ethminer/evmjit/libevmjit/Arith256.cpp

#include "Arith256.h"
#include "Runtime.h"
#include "Type.h"

#include <llvm/IR/Function.h>

namespace dev
{
namespace eth
{
namespace jit
{

Arith256::Arith256(llvm::IRBuilder<>& _builder) :
	CompilerHelper(_builder)
{
	using namespace llvm;

	m_result = m_builder.CreateAlloca(Type::Word, nullptr, "arith.result");
	m_arg1 = m_builder.CreateAlloca(Type::Word, nullptr, "arith.arg1");
	m_arg2 = m_builder.CreateAlloca(Type::Word, nullptr, "arith.arg2");
	m_arg3 = m_builder.CreateAlloca(Type::Word, nullptr, "arith.arg3");

	using Linkage = GlobalValue::LinkageTypes;

	llvm::Type* arg2Types[] = {Type::WordPtr, Type::WordPtr, Type::WordPtr};
	llvm::Type* arg3Types[] = {Type::WordPtr, Type::WordPtr, Type::WordPtr, Type::WordPtr};

	m_mul = Function::Create(FunctionType::get(Type::Void, arg2Types, false), Linkage::ExternalLinkage, "arith_mul", getModule());
	m_div = Function::Create(FunctionType::get(Type::Void, arg2Types, false), Linkage::ExternalLinkage, "arith_div", getModule());
	m_mod = Function::Create(FunctionType::get(Type::Void, arg2Types, false), Linkage::ExternalLinkage, "arith_mod", getModule());
	m_sdiv = Function::Create(FunctionType::get(Type::Void, arg2Types, false), Linkage::ExternalLinkage, "arith_sdiv", getModule());
	m_smod = Function::Create(FunctionType::get(Type::Void, arg2Types, false), Linkage::ExternalLinkage, "arith_smod", getModule());
	m_exp = Function::Create(FunctionType::get(Type::Void, arg2Types, false), Linkage::ExternalLinkage, "arith_exp", getModule());
	m_addmod = Function::Create(FunctionType::get(Type::Void, arg3Types, false), Linkage::ExternalLinkage, "arith_addmod", getModule());
	m_mulmod = Function::Create(FunctionType::get(Type::Void, arg3Types, false), Linkage::ExternalLinkage, "arith_mulmod", getModule());
}

Arith256::~Arith256()
{}

llvm::Value* Arith256::binaryOp(llvm::Function* _op, llvm::Value* _arg1, llvm::Value* _arg2)
{
	m_builder.CreateStore(_arg1, m_arg1);
	m_builder.CreateStore(_arg2, m_arg2);
	m_builder.CreateCall3(_op, m_arg1, m_arg2, m_result);
	return m_builder.CreateLoad(m_result);
}

llvm::Value* Arith256::ternaryOp(llvm::Function* _op, llvm::Value* _arg1, llvm::Value* _arg2, llvm::Value* _arg3)
{
	m_builder.CreateStore(_arg1, m_arg1);
	m_builder.CreateStore(_arg2, m_arg2);
	m_builder.CreateStore(_arg3, m_arg3);
	m_builder.CreateCall4(_op, m_arg1, m_arg2, m_arg3, m_result);
	return m_builder.CreateLoad(m_result);
}

llvm::Value* Arith256::mul(llvm::Value* _arg1, llvm::Value* _arg2)
{
	return binaryOp(m_mul, _arg1, _arg2);
}

llvm::Value* Arith256::div(llvm::Value* _arg1, llvm::Value* _arg2)
{
	return binaryOp(m_div, _arg1, _arg2);
}

llvm::Value* Arith256::mod(llvm::Value* _arg1, llvm::Value* _arg2)
{
	return binaryOp(m_mod, _arg1, _arg2);
}

llvm::Value* Arith256::sdiv(llvm::Value* _arg1, llvm::Value* _arg2)
{
	return binaryOp(m_sdiv, _arg1, _arg2);
}

llvm::Value* Arith256::smod(llvm::Value* _arg1, llvm::Value* _arg2)
{
	return binaryOp(m_smod, _arg1, _arg2);
}

