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Import Bech32 C++ reference code & tests
This includes a reformatted version of the Bech32 reference code (see https://github.com/sipa/bech32/tree/master/ref/c%2B%2B), with extra documentation.
This commit is contained in:
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1e46ebdf86
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@ -78,6 +78,7 @@ BITCOIN_CORE_H = \
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addrdb.h \
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addrman.h \
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base58.h \
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bech32.h \
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bloom.h \
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blockencodings.h \
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chain.h \
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@ -316,6 +317,7 @@ libbitcoin_common_a_CPPFLAGS = $(AM_CPPFLAGS) $(BITCOIN_INCLUDES)
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libbitcoin_common_a_CXXFLAGS = $(AM_CXXFLAGS) $(PIE_FLAGS)
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libbitcoin_common_a_SOURCES = \
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base58.cpp \
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bech32.cpp \
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chainparams.cpp \
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coins.cpp \
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compressor.cpp \
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@ -31,6 +31,7 @@ BITCOIN_TESTS =\
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test/base32_tests.cpp \
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test/base58_tests.cpp \
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test/base64_tests.cpp \
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test/bech32_tests.cpp \
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test/bip32_tests.cpp \
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test/blockencodings_tests.cpp \
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test/bloom_tests.cpp \
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191
src/bech32.cpp
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191
src/bech32.cpp
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@ -0,0 +1,191 @@
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// Copyright (c) 2017 Pieter Wuille
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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 "bech32.h"
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namespace
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{
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typedef std::vector<uint8_t> data;
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/** The Bech32 character set for encoding. */
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const char* CHARSET = "qpzry9x8gf2tvdw0s3jn54khce6mua7l";
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/** The Bech32 character set for decoding. */
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const int8_t CHARSET_REV[128] = {
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-1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1,
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-1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1,
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-1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1,
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15, -1, 10, 17, 21, 20, 26, 30, 7, 5, -1, -1, -1, -1, -1, -1,
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-1, 29, -1, 24, 13, 25, 9, 8, 23, -1, 18, 22, 31, 27, 19, -1,
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1, 0, 3, 16, 11, 28, 12, 14, 6, 4, 2, -1, -1, -1, -1, -1,
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-1, 29, -1, 24, 13, 25, 9, 8, 23, -1, 18, 22, 31, 27, 19, -1,
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1, 0, 3, 16, 11, 28, 12, 14, 6, 4, 2, -1, -1, -1, -1, -1
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};
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/** Concatenate two byte arrays. */
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data Cat(data x, const data& y)
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{
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x.insert(x.end(), y.begin(), y.end());
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return x;
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}
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/** This function will compute what 6 5-bit values to XOR into the last 6 input values, in order to
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* make the checksum 0. These 6 values are packed together in a single 30-bit integer. The higher
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* bits correspond to earlier values. */
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uint32_t PolyMod(const data& v)
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{
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// The input is interpreted as a list of coefficients of a polynomial over F = GF(32), with an
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// implicit 1 in front. If the input is [v0,v1,v2,v3,v4], that polynomial is v(x) =
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// 1*x^5 + v0*x^4 + v1*x^3 + v2*x^2 + v3*x + v4. The implicit 1 guarantees that
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// [v0,v1,v2,...] has a distinct checksum from [0,v0,v1,v2,...].
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// The output is a 30-bit integer whose 5-bit groups are the coefficients of the remainder of
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// v(x) mod g(x), where g(x) is the Bech32 generator,
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// x^6 + {29}x^5 + {22}x^4 + {20}x^3 + {21}x^2 + {29}x + {18}. g(x) is chosen in such a way
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// that the resulting code is a BCH code, guaranteeing detection of up to 3 errors within a
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// window of 1023 characters. Among the various possible BCH codes, one was selected to in
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// fact guarantee detection of up to 4 errors within a window of 89 characters.
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// Note that the coefficients are elements of GF(32), here represented as decimal numbers
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// between {}. In this finite field, addition is just XOR of the corresponding numbers. For
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// example, {27} + {13} = {27 ^ 13} = {22}. Multiplication is more complicated, and requires
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// treating the bits of values themselves as coefficients of a polynomial over a smaller field,
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// GF(2), and multiplying those polynomials mod a^5 + a^3 + 1. For example, {5} * {26} =
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// (a^2 + 1) * (a^4 + a^3 + a) = (a^4 + a^3 + a) * a^2 + (a^4 + a^3 + a) = a^6 + a^5 + a^4 + a
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// = a^3 + 1 (mod a^5 + a^3 + 1) = {9}.
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// During the course of the loop below, `c` contains the bitpacked coefficients of the
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// polynomial constructed from just the values of v that were processed so far, mod g(x). In
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// the above example, `c` initially corresponds to 1 mod (x), and after processing 2 inputs of
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// v, it corresponds to x^2 + v0*x + v1 mod g(x). As 1 mod g(x) = 1, that is the starting value
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// for `c`.
