/* goodB2G1() - use badsource and goodsink by changing second PRIVATE_STATIC_FINAL_FIVE==5 to PRIVATE_STATIC_FINAL_FIVE!=5 */ private void goodB2G1() throws Throwable { short data; if (PRIVATE_STATIC_FINAL_FIVE == 5) { /* POTENTIAL FLAW: Use a random value */ data = (short) ((new java.security.SecureRandom()).nextInt(1 + Short.MAX_VALUE - Short.MIN_VALUE) + Short.MIN_VALUE); } else { /* INCIDENTAL: CWE 561 Dead Code, the code below will never run * but ensure data is inititialized before the Sink to avoid compiler errors */ data = 0; } if (PRIVATE_STATIC_FINAL_FIVE != 5) { /* INCIDENTAL: CWE 561 Dead Code, the code below will never run */ IO.writeLine("Benign, fixed string"); } else { /* FIX: Add a check to prevent an overflow from occurring */ /* NOTE: Math.abs of the minimum int or long will return that same value, so we must check for it */ if ((data != Integer.MIN_VALUE) && (data != Long.MIN_VALUE) && (Math.abs(data) <= (long) Math.sqrt(Short.MAX_VALUE))) { short result = (short) (data * data); IO.writeLine("result: " + result); } else { IO.writeLine("data value is too large to perform squaring."); } } }
/* goodB2G() - use badsource and goodsink */ private void goodB2G(HttpServletRequest request, HttpServletResponse response) throws Throwable { int data_copy; { int data; Logger log_bad = Logger.getLogger("local-logger"); /* init Data$ */ data = -1; /* read parameter from cookie */ Cookie cookieSources[] = request.getCookies(); if (cookieSources != null) { String s_data = cookieSources[0].getValue(); data = Integer.parseInt(s_data.trim()); } data_copy = data; } { int data = data_copy; /* FIX: test for a zero modulus */ if (data != 0) { IO.writeLine("100%" + String.valueOf(data) + " = " + (100 % data) + "\n"); } else { IO.writeLine("This would result in a modulo by zero"); } } }
/* goodG2B() - use goodsource and badsink by changing the "if" so that * both branches use the GoodSource */ private void goodG2B() throws Throwable { String data; if (IO.staticReturnsTrueOrFalse()) { /* FIX: Use a hardcoded string */ data = "foo"; } else { /* FIX: Use a hardcoded string */ data = "foo"; } Connection dbConnection = null; try { dbConnection = IO.getDBConnection(); /* POTENTIAL FLAW: Set the catalog name with the value of data * allowing a nonexistent catalog name or unauthorized access to a portion of the DB */ dbConnection.setCatalog(data); } catch (SQLException exceptSql) { IO.logger.log(Level.WARNING, "Error getting database connection", exceptSql); } finally { try { if (dbConnection != null) { dbConnection.close(); } } catch (SQLException exceptSql) { IO.logger.log(Level.WARNING, "Error closing Connection", exceptSql); } } }
/* goodG2B() - use goodsource and badsink by changing the first "if" so that * both branches use the GoodSource */ private void goodG2B() throws Throwable { int data; if (IO.staticReturnsTrueOrFalse()) { /* FIX: Use a hardcoded number that won't cause underflow, overflow, divide by zero, or loss-of-precision issues */ data = 2; } else { /* FIX: Use a hardcoded number that won't cause underflow, overflow, divide by zero, or loss-of-precision issues */ data = 2; } if (IO.staticReturnsTrueOrFalse()) { if (data < 0) /* ensure we won't have an overflow */ { /* POTENTIAL FLAW: if (data * 2) < Integer.MIN_VALUE, this will underflow */ int result = (int) (data * 2); IO.writeLine("result: " + result); } } else { if (data < 0) /* ensure we won't have an overflow */ { /* POTENTIAL FLAW: if (data * 2) < Integer.MIN_VALUE, this will underflow */ int result = (int) (data * 2); IO.writeLine("result: " + result); } } }