llvm::Value* Arith256::exp(llvm::Value* _arg1, llvm::Value* _arg2)
{
	return binaryOp(m_exp, _arg1, _arg2);
}

llvm::Value* Arith256::addmod(llvm::Value* _arg1, llvm::Value* _arg2, llvm::Value* _arg3)
{
	return ternaryOp(m_addmod, _arg1, _arg2, _arg3);
}

llvm::Value* Arith256::mulmod(llvm::Value* _arg1, llvm::Value* _arg2, llvm::Value* _arg3)
{
	return ternaryOp(m_mulmod, _arg1, _arg2, _arg3);
}

namespace
{
	using s256 = boost::multiprecision::int256_t;

	inline s256 u2s(u256 _u)
	{
		static const bigint c_end = (bigint)1 << 256;
		static const u256 c_send = (u256)1 << 255;
		if (_u < c_send)
			return (s256)_u;
		else
			return (s256)-(c_end - _u);
	}

	inline u256 s2u(s256 _u)
	{
		static const bigint c_end = (bigint)1 << 256;
		if (_u >= 0)
			return (u256)_u;
		else
			return (u256)(c_end + _u);
	}

	using uint128 = __uint128_t;

//	uint128 add(uint128 a, uint128 b) { return a + b; }
//	uint128 mul(uint128 a, uint128 b) { return a * b; }
//
//	uint128 mulq(uint64_t x, uint64_t y)
//	{
//		return (uint128)x * (uint128)y;
//	}
//
//	uint128 addc(uint64_t x, uint64_t y)
//	{
//		return (uint128)x * (uint128)y;
//	}

	struct uint256
	{
		uint64_t lo;
		uint64_t mid;
		uint128 hi;
	};

//	uint256 add(uint256 x, uint256 y)
//	{
//		auto lo = (uint128) x.lo + y.lo;
//		auto mid = (uint128) x.mid + y.mid + (lo >> 64);
//		return {lo, mid, x.hi + y.hi + (mid >> 64)};
//	}

	uint256 mul(uint256 x, uint256 y)
	{
		auto t1 = (uint128) x.lo * y.lo;
		auto t2 = (uint128) x.lo * y.mid;
		auto t3 = x.lo * y.hi;
		auto t4 = (uint128) x.mid * y.lo;
		auto t5 = (uint128) x.mid * y.mid;
		auto t6 = x.mid * y.hi;
		auto t7 = x.hi * y.lo;
		auto t8 = x.hi * y.mid;

		auto lo = (uint64_t) t1;
		auto m1 = (t1 >> 64) + (uint64_t) t2;
		auto m2 = (uint64_t) m1;
		auto mid = (uint128) m2 + (uint64_t) t4;
		auto hi = (t2 >> 64) + t3 + (t4 >> 64) + t5 + (t6 << 64) + t7
			 + (t8 << 64) + (m1 >> 64) + (mid >> 64);

		return {lo, (uint64_t)mid, hi};
	}
}

}
}
}


extern "C"
{

	using namespace dev::eth::jit;

	EXPORT void arith_mul(uint256* _arg1, uint256* _arg2, uint256* o_result)
	{
		*o_result = mul(*_arg1, *_arg2);
	}

	EXPORT void arith_div(i256* _arg1, i256* _arg2, i256* o_result)
	{
		auto arg1 = llvm2eth(*_arg1);
		auto arg2 = llvm2eth(*_arg2);
		*o_result = eth2llvm(arg2 == 0 ? arg2 : arg1 / arg2);
	}

	EXPORT void arith_mod(i256* _arg1, i256* _arg2, i256* o_result)
	{
		auto arg1 = llvm2eth(*_arg1);
		auto arg2 = llvm2eth(*_arg2);
		*o_result = eth2llvm(arg2 == 0 ? arg2 : arg1 % arg2);
	}

