mirror of https://github.com/bsnes-emu/bsnes.git
157 lines
3.9 KiB
C++
Executable File
157 lines
3.9 KiB
C++
Executable File
#pragma once
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#include <nall/arithmetic.hpp>
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#include <nall/chrono.hpp>
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#include <nall/range.hpp>
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#include <nall/serializer.hpp>
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#include <nall/stdint.hpp>
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#include <nall/cipher/chacha20.hpp>
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#if defined(PLATFORM_LINUX) && __has_include(<sys/random.h>)
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#include <sys/random.h>
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#elif defined(PLATFORM_WINDOWS) && __has_include(<wincrypt.h>)
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#include <wincrypt.h>
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#else
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#include <stdio.h>
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#endif
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namespace nall {
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template<typename Base> struct RNG {
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template<typename T = uint64_t> auto random() -> T {
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T value = 0;
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for(uint n : range((sizeof(T) + 3) / 4)) {
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value = value << 32 | (uint32_t)static_cast<Base*>(this)->read();
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}
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return value;
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}
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template<typename T = uint64_t> auto bound(T range) -> T {
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T threshold = -range % range;
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while(true) {
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T value = random<T>();
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if(value >= threshold) return value % range;
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}
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}
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protected:
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auto randomSeed() -> uint256_t {
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uint256_t seed = 0;
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#if defined(PLATFORM_BSD) || defined(PLATFORM_MACOS)
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for(uint n : range(8)) seed = seed << 32 | (uint32_t)arc4random();
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#elif defined(PLATFORM_LINUX) && __has_include(<sys/random.h>)
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getrandom(&seed, 32, GRND_NONBLOCK);
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#elif defined(PLATFORM_WINDOWS) && __has_include(<wincrypt.h>)
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HCRYPTPROV provider;
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if(CryptAcquireContext(&provider, nullptr, MS_STRONG_PROV, PROV_RSA_FULL, CRYPT_VERIFYCONTEXT)) {
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CryptGenRandom(provider, 32, (BYTE*)&seed);
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CryptReleaseContext(provider, 0);
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}
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#else
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srand(time(nullptr));
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for(uint n : range(32)) seed = seed << 8 | (uint8_t)rand();
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if(auto fp = fopen("/dev/urandom", "rb")) {
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fread(&seed, 32, 1, fp);
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fclose(fp);
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}
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#endif
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return seed;
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}
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};
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namespace PRNG {
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//Galois linear feedback shift register using CRC64 polynomials
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struct LFSR : RNG<LFSR> {
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auto seed(maybe<uint64_t> seed = {}) -> void {
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lfsr = seed ? seed() : (uint64_t)randomSeed();
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for(uint n : range(8)) read(); //hide the CRC64 polynomial from initial output
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}
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auto serialize(serializer& s) -> void {
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s.integer(lfsr);
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}
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private:
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auto read() -> uint64_t {
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return lfsr = (lfsr >> 1) ^ (-(lfsr & 1) & crc64);
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}
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static const uint64_t crc64 = 0xc96c'5795'd787'0f42;
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uint64_t lfsr = crc64;
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friend class RNG<LFSR>;
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};
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struct PCG : RNG<PCG> {
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auto seed(maybe<uint32_t> seed = {}, maybe<uint32_t> sequence = {}) -> void {
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if(!seed) seed = (uint32_t)randomSeed();
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if(!sequence) sequence = 0;
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state = 0;
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increment = sequence() << 1 | 1;
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read();
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state += seed();
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read();
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}
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auto serialize(serializer& s) -> void {
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s.integer(state);
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s.integer(increment);
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}
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private:
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auto read() -> uint32_t {
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uint64_t state = this->state;
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this->state = state * 6'364'136'223'846'793'005ull + increment;
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uint32_t xorshift = (state >> 18 ^ state) >> 27;
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uint32_t rotate = state >> 59;
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return xorshift >> rotate | xorshift << (-rotate & 31);
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}
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uint64_t state = 0;
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uint64_t increment = 0;
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friend class RNG<PCG>;
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};
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}
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namespace CSPRNG {
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//XChaCha20 cryptographically secure pseudo-random number generator
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struct XChaCha20 : RNG<XChaCha20> {
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XChaCha20() { seed(); }
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auto seed(maybe<uint256_t> key = {}, maybe<uint192_t> nonce = {}) -> void {
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//the randomness comes from the key; the nonce just adds a bit of added entropy
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if(!key) key = randomSeed();
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if(!nonce) nonce = (uint192_t)clock() << 64 | chrono::nanosecond();
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context = {key(), nonce()};
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}
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private:
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auto read() -> uint32_t {
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if(!counter) { context.cipher(); context.increment(); }
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uint32_t value = context.block[counter++];
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if(counter == 16) counter = 0; //64-bytes per block; 4 bytes per read
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return value;
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}
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Cipher::XChaCha20 context{0, 0};
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uint counter = 0;
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friend class RNG<XChaCha20>;
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};
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}
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//
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template<typename T = uint64_t> inline auto random() -> T {
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static PRNG::PCG pcg; //note: unseeded
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return pcg.random<T>();
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}
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}
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