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uint32_t c = 1;
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for (auto v_i : v) {
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// We want to update `c` to correspond to a polynomial with one extra term. If the initial
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// value of `c` consists of the coefficients of c(x) = f(x) mod g(x), we modify it to
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// correspond to c'(x) = (f(x) * x + v_i) mod g(x), where v_i is the next input to
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// process. Simplifying:
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// c'(x) = (f(x) * x + v_i) mod g(x)
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// ((f(x) mod g(x)) * x + v_i) mod g(x)
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// (c(x) * x + v_i) mod g(x)
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// If c(x) = c0*x^5 + c1*x^4 + c2*x^3 + c3*x^2 + c4*x + c5, we want to compute
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// c'(x) = (c0*x^5 + c1*x^4 + c2*x^3 + c3*x^2 + c4*x + c5) * x + v_i mod g(x)
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// = c0*x^6 + c1*x^5 + c2*x^4 + c3*x^3 + c4*x^2 + c5*x + v_i mod g(x)
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// = c0*(x^6 mod g(x)) + c1*x^5 + c2*x^4 + c3*x^3 + c4*x^2 + c5*x + v_i
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// If we call (x^6 mod g(x)) = k(x), this can be written as
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// c'(x) = (c1*x^5 + c2*x^4 + c3*x^3 + c4*x^2 + c5*x + v_i) + c0*k(x)
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// First, determine the value of c0:
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uint8_t c0 = c >> 25;
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// Then compute c1*x^5 + c2*x^4 + c3*x^3 + c4*x^2 + c5*x + v_i:
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c = ((c & 0x1ffffff) << 5) ^ v_i;
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// Finally, for each set bit n in c0, conditionally add {2^n}k(x):
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if (c0 & 1) c ^= 0x3b6a57b2; // k(x) = {29}x^5 + {22}x^4 + {20}x^3 + {21}x^2 + {29}x + {18}
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if (c0 & 2) c ^= 0x26508e6d; // {2}k(x) = {19}x^5 + {5}x^4 + x^3 + {3}x^2 + {19}x + {13}
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if (c0 & 4) c ^= 0x1ea119fa; // {4}k(x) = {15}x^5 + {10}x^4 + {2}x^3 + {6}x^2 + {15}x + {26}
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if (c0 & 8) c ^= 0x3d4233dd; // {8}k(x) = {30}x^5 + {20}x^4 + {4}x^3 + {12}x^2 + {30}x + {29}
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if (c0 & 16) c ^= 0x2a1462b3; // {16}k(x) = {21}x^5 + x^4 + {8}x^3 + {24}x^2 + {21}x + {19}
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}
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return c;
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}
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/** Convert to lower case. */
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inline unsigned char LowerCase(unsigned char c)
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{
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return (c >= 'A' && c <= 'Z') ? (c - 'A') + 'a' : c;
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}
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/** Expand a HRP for use in checksum computation. */
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data ExpandHRP(const std::string& hrp)
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{
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data ret;
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ret.reserve(hrp.size() + 90);
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ret.resize(hrp.size() * 2 + 1);
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for (size_t i = 0; i < hrp.size(); ++i) {
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unsigned char c = hrp[i];
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ret[i] = c >> 5;
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ret[i + hrp.size() + 1] = c & 0x1f;
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}
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ret[hrp.size()] = 0;
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return ret;
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}
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/** Verify a checksum. */
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bool VerifyChecksum(const std::string& hrp, const data& values)
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{
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// PolyMod computes what value to xor into the final values to make the checksum 0. However,
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// if we required that the checksum was 0, it would be the case that appending a 0 to a valid
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// list of values would result in a new valid list. For that reason, Bech32 requires the
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// resulting checksum to be 1 instead.
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return PolyMod(Cat(ExpandHRP(hrp), values)) == 1;
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}
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/** Create a checksum. */
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data CreateChecksum(const std::string& hrp, const data& values)
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{
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data enc = Cat(ExpandHRP(hrp), values);
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enc.resize(enc.size() + 6); // Append 6 zeroes
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uint32_t mod = PolyMod(enc) ^ 1; // Determine what to XOR into those 6 zeroes.
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data ret(6);
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for (size_t i = 0; i < 6; ++i) {
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// Convert the 5-bit groups in mod to checksum values.
