1  // Copyright (c) 2019-present The Bitcoin Core developers
 2  // Distributed under the MIT software license, see the accompanying
 3  // file COPYING or http://www.opensource.org/licenses/mit-license.php.
 4  
 5  #include <test/fuzz/fuzz.h>
 6  
 7  #include <base58.h>
 8  #include <psbt.h>
 9  #include <span.h>
10  #include <test/fuzz/FuzzedDataProvider.h>
11  #include <util/strencodings.h>
12  #include <util/string.h>
13  
14  #include <cassert>
15  #include <string>
16  #include <vector>
17  #include <ranges>
18  
19  using util::TrimStringView;
20  
21  FUZZ_TARGET(base58_encode_decode)
22  {
23      FuzzedDataProvider provider{buffer.data(), buffer.size()};
24      const auto random_string{provider.ConsumeRandomLengthString(100)};
25  
26      const auto encoded{EncodeBase58(MakeUCharSpan(random_string))};
27      const auto decode_input{provider.ConsumeBool() ? random_string : encoded};
28      const int max_ret_len{provider.ConsumeIntegralInRange<int>(-1, decode_input.size() + 1)};
29      if (std::vector<unsigned char> decoded; DecodeBase58(decode_input, decoded, max_ret_len)) {
30          const auto encoded_string{EncodeBase58(decoded)};
31          assert(encoded_string == TrimStringView(decode_input));
32          if (decoded.size() > 0) {
33              assert(max_ret_len > 0);
34              assert(decoded.size() <= static_cast<size_t>(max_ret_len));
35              assert(!DecodeBase58(encoded_string, decoded, provider.ConsumeIntegralInRange<int>(0, decoded.size() - 1)));
36          }
37      }
38  }
39  
40  FUZZ_TARGET(base58check_encode_decode)
41  {
42      FuzzedDataProvider provider{buffer.data(), buffer.size()};
43      const auto random_string{provider.ConsumeRandomLengthString(100)};
44  
45      const auto encoded{EncodeBase58Check(MakeUCharSpan(random_string))};
46      const auto decode_input{provider.ConsumeBool() ? random_string : encoded};
47      const int max_ret_len{provider.ConsumeIntegralInRange<int>(-1, decode_input.size() + 1)};
48      if (std::vector<unsigned char> decoded; DecodeBase58Check(decode_input, decoded, max_ret_len)) {
49          const auto encoded_string{EncodeBase58Check(decoded)};
50          assert(encoded_string == TrimStringView(decode_input));
51          if (decoded.size() > 0) {
52              assert(max_ret_len > 0);
53              assert(decoded.size() <= static_cast<size_t>(max_ret_len));
54              assert(!DecodeBase58Check(encoded_string, decoded, provider.ConsumeIntegralInRange<int>(0, decoded.size() - 1)));
55          }
56      }
57  }
58  
59  FUZZ_TARGET(base32_encode_decode)
60  {
61      const std::string random_string{buffer.begin(), buffer.end()};
62  
63      // Decode/Encode roundtrip
64      if (auto result{DecodeBase32(random_string)}) {
65          const auto encoded_string{EncodeBase32(*result)};
66          assert(encoded_string == ToLower(TrimStringView(random_string)));
67      }
68      // Encode/Decode roundtrip
69      const auto encoded{EncodeBase32(buffer)};
70      const auto decoded{DecodeBase32(encoded)};
71      assert(decoded && std::ranges::equal(*decoded, buffer));
72  }
73  
74  FUZZ_TARGET(base64_encode_decode)
75  {
76      const std::string random_string{buffer.begin(), buffer.end()};
77  
78      // Decode/Encode roundtrip
79      if (auto result{DecodeBase64(random_string)}) {
80          const auto encoded_string{EncodeBase64(*result)};
81          assert(encoded_string == TrimStringView(random_string));
82      }
83      // Encode/Decode roundtrip
84      const auto encoded{EncodeBase64(buffer)};
85      const auto decoded{DecodeBase64(encoded)};
86      assert(decoded && std::ranges::equal(*decoded, buffer));
87  }
88  
89  FUZZ_TARGET(psbt_base64_decode)
90  {
91      const std::string random_string{buffer.begin(), buffer.end()};
92  
93      PartiallySignedTransaction psbt;
94      std::string error;
95      const bool ok{DecodeBase64PSBT(psbt, random_string, error)};
96      assert(ok == error.empty());
97  }