/src/kea-fuzzer/fuzz_encode.cc

Source
// Copyright (C) 2025 Ada Logics Ltd.
//
// This Source Code Form is subject to the terms of the Mozilla Public
// License, v. 2.0. If a copy of the MPL was not distributed with this
// file, You can obtain one at http://mozilla.org/MPL/2.0/.
////////////////////////////////////////////////////////////////////////////////
#include <config.h>
#include <fuzzer/FuzzedDataProvider.h>

#include <exceptions/exceptions.h>
#include <util/encode/encode.h>

#include <string>
#include <vector>
#include <cstddef>

using namespace isc::util::encode;

extern "C" int LLVMFuzzerTestOneInput(const uint8_t* data, size_t size) {
    if (size < 2) {
        return 0;
    }

    FuzzedDataProvider fdp(data, size);
    
    // Choose which encoding/decoding path to test
    uint8_t path = fdp.ConsumeIntegralInRange<uint8_t>(0, 11);
    
    std::vector<uint8_t> binary_data;
    std::string encoded_str;
    std::vector<uint8_t> decoded_output;
    
    switch (path) {
        case 0: {
            // Test Base64 encoding from binary data
            try {
                size_t bin_size = fdp.ConsumeIntegralInRange<size_t>(0, size);
                binary_data = fdp.ConsumeBytes<uint8_t>(bin_size);
                encoded_str = encodeBase64(binary_data);
                // Verify round-trip
                decodeBase64(encoded_str, decoded_output);
            } catch (const isc::Exception&) {
                // Expected for invalid input
            }
            break;
        }
        
        case 1: {
            // Test Base64 decoding from string
            try {
                encoded_str = fdp.ConsumeRemainingBytesAsString();
                decodeBase64(encoded_str, decoded_output);
            } catch (const isc::Exception&) {
                // Expected for invalid Base64 strings
            }
            break;
        }
        
        case 2: {
            // Test Base32Hex encoding from binary data
            try {
                size_t bin_size = fdp.ConsumeIntegralInRange<size_t>(0, size);
                binary_data = fdp.ConsumeBytes<uint8_t>(bin_size);
                encoded_str = encodeBase32Hex(binary_data);
                // Verify round-trip
                decodeBase32Hex(encoded_str, decoded_output);
            } catch (const isc::Exception&) {
                // Expected for invalid input
            }
            break;
        }
        
        case 3: {
            // Test Base32Hex decoding from string
            try {
                encoded_str = fdp.ConsumeRemainingBytesAsString();
                decodeBase32Hex(encoded_str, decoded_output);
            } catch (const isc::Exception&) {
                // Expected for invalid Base32Hex strings
            }
            break;
        }
        
        case 4: {
            // Test Base16 (hex) encoding from binary data
            try {
                size_t bin_size = fdp.ConsumeIntegralInRange<size_t>(0, size);
                binary_data = fdp.ConsumeBytes<uint8_t>(bin_size);
                encoded_str = encodeHex(binary_data);
                // Verify round-trip
                decodeHex(encoded_str, decoded_output);
            } catch (const isc::Exception&) {
                // Expected for invalid input
            }
            break;
        }
        
        case 5: {
            // Test Base16 (hex) decoding from string
            try {
                encoded_str = fdp.ConsumeRemainingBytesAsString();
                decodeHex(encoded_str, decoded_output);
            } catch (const isc::Exception&) {
                // Expected for invalid hex strings
            }
            break;
        }
        
        case 6: {
            // Test Base64 with various padding scenarios
            try {
                std::string test_str = fdp.ConsumeRandomLengthString();
                // Add various padding permutations
                test_str += fdp.ConsumeBool() ? "=" : "";
                test_str += fdp.ConsumeBool() ? "=" : "";
                decodeBase64(test_str, decoded_output);
            } catch (const isc::Exception&) {
                // Expected for invalid padding
            }
            break;
        }
        
        case 7: {
            // Test Base32Hex with various padding scenarios
            try {
                std::string test_str = fdp.ConsumeRandomLengthString();
                // Add various padding permutations
                for (int i = 0; i < fdp.ConsumeIntegralInRange(0, 6); i++) {
                    test_str += "=";
                }
                decodeBase32Hex(test_str, decoded_output);
            } catch (const isc::Exception&) {
                // Expected for invalid padding
            }
            break;
        }
        
        case 8: {
            // Test mixed case Base64 (should be case-sensitive)
            try {
                encoded_str = fdp.ConsumeRemainingBytesAsString();
                // Mix uppercase and lowercase
                for (auto& c : encoded_str) {
                    if (fdp.ConsumeBool() && isalpha(c)) {
                        c = (isupper(c)) ? tolower(c) : toupper(c);
                    }
                }
                decodeBase64(encoded_str, decoded_output);
            } catch (const isc::Exception&) {
                // Expected for case errors
            }
            break;
        }
        
