A Java OutofMemoryError
occurs if when the program attempts to use more heap space than is available, even after garbage collection. This error can result from. Among other causes, this error may result from the following:
- A memory leak (see MSC04-J. Do not leak memory)
- An infinite loop
- The program requires more memory than is available by default on the heapLimited amounts of default heap memory available
- Incorrect implementation of common data structures (hash tables, vectors, and so on)
- Unbound Unbounded deserialization
- Upon writing Writing a large number of objects to an
ObjectOutputStream
(see SER10-J. Avoid memory and resource leaks during serialization) - Creating a large number of threads.
- Uncompressing a file (see IDS04-J. Safely extract files from ZipInputStream)
Some of these causes are platform-dependent and difficult to anticipate. Others, such as reading data from a file, are fairly easy to anticipate. As a result, programs must not accept untrusted input in a manner that can cause the program to exhaust memory.
Noncompliant Code Example (readLine(
...
)
)
This noncompliant code example places no upper bounds on the memory space required to execute the program. Consequently, the program can easily exhaust the heap.reads lines of text from a file and adds each one to a vector until a line with the word "quit" is encountered:
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public class ShowHeapErrorReadNames { private Vector<String> names = new Vector<String>(); private final InputStreamReader input; private final BufferedReader reader; public ReadNames(String newName=null; filename) throws IOException { InputStreamReader this.input = new InputStreamReaderFileReader(System.infilename); BufferedReader this.reader = new BufferedReader(input); } public void addNames() throws IOException { dotry { String newName; // Adding unknown number of records to a list while (((newName = reader.readLine()) != null) && // the user can enter as much data as he wants and exhaust the heap !(newName.equalsIgnoreCase("quit"))) { names.addElement(newName); System.out.printprintln(" To quit, enter \"quit\"\nEnter record: "adding " + newName); } try { } finally { newName = readerinput.readLineclose(); } } public static void main(String[] args) throws IOException { if (!newName.equalsIgnoreCase("quit")){args.length != 1) { System.out.println("Arguments: [filename]"); return; //} names are continued toReadNames bedemo added= without new ReadNames(args[0]); demo.addNames(); } } |
The code places no upper bounds on the memory space required to execute the program. Consequently, the program can easily exhaust the available heap space in two ways. First, an attacker can supply arbitrarily many lines in the file, causing the vector to grow until memory is exhausted. Second, an attacker can simply supply an arbitrarily long line, causing the readLine()
method to exhaust memory. According to the Java API documentation [API 2014], the BufferedReader.readLine()
method
Reads a line of text. A line is considered to be terminated by any one of a line feed ('
\n
'), a carriage return ('\r
'), or a carriage return followed immediately by a linefeed.
Any code that uses this method is susceptible to a resource exhaustion attack because the user can enter a string of any length.
Compliant Solution (Limited File Size)
This compliant solution imposes a limit on the size of the file being read. The limit is set with the Files.size()
method, which was introduced in Java SE 7. If the file is within the limit, we can assume the standard readLine()
method will not exhaust memory, nor will memory be exhausted by the while
loop.
Code Block | ||
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class ReadNames { // bothering about the size on the heap names.addElement(newName ... Other methods and variables public static final int fileSizeLimit = 1000000; public ReadNames(String filename) throws IOException { long size = Files.size( Paths.get( filename)); if (size > fileSizeLimit) } { throw new IOException("File too large"); } catch (IOException e) { // forward to handler } System.out.println(newName); }while (!newName.equalsIgnoreCase("quit")); } public static void main(String[] args) { ShowHeapError demo = new ShowHeapError(); demo.addNames(); } } |
Compliant Solution (1)
If the objects or data structures are large enough to potentially cause heap exhaustion, the programmer must consider using databases instead.
To remedy the noncompliant code example, the user can reuse a single long
variable to store the input and write that value into a database containing a table User
, with a field userID
along with any other required fields. This prevents the heap from getting exhausted.