	EXPORT void arith_sdiv(i256* _arg1, i256* _arg2, i256* o_result)
	{
		auto arg1 = llvm2eth(*_arg1);
		auto arg2 = llvm2eth(*_arg2);
		*o_result = eth2llvm(arg2 == 0 ? arg2 : s2u(u2s(arg1) / u2s(arg2)));
	}

	EXPORT void arith_smod(i256* _arg1, i256* _arg2, i256* o_result)
	{
		auto arg1 = llvm2eth(*_arg1);
		auto arg2 = llvm2eth(*_arg2);
		*o_result = eth2llvm(arg2 == 0 ? arg2 : s2u(u2s(arg1) % u2s(arg2)));
	}

	EXPORT void arith_exp(i256* _arg1, i256* _arg2, i256* o_result)
	{
		bigint left = llvm2eth(*_arg1);
		bigint right = llvm2eth(*_arg2);
		auto ret = static_cast<u256>(boost::multiprecision::powm(left, right, bigint(2) << 256));
		*o_result = eth2llvm(ret);
	}

	EXPORT void arith_mulmod(i256* _arg1, i256* _arg2, i256* _arg3, i256* o_result)
	{
		auto arg1 = llvm2eth(*_arg1);
		auto arg2 = llvm2eth(*_arg2);
		auto arg3 = llvm2eth(*_arg3);
		if (arg3 != 0)
			*o_result = eth2llvm(u256((bigint(arg1) * bigint(arg2)) % arg3));
		else
			*o_result = {};
	}

	EXPORT void arith_addmod(i256* _arg1, i256* _arg2, i256* _arg3, i256* o_result)
	{
		auto arg1 = llvm2eth(*_arg1);
		auto arg2 = llvm2eth(*_arg2);
		auto arg3 = llvm2eth(*_arg3);
		if (arg3 != 0)
			*o_result = eth2llvm(u256((bigint(arg1) + bigint(arg2)) % arg3));
		else
			*o_result = {};
	}

}
256-bit arithmetic implemented via calls to boost::multiprecision library. [#79450108] 10 years ago			`#include "Arith256.h"`
			`#include "Runtime.h"`
			`#include "Type.h"`

			`#include <llvm/IR/Function.h>`

			`namespace dev`
			`{`
			`namespace eth`
			`{`
			`namespace jit`
			`{`

			`Arith256::Arith256(llvm::IRBuilder<>& _builder) :`
			`CompilerHelper(_builder)`
			`{`
			`using namespace llvm;`

Rename Type::i256 -> Type::Word 10 years ago			`m_result = m_builder.CreateAlloca(Type::Word, nullptr, "arith.result");`
			`m_arg1 = m_builder.CreateAlloca(Type::Word, nullptr, "arith.arg1");`
			`m_arg2 = m_builder.CreateAlloca(Type::Word, nullptr, "arith.arg2");`
			`m_arg3 = m_builder.CreateAlloca(Type::Word, nullptr, "arith.arg3");`
256-bit arithmetic implemented via calls to boost::multiprecision library. [#79450108] 10 years ago
			`using Linkage = GlobalValue::LinkageTypes;`

MULMOD/ADDMOD implemented in separate functions [FIXES #80566276] 10 years ago			`llvm::Type* arg2Types[] = {Type::WordPtr, Type::WordPtr, Type::WordPtr};`
			`llvm::Type* arg3Types[] = {Type::WordPtr, Type::WordPtr, Type::WordPtr, Type::WordPtr};`

