mirror of
https://github.com/transmission/transmission
synced 2024-12-23 16:24:02 +00:00
9f7c865454
* refactor: keep torrent hash in std::array<char,20> This replaces the hashString QString allocation with a compile-time array that's included in sizeof the Torrent struct that owns it.
551 lines
17 KiB
C++
551 lines
17 KiB
C++
/*
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* This file Copyright (C) 2013-2014 Mnemosyne LLC
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*
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* It may be used under the GNU GPL versions 2 or 3
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* or any future license endorsed by Mnemosyne LLC.
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*
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*/
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#define LIBTRANSMISSION_VARIANT_MODULE
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#include "transmission.h"
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#include "utils.h" /* tr_free */
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#include "variant-common.h"
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#include "variant.h"
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#include <algorithm>
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#include <array>
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#include <cmath> // lrint()
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#include <cctype> // isspace()
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#include <string>
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#include "gtest/gtest.h"
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class VariantTest : public ::testing::Test
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{
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protected:
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std::string stripWhitespace(std::string const& in)
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{
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auto s = in;
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s.erase(s.begin(), std::find_if_not(s.begin(), s.end(), ::isspace));
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s.erase(std::find_if_not(s.rbegin(), s.rend(), ::isspace).base(), s.end());
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return s;
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}
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auto bencParseInt(std::string const& in, uint8_t const** end, int64_t* val)
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{
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return tr_bencParseInt(in.data(),
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in.data() + in.size(),
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end, val);
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}
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};
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#ifndef _WIN32
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# define STACK_SMASH_DEPTH (1 * 1000 * 1000)
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#else
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# define STACK_SMASH_DEPTH (100 * 1000)
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#endif
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TEST_F(VariantTest, parseInt)
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{
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auto const in = std::string { "i64e" };
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auto constexpr InitVal = int64_t { 888 };
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auto constexpr ExpectVal = int64_t { 64 };
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uint8_t const* end = {};
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auto val = int64_t { InitVal };
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auto const err = bencParseInt(in, &end, &val);
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EXPECT_EQ(0, err);
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EXPECT_EQ(ExpectVal, val);
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EXPECT_EQ(reinterpret_cast<decltype(end)>(in.data() + in.size()), end);
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}
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TEST_F(VariantTest, parseIntWithMissingEnd)
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{
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auto const in = std::string { "i64" };
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auto constexpr InitVal = int64_t { 888 };
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uint8_t const* end = {};
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auto val = int64_t { InitVal };
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auto const err = bencParseInt(in, &end, &val);
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EXPECT_EQ(EILSEQ, err);
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EXPECT_EQ(InitVal, val);
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EXPECT_EQ(nullptr, end);
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}
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TEST_F(VariantTest, parseIntEmptyBuffer)
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{
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auto const in = std::string {};
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auto constexpr InitVal = int64_t { 888 };
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uint8_t const* end = {};
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auto val = int64_t { InitVal };
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auto const err = bencParseInt(in, &end, &val);
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EXPECT_EQ(EILSEQ, err);
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EXPECT_EQ(InitVal, val);
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EXPECT_EQ(nullptr, end);
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}
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TEST_F(VariantTest, parseIntWithBadDigits)
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{
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auto const in = std::string { "i6z4e" };
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auto constexpr InitVal = int64_t { 888 };
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uint8_t const* end = {};
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auto val = int64_t { InitVal };
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auto const err = bencParseInt(in, &end, &val);
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EXPECT_EQ(EILSEQ, err);