Noncompliant Code Example (2)
Wiki Markup |
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In this example, the program needs more memory on the heap than is available by default. In a server-class machine running either VM (client or server) with a parallel garbage collector, the default initial and maximum heap sizes are as follows for J2SE 6.0 \[[Sun 06|AA. Java References#Sun 06]\]: |
- initial heap size: larger of 1/64th of the machine's physical memory on the machine or some reasonable minimum
- maximum heap size: smaller of 1/4th of the physical memory or 1GB
else if (size == 0L) {
throw new IOException("File size cannot be determined, possibly too large");
}
this.input = new FileReader(filename);
this.reader = new BufferedReader(input);
}
}
|
Compliant Solution (Limited Length Input)
This compliant solution imposes limits both on the length of each line and on the total number of items to add to the vector. (It does not depend on any Java SE 7 or later features.)
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class ReadNames {
// ... Other methods and variables
public static String readLimitedLine(Reader reader, int limit)
throws IOException {
StringBuilder sb = new StringBuilder();
for (int i = 0; i < limit; i++) {
int c = reader.read();
if (c == -1) {
return ((sb.length() > 0) ? sb.toString() : null);
}
if (((char) c == '\n') || ((char) c == '\r')) {
break;
}
sb.append((char) c);
}
return sb.toString();
}
public static final int lineLengthLimit = 1024;
public static final int lineCountLimit = 1000000;
public void addNames() throws IOException {
try {
String newName;
for (int i = 0; i < lineCountLimit; i++) {
newName = readLimitedLine(reader, lineLengthLimit);
if (newName == null || newName.equalsIgnoreCase("quit")) {
break;
}
names.addElement(newName);
System.out.println("adding " + newName);
}
} finally {
input.close();
}
}
}
|
The readLimitedLine()
method takes a numeric limit, indicating the total number of characters that may exist on one line. If a line contains more characters, the line is truncated, and the characters are returned on the next invocation. This prevents an attacker from exhausting memory by supplying input with no line breaks.
Noncompliant Code Example
In a server-class machine using a parallel garbage collector, the default initial and maximum heap sizes are as follows for Java SE 6 [Sun 2006]:
- Initial heap size: larger of 1/64 of the machine's physical memory or some reasonable minimum.
- Maximum heap size: smaller of 1/4 of the physical memory or 1GB.
This noncompliant code example requires more memory on the heap than is available by default:
Code Block | ||
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Code Block | ||
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public class ShowHeapError { /* Assuming the heap size as 512 MB * (calculated as 1/4th4 of 2 GB2GB RAM = 512 MB512MB) * Considering long values being entered (64 bits each, * the max number of elements * would be 512 MB/64bits512MB/64 bits = * 67108864) */ public class ReadNames { */ // Accepts unknown number of records Vector<Long> names = new Vector<Long>(67108865); long newID = 0L; int count = 67108865; int i = 0; InputStreamReader input = new InputStreamReader(System.in); Scanner reader = new Scanner(input); public void addNames() { try { do { //* Adding unknown number of records to a list *// theThe user can enter more number of IDs than what the heap can support and, // as a *result, exhaust the heap. Assume that the record ID is a 64 bit long value // is a 64-bit long */value System.out.print("Enter recordID (To quit, enter -1\nEnter recordID): "); newID = reader.nextLong(); //names are continued to be added without bothering about the size on the heap names.addElement(newIDnames.addElement(newID); i++; } while (i < count || newID != -1); } System.out.println(newID);finally { i++input.close(); }while (i<count || newID!=-1); } public static void main(String[] args) { ShowHeapErrorReadNames demo = new ShowHeapErrorReadNames(); demo.addNames(); } } |
Compliant Solution
...
A simple compliant solution is to reduce the number of names to read:
Code Block | ||
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// ...
int count = 10000000;
// ...
|
Compliant Solution
The OutOfMemoryError
can be avoided by ensuring the absence of infinite loops, memory leaks, and unnecessary object retention. When memory requirements are known ahead of time, the heap size can be tailored to fit the requirements using the following runtime parameters [Java 2006 The {{OutOfMemoryError}} can be avoided by making sure that there are no infinite loops, memory leaks or unnecessary object retention. If memory requirements are known ahead of time, the heap size in Java can be tailored to fit the requirements using the following runtime parameters \[[Java 06|AA. Java References#Java 06]\]: Wiki Markup
java -Xms<initial heap size> -Xmx<maximum heap size>
For example:,
java -Xms128m -Xmx512m ShowHeapErrorReadNames
Here the initial heap size is set to 128 MB 128MB and the maximum heap size to 512 MB512MB.