			`m_mul = Function::Create(FunctionType::get(Type::Void, arg2Types, false), Linkage::ExternalLinkage, "arith_mul", getModule());`
			`m_div = Function::Create(FunctionType::get(Type::Void, arg2Types, false), Linkage::ExternalLinkage, "arith_div", getModule());`
			`m_mod = Function::Create(FunctionType::get(Type::Void, arg2Types, false), Linkage::ExternalLinkage, "arith_mod", getModule());`
			`m_sdiv = Function::Create(FunctionType::get(Type::Void, arg2Types, false), Linkage::ExternalLinkage, "arith_sdiv", getModule());`
			`m_smod = Function::Create(FunctionType::get(Type::Void, arg2Types, false), Linkage::ExternalLinkage, "arith_smod", getModule());`
Move EXP implementation from Ext to Arith256 10 years ago			`m_exp = Function::Create(FunctionType::get(Type::Void, arg2Types, false), Linkage::ExternalLinkage, "arith_exp", getModule());`
MULMOD/ADDMOD implemented in separate functions [FIXES #80566276] 10 years ago			`m_addmod = Function::Create(FunctionType::get(Type::Void, arg3Types, false), Linkage::ExternalLinkage, "arith_addmod", getModule());`
			`m_mulmod = Function::Create(FunctionType::get(Type::Void, arg3Types, false), Linkage::ExternalLinkage, "arith_mulmod", getModule());`
256-bit arithmetic implemented via calls to boost::multiprecision library. [#79450108] 10 years ago			`}`

			`Arith256::~Arith256()`
			`{}`

			`llvm::Value* Arith256::binaryOp(llvm::Function* _op, llvm::Value* _arg1, llvm::Value* _arg2)`
			`{`
			`m_builder.CreateStore(_arg1, m_arg1);`
			`m_builder.CreateStore(_arg2, m_arg2);`
			`m_builder.CreateCall3(_op, m_arg1, m_arg2, m_result);`
			`return m_builder.CreateLoad(m_result);`
			`}`

MULMOD/ADDMOD implemented in separate functions [FIXES #80566276] 10 years ago			`llvm::Value* Arith256::ternaryOp(llvm::Function* _op, llvm::Value* _arg1, llvm::Value* _arg2, llvm::Value* _arg3)`
			`{`
			`m_builder.CreateStore(_arg1, m_arg1);`
			`m_builder.CreateStore(_arg2, m_arg2);`
			`m_builder.CreateStore(_arg3, m_arg3);`
			`m_builder.CreateCall4(_op, m_arg1, m_arg2, m_arg3, m_result);`
			`return m_builder.CreateLoad(m_result);`
			`}`

256-bit arithmetic implemented via calls to boost::multiprecision library. [#79450108] 10 years ago			`llvm::Value* Arith256::mul(llvm::Value* _arg1, llvm::Value* _arg2)`
			`{`
			`return binaryOp(m_mul, _arg1, _arg2);`
			`}`

			`llvm::Value* Arith256::div(llvm::Value* _arg1, llvm::Value* _arg2)`
			`{`
			`return binaryOp(m_div, _arg1, _arg2);`
			`}`

			`llvm::Value* Arith256::mod(llvm::Value* _arg1, llvm::Value* _arg2)`
			`{`
			`return binaryOp(m_mod, _arg1, _arg2);`
			`}`

			`llvm::Value* Arith256::sdiv(llvm::Value* _arg1, llvm::Value* _arg2)`
			`{`
			`return binaryOp(m_sdiv, _arg1, _arg2);`
			`}`

			`llvm::Value* Arith256::smod(llvm::Value* _arg1, llvm::Value* _arg2)`
			`{`
			`return binaryOp(m_smod, _arg1, _arg2);`
			`}`

Move EXP implementation from Ext to Arith256 10 years ago			`llvm::Value* Arith256::exp(llvm::Value* _arg1, llvm::Value* _arg2)`
			`{`
			`return binaryOp(m_exp, _arg1, _arg2);`
			`}`

MULMOD/ADDMOD implemented in separate functions [FIXES #80566276] 10 years ago			`llvm::Value* Arith256::addmod(llvm::Value* _arg1, llvm::Value* _arg2, llvm::Value* _arg3)`
			`{`
			`return ternaryOp(m_addmod, _arg1, _arg2, _arg3);`
			`}`

			`llvm::Value* Arith256::mulmod(llvm::Value* _arg1, llvm::Value* _arg2, llvm::Value* _arg3)`
			`{`
			`return ternaryOp(m_mulmod, _arg1, _arg2, _arg3);`
			`}`

SDIV & SMOD fixed 10 years ago			`namespace`
			`{`
			`using s256 = boost::multiprecision::int256_t;`

