/src/uriparser/fuzz/ParseFuzzer.cpp
Line | Count | Source |
1 | | // Copyright 2020 Google LLC |
2 | | // Copyright 2025 Mikhail Khachaiants <mkhachaiants@gmail.com> |
3 | | // |
4 | | // Licensed under the Apache License, Version 2.0 (the "License"); |
5 | | // you may not use this file except in compliance with the License. |
6 | | // You may obtain a copy of the License at |
7 | | // |
8 | | // http://www.apache.org/licenses/LICENSE-2.0 |
9 | | // |
10 | | // Unless required by applicable law or agreed to in writing, software |
11 | | // distributed under the License is distributed on an "AS IS" BASIS, |
12 | | // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. |
13 | | // See the License for the specific language governing permissions and |
14 | | // limitations under the License. |
15 | | |
16 | | #include "uriparser/Uri.h" |
17 | | #include "uriparser/UriIp4.h" |
18 | | #include "FuzzingUtils.h" |
19 | | #include <cstddef> |
20 | | #include <cstring> |
21 | | #include <vector> |
22 | | |
23 | | class UriHolder { |
24 | | public: |
25 | 40.1k | UriHolder() { |
26 | 40.1k | memset((void *)&uri_, 0, sizeof(uri_)); |
27 | 40.1k | } |
28 | | |
29 | 80.2k | ~UriHolder() { |
30 | 80.2k | URI_FUNC(FreeUriMembers)(&uri_); |
31 | 80.2k | } Line | Count | Source | 29 | 40.1k | ~UriHolder() { | 30 | 40.1k | URI_FUNC(FreeUriMembers)(&uri_); | 31 | 40.1k | } |
Line | Count | Source | 29 | 40.1k | ~UriHolder() { | 30 | 40.1k | URI_FUNC(FreeUriMembers)(&uri_); | 31 | 40.1k | } |
|
32 | | |
33 | 80.6k | URI_TYPE(Uri) * get() { |
34 | 80.6k | return &uri_; |
35 | 80.6k | } |
36 | | |
37 | | private: |
38 | | URI_TYPE(Uri) uri_; |
39 | | }; |
40 | | |
41 | 41.7k | void Escapes(const UriString & uri) { |
42 | 41.7k | const URI_CHAR * first = uri.c_str(); |
43 | | // Up to 6 bytes per character with normalizeBreaks enabled (\n -> %0D%0A) |
44 | 41.7k | std::vector<URI_CHAR> buf1(uri.size() * 6 + 1); |
45 | | // and up to 3 bytes per character otherwise |
46 | 41.7k | std::vector<URI_CHAR> buf2(uri.size() * 3 + 1); |
47 | | |
48 | 41.7k | URI_FUNC(Escape)(first, &buf1[0], URI_TRUE, URI_TRUE); |
49 | 41.7k | URI_FUNC(Escape)(first, &buf1[0], URI_FALSE, URI_TRUE); |
50 | 41.7k | if (buf1.data()) { |
51 | 41.7k | URI_FUNC(UnescapeInPlace)(&buf1[0]); |
52 | 41.7k | } |
53 | | |
54 | 41.7k | URI_FUNC(Escape)(first, &buf2[0], URI_TRUE, URI_FALSE); |
55 | 41.7k | URI_FUNC(Escape)(first, &buf2[0], URI_FALSE, URI_FALSE); |
56 | 41.7k | if (buf2.data()) { |
57 | 41.7k | URI_FUNC(UnescapeInPlace)(&buf2[0]); |
58 | 41.7k | } |