public void bad() throws Throwable { String fn = ".\\src\\testcases\\CWE379_File_Creation_in_Insecure_Dir\\insecureDir"; /* may have to be changed depending on script */ /* POSSIBLE FLAW: potentially insecure directory permissions */ File dir = new File(fn); if (dir.exists()) { IO.writeLine("Directory already exists"); if (dir.delete()) { IO.writeLine("Directory deleted"); } else { return; } } if (!dir.getParentFile().canWrite()) { IO.writeLine("Cannot write to parent dir"); } try { boolean success = dir.mkdir(); if (success) { IO.writeLine("Directory created"); File file = new File(dir.getAbsolutePath() + "\\newFile.txt"); file.createNewFile(); } } catch (Exception e) { System.out.println(e.getMessage()); } }
public void bad() throws Throwable { int data; if (IO.STATIC_FINAL_TRUE) { data = Integer.MIN_VALUE; /* Initialize data */ /* get system property user.home */ /* POTENTIAL FLAW: Read data from a system property */ { String stringNumber = System.getProperty("user.home"); try { data = Integer.parseInt(stringNumber.trim()); } catch (NumberFormatException exceptNumberFormat) { IO.logger.log( Level.WARNING, "Number format exception parsing data from string", exceptNumberFormat); } } } else { /* INCIDENTAL: CWE 561 Dead Code, the code below will never run * but ensure data is inititialized before the Sink to avoid compiler errors */ data = 0; } if (IO.STATIC_FINAL_TRUE) { /* Need to ensure that the array is of size > 3 and < 101 due to the GoodSource and the large_fixed BadSource */ int array[] = {0, 1, 2, 3, 4}; /* POTENTIAL FLAW: Verify that data < array.length, but don't verify that data > 0, so may be attempting to read out of the array bounds */ if (data < array.length) { IO.writeLine(array[data]); } else { IO.writeLine("Array index out of bounds"); } } }
/* goodB2G1() - use badsource and goodsink by changing second true to false */ private void goodB2G1() throws Throwable { short data; if (true) { /* POTENTIAL FLAW: Use a random value */ data = (short) ((new java.security.SecureRandom()).nextInt(1 + Short.MAX_VALUE - Short.MIN_VALUE) + Short.MIN_VALUE); } else { /* INCIDENTAL: CWE 561 Dead Code, the code below will never run * but ensure data is inititialized before the Sink to avoid compiler errors */ data = 0; } if (false) { /* INCIDENTAL: CWE 561 Dead Code, the code below will never run */ IO.writeLine("Benign, fixed string"); } else { /* FIX: Add a check to prevent an overflow from occurring */ if (data < Short.MAX_VALUE) { short result = (short) (data + 1); IO.writeLine("result: " + result); } else { IO.writeLine("data value is too large to perform addition."); } } }
public void bad() throws Throwable { if (privateFive == 5) { FileInputStream fis = null; try { int bytesToRead = 1024; byte[] byteArray = new byte[bytesToRead]; fis = new FileInputStream("c:\\file.txt"); /* FLAW: Incorrect check on result of read(). Should check if the return value is -1 or is less than bytesToRead. */ if (fis.read(byteArray) == 0) { IO.writeLine("Error reading file."); } else { IO.writeLine(new String(byteArray, "UTF-8")); } } catch (FileNotFoundException exceptFileNotFound) { IO.logger.log(Level.WARNING, "FileNotFoundException opening file", exceptFileNotFound); } catch (IOException exceptIO) { IO.logger.log(Level.WARNING, "IOException reading file", exceptIO); } finally { try { if (fis != null) { fis.close(); } } catch (IOException exceptIO) { IO.logger.log(Level.WARNING, "IOException closing FileInputStream", exceptIO); } } } }
