Objects in general should — and should—and security-critical objects must — be left —be maintained in a consistent state even when exceptional conditions arise. Common techniques for maintaining object consistency include
- Input validation (on method arguments, for example, method parameters)
- Reordering logic so that code that can result in the exceptional condition executes before the object is modified
- Using rollbacks in the event of failure
- Performing required operations on a temporary copy of the object and committing changes to the original object only after their successful completion
- Avoiding the need to modify the object in the first placeat all
Noncompliant Code Example
This noncompliant code example shows a Dimensions
class that contains three internal attributes, : the length
, width
, and height
of a rectangular box. The getVolumePackage()
method is designed to return the total volume required to hold the box , after accounting for packaging material, which further adds 2 units to the dimensions of each side. Non-positive Nonpositive values of the dimensions of the box (exclusive of packaging material) are rejected during input validation. No dimension cannot can be larger than 10. Also, the weight
of the object is passed in as an argument and cannot be more than 20 units.
Consider If the case where the weight
is more than 20 units (21 units in this case). This , it causes an IllegalArgumentException
, which is intercepted by the custom error reporter. While Although the logic restores the object's original state in the absence of this exception, the rollback code fails to execute in the event of an exception. Consequently, subsequent invocations of getVolumePackage()
produce incorrect results.
Code Block | ||
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class Dimensions { private int length; private int width; private int height; static public final int PADDING = 2; static public final int MAX_DIMENSION = 10; public Dimensions(int length, int width, int height) { this.length = length; this.width = width; this.height = height; } protected int getVolumePackage(int weight) { length += PADDING; width += PADDING; height += PADDING; try { if (length <= PADDING || width <= PADDING || height <= PADDING || length > MAX_DIMENSION + PADDING || width > MAX_DIMENSION + PADDING || height > MAX_DIMENSION + PADDING || weight <= 0 || weight > 20) { throw new IllegalArgumentException(); } int volume = length * width * height; // 12 * 12 * 12 = 1728 length -= PADDING; width -= PADDING; height -= PADDING; // Revert back return volume; } catch (Throwable t) { MyExceptionReporter mer = new MyExceptionReporter(); mer.report(t); // Sanitize return -1; // Non-positive error code } } public static void main(String[] args) { Dimensions d = new Dimensions(108, 108, 108); System.out.println(d.getVolumePackage(21)); // Prints -1 (error) System.out.println(d.getVolumePackage(19)); // Prints 1728 2744(12x12x12) instead of 1000 1728(10x10x10) } } |
The catch
clause is permitted under EX0 of guideline ERR14by exception ERR08-J-EX0 in ERR08-J. Do not catch RuntimeException; NullPointerException or any of its ancestors because it serves as a general filter passing exceptions to the MyExceptionReporter
class, which is dedicated to safely reporting exceptions , as recommended by guideline ERR00-J. Do not suppress or ignore checked exceptions. While Although this code only throws IllegalArgumentException
, the catch
clause is general enough to handle any exception , in case the try
block should be modified to throw other exceptions.
Compliant Solution (Rollback)
This compliant solution replaces the catch
block in the getVolumePackage()
method with code that restores prior object state in the event of an exception.:
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// ... } catch (Throwable t) { MyExceptionReporter mer = new MyExceptionReporter(); mer.report(t); // Sanitize length -= PADDING; width -= PADDING; height -= PADDING; // Revert back return -1; } |
Compliant Solution (finally
...
Clause)
This compliant solution uses a finally
clause to perform rollback, guaranteeing that rollback occurs whether or not an error occurs.:
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protected int getVolumePackage(int weight) { length += PADDING; width += PADDING; height += PADDING; try { if (length <= PADDING || width <= PADDING || height <= PADDING || length > MAX_DIMENSION + PADDING || width > MAX_DIMENSION + PADDING || height > MAX_DIMENSION + PADDING || weight <= 0 || weight > 20) { throw new IllegalArgumentException(); } int volume = length * width * height; // 12 * 12 * 12 = 1728 return volume; } catch (Throwable t) { MyExceptionReporter mer = new MyExceptionReporter(); mer.report(t); // Sanitize return -1; // Non-positive error code } finally { // Revert length -= PADDING; width -= PADDING; height -= PADDING; // Revert back } } |
Compliant Solution (Input
...
Validation)
This improved compliant solution performs solution improves on the previous solution by performing input validation before modifying the state of the object. Note that the try
block contains only those statements that could throw the exception; all others have been moved outside the try
block.
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protected int getVolumePackage(int weight) { try { if (length <= 0 || width <= 0 || height <= 0 || length > MAX_DIMENSION || width > MAX_DIMENSION || height > MAX_DIMENSION || weight <= 0 || weight > 20) { throw new IllegalArgumentException(); // Validate first } } catch (Throwable t) { MyExceptionReporter mer = new MyExceptionReporter(); mer.report(t); // Sanitize return -1; } length += PADDING; width += PADDING; height += PADDING; int volume = length * width * height; length -= PADDING; width -= PADDING; height -= PADDING; return volume; } |
Compliant Solution (
...
Unmodified Object)
This compliant solution entirely avoids the need to modify the object; consequently the fields cannot be violated and rollback becomes object. The object's state cannot be made inconsistent, and rollback is consequently unnecessary. This approach is preferred over the other compliant solutions when possible. This approach to solutions that modify the object but may be infeasible for more complex code.
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protected int getVolumePackage(int weight) { try { if (length <= 0 || width <= 0 || height <= 0 || length > MAX_DIMENSION || width > MAX_DIMENSION || height > MAX_DIMENSION || weight <= 0 || weight > 20) { throw new IllegalArgumentException(); // Validate first } } catch (Throwable t) { MyExceptionReporter mer = new MyExceptionReporter(); mer.report(t); // Sanitize return -1; } int volume = (length + PADDING) * (width + PADDING) * (height + PADDING); return volume; } |
Risk Assessment
Failure to restore prior object state on method failure can leave the object in an inconsistent state and can violate required state invariants.
Rule | Severity | Likelihood | Remediation Cost | Priority | Level |
---|
ERR03-J |
Low |
Probable |
High | P2 | L3 |
Automated Detection
Tool | Version | Checker | Description | ||||||
---|---|---|---|---|---|---|---|---|---|
Parasoft Jtest |
| CERT.ERR03.REVOBJ | Restore prior object state on method failure |
Related Vulnerabilities
Bibliography
Wiki Markup |
---|
\[[Bloch 2008|AA. Bibliography#Bloch 08]\] Item 64: Strive for failure atomicity |
describes a vulnerability in several versions of Apache Tomcat. If an exception occurs during parameter processing, the program can be left in the context of the wrong request, which might allow remote attackers to obtain sensitive information. An exception can be triggered by disconnecting from Tomcat during this processing.
Related Guidelines
Bibliography
Item 64, "Strive for Failure Atomicity" |
...
ERR10-J. Do not let code throw undeclared checked exceptions 06. Exceptional Behavior (ERR) IDS05-J. Do not log unsanitized user input