This setting These settings can be changed either in using the Java Control Panel or on from the command line. It They cannot be adjusted through the application itself.
Noncompliant Code Example (2)
Wiki Markup |
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According to \[[API 06|AA. Java References#API 06]\], Class {{ObjectInputStream}} documentation: |
...
.
By design, only the first time an object is written, does it get reflected in the stream. Subsequent writes write a handle to the object into the stream. A table mapping the objects written to the stream to the corresponding handle is also maintained. Because of this handle, references that may not persist during normal runs of the program are also retained. This can cause an OutOfMemoryError
when streams remain open for extended durations.
Code Block | ||
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FileOutputStream fos = new FileOutputStream("data.txt");
ObjectOutputStream oos = new ObjectOutputStream(fos);
oos.writeObject(new Date());
// ...
|
Compliant Solution (3)
If heap related issues arise, it is recommended that the ObjectOutputStream.reset()
method be called so that references to previously written objects may be garbage collected.
Code Block | ||
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FileOutputStream fos = new FileOutputStream("data.txt");
ObjectOutputStream oos = new ObjectOutputStream(fos);
oos.writeObject(new Date());
oos.reset(); // Reset the Object-Handle table to its initial state
// ...
|
Risk Assessment
Assuming that infinite heap space is available can result in denial of service.
Rule | Severity | Likelihood | Remediation Cost | Priority | Level |
---|
MSC05-J |
Low |
Probable |
Medium | P4 | L3 |
Related Vulnerabilities
Search for vulnerabilities resulting from the violation of this rule on the CERT website
Other Languages
...
The Apache Geronimo bug described by GERONIMO-4224 results in an OutOfMemoryError
exception thrown by the WebAccessLogViewer
when the access log file size is too large.
Automated Detection
Tool | Version | Checker | Description | ||||||
---|---|---|---|---|---|---|---|---|---|
CodeSonar |
| JAVA.ALLOC.LEAK.NOTSTORED | Closeable Not Stored (Java) |
Related Guidelines
...
...
...
...
Resource Exhaustion [XZP] | |
CWE-400, Uncontrolled Resource Consumption ("Resource Exhaustion") |
Bibliography
[API 2014] | |
Java—The Java Application Launcher, Syntax for Increasing the Heap Size | |
[Oracle 2015] | Tuning the Java Runtime System |
[SDN 2008] | |
[Sun 2006] | Garbage Collection Ergonomics, Default Values for the Initial and Maximum Heap Size |
...
Related Vulnerabilities
Search for vulnerabilities resulting from the violation of this rule on the CERT website.
References
Wiki Markup |
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\[[Sun 06|AA. Java References#Sun 06]\] [Garbage Collection Ergonomics|http://java.sun.com/javase/6/docs/technotes/guides/vm/gc-ergonomics.html ], "Default values for the Initial and Maximum heap size"
\[[Java 06|AA. Java References#Java 06]\] [java - the Java application launcher|http://java.sun.com/javase/6/docs/technotes/tools/windows/java.html ], "Syntax for increasing the heap size"
\[[Sun 03|AA. Java References#Sun 03]\] Chapter 5: Tuning the Java Runtime System, [Tuning the Java Heap|http://docs.sun.com/source/817-2180-10/pt_chap5.html#wp57027]
\[[API 06|AA. Java References#API 06]\] Class ObjectInputStream and ObjectOutputStream
\[[SDN 08|AA. Java References#SDN 08]\] [Serialization FAQ|http://java.sun.com/javase/technologies/core/basic/serializationFAQ.jsp]
\[[MITRE 09|AA. Java References#MITRE 09]\] [CWE ID 400|http://cwe.mitre.org/data/definitions/400.html] "Uncontrolled Resource Consumption (aka 'Resource Exhaustion')" |
MSC06-J. Finish every set of statements associated with a case label with a break statement 49. Miscellaneous (MSC) MSC30-J. Generate truly random numbers