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EXPECT_EQ(InitVal, val);
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EXPECT_EQ(nullptr, end);
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}
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TEST_F(VariantTest, parseNegativeInt)
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{
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auto const in = std::string { "i-3e" };
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uint8_t const* end = {};
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auto val = int64_t {};
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auto const err = bencParseInt(in, &end, &val);
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EXPECT_EQ(0, err);
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EXPECT_EQ(-3, val);
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EXPECT_EQ(reinterpret_cast<decltype(end)>(in.data() + in.size()), end);
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}
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TEST_F(VariantTest, parseIntZero)
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{
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auto const in = std::string { "i0e" };
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uint8_t const* end = {};
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auto val = int64_t {};
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auto const err = bencParseInt(in, &end, &val);
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EXPECT_EQ(0, err);
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EXPECT_EQ(0, val);
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EXPECT_EQ(reinterpret_cast<decltype(end)>(in.data() + in.size()), end);
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}
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TEST_F(VariantTest, parseIntWithLeadingZero)
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{
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auto const in = std::string { "i04e" };
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auto constexpr InitVal = int64_t { 888 };
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uint8_t const* end = {};
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auto val = int64_t { InitVal };
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auto const err = bencParseInt(in, &end, &val);
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EXPECT_EQ(EILSEQ, err); // no leading zeroes allowed
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EXPECT_EQ(InitVal, val);
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EXPECT_EQ(nullptr, end);
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}
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TEST_F(VariantTest, str)
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{
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auto buf = std::array<uint8_t, 128>{};
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int err;
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int n;
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uint8_t const* end;
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uint8_t const* str;
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size_t len;
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// string len is designed to overflow
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n = tr_snprintf(buf.data(), buf.size(), "%zu:boat", size_t(SIZE_MAX - 2));
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err = tr_bencParseStr(&buf[0], &buf[n], &end, &str, &len);
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EXPECT_EQ(EILSEQ, err);
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EXPECT_EQ(size_t{}, len);
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EXPECT_EQ(nullptr, str);
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EXPECT_EQ(nullptr, end);
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// good string
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n = tr_snprintf(buf.data(), buf.size(), "4:boat");
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err = tr_bencParseStr(&buf[0], &buf[n], &end, &str, &len);
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EXPECT_EQ(0, err);
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EXPECT_EQ(size_t{ 4 }, len);
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EXPECT_EQ(0, memcmp("boat", str, len));
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EXPECT_EQ(buf.data() + n, end);
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str = nullptr;
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end = nullptr;
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len = 0;
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// string goes past end of buffer
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err = tr_bencParseStr(&buf[0], &buf[n - 1], &end, &str, &len);
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EXPECT_EQ(EILSEQ, err);
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EXPECT_EQ(size_t{}, len);
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EXPECT_EQ(nullptr, str);
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EXPECT_EQ(nullptr, end);
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// empty string
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n = tr_snprintf(buf.data(), buf.size(), "0:");
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err = tr_bencParseStr(&buf[0], &buf[n], &end, &str, &len);
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EXPECT_EQ(0, err);
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EXPECT_EQ(size_t{}, len);
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EXPECT_EQ('\0', *str);
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EXPECT_EQ(buf.data() + n, end);
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str = nullptr;
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end = nullptr;
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len = 0;
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// short string
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n = tr_snprintf(buf.data(), buf.size(), "3:boat");
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err = tr_bencParseStr(&buf[0], &buf[n], &end, &str, &len);
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EXPECT_EQ(0, err);
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EXPECT_EQ(size_t{ 3 }, len);
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EXPECT_EQ(0, memcmp("boa", str, len));
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EXPECT_EQ(buf.data() + 5, end);
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str = nullptr;
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end = nullptr;
