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4aa197dbdb
fa4632c41714dfaa699bacc6a947d72668a4deef test: Move boost/stdlib includes last (MarcoFalke) fa488f131fd4f5bab0d01376c5a5013306f1abcd scripted-diff: Bump copyright headers (MarcoFalke) fac5c373006a9e4bcbb56843bb85f1aca4d87599 scripted-diff: Sort test includes (MarcoFalke) Pull request description: When writing tests, often includes need to be added or removed. Currently the list of includes is not sorted, so developers that write tests and have `clang-format` installed will either have an unrelated change (sorting) included in their commit or they will have to manually undo the sort. This pull preempts both issues by just sorting all includes in one commit. Please be aware that this is **NOT** a change to policy to enforce clang-format or any other developer guideline or process. Developers are free to use whatever tool they want, see also #18651. Edit: Also includes a commit to bump the copyright headers, so that the touched files don't need to be touched again for that. ACKs for top commit: practicalswift: ACK fa4632c41714dfaa699bacc6a947d72668a4deef jonatack: ACK fa4632c41714dfaa, light review and sanity checks with gcc build and clang fuzz build Tree-SHA512: 130a8d073a379ba556b1e64104d37c46b671425c0aef0ed725fd60156a95e8dc83fb6f0b5330b2f8152cf5daaf3983b4aca5e75812598f2626c39fd12b88b180
186 lines
7.8 KiB
C++
186 lines
7.8 KiB
C++
// Copyright (c) 2019-2020 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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#include <assert.h>
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#include <map>
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#include <vector>
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#include <crypto/common.h>
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namespace {
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constexpr uint32_t INVALID = 0xFFFFFFFF;
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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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