2021-05-11 17:11:07 +02:00
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// Copyright (c) 2019 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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2022-03-24 20:28:20 +01:00
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#include <assert.h>
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#include <map>
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2021-05-11 17:11:07 +02:00
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#include <vector>
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#include <crypto/common.h>
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namespace {
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2022-03-24 20:28:20 +01:00
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constexpr uint32_t INVALID = 0xFFFFFFFF;
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2020-01-29 22:55:40 +01:00
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uint32_t DecodeBits(std::vector<bool>::const_iterator& bitpos, const std::vector<bool>::const_iterator& endpos, uint8_t minval, const std::vector<uint8_t> &bit_sizes)
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{
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uint32_t val = minval;
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bool bit;
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for (std::vector<uint8_t>::const_iterator bit_sizes_it = bit_sizes.begin();
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bit_sizes_it != bit_sizes.end(); ++bit_sizes_it) {
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if (bit_sizes_it + 1 != bit_sizes.end()) {
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if (bitpos == endpos) break;
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bit = *bitpos;
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bitpos++;
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} else {
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bit = 0;
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}
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if (bit) {
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val += (1 << *bit_sizes_it);
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} else {
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for (int b = 0; b < *bit_sizes_it; b++) {
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if (bitpos == endpos) return INVALID; // Reached EOF in mantissa
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bit = *bitpos;
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bitpos++;
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val += bit << (*bit_sizes_it - 1 - b);
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}
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return val;
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}
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}
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return INVALID; // Reached EOF in exponent
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}
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enum class Instruction : uint32_t
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{
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RETURN = 0,
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JUMP = 1,
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MATCH = 2,
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DEFAULT = 3,
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};
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const std::vector<uint8_t> TYPE_BIT_SIZES{0, 0, 1};
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Instruction DecodeType(std::vector<bool>::const_iterator& bitpos, const std::vector<bool>::const_iterator& endpos)
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{
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return Instruction(DecodeBits(bitpos, endpos, 0, TYPE_BIT_SIZES));
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}
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const std::vector<uint8_t> ASN_BIT_SIZES{15, 16, 17, 18, 19, 20, 21, 22, 23, 24};
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uint32_t DecodeASN(std::vector<bool>::const_iterator& bitpos, const std::vector<bool>::const_iterator& endpos)
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{
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return DecodeBits(bitpos, endpos, 1, ASN_BIT_SIZES);
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}
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const std::vector<uint8_t> MATCH_BIT_SIZES{1, 2, 3, 4, 5, 6, 7, 8};
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uint32_t DecodeMatch(std::vector<bool>::const_iterator& bitpos, const std::vector<bool>::const_iterator& endpos)
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{
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return DecodeBits(bitpos, endpos, 2, MATCH_BIT_SIZES);
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}
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const std::vector<uint8_t> JUMP_BIT_SIZES{5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22, 23, 24, 25, 26, 27, 28, 29, 30};
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uint32_t DecodeJump(std::vector<bool>::const_iterator& bitpos, const std::vector<bool>::const_iterator& endpos)
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{
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return DecodeBits(bitpos, endpos, 17, JUMP_BIT_SIZES);
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}
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}
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uint32_t Interpret(const std::vector<bool> &asmap, const std::vector<bool> &ip)
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{
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std::vector<bool>::const_iterator pos = asmap.begin();
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const std::vector<bool>::const_iterator endpos = asmap.end();
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uint8_t bits = ip.size();
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uint32_t default_asn = 0;
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uint32_t jump, match, matchlen;
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Instruction opcode;
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while (pos != endpos) {
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opcode = DecodeType(pos, endpos);
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if (opcode == Instruction::RETURN) {
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default_asn = DecodeASN(pos, endpos);
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if (default_asn == INVALID) break; // ASN straddles EOF
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return default_asn;
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} else if (opcode == Instruction::JUMP) {
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jump = DecodeJump(pos, endpos);
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if (jump == INVALID) break; // Jump offset straddles EOF
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if (bits == 0) break; // No input bits left
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if (jump >= endpos - pos) break; // Jumping past EOF
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if (ip[ip.size() - bits]) {
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pos += jump;
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}
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bits--;
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} else if (opcode == Instruction::MATCH) {
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match = DecodeMatch(pos, endpos);
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if (match == INVALID) break; // Match bits straddle EOF