/* goodG2B() - use goodsource and badsink by changing the first "if" so that both branches use the GoodSource */ private void goodG2B() throws Throwable { int data; if (IO.static_returns_t_or_f()) { java.util.logging.Logger log_good = java.util.logging.Logger.getLogger("local-logger"); /* FIX: Use a hardcoded number that won't cause underflow, overflow, divide by zero, or loss-of-precision issues */ data = 2; } else { java.util.logging.Logger log_good = java.util.logging.Logger.getLogger("local-logger"); /* FIX: Use a hardcoded number that won't cause underflow, overflow, divide by zero, or loss-of-precision issues */ data = 2; } if (IO.static_returns_t_or_f()) { int valueToMult = (new SecureRandom()).nextInt(98) + 2; /* multiply by at least 2 */ if (data < 0) /* ensure we don't have an overflow */ { /* POTENTIAL FLAW: if (data*valueToMult) < MIN_VALUE, this will overflow */ int result = (data * valueToMult); IO.writeLine("result: " + result); } } else { int valueToMult = (new SecureRandom()).nextInt(98) + 2; /* multiply by at least 2 */ if (data < 0) /* ensure we don't have an overflow */ { /* POTENTIAL FLAW: if (data*valueToMult) < MIN_VALUE, this will overflow */ int result = (data * valueToMult); IO.writeLine("result: " + result); } } }
/* goodB2G() - use badsource and goodsink */ private void goodB2G(HttpServletRequest request, HttpServletResponse response) throws Throwable { int data; data = Integer.MIN_VALUE; /* initialize data in case id is not in query string */ /* POTENTIAL FLAW: Parse id param out of the URL querystring (without using getParam) */ { StringTokenizer tokenizer = new StringTokenizer(request.getQueryString(), "&"); while (tokenizer.hasMoreTokens()) { String token = tokenizer.nextToken(); /* a token will be like "id=33" */ if (token.startsWith("id=")) /* check if we have the "id" parameter" */ { try { data = Integer.parseInt(token.substring(3)); /* set data to the int 33 */ } catch (NumberFormatException exceptNumberFormat) { IO.logger.log( Level.WARNING, "Number format exception reading id from query string", exceptNumberFormat); } break; /* exit while loop */ } } } if (data > 0) /* ensure we won't have an underflow */ { /* FIX: Add a check to prevent an overflow from occurring */ if (data < (Integer.MAX_VALUE / 2)) { int result = (int) (data * 2); IO.writeLine("result: " + result); } else { IO.writeLine("data value is too large to perform multiplication."); } } }
/* good2() reverses the bodies in the if statement */ private void good2() throws Throwable { if (privateFive == 5) { FileInputStream fis = null; try { int bytesToRead = 1024; byte[] byteArray = new byte[bytesToRead]; fis = new FileInputStream("c:\\file.txt"); int numberOfBytesRead = fis.read(byteArray); /* FIX: Check the return value of read() and handle possible errors */ if (numberOfBytesRead == -1) { IO.writeLine("The end of the file has been reached."); } else { if (numberOfBytesRead < bytesToRead) { IO.writeLine("Could not read " + bytesToRead + " bytes."); } else { IO.writeLine(new String(byteArray, "UTF-8")); } } } catch (FileNotFoundException exceptFileNotFound) { IO.logger.log(Level.WARNING, "FileNotFoundException opening file", exceptFileNotFound); } catch (IOException exceptIO) { IO.logger.log(Level.WARNING, "IOException reading file", exceptIO); } finally { try { if (fis != null) { fis.close(); } } catch (IOException exceptIO) { IO.logger.log(Level.WARNING, "IOException closing FileInputStream", exceptIO); } } } }
/* goodB2G1() - use badsource and goodsink by changing second IO.STATIC_FINAL_FIVE==5 to IO.STATIC_FINAL_FIVE!=5 */ private void goodB2G1() throws Throwable { String data; if (IO.STATIC_FINAL_FIVE == 5) { /* get environment variable ADD */ /* POTENTIAL FLAW: Read data from an environment variable */ data = System.getenv("ADD"); } else { /* INCIDENTAL: CWE 561 Dead Code, the code below will never run * but ensure data is inititialized before the Sink to avoid compiler errors */ data = null; } if (IO.STATIC_FINAL_FIVE != 5) { /* INCIDENTAL: CWE 561 Dead Code, the code below will never run */ IO.writeLine("Benign, fixed string"); } else { if (data != null) { String names[] = data.split("-"); int