// // immer: immutable data structures for C++ // Copyright (C) 2016, 2017, 2018 Juan Pedro Bolivar Puente // // This software is distributed under the Boost Software License, Version 1.0. // See accompanying file LICENSE or copy at http://boost.org/LICENSE_1_0.txt // #include "fuzzer_input.hpp" #include <immer/flex_vector.hpp> #include <immer/flex_vector_transient.hpp> #include <immer/heap/gc_heap.hpp> #include <immer/refcount/no_refcount_policy.hpp> #include <array> using gc_memory = immer::memory_policy<immer::heap_policy<immer::gc_heap>, immer::no_refcount_policy, immer::gc_transience_policy, false>; extern "C" int LLVMFuzzerTestOneInput(const std::uint8_t* data, std::size_t size) { constexpr auto var_count = 4; constexpr auto bits = 2; using vector_t = immer::flex_vector<int, gc_memory, bits, bits>; using transient_t = typename vector_t::transient_type; using size_t = std::uint8_t; auto vs = std::array<vector_t, var_count>{}; auto ts = std::array<transient_t, var_count>{}; auto is_valid_var = [&](auto idx) { return idx >= 0 && idx < var_count; }; auto is_valid_var_neq = [](auto other) { return [=](auto idx) { return idx >= 0 && idx < var_count && idx != other; }; }; auto is_valid_index = [](auto& v) { return [&](auto idx) { return idx >= 0 && idx < v.size(); }; }; auto is_valid_size = [](auto& v) { return [&](auto idx) { return idx >= 0 && idx <= v.size(); }; }; auto can_concat = [](auto&& v1, auto&& v2) { using size_type = decltype(v1.size()); auto max = std::numeric_limits<size_type>::max() >> (bits * 4); return v1.size() < max && v2.size() < max; }; return fuzzer_input{data, size}.run([&](auto& in) { enum ops { op_transient, op_persistent, op_push_back, op_update, op_take, op_drop, op_concat, op_push_back_mut, op_update_mut, op_take_mut, op_drop_mut, op_prepend_mut, op_prepend_mut_move, op_append_mut, op_append_mut_move, }; auto dst = read<char>(in, is_valid_var); switch (read<char>(in)) { case op_transient: { auto src = read<char>(in, is_valid_var); ts[dst] = vs[src].transient(); break; } case op_persistent: { auto src = read<char>(in, is_valid_var); vs[dst] = ts[src].persistent(); break; } case op_push_back: { auto src = read<char>(in, is_valid_var); vs[dst] = vs[src].push_back(42); break; } case op_update: { auto src = read<char>(in, is_valid_var); auto idx = read<size_t>(in, is_valid_index(vs[src])); vs[dst] = vs[src].update(idx, [](auto x) { return x + 1; }); break; } case op_take: { auto src = read<char>(in, is_valid_var); auto idx = read<size_t>(in, is_valid_size(vs[src])); vs[dst] = vs[src].take(idx); break; } case op_drop: { auto src = read<char>(in, is_valid_var); auto idx = read<size_t>(in, is_valid_size(vs[src])); vs[dst] = vs[src].drop(idx); break; } case op_concat: { auto src = read<char>(in, is_valid_var); auto src2 = read<char>(in, is_valid_var); if (can_concat(vs[src], vs[src2])) vs[dst] = vs[src] + vs[src2]; break; } case op_push_back_mut: { ts[dst].push_back(13); break; } case op_update_mut: { auto idx = read<size_t>(in, is_valid_index(ts[dst])); ts[dst].update(idx, [](auto x) { return x + 1; }); break; } case op_take_mut: { auto idx = read<size_t>(in, is_valid_size(ts[dst])); ts[dst].take(idx); break; } case op_prepend_mut: { auto src = read<char>(in, is_valid_var_neq(dst)); if (can_concat(ts[dst], ts[src])) ts[dst].prepend(ts[src]); break; } case op_prepend_mut_move: { auto src = read<char>(in, is_valid_var_neq(dst)); if (can_concat(ts[dst], ts[src])) { ts[dst].prepend(std::move(ts[src])); ts[src] = {}; } break; } case op_append_mut: { auto src = read<char>(in, is_valid_var_neq(dst)); if (can_concat(ts[dst], ts[src])) ts[dst].append(ts[src]); break; } case op_append_mut_move: { auto src = read<char>(in, is_valid_var_neq(dst)); if (can_concat(ts[dst], ts[src])) { ts[dst].append(std::move(ts[src])); ts[src] = {}; } break; } default: break; }; return true; }); }