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ton/crypto/vm/fmt.hpp
2019-09-07 14:33:36 +04:00

504 lines
11 KiB
C++

/*
This file is part of TON Blockchain Library.
TON Blockchain Library is free software: you can redistribute it and/or modify
it under the terms of the GNU Lesser General Public License as published by
the Free Software Foundation, either version 2 of the License, or
(at your option) any later version.
TON Blockchain Library 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 Lesser General Public License for more details.
You should have received a copy of the GNU Lesser General Public License
along with TON Blockchain Library. If not, see <http://www.gnu.org/licenses/>.
Copyright 2017-2019 Telegram Systems LLP
*/
#pragma once
#include "common/refint.h"
#include "vm/cells.h"
#include "vm/cellslice.h"
#include "vm/cellparse.hpp"
#include <type_traits>
namespace vm {
namespace fmt {
// main idea: use cs >> i(32,x) >> ... or cs >> i32(x) to deserialize integers, instead of cs.write().fetch_long(32, true)
// and cb << i(32,x+y) or cb << i32(x+y) will serialize 32-bit integers
// i, u, i16, u16, i32, u32, ub=u1, ib=i1 for integers
template <bool S, class T, bool C = true>
class ConstInt {
int bits;
T value;
public:
ConstInt(int _bits, T _val) : bits(_bits), value(_val) {
}
bool serialize(CellBuilder& cb) const {
if (C) {
return (S ? cb.store_long_rchk_bool(value, bits) : cb.store_ulong_rchk_bool(value, bits));
} else {
return cb.store_long_bool(value, bits);
}
}
bool deserialize(CellSlice& cs) const {
if (S) {
long long x;
return cs.fetch_long_bool(bits, x) && x == value;
} else {
unsigned long long x;
return cs.fetch_ulong_bool(bits, x) && x == value;
}
}
};
template <bool S, class T, bool C = true>
class Int {
int bits;
T& value;
public:
Int(int _bits, T& _val) : bits(_bits), value(_val) {
}
bool deserialize(CellSlice& cs) const {
if (S) {
long long x;
if (cs.fetch_long_bool(bits, x)) {
value = static_cast<T>(x);
return true;
}
} else {
unsigned long long x;
if (cs.fetch_ulong_bool(bits, x)) {
value = static_cast<T>(x);
return true;
}
}
return false;
}
bool serialize(CellBuilder& cb) const {
if (C) {
return S ? cb.store_long_rchk_bool(value, bits) : cb.store_ulong_rchk_bool(value, bits);
} else {
return cb.store_long_bool(value, bits);
}
}
};
template <bool S, class T>
class PrefetchInt {
int bits;
T& value;
public:
PrefetchInt(int _bits, T& _val) : bits(_bits), value(_val) {
}
bool deserialize(CellSlice& cs) const {
if (S) {
long long x;
if (cs.prefetch_long_bool(bits, x)) {
value = static_cast<T>(x);
return true;
}
} else {
unsigned long long x;
if (cs.prefetch_ulong_bool(bits, x)) {
value = static_cast<T>(x);
return true;
}
}
return false;
}
};
template <bool S>
class ConstRefInt {
int bits;
const td::RefInt256& value;
public:
ConstRefInt(int _bits, const td::RefInt256& _val) : bits(_bits), value(_val) {
}
bool serialize(CellBuilder& cb) const {
return value.not_null() && cb.store_int256_bool(*value, bits, S);
}
};
template <bool S>
class ConstRefIntVal {
int bits;
td::RefInt256 value;
public:
ConstRefIntVal(int _bits, const td::RefInt256& _val) : bits(_bits), value(_val) {
}
ConstRefIntVal(int _bits, td::RefInt256&& _val) : bits(_bits), value(std::move(_val)) {
}
bool serialize(CellBuilder& cb) const {
return value.not_null() && cb.store_int256_bool(*value, bits, S);
}
};