successCount = 0; Connection dbConnection = null; PreparedStatement sqlStatement = null; try { /* FIX: Use prepared statement and executeBatch (properly) */ dbConnection = IO.getDBConnection(); sqlStatement = dbConnection.prepareStatement("update users set hitcount=hitcount+1 where name=?"); for (int i = 0; i < names.length; i++) { sqlStatement.setString(1, names[i]); sqlStatement.addBatch(); } int resultsArray[] = sqlStatement.executeBatch(); for (int i = 0; i < names.length; i++) { if (resultsArray[i] > 0) { successCount++; } } IO.writeLine("Succeeded in " + successCount + " out of " + names.length + " queries."); } catch (SQLException exceptSql) { IO.logger.log(Level.WARNING, "Error getting database connection", exceptSql); } finally { try { if (sqlStatement != null) { sqlStatement.close(); } } catch (SQLException exceptSql) { IO.logger.log(Level.WARNING, "Error closing PreparedStatement", exceptSql); } try { if (dbConnection != null) { dbConnection.close(); } } catch (SQLException exceptSql) { IO.logger.log(Level.WARNING, "Error closing Connection", exceptSql); } } } } }
/* goodB2G() - use badsource and goodsink by changing the conditions on the second and third for statements */ private void goodB2G(HttpServletRequest request, HttpServletResponse response) throws Throwable { String data; /* POTENTIAL FLAW: data may be set to null */ data = request.getParameter("CWE690"); for (int for_index_i = 0; for_index_i < 0; for_index_i++) { /* INCIDENTAL: CWE 561 Dead Code, the code below will never run */ /* FIX: Set data to a fixed, non-null String */ data = "CWE690"; } for (int for_index_j = 0; for_index_j < 0; for_index_j++) { /* INCIDENTAL: CWE 561 Dead Code, the code below will never run */ /* POTENTIAL FLAW: data could be null */ String sOut = data.trim(); IO.writeLine(sOut); } for (int for_index_k = 0; for_index_k < 1; for_index_k++) { /* FIX: explicit check for null */ if (data != null) { String sOut = data.trim(); IO.writeLine(sOut); } } }
public void bad(HttpServletRequest request, HttpServletResponse response) throws Throwable { String data; /* We need to have one source outside of a for loop in order to prevent the Java compiler from generating an error because data is uninitialized */ /* POTENTIAL FLAW: data may be set to null */ data = request.getParameter("CWE690"); for (int for_index_i = 0; for_index_i < 0; for_index_i++) { /* INCIDENTAL: CWE 561 Dead Code, the code below will never run */ /* FIX: Set data to a fixed, non-null String */ data = "CWE690"; } for (int for_index_j = 0; for_index_j < 1; for_index_j++) { /* POTENTIAL FLAW: data could be null */ String sOut = data.trim(); IO.writeLine(sOut); } for (int for_index_k = 0; for_index_k < 0; for_index_k++) { /* INCIDENTAL: CWE 561 Dead Code, the code below will never run */ /* FIX: explicit check for null */ if (data != null) { String sOut = data.trim(); IO.writeLine(sOut); } } }
/* goodG2B2() - use goodsource and badsink by reversing statements in first if */ private void goodG2B2() throws Throwable { String data; /* INCIDENTAL: CWE 571 Statement is Always True */ if (private_final_t) { java.util.logging.Logger log_good = java.util.logging.Logger.getLogger("local-logger"); /* FIX: Use a hardcoded string */ data = "foo"; } else { /* INCIDENTAL: CWE 561 Dead Code, the code below will never run */ Logger log_bad = Logger.getLogger("local-logger"); data = ""; /* init data */ /* read user input from console with readLine*/ BufferedReader buffread = null; InputStreamReader instrread = null; try { instrread = new InputStreamReader(System.in); buffread = new BufferedReader(instrread); data = buffread.readLine(); } catch (IOException ioe) { log_bad.warning("Error with stream reading"); } finally { /* clean up stream reading