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https://codeberg.org/anoncontributorxmr/monero.git
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tweaks to the monerov1 cryptonight algorithm
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parent
d58c9ec99c
commit
e136bc6b8a
2 changed files with 57 additions and 21 deletions
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@ -61,16 +61,33 @@ extern int aesb_pseudo_round(const uint8_t *in, uint8_t *out, const uint8_t *exp
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#define VARIANT1_2(p) \
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do if (variant > 0) \
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{ \
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((uint32_t*)p)[2] ^= nonce; \
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xor64(p, tweak1_2); \
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} while(0)
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#define VARIANT1_INIT() \
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if (variant > 0 && length < 43) \
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#define VARIANT1_CHECK() \
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do if (length < 43) \
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{ \
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fprintf(stderr, "Cryptonight variants need at least 43 bytes of data"); \
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_exit(1); \
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} while(0)
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#define NONCE_POINTER (((const uint8_t*)data)+35)
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#define VARIANT1_PORTABLE_INIT() \
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uint8_t tweak1_2[8]; \
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do if (variant > 0) \
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{ \
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VARIANT1_CHECK(); \
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memcpy(&tweak1_2, &state.hs.b[192], sizeof(tweak1_2)); \
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xor64(tweak1_2, NONCE_POINTER); \
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} while(0)
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#define VARIANT1_INIT64() \
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if (variant > 0) \
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{ \
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VARIANT1_CHECK(); \
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} \
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const uint32_t nonce = variant > 0 ? *(const uint32_t*)(((const uint8_t*)data)+39) : 0
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const uint64_t tweak1_2 = variant > 0 ? (state.hs.w[24] ^ (*((const uint64_t*)NONCE_POINTER))) : 0
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#if !defined NO_AES && (defined(__x86_64__) || (defined(_MSC_VER) && defined(_WIN64)))
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// Optimised code below, uses x86-specific intrinsics, SSE2, AES-NI
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@ -159,8 +176,8 @@ extern int aesb_pseudo_round(const uint8_t *in, uint8_t *out, const uint8_t *exp
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p = U64(&hp_state[j]); \
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p[0] = a[0]; p[1] = a[1]; \
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a[0] ^= b[0]; a[1] ^= b[1]; \
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VARIANT1_2(p + 1); \
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_b = _c; \
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VARIANT1_2(&hp_state[j]); \
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#if defined(_MSC_VER)
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#define THREADV __declspec(thread)
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@ -210,6 +227,11 @@ STATIC INLINE void xor_blocks(uint8_t *a, const uint8_t *b)
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U64(a)[1] ^= U64(b)[1];
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}
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STATIC INLINE void xor64(uint64_t *a, const uint64_t b)
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{
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*a ^= b;
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}
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/**
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* @brief uses cpuid to determine if the CPU supports the AES instructions
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* @return true if the CPU supports AES, false otherwise
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@ -568,8 +590,6 @@ void cn_slow_hash_pre(const void *data, size_t length, char *hash, int variant,
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hash_extra_blake, hash_extra_groestl, hash_extra_jh, hash_extra_skein
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};
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VARIANT1_INIT();
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// this isn't supposed to happen, but guard against it for now.
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if(hp_state == NULL)
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slow_hash_allocate_state();
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@ -582,6 +602,8 @@ void cn_slow_hash_pre(const void *data, size_t length, char *hash, int variant,
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}
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memcpy(text, state.init, INIT_SIZE_BYTE);
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VARIANT1_INIT64();
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/* CryptoNight Step 2: Iteratively encrypt the results from Keccak to fill
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* the 2MB large random access buffer.
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*/
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@ -705,6 +727,11 @@ void slow_hash_free_state(void)
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#define U64(x) ((uint64_t *) (x))
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STATIC INLINE void xor64(uint64 *a, const uint64 b)
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{
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*a ^= b;
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}
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#pragma pack(push, 1)
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union cn_slow_hash_state
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{
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@ -750,7 +777,7 @@ union cn_slow_hash_state
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p = U64(&hp_state[j]); \
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p[0] = a[0]; p[1] = a[1]; \
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a[0] ^= b[0]; a[1] ^= b[1]; \
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VARIANT1_2(p); \
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VARIANT1_2(p + 1); \
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_b = _c; \
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@ -903,13 +930,13 @@ void cn_slow_hash(const void *data, size_t length, char *hash, int variant)
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hash_extra_blake, hash_extra_groestl, hash_extra_jh, hash_extra_skein
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};
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VARIANT1_INIT();
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/* CryptoNight Step 1: Use Keccak1600 to initialize the 'state' (and 'text') buffers from the data. */
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hash_process(&state.hs, data, length);
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memcpy(text, state.init, INIT_SIZE_BYTE);
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VARIANT1_INIT64();
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/* CryptoNight Step 2: Iteratively encrypt the results from Keccak to fill
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* the 2MB large random access buffer.
