Deprecated test suite
Juliet C/C++ 1.0 with extra support Test suite #68
DownloadDescription
This is a collection of test cases in the C/C++ language. It contains examples for 116 different CWEs. NOTE: This package contains only individual test cases. We recommend to download the full test suite at the top of the "Test Suite" page. All documents related to the Juliet Test Suite can be found at the documents page
Displaying test cases 23901 - 23925 of 45309 in total
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CWE: 328 Reversible Oneway Hash Sinks: GoodSink: Use SHA1 as a hashing algorithm BadSink : Use Adler32 CRC to hash the password Flow Variant: 03 Control flow: if(5==5) and if(5!=5)
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CWE: 328 Reversible Oneway Hash Sinks: GoodSink: Use SHA1 as a hashing algorithm BadSink : Use Adler32 CRC to hash the password Flow Variant: 04 Control flow: if(static_const_t) and if(static_const_f)
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CWE: 328 Reversible Oneway Hash Sinks: GoodSink: Use SHA1 as a hashing algorithm BadSink : Use Adler32 CRC to hash the password Flow Variant: 05 Control flow: if(static_t) and if(static_f)
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CWE: 328 Reversible Oneway Hash Sinks: GoodSink: Use SHA1 as a hashing algorithm BadSink : Use Adler32 CRC to hash the password Flow Variant: 06 Control flow: if(static_const_five==5) and if(static_const_five!=5)
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CWE: 328 Reversible Oneway Hash Sinks: GoodSink: Use SHA1 as a hashing algorithm BadSink : Use Adler32 CRC to hash the password Flow Variant: 07 Control flow: if(static_five==5) and if(static_five!=5)
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CWE: 328 Reversible Oneway Hash Sinks: GoodSink: Use SHA1 as a hashing algorithm BadSink : Use Adler32 CRC to hash the password Flow Variant: 08 Control flow: if(static_returns_t()) and if(static_returns_f())
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CWE: 328 Reversible Oneway Hash Sinks: GoodSink: Use SHA1 as a hashing algorithm BadSink : Use Adler32 CRC to hash the password Flow Variant: 09 Control flow: if(global_const_t) and if(global_const_f)
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CWE: 328 Reversible Oneway Hash Sinks: GoodSink: Use SHA1 as a hashing algorithm BadSink : Use Adler32 CRC to hash the password Flow Variant: 10 Control flow: if(global_t) and if(global_f)
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CWE: 328 Reversible Oneway Hash Sinks: GoodSink: Use SHA1 as a hashing algorithm BadSink : Use Adler32 CRC to hash the password Flow Variant: 11 Control flow: if(global_returns_t()) and if(global_returns_f())
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CWE: 328 Reversible Oneway Hash Sinks: GoodSink: Use SHA1 as a hashing algorithm BadSink : Use Adler32 CRC to hash the password Flow Variant: 12 Control flow: if(global_returns_t_or_f())
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CWE: 328 Reversible Oneway Hash Sinks: GoodSink: Use SHA1 as a hashing algorithm BadSink : Use Adler32 CRC to hash the password Flow Variant: 13 Control flow: if(global_const_five==5) and if(global_const_five!=5)
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CWE: 328 Reversible Oneway Hash Sinks: GoodSink: Use SHA1 as a hashing algorithm BadSink : Use Adler32 CRC to hash the password Flow Variant: 14 Control flow: if(global_five==5) and if(global_five!=5)
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CWE: 328 Reversible Oneway Hash Sinks: GoodSink: Use SHA1 as a hashing algorithm BadSink : Use Adler32 CRC to hash the password Flow Variant: 15 Control flow: switch(6)
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CWE: 328 Reversible Oneway Hash Sinks: GoodSink: Use SHA1 as a hashing algorithm BadSink : Use Adler32 CRC to hash the password Flow Variant: 16 Control flow: while(1) and while(0)
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CWE: 328 Reversible Oneway Hash Sinks: GoodSink: Use SHA1 as a hashing algorithm BadSink : Use Adler32 CRC to hash the password Flow Variant: 17 Control flow: for loops
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CWE: 328 Reversible Oneway Hash Sinks: GoodSink: Use SHA1 as a hashing algorithm BadSink : Use Adler32 CRC to hash the password Flow Variant: 18 Control flow: goto statements
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CWE: 328 Reversible Oneway Hash Sinks: GoodSink: Use SHA1 as a hashing algorithm BadSink : Use Adler32 CRC to hash the password Flow Variant: 19 Control flow: Dead code after a return
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CWE: 338 Use of Cryptographically Weak PRNG Sinks: GoodSink: Use CryptGenRandom() to generate a random number BadSink : Use rand() to generate a random number Flow Variant: 01 Baseline
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CWE: 338 Use of Cryptographically Weak PRNG Sinks: GoodSink: Use CryptGenRandom() to generate a random number BadSink : Use rand() to generate a random number Flow Variant: 02 Control flow: if(1) and if(0)
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CWE: 338 Use of Cryptographically Weak PRNG Sinks: GoodSink: Use CryptGenRandom() to generate a random number BadSink : Use rand() to generate a random number Flow Variant: 03 Control flow: if(5==5) and if(5!=5)
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CWE: 338 Use of Cryptographically Weak PRNG Sinks: GoodSink: Use CryptGenRandom() to generate a random number BadSink : Use rand() to generate a random number Flow Variant: 04 Control flow: if(static_const_t) and if(static_const_f)
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CWE: 338 Use of Cryptographically Weak PRNG Sinks: GoodSink: Use CryptGenRandom() to generate a random number BadSink : Use rand() to generate a random number Flow Variant: 05 Control flow: if(static_t) and if(static_f)
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CWE: 338 Use of Cryptographically Weak PRNG Sinks: GoodSink: Use CryptGenRandom() to generate a random number BadSink : Use rand() to generate a random number Flow Variant: 06 Control flow: if(static_const_five==5) and if(static_const_five!=5)
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CWE: 338 Use of Cryptographically Weak PRNG Sinks: GoodSink: Use CryptGenRandom() to generate a random number BadSink : Use rand() to generate a random number Flow Variant: 07 Control flow: if(static_five==5) and if(static_five!=5)
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CWE: 338 Use of Cryptographically Weak PRNG Sinks: GoodSink: Use CryptGenRandom() to generate a random number BadSink : Use rand() to generate a random number Flow Variant: 08 Control flow: if(static_returns_t()) and if(static_returns_f())