objects */ try { if (buffread != null) { buffread.close(); } } catch (IOException ioe) { log_bad.warning("Error closing buffread"); } finally { try { if (instrread != null) { instrread.close(); } } catch (IOException ioe) { log_bad.warning("Error closing instrread"); } } } } /* INCIDENTAL: CWE 571 Statement is Always True */ if (private_final_t) { MessageDigest hash = MessageDigest.getInstance("SHA-512"); hash.update(data.getBytes()); /* FLAW: SHA512 with a predictable salt */ byte[] hashv = hash.digest("hash me".getBytes()); IO.writeLine(IO.toHex(hashv)); } else { /* INCIDENTAL: CWE 561 Dead Code, the code below will never run */ SecureRandom r = new SecureRandom(); MessageDigest hash = MessageDigest.getInstance("SHA-512"); hash.update(r.getSeed(32)); /* FIX: Use a sufficiently random salt */ byte[] hashv = hash.digest("hash me".getBytes()); IO.writeLine(IO.toHex(hashv)); } }
public void bad(HttpServletRequest request, HttpServletResponse response) throws Throwable { String data; if (privateFive == 5) { data = ""; /* initialize data in case id is not in query string */ /* POTENTIAL FLAW: Parse id param out of the URL querystring (without using getParameter()) */ { StringTokenizer tokenizer = new StringTokenizer(request.getQueryString(), "&"); while (tokenizer.hasMoreTokens()) { String token = tokenizer.nextToken(); /* a token will be like "id=foo" */ if (token.startsWith("id=")) /* check if we have the "id" parameter" */ { data = token.substring(3); /* set data to "foo" */ break; /* exit while loop */ } } } } else { /* INCIDENTAL: CWE 561 Dead Code, the code below will never run * but ensure data is inititialized before the Sink to avoid compiler errors */ data = null; } if (privateFive == 5) { int numberOfLoops; try { numberOfLoops = Integer.parseInt(data); } catch (NumberFormatException exceptNumberFormat) { IO.writeLine("Invalid response. Numeric input expected. Assuming 1."); numberOfLoops = 1; } for (int i = 0; i < numberOfLoops; i++) { /* POTENTIAL FLAW: user supplied input used for loop counter test */ IO.writeLine("hello world"); } } }
/* goodG2B1() - use goodsource and badsink by changing first IO.static_five==5 to IO.static_five!=5 */ private void goodG2B1() throws Throwable { int data; if (IO.static_five != 5) { /* INCIDENTAL: CWE 561 Dead Code, the code below will never run */ /* POTENTIAL FLAW: Use the maximum value for this type */ data = Integer.MAX_VALUE; } else { java.util.logging.Logger log_good = java.util.logging.Logger.getLogger("local-logger"); /* FIX: Use a hardcoded number that won't cause underflow, overflow, divide by zero, or loss-of-precision issues */ data = 2; } if (IO.static_five == 5) { int valueToAdd = (new SecureRandom()).nextInt(99) + 1; /* adding at least 1 */ /* POTENTIAL FLAW: if (data+valueToAdd) > MAX_VALUE, this will overflow */ int result = (data + valueToAdd); IO.writeLine("result: " + result); } else { /* INCIDENTAL: CWE 561 Dead Code, the code below will never run */ int result = 0; int valueToAdd = (new SecureRandom()).nextInt(99) + 1; /* adding at least 1 */ /* FIX: Add a check to prevent an overflow from occurring */ if (data <= (Integer.MAX_VALUE - valueToAdd)) { result = (data + valueToAdd); IO.writeLine("result: " + result); } else { IO.writeLine("Input value is too large to perform addition."); } } }
/* goodG2B2() - use goodsource and badsink by reversing statements in first if */ private void goodG2B2(HttpServletRequest request, HttpServletResponse response) throws Throwable { String data; if (privateFive == 5) { /* FIX: Use a hardcoded int as a string */ data = "5"; } else { /* INCIDENTAL: CWE 561 Dead Code, the code below will never run * but ensure data is inititialized before the Sink to avoid compiler errors */ data = null; } if (privateFive == 5) { int numberOfLoops; try { numberOfLoops = Integer.parseInt(data); } catch (NumberFormatException exceptNumberFormat) { IO.writeLine("Invalid response. Numeric input expected. Assuming 1."); numberOfLoops = 1; } for (int i = 0; i < numberOfLoops; i++) { /* POTENTIAL FLAW: user supplied input used for loop counter test */ IO.writeLine("hello world"); } } }