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matchlen = CountBits(match) - 1;
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if (bits < matchlen) break; // Not enough input bits
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for (uint32_t bit = 0; bit < matchlen; bit++) {
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if ((ip[ip.size() - bits]) != ((match >> (matchlen - 1 - bit)) & 1)) {
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return default_asn;
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}
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bits--;
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}
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} else if (opcode == Instruction::DEFAULT) {
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default_asn = DecodeASN(pos, endpos);
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if (default_asn == INVALID) break; // ASN straddles EOF
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} else {
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break; // Instruction straddles EOF
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}
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}
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assert(false); // Reached EOF without RETURN, or aborted (see any of the breaks above) - should have been caught by SanityCheckASMap below
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return 0; // 0 is not a valid ASN
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}
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bool SanityCheckASMap(const std::vector<bool>& asmap, int bits)
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{
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const std::vector<bool>::const_iterator begin = asmap.begin(), endpos = asmap.end();
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std::vector<bool>::const_iterator pos = begin;
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std::vector<std::pair<uint32_t, int>> jumps; // All future positions we may jump to (bit offset in asmap -> bits to consume left)
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jumps.reserve(bits);
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Instruction prevopcode = Instruction::JUMP;
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bool had_incomplete_match = false;
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while (pos != endpos) {
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uint32_t offset = pos - begin;
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if (!jumps.empty() && offset >= jumps.back().first) return false; // There was a jump into the middle of the previous instruction
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Instruction opcode = DecodeType(pos, endpos);
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if (opcode == Instruction::RETURN) {
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if (prevopcode == Instruction::DEFAULT) return false; // There should not be any RETURN immediately after a DEFAULT (could be combined into just RETURN)
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uint32_t asn = DecodeASN(pos, endpos);
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if (asn == INVALID) return false; // ASN straddles EOF
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if (jumps.empty()) {
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// Nothing to execute anymore
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if (endpos - pos > 7) return false; // Excessive padding
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while (pos != endpos) {
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if (*pos) return false; // Nonzero padding bit
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++pos;
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}
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return true; // Sanely reached EOF
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} else {
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// Continue by pretending we jumped to the next instruction
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offset = pos - begin;
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if (offset != jumps.back().first) return false; // Unreachable code
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bits = jumps.back().second; // Restore the number of bits we would have had left after this jump
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jumps.pop_back();
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prevopcode = Instruction::JUMP;
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}
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} else if (opcode == Instruction::JUMP) {
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uint32_t jump = DecodeJump(pos, endpos);
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if (jump == INVALID) return false; // Jump offset straddles EOF
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if (jump > endpos - pos) return false; // Jump out of range
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if (bits == 0) return false; // Consuming bits past the end of the input
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--bits;
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uint32_t jump_offset = pos - begin + jump;
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if (!jumps.empty() && jump_offset >= jumps.back().first) return false; // Intersecting jumps
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jumps.emplace_back(jump_offset, bits);
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prevopcode = Instruction::JUMP;
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} else if (opcode == Instruction::MATCH) {
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uint32_t match = DecodeMatch(pos, endpos);
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if (match == INVALID) return false; // Match bits straddle EOF
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int matchlen = CountBits(match) - 1;
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if (prevopcode != Instruction::MATCH) had_incomplete_match = false;
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if (matchlen < 8 && had_incomplete_match) return false; // Within a sequence of matches only at most one should be incomplete
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had_incomplete_match = (matchlen < 8);
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if (bits < matchlen) return false; // Consuming bits past the end of the input
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bits -= matchlen;
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prevopcode = Instruction::MATCH;
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} else if (opcode == Instruction::DEFAULT) {
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if (prevopcode == Instruction::DEFAULT) return false; // There should not be two successive DEFAULTs (they could be combined into one)
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uint32_t asn = DecodeASN(pos, endpos);
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if (asn == INVALID) return false; // ASN straddles EOF
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prevopcode = Instruction::DEFAULT;
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} else {
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return false; // Instruction straddles EOF
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}
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}
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return false; // Reached EOF without RETURN instruction
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}
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