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ret[i] = (mod >> (5 * (5 - i))) & 31;
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}
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return ret;
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}
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} // namespace
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namespace bech32
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{
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/** Encode a Bech32 string. */
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std::string Encode(const std::string& hrp, const data& values) {
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data checksum = CreateChecksum(hrp, values);
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data combined = Cat(values, checksum);
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std::string ret = hrp + '1';
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ret.reserve(ret.size() + combined.size());
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for (auto c : combined) {
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ret += CHARSET[c];
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}
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return ret;
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}
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/** Decode a Bech32 string. */
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std::pair<std::string, data> Decode(const std::string& str) {
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bool lower = false, upper = false;
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for (size_t i = 0; i < str.size(); ++i) {
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unsigned char c = str[i];
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if (c < 33 || c > 126) return {};
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if (c >= 'a' && c <= 'z') lower = true;
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if (c >= 'A' && c <= 'Z') upper = true;
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}
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if (lower && upper) return {};
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size_t pos = str.rfind('1');
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if (str.size() > 90 || pos == str.npos || pos == 0 || pos + 7 > str.size()) {
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return {};
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}
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data values(str.size() - 1 - pos);
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for (size_t i = 0; i < str.size() - 1 - pos; ++i) {
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unsigned char c = str[i + pos + 1];
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int8_t rev = (c < 33 || c > 126) ? -1 : CHARSET_REV[c];
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if (rev == -1) {
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return {};
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}
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values[i] = rev;
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}
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std::string hrp;
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for (size_t i = 0; i < pos; ++i) {
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hrp += LowerCase(str[i]);
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}
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if (!VerifyChecksum(hrp, values)) {
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return {};
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}
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return {hrp, data(values.begin(), values.end() - 6)};
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}
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} // namespace bech32
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src/bech32.h
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src/bech32.h
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// Copyright (c) 2017 Pieter Wuille
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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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// Bech32 is a string encoding format used in newer address types.
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// The output consists of a human-readable part (alphanumeric), a
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// separator character (1), and a base32 data section, the last
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// 6 characters of which are a checksum.
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//
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// For more information, see BIP 173.
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#include <stdint.h>
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#include <string>
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#include <vector>
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namespace bech32
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{
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/** Encode a Bech32 string. Returns the empty string in case of failure. */
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std::string Encode(const std::string& hrp, const std::vector<uint8_t>& values);
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/** Decode a Bech32 string. Returns (hrp, data). Empty hrp means failure. */
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std::pair<std::string, std::vector<uint8_t>> Decode(const std::string& str);
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} // namespace bech32
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src/test/bech32_tests.cpp
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src/test/bech32_tests.cpp
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// Copyright (c) 2017 Pieter Wuille
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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 "bech32.h"
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#include "test/test_bitcoin.h"
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#include <boost/test/unit_test.hpp>
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BOOST_FIXTURE_TEST_SUITE(bech32_tests, BasicTestingSetup)
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bool CaseInsensitiveEqual(const std::string &s1, const std::string &s2)
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{
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if (s1.size() != s2.size()) return false;
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for (size_t i = 0; i < s1.size(); ++i) {
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char c1 = s1[i];
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if (c1 >= 'A' && c1 <= 'Z') c1 -= ('A' - 'a');
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char c2 = s2[i];
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if (c2 >= 'A' && c2 <= 'Z') c2 -= ('A' - 'a');
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if (c1 != c2) return false;
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}
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return true;
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}
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BOOST_AUTO_TEST_CASE(bip173_testvectors_valid)
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{
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static const std::string CASES[] = {
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"A12UEL5L",
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"a12uel5l",
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"an83characterlonghumanreadablepartthatcontainsthenumber1andtheexcludedcharactersbio1tt5tgs",
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"abcdef1qpzry9x8gf2tvdw0s3jn54khce6mua7lmqqqxw",
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"11qqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqc8247j",
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"split1checkupstagehandshakeupstreamerranterredcaperred2y9e3w",
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"?1ezyfcl",
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};
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for (const std::string& str : CASES) {
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auto ret = bech32::Decode(str);
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BOOST_CHECK(!ret.first.empty());
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std::string recode = bech32::Encode(ret.first, ret.second);
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BOOST_CHECK(!recode.empty());
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BOOST_CHECK(CaseInsensitiveEqual(str, recode));
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}
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}
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BOOST_AUTO_TEST_CASE(bip173_testvectors_invalid)
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{
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static const std::string CASES[] = {
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" 1nwldj5",
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"\x7f""1axkwrx",
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"\x80""1eym55h",
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"an84characterslonghumanreadablepartthatcontainsthenumber1andtheexcludedcharactersbio1569pvx",
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"pzry9x0s0muk",
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"1pzry9x0s0muk",
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"x1b4n0q5v",
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"li1dgmt3",
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"de1lg7wt\xff",
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"A1G7SGD8",
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"10a06t8",
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"1qzzfhee",
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};
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for (const std::string& str : CASES) {
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auto ret = bech32::Decode(str);
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BOOST_CHECK(ret.first.empty());
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}
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}
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BOOST_AUTO_TEST_SUITE_END()
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