/* goodG2B() - use goodsource and badsink by changing the conditions on the first and second while statements */ private void goodG2B() throws Throwable { String data; boolean local_f = false; while (true) { /* FIX: call getStringG(), which will never return null */ data = CWE690_NULL_Deref_from_Return__Class__Helper.getStringGood(); break; } while (local_f) { /* INCIDENTAL: CWE 561 Dead Code, the code below will never run */ /* POTENTIAL FLAW: Call getStringG(), which may return null */ data = CWE690_NULL_Deref_from_Return__Class__Helper.getStringBad(); break; } while (true) { /* POTENTIAL FLAW: data could be null */ String sOut = data.trim(); IO.writeLine(sOut); break; } while (local_f) { /* INCIDENTAL: CWE 561 Dead Code, the code below will never run */ /* FIX: explicit check for null */ if (data != null) { String sOut = data.trim(); IO.writeLine(sOut); } break; } }
public void bad(HttpServletRequest request, HttpServletResponse response) throws Throwable { String data; if (IO.static_returns_t_or_f()) { Logger log_bad = Logger.getLogger("local-logger"); /* read parameter from cookie */ Cookie cookieSources[] = request.getCookies(); if (cookieSources != null) { data = cookieSources[0].getValue(); } else { data = null; } } else { java.util.logging.Logger log_good = java.util.logging.Logger.getLogger("local-logger"); /* FIX: Use a hardcoded string */ data = "foo"; } if (IO.static_returns_t_or_f()) { /* POTENTIAL FLAW: Input from file not verified */ response.addHeader("Location", "/author.jsp?lang=" + data); } else { /* FIX: use URLEncoder.encode to hex-encode non-alphanumerics */ data = URLEncoder.encode(data, "UTF-16"); response.addHeader("Location", "/author.jsp?lang=" + data); } }
/* goodB2G1() - use badsource and goodsink by changing second IO.staticReturnsTrue() to IO.staticReturnsFalse() */ private void goodB2G1() throws Throwable { long data; if (IO.staticReturnsTrue()) { /* POTENTIAL FLAW: Use the maximum size of the data type */ data = Long.MAX_VALUE; } else { /* INCIDENTAL: CWE 561 Dead Code, the code below will never run * but ensure data is inititialized before the Sink to avoid compiler errors */ data = 0L; } if (IO.staticReturnsFalse()) { /* INCIDENTAL: CWE 561 Dead Code, the code below will never run */ IO.writeLine("Benign, fixed string"); } else { /* FIX: Add a check to prevent an overflow from occurring */ if (data < Long.MAX_VALUE) { long result = (long) (data + 1); IO.writeLine("result: " + result); } else { IO.writeLine("data value is too large to perform addition."); } } }
/* goodB2G() - use badsource and goodsink by changing the second "if" so that both branches use the GoodSink */ private void goodB2G(HttpServletRequest request, HttpServletResponse response) throws Throwable { String data; if (IO.static_returns_t_or_f()) { Logger log_bad = Logger.getLogger("local-logger"); /* read parameter from cookie */ Cookie cookieSources[] = request.getCookies(); if (cookieSources != null) { data = cookieSources[0].getValue(); } else { data = null; } } else { Logger log_bad = Logger.getLogger("local-logger"); /* read parameter from cookie */ Cookie cookieSources[] = request.getCookies(); if (cookieSources != null) { data = cookieSources[0].getValue(); } else { data = null; } } if (IO.static_returns_t_or_f()) { /* FIX: use URLEncoder.encode to hex-encode non-alphanumerics */ data = URLEncoder.encode(data, "UTF-16"); response.addHeader("Location", "/author.jsp?lang=" + data); } else { /* FIX: use URLEncoder.encode to hex-encode non-alphanumerics */ data = URLEncoder.encode(data, "UTF-16"); response.addHeader("Location", "/author.jsp?lang=" + data); } }
