mirror of
https://github.com/XRPLF/rippled.git
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The codebase is filled with includes that are unused, and which thus can be removed. At the same time, the files often do not include all headers that contain the definitions used in those files. This change uses clang-format and clang-tidy to clean up the includes, with minor manual intervention to ensure the code compiles on all platforms.
475 lines
15 KiB
C++
475 lines
15 KiB
C++
//------------------------------------------------------------------------------
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/*
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This file is part of rippled: https://github.com/ripple/rippled
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Copyright (c) 2012, 2013 Ripple Labs Inc.
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Permission to use, copy, modify, and/or distribute this software for any
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purpose with or without fee is hereby granted, provided that the above
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copyright notice and this permission notice appear in all copies.
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THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES
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WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF
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MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR
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ANY SPECIAL , DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES
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WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN
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ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF
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OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE.
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*/
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//==============================================================================
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#include <xrpl/beast/unit_test.h>
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#include <xrpl/protocol/PublicKey.h>
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#include <xrpl/protocol/SecretKey.h>
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#include <vector>
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namespace ripple {
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class PublicKey_test : public beast::unit_test::suite
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{
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public:
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using blob = std::vector<std::uint8_t>;
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template <class FwdIter, class Container>
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static void
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hex_to_binary(FwdIter first, FwdIter last, Container& out)
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{
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struct Table
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{
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int val[256];
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Table()
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{
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std::fill(val, val + 256, 0);
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for (int i = 0; i < 10; ++i)
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val['0' + i] = i;
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for (int i = 0; i < 6; ++i)
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{
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val['A' + i] = 10 + i;
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val['a' + i] = 10 + i;
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}
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}
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int
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operator[](int i)
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{
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return val[i];
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}
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};
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static Table lut;
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out.reserve(std::distance(first, last) / 2);
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while (first != last)
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{
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auto const hi(lut[(*first++)]);
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auto const lo(lut[(*first++)]);
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out.push_back((hi * 16) + lo);
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}
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}
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blob
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sig(std::string const& hex)
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{
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blob b;
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hex_to_binary(hex.begin(), hex.end(), b);
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return b;
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}
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bool
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check(std::optional<ECDSACanonicality> answer, std::string const& s)
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{
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return ecdsaCanonicality(makeSlice(sig(s))) == answer;
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}
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void
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testCanonical()
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{
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testcase("Canonical");
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// Fully canonical
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BEAST_EXPECT(check(
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ECDSACanonicality::fullyCanonical,
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"3045"
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"022100FF478110D1D4294471EC76E0157540C2181F47DEBD25D7F9E7DDCCCD47EE"
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"E905"
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"0220078F07CDAE6C240855D084AD91D1479609533C147C93B0AEF19BC9724D003F"
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"28"));
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BEAST_EXPECT(check(
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ECDSACanonicality::fullyCanonical,
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"3045"
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"0221009218248292F1762D8A51BE80F8A7F2CD288D810CE781D5955700DA1684DF"
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"1D2D"
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"022041A1EE1746BFD72C9760CC93A7AAA8047D52C8833A03A20EAAE92EA19717B4"
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"54"));
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BEAST_EXPECT(check(
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ECDSACanonicality::fullyCanonical,
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"3044"
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"02206A9E43775F73B6D1EC420E4DDD222A80D4C6DF5D1BEECC431A91B63C928B75"
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"81"
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"022023E9CC2D61DDA6F73EAA6BCB12688BEB0F434769276B3127E4044ED895C9D9"
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"6B"));
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BEAST_EXPECT(check(
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ECDSACanonicality::fullyCanonical,
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"3044"
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"022056E720007221F3CD4EFBB6352741D8E5A0968D48D8D032C2FBC4F6304AD1D0"