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len = 0;
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}
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TEST_F(VariantTest, parse)
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{
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auto buf = std::array<uint8_t, 512>{};
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int64_t i;
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tr_variant val;
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char const* end;
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auto n = tr_snprintf(buf.data(), buf.size(), "i64e");
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auto err = tr_variantFromBencFull(&val, buf.data(), n, nullptr, &end);
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EXPECT_EQ(0, err);
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EXPECT_TRUE(tr_variantGetInt(&val, &i));
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EXPECT_EQ(int64_t(64), i);
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EXPECT_EQ(reinterpret_cast<char const*>(buf.data()) + n, end);
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tr_variantFree(&val);
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n = tr_snprintf(buf.data(), buf.size(), "li64ei32ei16ee");
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err = tr_variantFromBencFull(&val, buf.data(), n, nullptr, &end);
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EXPECT_EQ(0, err);
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EXPECT_EQ(reinterpret_cast<char const*>(&buf[n]), end);
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EXPECT_EQ(size_t{ 3 }, tr_variantListSize(&val));
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EXPECT_TRUE(tr_variantGetInt(tr_variantListChild(&val, 0), &i));
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EXPECT_EQ(64, i);
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EXPECT_TRUE(tr_variantGetInt(tr_variantListChild(&val, 1), &i));
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EXPECT_EQ(32, i);
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EXPECT_TRUE(tr_variantGetInt(tr_variantListChild(&val, 2), &i));
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EXPECT_EQ(16, i);
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size_t len;
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auto* saved = tr_variantToStr(&val, TR_VARIANT_FMT_BENC, &len);
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EXPECT_EQ(static_cast<size_t>(n), len);
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EXPECT_STREQ(reinterpret_cast<char const*>(buf.data()), saved);
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tr_free(saved);
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tr_variantFree(&val);
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end = nullptr;
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n = tr_snprintf(buf.data(), buf.size(), "lllee");
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err = tr_variantFromBencFull(&val, buf.data(), n, nullptr, &end);
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EXPECT_NE(0, err);
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EXPECT_EQ(nullptr, end);
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end = nullptr;
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n = tr_snprintf(buf.data(), buf.size(), "le");
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err = tr_variantFromBencFull(&val, buf.data(), n, nullptr, &end);
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EXPECT_EQ(0, err);
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EXPECT_EQ(reinterpret_cast<char const*>(&buf[n]), end);
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saved = tr_variantToStr(&val, TR_VARIANT_FMT_BENC, &len);
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EXPECT_EQ(static_cast<size_t>(n), len);
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EXPECT_STREQ("le", saved);
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tr_free(saved);
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tr_variantFree(&val);
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}
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TEST_F(VariantTest, bencParseAndReencode) {
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struct LocalTest
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{
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std::string benc;
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bool is_good;
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};
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auto const tests = std::array<LocalTest, 9>{
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LocalTest{ "llleee", true },
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{ "d3:cow3:moo4:spam4:eggse", true },
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{ "d4:spaml1:a1:bee", true },
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{ "d5:greenli1ei2ei3ee4:spamd1:ai123e3:keyi214eee", true },
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{ "d9:publisher3:bob17:publisher-webpage15:www.example.com18:publisher.location4:homee", true },
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{ "d8:completei1e8:intervali1800e12:min intervali1800e5:peers0:e", true },
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{ "d1:ai0e1:be", false }, // odd number of children
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{ "", false },
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{ " ", false }
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};
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for (const auto& test : tests)
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{
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tr_variant val;
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char const* end = nullptr;
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auto const err = tr_variantFromBencFull(&val, test.benc.data(), test.benc.size(), nullptr, &end);
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if (!test.is_good)
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{
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EXPECT_NE(0, err);
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}
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else
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{
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EXPECT_EQ(0, err);
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EXPECT_EQ(test.benc.data() + test.benc.size(), end);
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auto saved_len = size_t{};
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auto* saved = tr_variantToStr(&val, TR_VARIANT_FMT_BENC, &saved_len);