/* goodG2B2() - use goodsource and badsink by reversing statements in first if */ private void goodG2B2() throws Throwable { int data; if (IO.staticReturnsTrue()) { /* FIX: Use a hardcoded number that won't cause underflow, overflow, divide by zero, or loss-of-precision issues */ data = 2; } else { /* INCIDENTAL: CWE 561 Dead Code, the code below will never run * but ensure data is inititialized before the Sink to avoid compiler errors */ data = 0; } if (IO.staticReturnsTrue()) { int array[] = null; /* POTENTIAL FLAW: Verify that data is non-negative, but still allow it to be 0 */ if (data >= 0) { array = new int[data]; } else { IO.writeLine("Array size is negative"); } /* do something with the array */ array[0] = 5; IO.writeLine(array[0]); } }
/* goodG2B1() - use goodsource and badsink by changing first private_final_t to private_final_f */ private void goodG2B1() throws Throwable { int data; /* INCIDENTAL: CWE 570 Statement is Always False */ if (private_final_f) { /* INCIDENTAL: CWE 561 Dead Code, the code below will never run */ Logger log_bad = Logger.getLogger("local-logger"); SecureRandom r = new SecureRandom(); data = r.nextInt(); } else { java.util.logging.Logger log_good = java.util.logging.Logger.getLogger("local-logger"); /* FIX: Use a hardcoded number that won't cause underflow, overflow, divide by zero, or loss-of-precision issues */ data = 2; } /* INCIDENTAL: CWE 571 Statement is Always True */ if (private_final_t) { /* POTENTIAL FLAW: Zero denominator will cause an issue. An integer division will result in an exception. */ IO.writeLine("bad: 100/" + String.valueOf(data) + " = " + (100 / data) + "\n"); } else { /* INCIDENTAL: CWE 561 Dead Code, the code below will never run */ /* FIX: test for a zero denominator */ if (data != 0) { IO.writeLine("100/" + String.valueOf(data) + " = " + (100 / data) + "\n"); } else { IO.writeLine("This would result in a divide by zero"); } } }
private void good1() throws Throwable { String fn = ".\\src\\testcases\\CWE379_File_Creation_in_Insecure_Dir\\basic\\insecureDir"; File dir = new File(fn); if (dir.exists()) { IO.writeLine("Directory already exists"); if (dir.delete()) { IO.writeLine("Directory deleted"); } else { return; } } if (!dir.getParentFile().canWrite()) { IO.writeLine("Cannot write to parent dir"); } /* FIX: explicitly set directory permissions */ dir.setExecutable(false, true); dir.setReadable(true); dir.setWritable(false, true); try { boolean success = dir.mkdir(); if (success) { IO.writeLine("Directory created"); File file = new File(dir.getAbsolutePath() + "\\newFile.txt"); file.createNewFile(); } } catch (Exception e) { System.out.println(e.getMessage()); } }
public void bad() throws Throwable { String data; /* We need to have one source outside of a for loop in order to prevent the Java compiler from generating an error because data is uninitialized */ /* POTENTIAL FLAW: string is null */ data = null; for (int for_index_i = 0; for_index_i < 0; for_index_i++) { /* INCIDENTAL: CWE 561 Dead Code, the code below will never run */ /* FIX: hardcode string to non-null */ data = "This is not null"; } for (int for_index_j = 0; for_index_j < 1; for_index_j++) { /* POTENTIAL FLAW: null dereference will occur if data is null */ IO.writeLine("" + data.length()); } for (int for_index_k = 0; for_index_k < 0; for_index_k++) { /* INCIDENTAL: CWE 561 Dead Code, the code below will never run */ /* FIX: validate that data is non-null */ if (data != null) { IO.writeLine("" + data.length()); } else { IO.writeLine("data is null"); } } }