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"4E"
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"02201F39EB392C20D7801C3E8D81D487E742FA84A1665E923225BD6323847C7187"
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"9F"));
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BEAST_EXPECT(check(
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ECDSACanonicality::fullyCanonical,
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"3045"
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"022100FDFD5AD05518CEA0017A2DCB5C4DF61E7C73B6D3A38E7AE93210A1564E8C"
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"2F12"
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"0220214FF061CCC123C81D0BB9D0EDEA04CD40D96BF1425D311DA62A7096BB18EA"
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"18"));
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// Canonical but not fully canonical
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BEAST_EXPECT(check(
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ECDSACanonicality::canonical,
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"3046"
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"022100F477B3FA6F31C7CB3A0D1AD94A231FDD24B8D78862EE334CEA7CD08F6CBC"
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"0A1B"
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"022100928E6BCF1ED2684679730C5414AEC48FD62282B090041C41453C1D064AF5"
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"97A1"));
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BEAST_EXPECT(check(
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ECDSACanonicality::canonical,
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"3045"
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"022063E7C7CA93CB2400E413A342C027D00665F8BAB9C22EF0A7B8AE3AAF092230"
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"B6"
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"0221008F2E8BB7D09521ABBC277717B14B93170AE6465C5A1B36561099319C4BEB"
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"254C"));
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BEAST_EXPECT(check(
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ECDSACanonicality::canonical,
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"3046"
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"02210099DCA1188663DDEA506A06A7B20C2B7D8C26AFF41DECE69D6C5F7C967D32"
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"625F"
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"022100897658A6B1F9EEE5D140D7A332DA0BD73BB98974EA53F6201B01C1B594F2"
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"86EA"));
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BEAST_EXPECT(check(
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ECDSACanonicality::canonical,
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"3045"
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"02200855DE366E4E323AA2CE2A25674401A7D11F72EC432770D07F7B57DF7387AE"
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"C0"
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"022100DA4C6ADDEA14888858DE2AC5B91ED9050D6972BB388DEF582628CEE32869"
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"AE35"));
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// valid
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BEAST_EXPECT(check(
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ECDSACanonicality::fullyCanonical,
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"3006"
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"020101"
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"020102"));
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BEAST_EXPECT(check(
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ECDSACanonicality::fullyCanonical,
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"3044"
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"02203932c892e2e550f3af8ee4ce9c215a87f9bb831dcac87b2838e2c2eaa891df"
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"0c"
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"022030b61dd36543125d56b9f9f3a1f53189e5af33cdda8d77a5209aec03978fa0"
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"01"));
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BEAST_EXPECT(check(
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ECDSACanonicality::canonical,
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"3045"
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"0220076045be6f9eca28ff1ec606b833d0b87e70b2a630f5e3a496b110967a40f9"
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"0a"
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"0221008fffd599910eefe00bc803c688eca1d2ba7f6b180620eaa03488e6585db6"
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"ba01"));
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BEAST_EXPECT(check(
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ECDSACanonicality::canonical,
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"3046"
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"022100876045be6f9eca28ff1ec606b833d0b87e70b2a630f5e3a496b110967a40"
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"f90a"
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"0221008fffd599910eefe00bc803c688c2eca1d2ba7f6b180620eaa03488e6585d"
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"b6ba"));
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BEAST_EXPECT(check(
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std::nullopt,
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"3005"
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"0201FF"
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"0200"));
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BEAST_EXPECT(check(
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std::nullopt,
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"3006"
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"020101"
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"020202"));
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BEAST_EXPECT(check(
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std::nullopt,
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"3006"
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"020701"
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"020102"));
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BEAST_EXPECT(check(
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std::nullopt,
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"3006"
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"020401"
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"020102"));
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BEAST_EXPECT(check(
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std::nullopt,
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"3006"
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"020501"
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"020102"));
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BEAST_EXPECT(check(
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std::nullopt,
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"3006"
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"020201"
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"020102"));
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BEAST_EXPECT(check(
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std::nullopt,
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"3006"
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"020301"
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"020202"));
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BEAST_EXPECT(check(
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std::nullopt,
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"3006"
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"020401"
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"020202"));
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BEAST_EXPECT(check(
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std::nullopt,
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"3047"
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"0221005990e0584b2b238e1dfaad8d6ed69ecc1a4a13ac85fc0b31d0df395eb1ba"
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"6105"