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*/
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@ -1097,8 +1124,6 @@ void cn_slow_hash(const void *data, size_t length, char *hash, int variant)
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hash_extra_blake, hash_extra_groestl, hash_extra_jh, hash_extra_skein
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};
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VARIANT1_INIT();
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#ifndef FORCE_USE_HEAP
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uint8_t long_state[MEMORY];
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#else
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@ -1109,6 +1134,8 @@ void cn_slow_hash(const void *data, size_t length, char *hash, int variant)
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hash_process(&state.hs, data, length);
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memcpy(text, state.init, INIT_SIZE_BYTE);
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VARIANT1_INIT64();
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aes_ctx = (oaes_ctx *) oaes_alloc();
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oaes_key_import_data(aes_ctx, state.hs.b, AES_KEY_SIZE);
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@ -1148,7 +1175,7 @@ void cn_slow_hash(const void *data, size_t length, char *hash, int variant)
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swap_blocks(b, p);
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xor_blocks(b, p);
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swap_blocks(a, b);
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VARIANT1_2(p);
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VARIANT1_2(U64(p) + 1);
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}
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memcpy(text, state.init, INIT_SIZE_BYTE);
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@ -1243,6 +1270,15 @@ static void xor_blocks(uint8_t* a, const uint8_t* b) {
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}
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}
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static void xor64(uint8_t* left, const uint8_t* right)
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{
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size_t i;
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for (i = 0; i < 8; ++i)
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{
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left[i] ^= right[i];
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}
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}
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#pragma pack(push, 1)
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union cn_slow_hash_state {
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union hash_state hs;
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@ -1265,13 +1301,13 @@ void cn_slow_hash(const void *data, size_t length, char *hash, int variant) {
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uint8_t aes_key[AES_KEY_SIZE];
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oaes_ctx *aes_ctx;
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VARIANT1_INIT();
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hash_process(&state.hs, data, length);
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memcpy(text, state.init, INIT_SIZE_BYTE);
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memcpy(aes_key, state.hs.b, AES_KEY_SIZE);
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aes_ctx = (oaes_ctx *) oaes_alloc();
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VARIANT1_PORTABLE_INIT();
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oaes_key_import_data(aes_ctx, aes_key, AES_KEY_SIZE);
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for (i = 0; i < MEMORY / INIT_SIZE_BYTE; i++) {
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for (j = 0; j < INIT_SIZE_BLK; j++) {
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@ -1307,10 +1343,10 @@ void cn_slow_hash(const void *data, size_t length, char *hash, int variant) {
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sum_half_blocks(b, d);
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swap_blocks(b, c);
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xor_blocks(b, c);
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VARIANT1_2(c + 8);
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copy_block(&long_state[j * AES_BLOCK_SIZE], c);
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assert(j == e2i(a, MEMORY / AES_BLOCK_SIZE));
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swap_blocks(a, b);
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VARIANT1_2(&long_state[j * AES_BLOCK_SIZE]);
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}
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memcpy(text, state.init, INIT_SIZE_BYTE);
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@ -1,5 +1,5 @@
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b46aab7facce3eb4b4679d1d526f2d500d43736988b7881853c4c0c4af04ac0e 00000000000000000000000000000000000000000000000000000000000000000000000000000000000000
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f0f0ab8a50a809ccd82c76996e494b20a1e01e90ed4814a27db2558511559091 00000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000
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13310922971e1112b382357aeaa8b0bf0cd941dc6f5e398979f3fa77d13749bd 8519e039172b0d70e5ca7b3383d6b3167315a422747b73f019cf9528f0fde341fd0f2a63030ba6450525cf6de31837669af6f1df8131faf50aaab8d3a7405589
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0d9f641d14a782748ed5548f72a20c83c4a2cfe606015ad9eda5b36a00947d72 37a636d7dafdf259b7287eddca2f58099e98619d2f99bdb8969d7b14498102cc065201c8be90bd777323f449848b215d2977c92c4c1c2da36ab46b2e389689ed97c18fec08cd3b03235c5e4c62a37ad88c7b67932495a71090e85dd4020a9300
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d74a0c9b603aa9f9af0bfec0c36d3d383c14930a0ee2f08dab44536fccda5bee 38274c97c45a172cfc97679870422e3a1ab0784960c60514d816271415c306ee3a3ed1a77e31f6a885c3cb
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b5a7f63abb94d07d1a6445c36c07c7e8327fe61b1647e391b4c7edae5de57a3d 00000000000000000000000000000000000000000000000000000000000000000000000000000000000000
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80563c40ed46575a9e44820d93ee095e2851aa22483fd67837118c6cd951ba61 00000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000
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5bb40c5880cef2f739bdb6aaaf16161eaae55530e7b10d7ea996b751a299e949 8519e039172b0d70e5ca7b3383d6b3167315a422747b73f019cf9528f0fde341fd0f2a63030ba6450525cf6de31837669af6f1df8131faf50aaab8d3a7405589
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613e638505ba1fd05f428d5c9f8e08f8165614342dac419adc6a47dce257eb3e 37a636d7dafdf259b7287eddca2f58099e98619d2f99bdb8969d7b14498102cc065201c8be90bd777323f449848b215d2977c92c4c1c2da36ab46b2e389689ed97c18fec08cd3b03235c5e4c62a37ad88c7b67932495a71090e85dd4020a9300
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ed082e49dbd5bbe34a3726a0d1dad981146062b39d36d62c71eb1ed8ab49459b 38274c97c45a172cfc97679870422e3a1ab0784960c60514d816271415c306ee3a3ed1a77e31f6a885c3cb
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