59 | 41.7k | } Escapes(std::__1::basic_string<char, std::__1::char_traits<char>, std::__1::allocator<char> > const&) Line | Count | Source | 41 | 20.4k | void Escapes(const UriString & uri) { | 42 | 20.4k | const URI_CHAR * first = uri.c_str(); | 43 | | // Up to 6 bytes per character with normalizeBreaks enabled (\n -> %0D%0A) | 44 | 20.4k | std::vector<URI_CHAR> buf1(uri.size() * 6 + 1); | 45 | | // and up to 3 bytes per character otherwise | 46 | 20.4k | std::vector<URI_CHAR> buf2(uri.size() * 3 + 1); | 47 | | | 48 | 20.4k | URI_FUNC(Escape)(first, &buf1[0], URI_TRUE, URI_TRUE); | 49 | 20.4k | URI_FUNC(Escape)(first, &buf1[0], URI_FALSE, URI_TRUE); | 50 | 20.4k | if (buf1.data()) { | 51 | 20.4k | URI_FUNC(UnescapeInPlace)(&buf1[0]); | 52 | 20.4k | } | 53 | | | 54 | 20.4k | URI_FUNC(Escape)(first, &buf2[0], URI_TRUE, URI_FALSE); | 55 | 20.4k | URI_FUNC(Escape)(first, &buf2[0], URI_FALSE, URI_FALSE); | 56 | 20.4k | if (buf2.data()) { | 57 | 20.4k | URI_FUNC(UnescapeInPlace)(&buf2[0]); | 58 | 20.4k | } | 59 | 20.4k | } |
Escapes(std::__1::basic_string<wchar_t, std::__1::char_traits<wchar_t>, std::__1::allocator<wchar_t> > const&) Line | Count | Source | 41 | 21.2k | void Escapes(const UriString & uri) { | 42 | 21.2k | const URI_CHAR * first = uri.c_str(); | 43 | | // Up to 6 bytes per character with normalizeBreaks enabled (\n -> %0D%0A) | 44 | 21.2k | std::vector<URI_CHAR> buf1(uri.size() * 6 + 1); | 45 | | // and up to 3 bytes per character otherwise | 46 | 21.2k | std::vector<URI_CHAR> buf2(uri.size() * 3 + 1); | 47 | | | 48 | 21.2k | URI_FUNC(Escape)(first, &buf1[0], URI_TRUE, URI_TRUE); | 49 | 21.2k | URI_FUNC(Escape)(first, &buf1[0], URI_FALSE, URI_TRUE); | 50 | 21.2k | if (buf1.data()) { | 51 | 21.2k | URI_FUNC(UnescapeInPlace)(&buf1[0]); | 52 | 21.2k | } | 53 | | | 54 | 21.2k | URI_FUNC(Escape)(first, &buf2[0], URI_TRUE, URI_FALSE); | 55 | 21.2k | URI_FUNC(Escape)(first, &buf2[0], URI_FALSE, URI_FALSE); | 56 | 21.2k | if (buf2.data()) { | 57 | 21.2k | URI_FUNC(UnescapeInPlace)(&buf2[0]); | 58 | 21.2k | } | 59 | 21.2k | } |
|
60 | | |
61 | 41.7k | void FileNames(const UriString & uri) { |
62 | 41.7k | const size_t size = 8 + 3 * uri.size() + 1; |
63 | 41.7k | std::vector<URI_CHAR> buf(size); |
64 | | |
65 | 41.7k | URI_FUNC(UnixFilenameToUriString)(uri.c_str(), &buf[0]); |
66 | 41.7k | URI_FUNC(WindowsFilenameToUriString)(uri.c_str(), &buf[0]); |
67 | 41.7k | URI_FUNC(UriStringToUnixFilename)(uri.c_str(), &buf[0]); |
68 | 41.7k | URI_FUNC(UriStringToWindowsFilename)(uri.c_str(), &buf[0]); |