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"022200002d5876262c288beb511d061691bf26777344b702b00f8fe28621fe4e56"
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"6695ed"));
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BEAST_EXPECT(check(
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std::nullopt,
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"3144"
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"02205990e0584b2b238e1dfaad8d6ed69ecc1a4a13ac85fc0b31d0df395eb1ba61"
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"05"
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"02202d5876262c288beb511d061691bf26777344b702b00f8fe28621fe4e566695"
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"ed"));
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BEAST_EXPECT(check(
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std::nullopt,
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"3045"
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"02205990e0584b2b238e1dfaad8d6ed69ecc1a4a13ac85fc0b31d0df395eb1ba61"
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"05"
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"02202d5876262c288beb511d061691bf26777344b702b00f8fe28621fe4e566695"
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"ed"));
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BEAST_EXPECT(check(
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std::nullopt,
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"301F"
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"01205990e0584b2b238e1dfaad8d6ed69ecc1a4a13ac85fc0b31d0df395eb1"));
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BEAST_EXPECT(check(
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std::nullopt,
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"3045"
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"02205990e0584b2b238e1dfaad8d6ed69ecc1a4a13ac85fc0b31d0df395eb1ba61"
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"05"
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"02202d5876262c288beb511d061691bf26777344b702b00f8fe28621fe4e566695"
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"ed00"));
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BEAST_EXPECT(check(
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std::nullopt,
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"3044"
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"01205990e0584b2b238e1dfaad8d6ed69ecc1a4a13ac85fc0b31d0df395eb1ba61"
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"05"
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"02202d5876262c288beb511d061691bf26777344b702b00f8fe28621fe4e566695"
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"ed"));
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BEAST_EXPECT(check(
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std::nullopt,
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"3024"
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"0200"
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"02202d5876262c288beb511d061691bf26777344b702b00f8fe28621fe4e566695"
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"ed"));
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BEAST_EXPECT(check(
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std::nullopt,
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"3044"
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"02208990e0584b2b238e1dfaad8d6ed69ecc1a4a13ac85fc0b31d0df395eb1ba61"
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"05"
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"02202d5876262c288beb511d061691bf26777344b702b00f8fe28621fe4e566695"
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"ed"));
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BEAST_EXPECT(check(
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std::nullopt,
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"3045"
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"0221005990e0584b2b238e1dfaad8d6ed69ecc1a4a13ac85fc0b31d0df395eb1ba"
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"6105"
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"02202d5876262c288beb511d061691bf26777344b702b00f8fe28621fe4e566695"
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"ed"));
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BEAST_EXPECT(check(
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std::nullopt,
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"3044"
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"02205990e0584b2b238e1dfaad8d6ed69ecc1a4a13ac85fc0b31d0df395eb1ba61"
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"05012"
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"02d5876262c288beb511d061691bf26777344b702b00f8fe28621fe4e566695e"
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"d"));
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BEAST_EXPECT(check(
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std::nullopt,
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"3024"
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"02205990e0584b2b238e1dfaad8d6ed69ecc1a4a13ac85fc0b31d0df395eb1ba61"
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"05"
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"0200"));
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BEAST_EXPECT(check(
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std::nullopt,
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"3044"
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"02205990e0584b2b238e1dfaad8d6ed69ecc1a4a13ac85fc0b31d0df395eb1ba61"
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"05"
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"0220fd5876262c288beb511d061691bf26777344b702b00f8fe28621fe4e566695"
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"ed"));
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BEAST_EXPECT(check(
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std::nullopt,
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"3045"
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"02205990e0584b2b238e1dfaad8d6ed69ecc1a4a13ac85fc0b31d0df395eb1ba61"
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"05"
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"0221002d5876262c288beb511d061691bf26777344b702b00f8fe28621fe4e5666"
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"95ed"));
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}
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void
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testBase58(KeyType keyType)
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{
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// Try converting short, long and malformed data
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BEAST_EXPECT(!parseBase58<PublicKey>(TokenType::NodePublic, ""));
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BEAST_EXPECT(!parseBase58<PublicKey>(TokenType::NodePublic, " "));
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BEAST_EXPECT(
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!parseBase58<PublicKey>(TokenType::NodePublic, "!ty89234gh45"));
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auto const good = toBase58(
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TokenType::NodePublic, derivePublicKey(keyType, randomSecretKey()));
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// Short (non-empty) strings
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{
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auto s = good;
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// Remove all characters from the string in random order:
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std::hash<std::string> r;
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while (!s.empty())
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{
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s.erase(r(s) % s.size(), 1);
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BEAST_EXPECT(!parseBase58<PublicKey>(TokenType::NodePublic, s));
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}
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}
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// Long strings
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for (std::size_t i = 1; i != 16; i++)
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{