        case 9: {
            // Test mixed case Base32Hex (case-insensitive)
            try {
                encoded_str = fdp.ConsumeRemainingBytesAsString();
                // Mix uppercase and lowercase
                for (auto& c : encoded_str) {
                    if (fdp.ConsumeBool() && isalpha(c)) {
                        c = (isupper(c)) ? tolower(c) : toupper(c);
                    }
                }
                decodeBase32Hex(encoded_str, decoded_output);
            } catch (const isc::Exception&) {
                // May succeed due to case-insensitivity
            }
            break;
        }
        
        case 10: {
            // Test Base16 with mixed case (case-insensitive)
            try {
                encoded_str = fdp.ConsumeRemainingBytesAsString();
                // Mix uppercase and lowercase
                for (auto& c : encoded_str) {
                    if (fdp.ConsumeBool() && isalpha(c)) {
                        c = (isupper(c)) ? tolower(c) : toupper(c);
                    }
                }
                decodeHex(encoded_str, decoded_output);
            } catch (const isc::Exception&) {
                // May succeed due to case-insensitivity
            }
            break;
        }
        
        case 11: {
            // Test encoding/decoding with whitespace injection
            try {
                std::string test_str = fdp.ConsumeRandomLengthString();
                // Inject whitespace characters
                size_t insertions = fdp.ConsumeIntegralInRange<size_t>(0, 10);
                for (size_t i = 0; i < insertions && test_str.size() > 0; i++) {
                    size_t pos = fdp.ConsumeIntegralInRange<size_t>(0, test_str.size());
                    char ws = fdp.PickValueInArray({' ', '\t', '\n', '\r'});
                    test_str.insert(pos, 1, ws);
                }
                
                // Try decoding with all encoders
                try { decodeBase64(test_str, decoded_output); } catch (...) {}
                try { decodeBase32Hex(test_str, decoded_output); } catch (...) {}
                try { decodeHex(test_str, decoded_output); } catch (...) {}
            } catch (const isc::Exception&) {
                // Expected for whitespace handling
            }
            break;
        }
    }
    