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EXPECT_EQ(test.benc, std::string(saved, saved_len));
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tr_free(saved);
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tr_variantFree(&val);
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}
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}
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}
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TEST_F(VariantTest, bencSortWhenSerializing)
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{
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auto const in = std::string { "lld1:bi32e1:ai64eeee" };
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auto const expected_out = std::string { "lld1:ai64e1:bi32eeee" };
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tr_variant val;
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char const* end;
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auto const err = tr_variantFromBencFull(&val, in.data(), in.size(), nullptr, &end);
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EXPECT_EQ(0, err);
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EXPECT_EQ(reinterpret_cast<decltype(end)>(in.data() + in.size()), end);
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auto len = size_t{};
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auto* saved = tr_variantToStr(&val, TR_VARIANT_FMT_BENC, &len);
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EXPECT_EQ(expected_out, std::string(saved, len));
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tr_free(saved);
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tr_variantFree(&val);
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}
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TEST_F(VariantTest, bencMalformedTooManyEndings)
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{
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auto const in = std::string { "leee" };
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auto const expected_out = std::string { "le" };
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tr_variant val;
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char const* end;
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auto const err = tr_variantFromBencFull(&val, in.data(), in.size(), nullptr, &end);
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EXPECT_EQ(0, err);
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EXPECT_EQ(in.data() + expected_out.size(), end);
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auto len = size_t{};
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auto* saved = tr_variantToStr(&val, TR_VARIANT_FMT_BENC, &len);
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EXPECT_EQ(expected_out, std::string(saved, len));
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tr_free(saved);
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tr_variantFree(&val);
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}
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TEST_F(VariantTest, bencMalformedNoEnding)
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{
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auto const in = std::string { "l1:a1:b1:c" };
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tr_variant val;
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EXPECT_EQ(EILSEQ, tr_variantFromBenc(&val, in.data(), in.size()));
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}
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TEST_F(VariantTest, bencMalformedIncompleteString)
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{
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auto const in = std::string { "1:" };
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tr_variant val;
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EXPECT_EQ(EILSEQ, tr_variantFromBenc(&val, in.data(), in.size()));
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}
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TEST_F(VariantTest, bencToJson)
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{
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struct LocalTest
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{
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std::string benc;
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std::string expected;
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};
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auto const tests = std::array<LocalTest, 5>{
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LocalTest{ "i6e", "6" },
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{ "d5:helloi1e5:worldi2ee", R"({"hello":1,"world":2})" },
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{ "d5:helloi1e5:worldi2e3:fooli1ei2ei3eee", R"({"foo":[1,2,3],"hello":1,"world":2})" },
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{ "d5:helloi1e5:worldi2e3:fooli1ei2ei3ed1:ai0eeee", R"({"foo":[1,2,3,{"a":0}],"hello":1,"world":2})" },
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{ "d4:argsd6:statusle7:status2lee6:result7:successe", R"({"args":{"status":[],"status2":[]},"result":"success"})" }
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};
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for (auto const& test : tests)
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{
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tr_variant top;
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tr_variantFromBenc(&top, test.benc.data(), test.benc.size());
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auto len = size_t{};
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auto* str = tr_variantToStr(&top, TR_VARIANT_FMT_JSON_LEAN, &len);
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EXPECT_EQ(test.expected, stripWhitespace(std::string(str, len)));
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tr_free(str);
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tr_variantFree(&top);
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}
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}
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TEST_F(VariantTest, merge)
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{
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auto const i1 = tr_quark_new("i1", 2);
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auto const i2 = tr_quark_new("i2", 2);
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auto const i3 = tr_quark_new("i3", 2);
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auto const i4 = tr_quark_new("i4", 2);
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auto const s5 = tr_quark_new("s5", 2);
