Add fuzz test for FeeFrac

josibake · Mar 18, 2024 · 7e89b65 · 7e89b65
1 parent 4d6528a
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diff --git a/src/Makefile.test.include b/src/Makefile.test.include
@@ -314,6 +314,7 @@ test_fuzz_fuzz_SOURCES = \
  test/fuzz/descriptor_parse.cpp \
  test/fuzz/deserialize.cpp \
  test/fuzz/eval_script.cpp \
+ test/fuzz/feefrac.cpp \
  test/fuzz/fee_rate.cpp \
  test/fuzz/feeratediagram.cpp \
  test/fuzz/fees.cpp \

diff --git a/src/test/fuzz/feefrac.cpp b/src/test/fuzz/feefrac.cpp
@@ -0,0 +1,123 @@
+// Copyright (c) 2024 The Bitcoin Core developers
+// Distributed under the MIT software license, see the accompanying
+// file COPYING or http://www.opensource.org/licenses/mit-license.php.
+
+#include <util/feefrac.h>
+#include <test/fuzz/FuzzedDataProvider.h>
+#include <test/fuzz/fuzz.h>
+#include <test/fuzz/util.h>
+
+#include <compare>
+#include <cstdint>
+#include <iostream>
+
+namespace {
+
+/** Compute a * b, represented in 4x32 bits, highest limb first. */
+std::array<uint32_t, 4> Mul128(uint64_t a, uint64_t b)
+{
+    std::array<uint32_t, 4> ret{0, 0, 0, 0};
+
+    /** Perform ret += v << (32 * pos), at 128-bit precision. */
+    auto add_fn = [&](uint64_t v, int pos) {
+        uint64_t accum{0};
+        for (int i = 0; i + pos < 4; ++i) {
+            // Add current value at limb pos in ret.
+            accum += ret[3 - pos - i];
+            // Add low or high half of v.
+            if (i == 0) accum += v & 0xffffffff;
+            if (i == 1) accum += v >> 32;
+            // Store lower half of result in limb pos in ret.
+            ret[3 - pos - i] = accum & 0xffffffff;
+            // Leave carry in accum.
+            accum >>= 32;
+        }
+        // Make sure no overflow.
+        assert(accum == 0);
+    };
+
+    // Multiply the 4 individual limbs (schoolbook multiply, with base 2^32).
+    add_fn((a & 0xffffffff) * (b & 0xffffffff), 0);
+    add_fn((a >> 32) * (b & 0xffffffff), 1);
+    add_fn((a & 0xffffffff) * (b >> 32), 1);
+    add_fn((a >> 32) * (b >> 32), 2);
+    return ret;
+}
+
+/* comparison helper for std::array */
+std::strong_ordering compare_arrays(const std::array<uint32_t, 4>& a, const std::array<uint32_t, 4>& b) {
+    for (size_t i = 0; i < a.size(); ++i) {
+        if (a[i] != b[i]) return a[i] <=> b[i];
+    }
+    return std::strong_ordering::equal;
+}
+
+std::strong_ordering MulCompare(int64_t a1, int64_t a2, int64_t b1, int64_t b2)
+{
+    // Compute and compare signs.
+    int sign_a = (a1 == 0 ? 0 : a1 < 0 ? -1 : 1) * (a2 == 0 ? 0 : a2 < 0 ? -1 : 1);
+    int sign_b = (b1 == 0 ? 0 : b1 < 0 ? -1 : 1) * (b2 == 0 ? 0 : b2 < 0 ? -1 : 1);
+    if (sign_a != sign_b) return sign_a <=> sign_b;
+
+    // Compute absolute values.
+    uint64_t abs_a1 = static_cast<uint64_t>(a1), abs_a2 = static_cast<uint64_t>(a2);
+    uint64_t abs_b1 = static_cast<uint64_t>(b1), abs_b2 = static_cast<uint64_t>(b2);
+    // Use (~x + 1) instead of the equivalent (-x) to silence the linter; mod 2^64 behavior is
+    // intentional here.
+    if (a1 < 0) abs_a1 = ~abs_a1 + 1;
+    if (a2 < 0) abs_a2 = ~abs_a2 + 1;
+    if (b1 < 0) abs_b1 = ~abs_b1 + 1;
+    if (b2 < 0) abs_b2 = ~abs_b2 + 1;
+
+    // Compute products of absolute values.
+    auto mul_abs_a = Mul128(abs_a1, abs_a2);
+    auto mul_abs_b = Mul128(abs_b1, abs_b2);
+    if (sign_a < 0) {
+        return compare_arrays(mul_abs_b, mul_abs_a);
+    } else {
+        return compare_arrays(mul_abs_a, mul_abs_b);
+    }
+}
+
+} // namespace
+
+FUZZ_TARGET(feefrac)
+{
+    FuzzedDataProvider provider(buffer.data(), buffer.size());
+
+    int64_t f1 = provider.ConsumeIntegral<int64_t>();
+    int32_t s1 = provider.ConsumeIntegral<int32_t>();
+    if (s1 == 0) f1 = 0;
+    FeeFrac fr1(f1, s1);
+    assert(fr1.IsEmpty() == (s1 == 0));
+
+    int64_t f2 = provider.ConsumeIntegral<int64_t>();
+    int32_t s2 = provider.ConsumeIntegral<int32_t>();
+    if (s2 == 0) f2 = 0;
+    FeeFrac fr2(f2, s2);
+    assert(fr2.IsEmpty() == (s2 == 0));
+
+    // Feerate comparisons
+    auto cmp_feerate = MulCompare(f1, s2, f2, s1);
+    assert(FeeRateCompare(fr1, fr2) == cmp_feerate);
+    assert((fr1 << fr2) == std::is_lt(cmp_feerate));
+    assert((fr1 >> fr2) == std::is_gt(cmp_feerate));
+
+    // Compare with manual invocation of FeeFrac::Mul.
+    auto cmp_mul = FeeFrac::Mul(f1, s2) <=> FeeFrac::Mul(f2, s1);
+    assert(cmp_mul == cmp_feerate);
+
+    // Same, but using FeeFrac::MulFallback.
+    auto cmp_fallback = FeeFrac::MulFallback(f1, s2) <=> FeeFrac::MulFallback(f2, s1);
+    assert(cmp_fallback == cmp_feerate);
+
+    // Total order comparisons
+    auto cmp_total = std::is_eq(cmp_feerate) ? (s2 <=> s1) : cmp_feerate;
+    assert((fr1 <=> fr2) == cmp_total);
+    assert((fr1 < fr2) == std::is_lt(cmp_total));
+    assert((fr1 > fr2) == std::is_gt(cmp_total));
+    assert((fr1 <= fr2) == std::is_lteq(cmp_total));
+    assert((fr1 >= fr2) == std::is_gteq(cmp_total));
+    assert((fr1 == fr2) == std::is_eq(cmp_total));
+    assert((fr1 != fr2) == std::is_neq(cmp_total));
+}