _abi);
private:
map<FixedHash<4>, ABIMethod> m_methods;
};
ostream& operator<<(ostream& _out, ABI const& _abi)
{
_out << "contract {" << endl;
for (auto const& i: _abi.m_methods)
_out << " " << i.second.solidityDeclaration() << "; // " << i.first.abridged() << endl;
_out << "}" << endl;
return _out;
}
void userOutput(ostream& _out, bytes const& _data, Encoding _e)
{
switch (_e)
{
case Encoding::Binary:
_out.write((char const*)_data.data(), _data.size());
break;
default:
_out << toHex(_data) << endl;
}
}
template <unsigned n, class T> vector<typename std::remove_reference<decltype(get<n>(T()))>::type> retrieve(vector<T> const& _t)
{
vector<typename std::remove_reference<decltype(get<n>(T()))>::type> ret;
for (T const& i: _t)
ret.push_back(get<n>(i));
return ret;
}
int main(int argc, char** argv)
{
Encoding encoding = Encoding::Auto;
Mode mode = Mode::Encode;
string abiFile;
string method;
Tristate formatPrefix = Tristate::Mu;
Tristate typePrefix = Tristate::Mu;
EncodingPrefs prefs;
bool verbose = false;
int outputIndex = -1;
vector<pair<bytes, Format>> params;
vector<ABIType> args;
string incoming;
for (int i = 1; i < argc; ++i)
{
string arg = argv[i];
if (arg == "-h" || arg == "--help")
help();
else if (arg == "enc" && i == 1)
mode = Mode::Encode;
else if (arg == "dec" && i == 1)
mode = Mode::Decode;
else if ((arg == "-a" || arg == "--abi") && argc > i)
abiFile = argv[++i];
else if ((arg == "-i" || arg == "--index") && argc > i)
outputIndex = atoi(argv[++i]);
else if (arg == "-p" || arg == "--prefix")
prefs.prefix = true;
else if (arg == "-f" || arg == "--format-prefix")
formatPrefix = Tristate::True;
else if (arg == "-F" || arg == "--no-format-prefix")
formatPrefix = Tristate::False;
else if (arg == "-t" || arg == "--typing")
typePrefix = Tristate::True;
else if (arg == "-T" || arg == "--no-typing")
typePrefix = Tristate::False;
else if (arg == "-x" || arg == "--hex")
prefs.e = Encoding::Hex;
else if (arg == "-d" || arg == "--decimal" || arg == "--dec")
prefs.e = Encoding::Decimal;
else if (arg == "-b" || arg == "--binary" || arg == "--bin")
prefs.e = Encoding::Binary;
else if (arg == "-v" || arg == "--verbose")
verbose = true;
else if (arg == "-V" || arg == "--version")
version();
else if (method.empty())
method = arg;
else if (mode == Mode::Encode)
{
auto u = fromUser(arg, formatPrefix, typePrefix);
args.push_back(get<1>(u));
params.push_back(make_pair(get<0>(u), get<2>(u)));
}
else if (mode == Mode::Decode)
incoming += arg;
}
string abiData;
if (!abiFile.empty())
abiData = contentsString(abiFile);
if (mode == Mode::Encode)
{
ABIMethod m;
if (abiData.empty())
m = ABIMethod(method, args);
else
{
ABI abi(abiData);
if (verbose)
cerr << "ABI:" << endl << abi;
try {
m = abi.method(method, args);
}
catch (...)
{
cerr << "Unknown method in ABI." << endl;
exit(-1);
}
}
try {
userOutput(cout, m.encode(params), encoding);
}
catch (ExpectedAdditionalParameter const&)
{
cerr << "Expected additional parameter in input." << endl;
exit(-1);
}
catch (ExpectedOpen const&)
{
cerr << "Expected open-bracket '[' in input." << endl;
exit(-1);
}
catch (ExpectedClose const&)
{
cerr << "Expected close-bracket ']' in input." << endl;
exit(-1);
}
}
else if (mode == Mode::Decode)
{
if (abiData.empty())
{
cerr << "Please specify an ABI file." << endl;
exit(-1);
}
else
{
ABI abi(abiData);
ABIMethod m;
if (verbose)
cerr << "ABI:" << endl << abi;
try {
m = abi.method(method, args);
}
catch(...)
{
cerr << "Unknown method in ABI." << endl;
exit(-1);
}
string encoded;
if (incoming == "--" || incoming.empty())
for (int i = cin.get(); i != -1; i = cin.get())
encoded.push_back((char)i);
else
{
encoded = contentsString(incoming);
}
cout << m.decode(fromHex(boost::trim_copy(encoded)), outputIndex, prefs) << endl;
}
}
return 0;
}