69 | 41.7k | } FileNames(std::__1::basic_string<char, std::__1::char_traits<char>, std::__1::allocator<char> > const&) Line | Count | Source | 61 | 20.4k | void FileNames(const UriString & uri) { | 62 | 20.4k | const size_t size = 8 + 3 * uri.size() + 1; | 63 | 20.4k | std::vector<URI_CHAR> buf(size); | 64 | | | 65 | 20.4k | URI_FUNC(UnixFilenameToUriString)(uri.c_str(), &buf[0]); | 66 | 20.4k | URI_FUNC(WindowsFilenameToUriString)(uri.c_str(), &buf[0]); | 67 | 20.4k | URI_FUNC(UriStringToUnixFilename)(uri.c_str(), &buf[0]); | 68 | 20.4k | URI_FUNC(UriStringToWindowsFilename)(uri.c_str(), &buf[0]); | 69 | 20.4k | } |
FileNames(std::__1::basic_string<wchar_t, std::__1::char_traits<wchar_t>, std::__1::allocator<wchar_t> > const&) Line | Count | Source | 61 | 21.2k | void FileNames(const UriString & uri) { | 62 | 21.2k | const size_t size = 8 + 3 * uri.size() + 1; | 63 | 21.2k | std::vector<URI_CHAR> buf(size); | 64 | | | 65 | 21.2k | URI_FUNC(UnixFilenameToUriString)(uri.c_str(), &buf[0]); | 66 | 21.2k | URI_FUNC(WindowsFilenameToUriString)(uri.c_str(), &buf[0]); | 67 | 21.2k | URI_FUNC(UriStringToUnixFilename)(uri.c_str(), &buf[0]); | 68 | 21.2k | URI_FUNC(UriStringToWindowsFilename)(uri.c_str(), &buf[0]); | 69 | 21.2k | } |
|
70 | | |
71 | 41.7k | void Ipv4(const UriString & s) { |
72 | 41.7k | const URI_CHAR * cstr = s.c_str(); |
73 | 41.7k | unsigned char result[4] = {}; |
74 | 41.7k | URI_FUNC(ParseIpFourAddress)(result, cstr, &cstr[s.size()]); |
75 | 41.7k | } Ipv4(std::__1::basic_string<char, std::__1::char_traits<char>, std::__1::allocator<char> > const&) Line | Count | Source | 71 | 20.4k | void Ipv4(const UriString & s) { | 72 | 20.4k | const URI_CHAR * cstr = s.c_str(); | 73 | 20.4k | unsigned char result[4] = {}; | 74 | 20.4k | URI_FUNC(ParseIpFourAddress)(result, cstr, &cstr[s.size()]); | 75 | 20.4k | } |
Ipv4(std::__1::basic_string<wchar_t, std::__1::char_traits<wchar_t>, std::__1::allocator<wchar_t> > const&) Line | Count | Source | 71 | 21.2k | void Ipv4(const UriString & s) { | 72 | 21.2k | const URI_CHAR * cstr = s.c_str(); | 73 | 21.2k | unsigned char result[4] = {}; | 74 | 21.2k | URI_FUNC(ParseIpFourAddress)(result, cstr, &cstr[s.size()]); | 75 | 21.2k | } |
|
76 | | |
77 | 41.7k | extern "C" int LLVMFuzzerTestOneInput(const uint8_t * data, size_t size) { |
78 | 41.7k | FuzzedDataProvider stream(data, size); |
79 | 41.7k | bool domainRelative = stream.ConsumeBool(); |
80 | | |
81 | 41.7k | const UriString uri1 = consumeRandomLengthString(stream); |
82 | 41.7k | const UriString uri2 = consumeRemainingBytesAsString(stream); |
83 | | |
84 | 41.7k | Escapes(uri1); |
85 | 41.7k | Escapes(uri2); |
86 | | |
87 | 41.7k | FileNames(uri1); |
88 | 41.7k | FileNames(uri2); |
89 | | |
