Juliet C/C++ 1.3 Test suite #112
DownloadDescription
A collection of test cases in the C/C++ language. It contains examples organized under 118 different CWEs. Version 1.3 adds test cases for increment and decrement and fixes some dozen systematic problems in 1.2 cases.
All documents related to the Juliet Test Suite can be found at the documents page.
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Pursuant to 17 USC 105, Juliet Test Suite for C/C++ version 1.3 is not subject to copyright protection in the United States. To the extent NIST may claim Foreign Rights in Juliet Test Suite for C/C++ version 1.3, the Test Suite is being made available to you under the CC0 1.0 Public Domain License.
Documentation
Displaying test cases 16201 - 16225 of 64099 in total
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CWE: 188 Reliance on Data Memory Layout Sinks: union GoodSink: Use mechanisms that are not dependent upon size, alignment/packing, or byte order to accomplish equivalent functionality BadSink : Modify a union member by relying on the byte-order, size, alignment/packing of struct and union fiel...
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CWE: 188 Reliance on Data Memory Layout Sinks: union GoodSink: Use mechanisms that are not dependent upon size, alignment/packing, or byte order to accomplish equivalent functionality BadSink : Modify a union member by relying on the byte-order, size, alignment/packing of struct and union fiel...
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CWE: 188 Reliance on Data Memory Layout Sinks: union GoodSink: Use mechanisms that are not dependent upon size, alignment/packing, or byte order to accomplish equivalent functionality BadSink : Modify a union member by relying on the byte-order, size, alignment/packing of struct and union fiel...
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CWE: 188 Reliance on Data Memory Layout Sinks: union GoodSink: Use mechanisms that are not dependent upon size, alignment/packing, or byte order to accomplish equivalent functionality BadSink : Modify a union member by relying on the byte-order, size, alignment/packing of struct and union fiel...
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CWE: 188 Reliance on Data Memory Layout Sinks: union GoodSink: Use mechanisms that are not dependent upon size, alignment/packing, or byte order to accomplish equivalent functionality BadSink : Modify a union member by relying on the byte-order, size, alignment/packing of struct and union fiel...
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CWE: 188 Reliance on Data Memory Layout Sinks: union GoodSink: Use mechanisms that are not dependent upon size, alignment/packing, or byte order to accomplish equivalent functionality BadSink : Modify a union member by relying on the byte-order, size, alignment/packing of struct and union fiel...
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CWE: 188 Reliance on Data Memory Layout Sinks: union GoodSink: Use mechanisms that are not dependent upon size, alignment/packing, or byte order to accomplish equivalent functionality BadSink : Modify a union member by relying on the byte-order, size, alignment/packing of struct and union fiel...
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CWE: 190 Integer Overflow BadSource: fscanf Read data from the console using fscanf() GoodSource: Set data to a small, non-zero number (two) Sinks: add GoodSink: Ensure there will not be an overflow before adding 1 to data BadSink : Add 1 to data, which can cause an overflow Flow Variant: 0...
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CWE: 190 Integer Overflow BadSource: fscanf Read data from the console using fscanf() GoodSource: Set data to a small, non-zero number (two) Sinks: add GoodSink: Ensure there will not be an overflow before adding 1 to data BadSink : Add 1 to data, which can cause an overflow Flow Variant: 0...
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CWE: 190 Integer Overflow BadSource: fscanf Read data from the console using fscanf() GoodSource: Set data to a small, non-zero number (two) Sinks: add GoodSink: Ensure there will not be an overflow before adding 1 to data BadSink : Add 1 to data, which can cause an overflow Flow Variant: 0...
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CWE: 190 Integer Overflow BadSource: fscanf Read data from the console using fscanf() GoodSource: Set data to a small, non-zero number (two) Sinks: add GoodSink: Ensure there will not be an overflow before adding 1 to data BadSink : Add 1 to data, which can cause an overflow Flow Variant: 0...
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CWE: 190 Integer Overflow BadSource: fscanf Read data from the console using fscanf() GoodSource: Set data to a small, non-zero number (two) Sinks: add GoodSink: Ensure there will not be an overflow before adding 1 to data BadSink : Add 1 to data, which can cause an overflow Flow Variant: 0...