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auto const s6 = tr_quark_new("s6", 2);
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auto const s7 = tr_quark_new("s7", 2);
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auto const s8 = tr_quark_new("s8", 2);
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/* initial dictionary (default values) */
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tr_variant dest;
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tr_variantInitDict(&dest, 10);
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tr_variantDictAddInt(&dest, i1, 1);
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tr_variantDictAddInt(&dest, i2, 2);
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tr_variantDictAddInt(&dest, i4, -35); /* remains untouched */
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tr_variantDictAddStr(&dest, s5, "abc");
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tr_variantDictAddStr(&dest, s6, "def");
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tr_variantDictAddStr(&dest, s7, "127.0.0.1"); /* remains untouched */
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/* new dictionary, will overwrite items in dest */
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tr_variant src;
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tr_variantInitDict(&src, 10);
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tr_variantDictAddInt(&src, i1, 1); /* same value */
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tr_variantDictAddInt(&src, i2, 4); /* new value */
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tr_variantDictAddInt(&src, i3, 3); /* new key:value */
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tr_variantDictAddStr(&src, s5, "abc"); /* same value */
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tr_variantDictAddStr(&src, s6, "xyz"); /* new value */
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tr_variantDictAddStr(&src, s8, "ghi"); /* new key:value */
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tr_variantMergeDicts(&dest, /*const*/ &src);
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int64_t i;
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EXPECT_TRUE(tr_variantDictFindInt(&dest, i1, &i));
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EXPECT_EQ(1, i);
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EXPECT_TRUE(tr_variantDictFindInt(&dest, i2, &i));
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EXPECT_EQ(4, i);
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EXPECT_TRUE(tr_variantDictFindInt(&dest, i3, &i));
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EXPECT_EQ(3, i);
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EXPECT_TRUE(tr_variantDictFindInt(&dest, i4, &i));
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EXPECT_EQ(-35, i);
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size_t len;
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char const* s;
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EXPECT_TRUE(tr_variantDictFindStr(&dest, s5, &s, &len));
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EXPECT_EQ(size_t{ 3 }, len);
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EXPECT_STREQ("abc", s);
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EXPECT_TRUE(tr_variantDictFindStr(&dest, s6, &s, &len));
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EXPECT_EQ(size_t{ 3 }, len);
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EXPECT_STREQ("xyz", s);
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EXPECT_TRUE(tr_variantDictFindStr(&dest, s7, &s, &len));
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EXPECT_EQ(size_t{ 9 }, len);
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EXPECT_STREQ("127.0.0.1", s);
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EXPECT_TRUE(tr_variantDictFindStr(&dest, s8, &s, &len));
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EXPECT_EQ(size_t{ 3 }, len);
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EXPECT_STREQ("ghi", s);
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tr_variantFree(&dest);
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tr_variantFree(&src);
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}
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TEST_F(VariantTest, stackSmash)
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{
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// make a nested list of list of lists.
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int constexpr Depth = STACK_SMASH_DEPTH;
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std::string const in = std::string(Depth, 'l') + std::string(Depth, 'e');
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// confirm that it parses
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char const* end;
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tr_variant val;
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auto err = tr_variantFromBencFull(&val, in.data(), in.size(), nullptr, &end);
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EXPECT_EQ(0, err);
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EXPECT_EQ(in.data() + in.size(), end);
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// confirm that we can serialize it back again
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size_t len;
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auto* saved = tr_variantToStr(&val, TR_VARIANT_FMT_BENC, &len);
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EXPECT_EQ(in, std::string(saved, len));
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tr_free(saved);
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tr_variantFree(&val);
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}
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TEST_F(VariantTest, boolAndIntRecast)
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{
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auto const key1 = tr_quark_new("key1", 4);
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auto const key2 = tr_quark_new("key2", 4);
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auto const key3 = tr_quark_new("key3", 4);
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auto const key4 = tr_quark_new("key4", 4);
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tr_variant top;
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tr_variantInitDict(&top, 10);
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tr_variantDictAddBool(&top, key1, false);
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tr_variantDictAddBool(&top, key2, 0); // NOLINT modernize-use-bool-literals
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tr_variantDictAddInt(&top, key3, true);