			`inline s256 u2s(u256 _u)`
			`{`
			`static const bigint c_end = (bigint)1 << 256;`
			`static const u256 c_send = (u256)1 << 255;`
			`if (_u < c_send)`
			`return (s256)_u;`
			`else`
			`return (s256)-(c_end - _u);`
			`}`

			`inline u256 s2u(s256 _u)`
			`{`
			`static const bigint c_end = (bigint)1 << 256;`
			`if (_u >= 0)`
			`return (u256)_u;`
			`else`
			`return (u256)(c_end + _u);`
			`}`
Internal mul256 implementation 10 years ago
			`using uint128 = __uint128_t;`

			`// uint128 add(uint128 a, uint128 b) { return a + b; }`
			`// uint128 mul(uint128 a, uint128 b) { return a * b; }`
			`//`
			`// uint128 mulq(uint64_t x, uint64_t y)`
			`// {`
			`// return (uint128)x * (uint128)y;`
			`// }`
			`//`
			`// uint128 addc(uint64_t x, uint64_t y)`
			`// {`
			`// return (uint128)x * (uint128)y;`
			`// }`

			`struct uint256`
			`{`
			`uint64_t lo;`
			`uint64_t mid;`
			`uint128 hi;`
			`};`

			`// uint256 add(uint256 x, uint256 y)`
			`// {`
			`// auto lo = (uint128) x.lo + y.lo;`
			`// auto mid = (uint128) x.mid + y.mid + (lo >> 64);`
			`// return {lo, mid, x.hi + y.hi + (mid >> 64)};`
			`// }`

			`uint256 mul(uint256 x, uint256 y)`
			`{`
			`auto t1 = (uint128) x.lo * y.lo;`
			`auto t2 = (uint128) x.lo * y.mid;`
			`auto t3 = x.lo * y.hi;`
			`auto t4 = (uint128) x.mid * y.lo;`
			`auto t5 = (uint128) x.mid * y.mid;`
			`auto t6 = x.mid * y.hi;`
			`auto t7 = x.hi * y.lo;`
			`auto t8 = x.hi * y.mid;`

			`auto lo = (uint64_t) t1;`
			`auto m1 = (t1 >> 64) + (uint64_t) t2;`
			`auto m2 = (uint64_t) m1;`
			`auto mid = (uint128) m2 + (uint64_t) t4;`
			`auto hi = (t2 >> 64) + t3 + (t4 >> 64) + t5 + (t6 << 64) + t7`
			`+ (t8 << 64) + (m1 >> 64) + (mid >> 64);`

			`return {lo, (uint64_t)mid, hi};`
			`}`
SDIV & SMOD fixed 10 years ago			`}`
MULMOD/ADDMOD implemented in separate functions [FIXES #80566276] 10 years ago
256-bit arithmetic implemented via calls to boost::multiprecision library. [#79450108] 10 years ago			`}`
			`}`
			`}`


			`extern "C"`
			`{`

Improve Arith256 code formatting 10 years ago			`using namespace dev::eth::jit;`

Internal mul256 implementation 10 years ago			`EXPORT void arith_mul(uint256* _arg1, uint256* _arg2, uint256* o_result)`
Improve Arith256 code formatting 10 years ago			`{`
Internal mul256 implementation 10 years ago			`o_result = mul(_arg1, *_arg2);`
Improve Arith256 code formatting 10 years ago			`}`

Coding style: use "o_" prefix for output function arguments 10 years ago			`EXPORT void arith_div(i256* _arg1, i256* _arg2, i256* o_result)`
Improve Arith256 code formatting 10 years ago			`{`
Separating EVM JIT from CPP client (WIP) 10 years ago			`auto arg1 = llvm2eth(*_arg1);`
			`auto arg2 = llvm2eth(*_arg2);`
Coding style: use "o_" prefix for output function arguments 10 years ago			`*o_result = eth2llvm(arg2 == 0 ? arg2 : arg1 / arg2);`
Improve Arith256 code formatting 10 years ago			`}`