    return 0;
}

Coverage Report

Created: 2025-12-08 07:54

Line	Count	Source
1		// Copyright (C) 2025 Ada Logics Ltd.
2		//
3		// This Source Code Form is subject to the terms of the Mozilla Public
4		// License, v. 2.0. If a copy of the MPL was not distributed with this
5		// file, You can obtain one at http://mozilla.org/MPL/2.0/.
6		////////////////////////////////////////////////////////////////////////////////
7		#include <config.h>
8		#include <fuzzer/FuzzedDataProvider.h>
9
10		#include <exceptions/exceptions.h>
11		#include <util/encode/encode.h>
12
13		#include <string>
14		#include <vector>
15		#include <cstddef>
16
17		using namespace isc::util::encode;
18
19	1.27k	extern "C" int LLVMFuzzerTestOneInput(const uint8_t* data, size_t size) {
20	1.27k	if (size < 2) {
21	1	return 0;
22	1	}
23
24	1.27k	FuzzedDataProvider fdp(data, size);
25
26		// Choose which encoding/decoding path to test
27	1.27k	uint8_t path = fdp.ConsumeIntegralInRange<uint8_t>(0, 11);
28
29	1.27k	std::vector<uint8_t> binary_data;
30	1.27k	std::string encoded_str;
31	1.27k	std::vector<uint8_t> decoded_output;
32
33	1.27k	switch (path) {
34	122	case 0: {
35		// Test Base64 encoding from binary data
36	122	try {
37	122	size_t bin_size = fdp.ConsumeIntegralInRange<size_t>(0, size);
38	122	binary_data = fdp.ConsumeBytes<uint8_t>(bin_size);
39	122	encoded_str = encodeBase64(binary_data);
40		// Verify round-trip
41	122	decodeBase64(encoded_str, decoded_output);
42	122	} catch (const isc::Exception&) {
43		// Expected for invalid input
44	0	}
45	122	break;
46	122	}
47
48	94	case 1: {
49		// Test Base64 decoding from string
50	94	try {
51	94	encoded_str = fdp.ConsumeRemainingBytesAsString();
52	94	decodeBase64(encoded_str, decoded_output);
53	94	} catch (const isc::Exception&) {
54		// Expected for invalid Base64 strings
55	90	}
56	94	break;
57	94	}
58
59	88	case 2: {
60		// Test Base32Hex encoding from binary data
61	88	try {
62	88	size_t bin_size = fdp.ConsumeIntegralInRange<size_t>(0, size);
63	88	binary_data = fdp.ConsumeBytes<uint8_t>(bin_size);
64	88	encoded_str = encodeBase32Hex(binary_data);
65		// Verify round-trip
66	88	decodeBase32Hex(encoded_str, decoded_output);
67	88	} catch (const isc::Exception&) {
68		// Expected for invalid input
69	0	}
70	88	break;
71	88	}
72
73	65	case 3: {
74		// Test Base32Hex decoding from string
75	65	try {
76	65	encoded_str = fdp.ConsumeRemainingBytesAsString();
77	65	decodeBase32Hex(encoded_str, decoded_output);
78	65	} catch (const isc::Exception&) {
79		// Expected for invalid Base32Hex strings
80	64	}
81	65	break;
82	65	}
83
84	111	case 4: {
85		// Test Base16 (hex) encoding from binary data
86	111	try {
87	111	size_t bin_size = fdp.ConsumeIntegralInRange<size_t>(0, size);
88	111	binary_data = fdp.ConsumeBytes<uint8_t>(bin_size);
89	111	encoded_str = encodeHex(binary_data);
90		// Verify round-trip
91	111	decodeHex(encoded_str, decoded_output);
92	111	} catch (const isc::Exception&) {
93		// Expected for invalid input
94	0	}
95	111	break;
96	111	}
97
98	62	case 5: {
99		// Test Base16 (hex) decoding from string
100	62	try {
101	62	encoded_str = fdp.ConsumeRemainingBytesAsString();
102	62	decodeHex(encoded_str, decoded_output);
103	62	} catch (const isc::Exception&) {
104		// Expected for invalid hex strings
105	60	}
106	62	break;
107	62	}
108
109	142	case 6: {
110		// Test Base64 with various padding scenarios
111	142	try {
112	142	std::string test_str = fdp.ConsumeRandomLengthString();
113		// Add various padding permutations
114	142	test_str += fdp.ConsumeBool() ? "=" : "";
115	142	test_str += fdp.ConsumeBool() ? "=" : "";
116	142	decodeBase64(test_str, decoded_output);
117	142	} catch (const isc::Exception&) {
118		// Expected for invalid padding
119	95	}
120	142	break;
121	142	}
122
123	128	case 7: {
124		// Test Base32Hex with various padding scenarios
125	128	try {
126	128	std::string test_str = fdp.ConsumeRandomLengthString();
127		// Add various padding permutations
128	247	for (int i = 0; i < fdp.ConsumeIntegralInRange(0, 6); i++) {
129	119	test_str += "=";
130	119	}
131	128	decodeBase32Hex(test_str, decoded_output);
132	128	} catch (const isc::Exception&) {
133		// Expected for invalid padding
134	113	}
135	128	break;
136	128	}
137
138	66	case 8: {
139		// Test mixed case Base64 (should be case-sensitive)
140	66	try {
141	66	encoded_str = fdp.ConsumeRemainingBytesAsString();
142		// Mix uppercase and lowercase
143	8.64M	for (auto& c : encoded_str) {
144	8.64M	if (fdp.ConsumeBool() && isalpha(c)) {
145	0	c = (isupper(c)) ? tolower(c) : toupper(c);
146	0	}
147	8.64M	}
148	66	decodeBase64(encoded_str, decoded_output);
149	66	} catch (const isc::Exception&) {
150		// Expected for case errors
151	65	}
152	66	break;
153	66	}
154
155	62	case 9: {
156		// Test mixed case Base32Hex (case-insensitive)
157	62	try {
158	62	encoded_str = fdp.ConsumeRemainingBytesAsString();
159		// Mix uppercase and lowercase
160	6.50M	for (auto& c : encoded_str) {
161	6.50M	if (fdp.ConsumeBool() && isalpha(c)) {
162	0	c = (isupper(c)) ? tolower(c) : toupper(c);
163	0	}
164	6.50M	}
165	62	decodeBase32Hex(encoded_str, decoded_output);
166	62	} catch (const isc::Exception&) {
167		// May succeed due to case-insensitivity
168	60	}
169	62	break;
170	62	}
171
172	63	case 10: {
173		// Test Base16 with mixed case (case-insensitive)
174	63	try {
175	63	encoded_str = fdp.ConsumeRemainingBytesAsString();
176		// Mix uppercase and lowercase
177	6.81M	for (auto& c : encoded_str) {
178	6.81M	if (fdp.ConsumeBool() && isalpha(c)) {
179	0	c = (isupper(c)) ? tolower(c) : toupper(c);
180	0	}
181	6.81M	}
182	63	decodeHex(encoded_str, decoded_output);
183	63	} catch (const isc::Exception&) {
184		// May succeed due to case-insensitivity
185	62	}
186	63	break;
187	63	}
188
189	273	case 11: {
190		// Test encoding/decoding with whitespace injection
191	273	try {
192	273	std::string test_str = fdp.ConsumeRandomLengthString();
193		// Inject whitespace characters
194	273	size_t insertions = fdp.ConsumeIntegralInRange<size_t>(0, 10);
195	1.10k	for (size_t i = 0; i < insertions && test_str.size() > 0; i++) {
196	829	size_t pos = fdp.ConsumeIntegralInRange<size_t>(0, test_str.size());
197	829	char ws = fdp.PickValueInArray({' ', '\t', '\n', '\r'});
198	829	test_str.insert(pos, 1, ws);
199	829	}
200
201		// Try decoding with all encoders
202	273	try { decodeBase64(test_str, decoded_output); } catch (...) {}
203	273	try { decodeBase32Hex(test_str, decoded_output); } catch (...) {}
204	273	try { decodeHex(test_str, decoded_output); } catch (...) {}
205	273	} catch (const isc::Exception&) {
206		// Expected for whitespace handling
207	0	}
208	273	break;
209	273	}
210	1.27k	}
211
212	1.27k	return 0;
213	1.27k	}