90 | 41.7k | Ipv4(uri1); |
91 | 41.7k | Ipv4(uri2); |
92 | | |
93 | 41.7k | UriHolder uriHolder1; |
94 | 41.7k | URI_TYPE(ParserState) state1; |
95 | 41.7k | state1.uri = uriHolder1.get(); |
96 | 41.7k | if (URI_FUNC(ParseUri)(&state1, uri1.c_str()) != URI_SUCCESS) { |
97 | 3.16k | return 0; |
98 | 3.16k | } |
99 | | |
100 | 38.5k | URI_CHAR buf[1024 * 8] = {0}; |
101 | 38.5k | int written = 0; |
102 | 38.5k | URI_FUNC(ToString)(buf, state1.uri, sizeof(buf) / sizeof(buf[0]), &written); |
103 | | |
104 | 38.5k | UriHolder uriHolder2; |
105 | 38.5k | if (URI_FUNC(ParseSingleUri)(uriHolder2.get(), uri2.c_str(), nullptr) |
106 | 38.5k | != URI_SUCCESS) { |
107 | 11.5k | return 0; |
108 | 11.5k | } |
109 | | |
110 | 26.9k | URI_FUNC(EqualsUri)(state1.uri, uriHolder2.get()); |
111 | | |
112 | 26.9k | unsigned int mask = 0; |
113 | 26.9k | URI_FUNC(NormalizeSyntaxMaskRequiredEx)(state1.uri, &mask); |
114 | 26.9k | URI_FUNC(NormalizeSyntax)(state1.uri); |
115 | | |
116 | 26.9k | URI_TYPE(Uri) absUri; |
117 | 26.9k | URI_FUNC(AddBaseUri)(&absUri, state1.uri, uriHolder2.get()); |
118 | 26.9k | URI_FUNC(FreeUriMembers)(&absUri); |
119 | | |
120 | 26.9k | URI_TYPE(Uri) relUri; |
121 | 26.9k | URI_FUNC(RemoveBaseUri)(&relUri, state1.uri, uriHolder2.get(), domainRelative); |
122 | 26.9k | URI_FUNC(FreeUriMembers)(&relUri); |
123 | | |
124 | 26.9k | return 0; |
125 | 38.5k | } Line | Count | Source | 77 | 20.8k | extern "C" int LLVMFuzzerTestOneInput(const uint8_t * data, size_t size) { | 78 | 20.8k | FuzzedDataProvider stream(data, size); | 79 | 20.8k | bool domainRelative = stream.ConsumeBool(); | 80 | | | 81 | 20.8k | const UriString uri1 = consumeRandomLengthString(stream); | 82 | 20.8k | const UriString uri2 = consumeRemainingBytesAsString(stream); | 83 | | | 84 | 20.8k | Escapes(uri1); | 85 | 20.8k | Escapes(uri2); | 86 | | | 87 | 20.8k | FileNames(uri1); | 88 | 20.8k | FileNames(uri2); | 89 | | | 90 | 20.8k | Ipv4(uri1); | 91 | 20.8k | Ipv4(uri2); | 92 | | | 93 | 20.8k | UriHolder uriHolder1; | 94 | 20.8k | URI_TYPE(ParserState) state1; | 95 | 20.8k | state1.uri = uriHolder1.get(); | 96 | 20.8k | if (URI_FUNC(ParseUri)(&state1, uri1.c_str()) != URI_SUCCESS) { | 97 | 1.58k | return 0; | 98 | 1.58k | } | 99 | | | 100 | 19.2k | URI_CHAR buf[1024 * 8] = {0}; | 101 | 19.2k | int written = 0; | 102 | 19.2k | URI_FUNC(ToString)(buf, state1.uri, sizeof(buf) / sizeof(buf[0]), &written); | 103 | | | 104 | 19.2k | UriHolder uriHolder2; | 105 | 19.2k | if (URI_FUNC(ParseSingleUri)(uriHolder2.get(), uri2.c_str(), nullptr) | 106 | 19.2k | != URI_SUCCESS) { | 107 | 5.78k | return 0; | 108 | 5.78k | } | 109 | | | 110 | 13.4k | URI_FUNC(EqualsUri)(state1.uri, uriHolder2.get()); | 111 | | | 112 | 13.4k | unsigned int mask = 0; | 113 | 13.4k | URI_FUNC(NormalizeSyntaxMaskRequiredEx)(state1.uri, &mask); | 114 | 13.4k | URI_FUNC(NormalizeSyntax)(state1.uri); | 115 | | | 116 | 13.4k | URI_TYPE(Uri) absUri; | 117 | 13.4k | URI_FUNC(AddBaseUri)(&absUri, state1.uri, uriHolder2.get()); | 118 | 13.4k | URI_FUNC(FreeUriMembers)(&absUri); | 119 | | | 120 | 13.4k | URI_TYPE(Uri) relUri; | 121 | 13.4k | URI_FUNC(RemoveBaseUri)(&relUri, state1.uri, uriHolder2.get(), domainRelative); | 122 | 13.4k | URI_FUNC(FreeUriMembers)(&relUri); | 123 | | | 124 | 13.4k | return 0; | 125 | 19.2k | } |
Line | Count | Source | 77 | 20.8k | extern "C" int LLVMFuzzerTestOneInput(const uint8_t * data, size_t size) { | 78 | 20.8k | FuzzedDataProvider stream(data, size); | 79 | 20.8k | bool domainRelative = stream.ConsumeBool(); | 80 | | | 81 | 20.8k | const UriString uri1 = consumeRandomLengthString(stream); | 82 | 20.8k | const UriString uri2 = consumeRemainingBytesAsString(stream); | 83 | | | 84 | 20.8k | Escapes(uri1); | 85 | 20.8k | Escapes(uri2); | 86 | | | 87 | 20.8k | FileNames(uri1); | 88 | 20.8k | FileNames(uri2); | 89 | | | 90 | 20.8k | Ipv4(uri1); | 91 | 20.8k | Ipv4(uri2); | 92 | | | 93 | 20.8k | UriHolder uriHolder1; | 94 | 20.8k | URI_TYPE(ParserState) state1; | 95 | 20.8k | state1.uri = uriHolder1.get(); | 96 | 20.8k | if (URI_FUNC(ParseUri)(&state1, uri1.c_str()) != URI_SUCCESS) { | 97 | 1.58k | return 0; | 98 | 1.58k | } | 99 | | | 100 | 19.2k | URI_CHAR buf[1024 * 8] = {0}; | 101 | 19.2k | int written = 0; | 102 | 19.2k | URI_FUNC(ToString)(buf, state1.uri, sizeof(buf) / sizeof(buf[0]), &written); | 103 | | | 104 | 19.2k | UriHolder uriHolder2; | 105 | 19.2k | if (URI_FUNC(ParseSingleUri)(uriHolder2.get(), uri2.c_str(), nullptr) | 106 | 19.2k | != URI_SUCCESS) { | 107 | 5.78k | return 0; | 108 | 5.78k | } | 109 | | | 110 | 13.4k | URI_FUNC(EqualsUri)(state1.uri, uriHolder2.get()); | 111 | | | 112 | 13.4k | unsigned int mask = 0; | 113 | 13.4k | URI_FUNC(NormalizeSyntaxMaskRequiredEx)(state1.uri, &mask); | 114 | 13.4k | URI_FUNC(NormalizeSyntax)(state1.uri); | 115 | | | 116 | 13.4k | URI_TYPE(Uri) absUri; | 117 | 13.4k | URI_FUNC(AddBaseUri)(&absUri, state1.uri, uriHolder2.get()); | 118 | 13.4k | URI_FUNC(FreeUriMembers)(&absUri); | 119 | | | 120 | 13.4k | URI_TYPE(Uri) relUri; | 121 | 13.4k | URI_FUNC(RemoveBaseUri)(&relUri, state1.uri, uriHolder2.get(), domainRelative); | 122 | 13.4k | URI_FUNC(FreeUriMembers)(&relUri); | 123 | | | 124 | 13.4k | return 0; | 125 | 19.2k | } |
|