Coding style: use "o_" prefix for output function arguments 10 years ago			`EXPORT void arith_mod(i256* _arg1, i256* _arg2, i256* o_result)`
Improve Arith256 code formatting 10 years ago			`{`
Separating EVM JIT from CPP client (WIP) 10 years ago			`auto arg1 = llvm2eth(*_arg1);`
			`auto arg2 = llvm2eth(*_arg2);`
Coding style: use "o_" prefix for output function arguments 10 years ago			`*o_result = eth2llvm(arg2 == 0 ? arg2 : arg1 % arg2);`
Improve Arith256 code formatting 10 years ago			`}`

Coding style: use "o_" prefix for output function arguments 10 years ago			`EXPORT void arith_sdiv(i256* _arg1, i256* _arg2, i256* o_result)`
Improve Arith256 code formatting 10 years ago			`{`
Separating EVM JIT from CPP client (WIP) 10 years ago			`auto arg1 = llvm2eth(*_arg1);`
			`auto arg2 = llvm2eth(*_arg2);`
SDIV & SMOD fixed 10 years ago			`*o_result = eth2llvm(arg2 == 0 ? arg2 : s2u(u2s(arg1) / u2s(arg2)));`
Improve Arith256 code formatting 10 years ago			`}`

Coding style: use "o_" prefix for output function arguments 10 years ago			`EXPORT void arith_smod(i256* _arg1, i256* _arg2, i256* o_result)`
Improve Arith256 code formatting 10 years ago			`{`
Separating EVM JIT from CPP client (WIP) 10 years ago			`auto arg1 = llvm2eth(*_arg1);`
			`auto arg2 = llvm2eth(*_arg2);`
SDIV & SMOD fixed 10 years ago			`*o_result = eth2llvm(arg2 == 0 ? arg2 : s2u(u2s(arg1) % u2s(arg2)));`
Improve Arith256 code formatting 10 years ago			`}`

Move EXP implementation from Ext to Arith256 10 years ago			`EXPORT void arith_exp(i256* _arg1, i256* _arg2, i256* o_result)`
			`{`
			`bigint left = llvm2eth(*_arg1);`
			`bigint right = llvm2eth(*_arg2);`
			`auto ret = static_cast<u256>(boost::multiprecision::powm(left, right, bigint(2) << 256));`
			`*o_result = eth2llvm(ret);`
			`}`

Coding style: use "o_" prefix for output function arguments 10 years ago			`EXPORT void arith_mulmod(i256* _arg1, i256* _arg2, i256* _arg3, i256* o_result)`
Improve Arith256 code formatting 10 years ago			`{`
Separating EVM JIT from CPP client (WIP) 10 years ago			`auto arg1 = llvm2eth(*_arg1);`
			`auto arg2 = llvm2eth(*_arg2);`
			`auto arg3 = llvm2eth(*_arg3);`
Handle ADDMOD/MULMOD case with 3rd argument being 0 10 years ago			`if (arg3 != 0)`
			`o_result = eth2llvm(u256((bigint(arg1) bigint(arg2)) % arg3));`
			`else`
			`*o_result = {};`
Improve Arith256 code formatting 10 years ago			`}`

Coding style: use "o_" prefix for output function arguments 10 years ago			`EXPORT void arith_addmod(i256* _arg1, i256* _arg2, i256* _arg3, i256* o_result)`
Improve Arith256 code formatting 10 years ago			`{`
Separating EVM JIT from CPP client (WIP) 10 years ago			`auto arg1 = llvm2eth(*_arg1);`
			`auto arg2 = llvm2eth(*_arg2);`
			`auto arg3 = llvm2eth(*_arg3);`
Handle ADDMOD/MULMOD case with 3rd argument being 0 10 years ago			`if (arg3 != 0)`
			`*o_result = eth2llvm(u256((bigint(arg1) + bigint(arg2)) % arg3));`
			`else`
			`*o_result = {};`
Improve Arith256 code formatting 10 years ago			`}`
MULMOD/ADDMOD implemented in separate functions [FIXES #80566276] 10 years ago
256-bit arithmetic implemented via calls to boost::multiprecision library. [#79450108] 10 years ago			`}`