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CWE: 190 Integer Overflow BadSource: fscanf Read data from the console using fscanf() GoodSource: Set data to a small, non-zero number (two) Sinks: add GoodSink: Ensure there will not be an overflow before adding 1 to data BadSink : Add 1 to data, which can cause an overflow Flow Variant: 0...
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CWE: 190 Integer Overflow BadSource: fscanf Read data from the console using fscanf() GoodSource: Set data to a small, non-zero number (two) Sinks: add GoodSink: Ensure there will not be an overflow before adding 1 to data BadSink : Add 1 to data, which can cause an overflow Flow Variant: 0...
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CWE: 190 Integer Overflow BadSource: fscanf Read data from the console using fscanf() GoodSource: Set data to a small, non-zero number (two) Sinks: add GoodSink: Ensure there will not be an overflow before adding 1 to data BadSink : Add 1 to data, which can cause an overflow Flow Variant: 0...
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CWE: 190 Integer Overflow BadSource: fscanf Read data from the console using fscanf() GoodSource: Set data to a small, non-zero number (two) Sinks: add GoodSink: Ensure there will not be an overflow before adding 1 to data BadSink : Add 1 to data, which can cause an overflow Flow Variant: 0...
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CWE: 190 Integer Overflow BadSource: fscanf Read data from the console using fscanf() GoodSource: Set data to a small, non-zero number (two) Sinks: add GoodSink: Ensure there will not be an overflow before adding 1 to data BadSink : Add 1 to data, which can cause an overflow Flow Variant: 1...
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CWE: 190 Integer Overflow BadSource: fscanf Read data from the console using fscanf() GoodSource: Set data to a small, non-zero number (two) Sinks: add GoodSink: Ensure there will not be an overflow before adding 1 to data BadSink : Add 1 to data, which can cause an overflow Flow Variant: 1...
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CWE: 190 Integer Overflow BadSource: fscanf Read data from the console using fscanf() GoodSource: Set data to a small, non-zero number (two) Sinks: add GoodSink: Ensure there will not be an overflow before adding 1 to data BadSink : Add 1 to data, which can cause an overflow Flow Variant: 1...
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CWE: 190 Integer Overflow BadSource: fscanf Read data from the console using fscanf() GoodSource: Set data to a small, non-zero number (two) Sinks: add GoodSink: Ensure there will not be an overflow before adding 1 to data BadSink : Add 1 to data, which can cause an overflow Flow Variant: 1...
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CWE: 190 Integer Overflow BadSource: fscanf Read data from the console using fscanf() GoodSource: Set data to a small, non-zero number (two) Sinks: add GoodSink: Ensure there will not be an overflow before adding 1 to data BadSink : Add 1 to data, which can cause an overflow Flow Variant: 1...
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CWE: 190 Integer Overflow BadSource: fscanf Read data from the console using fscanf() GoodSource: Set data to a small, non-zero number (two) Sinks: add GoodSink: Ensure there will not be an overflow before adding 1 to data BadSink : Add 1 to data, which can cause an overflow Flow Variant: 1...
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CWE: 190 Integer Overflow BadSource: fscanf Read data from the console using fscanf() GoodSource: Set data to a small, non-zero number (two) Sinks: add GoodSink: Ensure there will not be an overflow before adding 1 to data BadSink : Add 1 to data, which can cause an overflow Flow Variant: 1...
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CWE: 190 Integer Overflow BadSource: fscanf Read data from the console using fscanf() GoodSource: Set data to a small, non-zero number (two) Sinks: add GoodSink: Ensure there will not be an overflow before adding 1 to data BadSink : Add 1 to data, which can cause an overflow Flow Variant: 1...
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CWE: 190 Integer Overflow BadSource: fscanf Read data from the console using fscanf() GoodSource: Set data to a small, non-zero number (two) Sinks: add GoodSink: Ensure there will not be an overflow before adding 1 to data BadSink : Add 1 to data, which can cause an overflow Flow Variant: 1...