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auto s = good;
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s.resize(s.size() + i, s[i % s.size()]);
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BEAST_EXPECT(!parseBase58<PublicKey>(TokenType::NodePublic, s));
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}
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// Strings with invalid Base58 characters
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for (auto c : std::string("0IOl"))
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{
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for (std::size_t i = 0; i != good.size(); ++i)
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{
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auto s = good;
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s[i % s.size()] = c;
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BEAST_EXPECT(!parseBase58<PublicKey>(TokenType::NodePublic, s));
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}
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}
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// Strings with incorrect prefix
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{
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auto s = good;
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for (auto c : std::string("apsrJqtv7"))
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{
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s[0] = c;
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BEAST_EXPECT(!parseBase58<PublicKey>(TokenType::NodePublic, s));
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}
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}
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// Try some random secret keys
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std::vector<PublicKey> keys;
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keys.reserve(32);
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for (std::size_t i = 0; i != keys.capacity(); ++i)
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keys.emplace_back(derivePublicKey(keyType, randomSecretKey()));
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BEAST_EXPECT(keys.size() == 32);
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for (std::size_t i = 0; i != keys.size(); ++i)
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{
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auto const si = toBase58(TokenType::NodePublic, keys[i]);
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BEAST_EXPECT(!si.empty());
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auto const ski = parseBase58<PublicKey>(TokenType::NodePublic, si);
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BEAST_EXPECT(ski && (keys[i] == *ski));
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for (std::size_t j = i; j != keys.size(); ++j)
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{
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BEAST_EXPECT((keys[i] == keys[j]) == (i == j));
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auto const sj = toBase58(TokenType::NodePublic, keys[j]);
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BEAST_EXPECT((si == sj) == (i == j));
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auto const skj =
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parseBase58<PublicKey>(TokenType::NodePublic, sj);
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BEAST_EXPECT(skj && (keys[j] == *skj));
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BEAST_EXPECT((*ski == *skj) == (i == j));
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}
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}
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}
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void
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testBase58()
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{
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testcase("Base58: secp256k1");
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{
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auto const pk1 = derivePublicKey(
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KeyType::secp256k1,
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generateSecretKey(
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KeyType::secp256k1, generateSeed("masterpassphrase")));
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auto const pk2 = parseBase58<PublicKey>(
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TokenType::NodePublic,
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"n94a1u4jAz288pZLtw6yFWVbi89YamiC6JBXPVUj5zmExe5fTVg9");
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BEAST_EXPECT(pk2);
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BEAST_EXPECT(pk1 == *pk2);
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}
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testBase58(KeyType::secp256k1);
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testcase("Base58: ed25519");
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{
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auto const pk1 = derivePublicKey(
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KeyType::ed25519,
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generateSecretKey(
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KeyType::ed25519, generateSeed("masterpassphrase")));
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auto const pk2 = parseBase58<PublicKey>(
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TokenType::NodePublic,
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"nHUeeJCSY2dM71oxM8Cgjouf5ekTuev2mwDpc374aLMxzDLXNmjf");
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BEAST_EXPECT(pk2);
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BEAST_EXPECT(pk1 == *pk2);
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}
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testBase58(KeyType::ed25519);
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}
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void
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testMiscOperations()
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{
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testcase("Miscellaneous operations");
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auto const pk1 = derivePublicKey(
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KeyType::secp256k1,
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generateSecretKey(
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KeyType::secp256k1, generateSeed("masterpassphrase")));
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PublicKey pk2(pk1);
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BEAST_EXPECT(pk1 == pk2);
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BEAST_EXPECT(pk2 == pk1);
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PublicKey pk3 = derivePublicKey(
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KeyType::secp256k1,
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generateSecretKey(
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KeyType::secp256k1, generateSeed("arbitraryPassPhrase")));
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// Testing the copy assignment operation of PublicKey class
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|
pk3 = pk2;
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|
BEAST_EXPECT(pk3 == pk2);
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|
BEAST_EXPECT(pk1 == pk3);
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|
}
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|
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|
void
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|
run() override
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|
{
|
|
testBase58();
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|
testCanonical();
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|
testMiscOperations();
|
|
}
|
|
};
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|
|
|
BEAST_DEFINE_TESTSUITE(PublicKey, protocol, ripple);
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|
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} // namespace ripple
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