template <bool S>
class ConstBigInt {
int bits;
const td::BigInt256& value;
public:
ConstBigInt(int _bits, const td::BigInt256& _val) : bits(_bits), value(_val) {
}
bool serialize(CellBuilder& cb) const {
return cb.store_int256_bool(value, bits, S);
}
};
template <bool S>
class RefInt {
int bits;
td::RefInt256& value;
public:
RefInt(int _bits, td::RefInt256& _val) : bits(_bits), value(_val) {
}
bool deserialize(CellSlice& cs) const {
value = cs.fetch_int256(bits, S);
return value.not_null();
}
bool serialize(CellBuilder& cb) const {
return value.not_null() && cb.store_int256_bool(*value, bits, S);
}
};
inline ConstRefInt<true> i(int l, const td::RefInt256& val) {
return {l, val};
}
inline ConstRefIntVal<true> i(int l, td::RefInt256&& val) {
return {l, std::move(val)};
}
inline ConstBigInt<true> i(int l, const td::BigInt256& val) {
return {l, val};
}
inline RefInt<true> i(int l, td::RefInt256& val) {
return {l, val};
}
inline ConstRefInt<false> u(int l, const td::RefInt256& val) {
return {l, val};
}
inline ConstRefIntVal<false> u(int l, td::RefInt256&& val) {
return {l, std::move(val)};
}
inline ConstBigInt<false> u(int l, const td::BigInt256& val) {
return {l, val};
}
inline RefInt<false> u(int l, td::RefInt256& val) {
return {l, val};
}
template <class T>
const ConstInt<true, T> i(int l, const T& val) {
return {l, val};
}
template <class T>
Int<true, T> i(int l, T& val) {
return {l, val};
}
template <class T>
PrefetchInt<true, T> pi(int l, T& val) {
return {l, val};
}
template <class T>
const ConstInt<false, T> u(int l, const T& val) {
return {l, val};
}
template <class T>
Int<false, T> u(int l, T& val) {
return {l, val};
}
template <class T>
PrefetchInt<false, T> pu(int l, T& val) {
return {l, val};
}
template <class T>
const ConstInt<true, T, false> iw(int l, const T& val) {
return {l, val};
}
template <class T>
Int<true, T, false> iw(int l, T& val) {
return {l, val};
}
inline ConstInt<true, bool> ib(bool flag) {
return {1, flag};
}
template <class T>
Int<true, T> ib(T& val) {
return {1, val};
}
template <class T>
PrefetchInt<true, T> pib(T& val) {
return {1, val};
}
inline ConstInt<false, bool> ub(bool flag) {
return {1, flag};
}
template <class T>
Int<false, T> ub(T& val) {
return {1, val};
}
template <class T>
PrefetchInt<false, T> pub(T& val) {
return {1, val};
}
inline ConstInt<true, signed char> i8(signed char val) {
return {8, val};
}
template <class T>
Int<true, T> i8(T& val) {
return {8, val};
}
inline ConstInt<false, unsigned char> u8(unsigned char val) {
return {8, val};
}
template <class T>
Int<false, T> u8(T& val) {
return {8, val};
}
inline ConstInt<true, short> i16(short val) {
return {16, val};
}
template <class T>
Int<true, T> i16(T& val) {
static_assert(sizeof(T) >= 2, "i16 needs at least 16-bit integer variable as a result");
return {16, val};
}
inline ConstInt<false, unsigned short> u16(unsigned short val) {
return {16, val};
}
template <class T>
Int<false, T> u16(T& val) {
static_assert(sizeof(T) >= 2, "u16 needs at least 16-bit integer variable as a result");
return {16, val};
}
template <class T>
const ConstInt<true, T> i32(const T& val) {
return {32, val};
}
template <class T>
Int<true, T> i32(T& val) {
static_assert(sizeof(T) >= 4, "i32 needs at least 32-bit integer variable as a result");
return {32, val};
}
template <class T>
PrefetchInt<true, T> pi32(T& val) {