/* goodG2B() - use goodsource and badsink */ public void goodG2BSink(String data) throws Throwable { Connection dbConnection = null; Statement sqlStatement = null; try { dbConnection = IO.getDBConnection(); sqlStatement = dbConnection.createStatement(); /* POTENTIAL FLAW: data concatenated into SQL statement used in executeUpdate(), which could result in SQL Injection */ int rowCount = sqlStatement.executeUpdate( "insert into users (status) values ('updated') where name='" + data + "'"); IO.writeLine("Updated " + rowCount + " rows successfully."); } catch (SQLException exceptSql) { IO.logger.log(Level.WARNING, "Error getting database connection", exceptSql); } finally { try { if (sqlStatement != null) { sqlStatement.close(); } } catch (SQLException exceptSql) { IO.logger.log(Level.WARNING, "Error closing Statement", exceptSql); } try { if (dbConnection != null) { dbConnection.close(); } } catch (SQLException exceptSql) { IO.logger.log(Level.WARNING, "Error closing Connection", exceptSql); } } }
/* goodB2G() - use badsource and goodsink by changing the conditions on the second and third for statements */ private void goodB2G() throws Throwable { String data; /* POTENTIAL FLAW: string is null */ data = null; for (int for_index_i = 0; for_index_i < 0; for_index_i++) { /* INCIDENTAL: CWE 561 Dead Code, the code below will never run */ /* FIX: hardcode string to non-null */ data = "This is not null"; } for (int for_index_j = 0; for_index_j < 0; for_index_j++) { /* INCIDENTAL: CWE 561 Dead Code, the code below will never run */ /* POTENTIAL FLAW: null dereference will occur if data is null */ IO.writeLine("" + data.length()); } for (int for_index_k = 0; for_index_k < 1; for_index_k++) { /* FIX: validate that data is non-null */ if (data != null) { IO.writeLine("" + data.length()); } else { IO.writeLine("data is null"); } } }
/* goodG2B1() - use goodsource and badsink by changing the first switch to switch(5) */ private void goodG2B1() throws Throwable { int data; switch (5) { case 6: /* INCIDENTAL: CWE 561 Dead Code, the code below will never run * but ensure data is inititialized before the Sink to avoid compiler errors */ data = 0; break; default: /* FIX: Use a hardcoded number that won't cause underflow, overflow, divide by zero, or loss-of-precision issues */ data = 2; break; } switch (7) { case 7: /* POTENTIAL FLAW: if data == Integer.MAX_VALUE, this will overflow */ int result = (int) (data + 1); IO.writeLine("result: " + result); break; default: /* INCIDENTAL: CWE 561 Dead Code, the code below will never run */ IO.writeLine("Benign, fixed string"); break; } }
/* goodB2G() - use badsource and goodsink by changing the second "if" so that * both branches use the GoodSink */ private void goodB2G() throws Throwable { int data; if (IO.staticReturnsTrueOrFalse()) { /* POTENTIAL FLAW: Set data to a random value */ data = (new SecureRandom()).nextInt(); } else { /* POTENTIAL FLAW: Set data to a random value */ data = (new SecureRandom()).nextInt(); } if (IO.staticReturnsTrueOrFalse()) { /* Need to ensure that the array is of size > 3 and < 101 due to the GoodSource and the large_fixed BadSource */ int array[] = {0, 1, 2, 3, 4}; /* FIX: Verify index before writing to array at location data */ if (data >= 0 && data < array.length) { array[data] = 42; } else { IO.writeLine("Array index out of bounds"); } } else { /* Need to ensure that the array is of size > 3 and < 101 due to the GoodSource and the large_fixed BadSource */ int array[] = {0, 1, 2, 3, 4}; /* FIX: Verify index before writing to array at location data */ if (data >= 0 && data < array.length) { array[data] = 42; } else { IO.writeLine("Array index out of bounds"); } } }