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31.1.0
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src
util
obfuscation.h
Go to the documentation of this file.
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// Copyright (c) 2025-present The Bitcoin Core developers
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// Distributed under the MIT software license, see the accompanying
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// file COPYING or http://www.opensource.org/licenses/mit-license.php.
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#ifndef BITCOIN_UTIL_OBFUSCATION_H
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#define BITCOIN_UTIL_OBFUSCATION_H
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#include <cstdint>
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#include <
span.h
>
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#include <
tinyformat.h
>
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#include <
util/strencodings.h
>
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#include <array>
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#include <bit>
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#include <climits>
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#include <ios>
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#include <memory>
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class
Obfuscation
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{
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public
:
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using
KeyType
= uint64_t;
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static
constexpr
size_t
KEY_SIZE
{
sizeof
(
KeyType
)};
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Obfuscation
() {
SetRotations
(0); }
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explicit
Obfuscation
(std::span<const std::byte, KEY_SIZE> key_bytes)
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{
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SetRotations
(
ToKey
(key_bytes));
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}
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operator
bool()
const
{
return
m_rotations
[0] != 0; }
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void
operator()
(std::span<std::byte> target,
size_t
key_offset = 0)
const
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{
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if
(!*
this
)
return
;
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KeyType
rot_key{
m_rotations
[key_offset %
KEY_SIZE
]};
// Continue obfuscation from where we left off
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if
(target.size() >
KEY_SIZE
) {
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// Obfuscate until KEY_SIZE alignment boundary
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if
(
const
auto
misalign{
reinterpret_cast<
uintptr_t
>
(target.data()) %
KEY_SIZE
}) {
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const
size_t
alignment{
KEY_SIZE
- misalign};
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XorWord
(target.first(alignment), rot_key);
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target = {std::assume_aligned<KEY_SIZE>(target.data() + alignment), target.size() - alignment};
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rot_key =
m_rotations
[(key_offset + alignment) %
KEY_SIZE
];
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}
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// Aligned obfuscation in 8*KEY_SIZE chunks
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for
(
constexpr
auto
unroll{8}; target.size() >=
KEY_SIZE
* unroll; target = target.subspan(
KEY_SIZE
* unroll)) {
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for
(
size_t
i{0}; i < unroll; ++i) {
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XorWord
(target.subspan(i *
KEY_SIZE
,
KEY_SIZE
), rot_key);
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}
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}
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// Aligned obfuscation in KEY_SIZE chunks
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for
(; target.size() >=
KEY_SIZE
; target = target.subspan(
KEY_SIZE
)) {
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XorWord
(target.first<
KEY_SIZE
>(), rot_key);
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}
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}
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XorWord
(target, rot_key);
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}
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template
<
typename
Stream>
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void
Serialize
(Stream& s)
const
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{
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// Use vector serialization for convenient compact size prefix.
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std::vector<std::byte> bytes{
KEY_SIZE
};
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std::memcpy(bytes.data(), &
m_rotations
[0],
KEY_SIZE
);
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s << bytes;
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}
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template
<
typename
Stream>
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void
Unserialize
(Stream& s)
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{
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std::vector<std::byte> bytes{
KEY_SIZE
};
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s >> bytes;
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if
(bytes.size() !=
KEY_SIZE
)
throw
std::ios_base::failure(
strprintf
(
"Obfuscation key size should be exactly %s bytes long"
,
KEY_SIZE
));
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SetRotations
(
ToKey
(std::span<std::byte, KEY_SIZE>(bytes)));
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}
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std::string
HexKey
()
const
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{
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return
HexStr
(std::as_bytes(std::span{&
m_rotations
[0], 1}));
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}
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private
:
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// Cached key rotations for different offsets.
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std::array<KeyType, KEY_SIZE>
m_rotations
;
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void
SetRotations
(
KeyType
key)
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{
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for
(
size_t
i{0}; i <
KEY_SIZE
; ++i) {
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int
key_rotation_bits{int(CHAR_BIT * i)};
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if
constexpr
(std::endian::native == std::endian::big) key_rotation_bits *= -1;
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m_rotations
[i] = std::rotr(key, key_rotation_bits);
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}
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}
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static
KeyType
ToKey
(std::span<const std::byte, KEY_SIZE> key_span)
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{
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KeyType
key{};
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std::memcpy(&key, key_span.data(),
KEY_SIZE
);
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return
key;
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}
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static
void
XorWord
(std::span<std::byte> target,
KeyType
key)
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{
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assert
(target.size() <=
KEY_SIZE
);
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if
(target.empty())
return
;
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KeyType
raw{};
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std::memcpy(&raw, target.data(), target.size());
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raw ^= key;
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std::memcpy(target.data(), &raw, target.size());
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}
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};
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#endif
// BITCOIN_UTIL_OBFUSCATION_H
Obfuscation::m_rotations
std::array< KeyType, KEY_SIZE > m_rotations
Definition
obfuscation.h:86
Obfuscation::Obfuscation
Obfuscation(std::span< const std::byte, KEY_SIZE > key_bytes)
Definition
obfuscation.h:26
Obfuscation::Unserialize
void Unserialize(Stream &s)
Definition
obfuscation.h:71
Obfuscation::Obfuscation
Obfuscation()
Definition
obfuscation.h:25
Obfuscation::HexKey
std::string HexKey() const
Definition
obfuscation.h:79
Obfuscation::SetRotations
void SetRotations(KeyType key)
Definition
obfuscation.h:88
Obfuscation::ToKey
static KeyType ToKey(std::span< const std::byte, KEY_SIZE > key_span)
Definition
obfuscation.h:97
Obfuscation::XorWord
static void XorWord(std::span< std::byte > target, KeyType key)
Definition
obfuscation.h:104
Obfuscation::operator()
void operator()(std::span< std::byte > target, size_t key_offset=0) const
Definition
obfuscation.h:33
Obfuscation::KEY_SIZE
static constexpr size_t KEY_SIZE
Definition
obfuscation.h:23
Obfuscation::Serialize
void Serialize(Stream &s) const
Definition
obfuscation.h:62
Obfuscation::KeyType
uint64_t KeyType
Definition
obfuscation.h:22
HexStr
std::string HexStr(const std::span< const uint8_t > s)
Convert a span of bytes to a lower-case hexadecimal string.
Definition
hex_base.cpp:30
span.h
strencodings.h
tinyformat.h
strprintf
#define strprintf
Format arguments and return the string or write to given std::ostream (see tinyformat::format doc for...
Definition
tinyformat.h:1172
assert
assert(!tx.IsCoinBase())
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for Bitcoin Core by
1.17.0