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tr_variantDictAddInt(&top, key4, 1);
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// confirm we can read both bools and ints as bools
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bool b;
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EXPECT_TRUE(tr_variantDictFindBool(&top, key1, &b));
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EXPECT_FALSE(b);
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EXPECT_TRUE(tr_variantDictFindBool(&top, key2, &b));
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EXPECT_FALSE(b);
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EXPECT_TRUE(tr_variantDictFindBool(&top, key3, &b));
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EXPECT_TRUE(b);
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EXPECT_TRUE(tr_variantDictFindBool(&top, key4, &b));
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EXPECT_TRUE(b);
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// confirm we can read both bools and ints as ints
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int64_t i;
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EXPECT_TRUE(tr_variantDictFindInt(&top, key1, &i));
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EXPECT_EQ(0, i);
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EXPECT_TRUE(tr_variantDictFindInt(&top, key2, &i));
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EXPECT_EQ(0, i);
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EXPECT_TRUE(tr_variantDictFindInt(&top, key3, &i));
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EXPECT_NE(0, i);
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EXPECT_TRUE(tr_variantDictFindInt(&top, key4, &i));
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EXPECT_NE(0, i);
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tr_variantFree(&top);
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}
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TEST_F(VariantTest, dictFindType)
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{
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auto const expected_str = std::string { "this-is-a-string" };
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auto const expected_bool = bool{ true };
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auto const expected_int = int{ 1234 };
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auto const expected_real = double{ 0.3 };
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auto const key_bool = tr_quark_new("this-is-a-bool", TR_BAD_SIZE);
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auto const key_real = tr_quark_new("this-is-a-real", TR_BAD_SIZE);
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auto const key_int = tr_quark_new("this-is-an-int", TR_BAD_SIZE);
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auto const key_str = tr_quark_new("this-is-a-string", TR_BAD_SIZE);
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// populate a dict
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tr_variant top;
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tr_variantInitDict(&top, 0);
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tr_variantDictAddBool(&top, key_bool, expected_bool);
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tr_variantDictAddInt(&top, key_int, expected_int);
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tr_variantDictAddReal(&top, key_real, expected_real);
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tr_variantDictAddStr(&top, key_str, expected_str.data());
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// look up the keys as strings
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char const* str = {};
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auto len = size_t{};
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EXPECT_FALSE(tr_variantDictFindStr(&top, key_bool, &str, &len));
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EXPECT_FALSE(tr_variantDictFindStr(&top, key_real, &str, &len));
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EXPECT_FALSE(tr_variantDictFindStr(&top, key_int, &str, &len));
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EXPECT_TRUE(tr_variantDictFindStr(&top, key_str, &str, &len));
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EXPECT_EQ(expected_str, std::string(str, len));
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// look up the keys as bools
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auto b = bool{};
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EXPECT_FALSE(tr_variantDictFindBool(&top, key_int, &b));
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EXPECT_FALSE(tr_variantDictFindBool(&top, key_real, &b));
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EXPECT_FALSE(tr_variantDictFindBool(&top, key_str, &b));
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EXPECT_TRUE(tr_variantDictFindBool(&top, key_bool, &b));
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EXPECT_EQ(expected_bool, b);
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// look up the keys as doubles
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auto d = double{};
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EXPECT_FALSE(tr_variantDictFindReal(&top, key_bool, &d));
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EXPECT_TRUE(tr_variantDictFindReal(&top, key_int, &d));
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EXPECT_EQ(expected_int, std::lrint(d));
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EXPECT_FALSE(tr_variantDictFindReal(&top, key_str, &d));
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EXPECT_TRUE(tr_variantDictFindReal(&top, key_real, &d));
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EXPECT_EQ(std::lrint(expected_real * 100), std::lrint(d * 100));
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// look up the keys as ints
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auto i = int64_t {};
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EXPECT_TRUE(tr_variantDictFindInt(&top, key_bool, &i));
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EXPECT_EQ(expected_bool ? 1 : 0, i);
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EXPECT_FALSE(tr_variantDictFindInt(&top, key_real, &i));
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EXPECT_FALSE(tr_variantDictFindInt(&top, key_str, &i));
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EXPECT_TRUE(tr_variantDictFindInt(&top, key_int, &i));
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EXPECT_EQ(expected_int, i);
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tr_variantFree(&top);
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}
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