static_assert(sizeof(T) >= 4, "pi32 needs at least 32-bit integer variable as a result");
return {32, val};
}
template <class T>
const ConstInt<false, unsigned> u32(const T& val) {
return {32, val};
}
template <class T>
Int<false, T> u32(T& val) {
static_assert(sizeof(T) >= 4, "u32 needs at least 32-bit integer variable as a result");
return {32, val};
}
template <class T>
PrefetchInt<false, T> pu32(T& val) {
static_assert(sizeof(T) >= 4, "pu32 needs at least 32-bit integer variable as a result");
return {32, val};
}
template <class T>
const ConstInt<true, T> i64(const T& val) {
return {64, val};
}
template <class T>
Int<true, T> i64(T& val) {
static_assert(sizeof(T) >= 8, "i64 needs 64-bit integer variable as a result");
return {64, val};
}
template <class T>
const ConstInt<false, T> u64(const T& val) {
return {64, val};
}
template <class T>
Int<false, T> u64(T& val) {
static_assert(sizeof(T) >= 8, "u64 needs 64-bit integer variable as a result");
return {64, val};
}
/*
*
* non-integer types
*
*/
// cr(Ref<Cell>& cell_ref) for (de)serializing cell references
class ConstCellRef {
const td::Ref<vm::Cell>& value;
public:
ConstCellRef(const td::Ref<vm::Cell>& _val) : value(_val) {
}
bool serialize(CellBuilder& cb) const {
return cb.store_ref_bool(value);
}
};
class ConstCellRefVal {
td::Ref<vm::Cell> value;
public:
ConstCellRefVal(const td::Ref<vm::Cell>& _val) : value(_val) {
}
ConstCellRefVal(td::Ref<vm::Cell>&& _val) : value(std::move(_val)) {
}
bool serialize(CellBuilder& cb) const {
return cb.store_ref_bool(std::move(value));
}
};
class CellRefFmt {
td::Ref<vm::Cell>& value;
public:
CellRefFmt(td::Ref<vm::Cell>& _val) : value(_val) {
}
bool deserialize(CellSlice& cs) const {
value = cs.fetch_ref();
return value.not_null();
}
};
inline ConstCellRef cr(const td::Ref<vm::Cell>& val) {
return {val};
}
inline ConstCellRefVal cr(td::Ref<vm::Cell>&& val) {
return {std::move(val)};
}
inline CellRefFmt cr(td::Ref<vm::Cell>& val) {
return {val};
}
// skip(n) will skip n bits
class SkipFmt {
int bits;
public:
explicit SkipFmt(int _bits) : bits(_bits) {
}
bool deserialize(CellSlice& cs) const {
return cs.advance(bits);
}
};
inline SkipFmt skip(int bits) {
return SkipFmt{bits};
}
// end will throw an exception if any bits or references remain, or if a previous operation failed
// ends similar, but checks only bits
class ChkEnd {
public:
explicit ChkEnd() = default;
bool deserialize(CellSlice& cs) const {
return (cs.empty() && !cs.size_refs());
}
};
class ChkEndS {
public:
explicit ChkEndS() = default;
bool deserialize(CellSlice& cs) const {
return cs.empty();
}
};
template <class Cond>
class Chk {
Cond cond;
public:
template <typename... Args>
explicit constexpr Chk(Args... args) : cond(args...){};
bool deserialize_ext(CellSlice& cs, bool state) const {
if (!state || !cond.deserialize(cs)) {
cs.error();
}
return true;
}
};
class ChkOk {
public:
explicit ChkOk() = default;
bool deserialize_ext(CellSlice& cs, bool state) const {
if (!state) {
cs.error();
}
return true;
}
};
constexpr ChkEnd end = ChkEnd{};
constexpr ChkEndS ends = ChkEndS{};
constexpr Chk<ChkEnd> okend = Chk<ChkEnd>{};
constexpr Chk<ChkEndS> okends = Chk<ChkEndS>{};
constexpr Chk<ChkEndS> oke = Chk<ChkEndS>{};
constexpr ChkOk ok = ChkOk{};
inline ::vm::CellParser parser(CellSlice& cs) {
return ::vm::CellParser{cs};
}
} // namespace fmt
} // namespace vm