The Java Language Specification allows 64-bit long
and double
values to be treated as two 32-bit values. For example, a 64-bit write operation could be performed as two separate 32-bit operations.
According to the Java Language Specification, §17.7, "Non-Atomic Treatment of double
and long
" [[JLS 2005]]:
This behavior is implementation specific; Java virtual machines are free to perform writes to
long
anddouble
values atomically or in two parts. For the purposes of the Java programming language memory model, a single write to a non-volatilelong
ordouble
value is treated as two separate writes: one to each 32-bit half. This can result in a situation where a thread sees the first 32 bits of a 64-bit value from one write, and the second 32 bits from another write.
This behavior can result in indeterminate values being read in code that is required to be thread-safe. Consequently, multithreaded programs must ensure atomicity when reading or writing 64-bit values.
Noncompliant Code Example
In this noncompliant code example, if one thread repeatedly calls the assignValue()
method and another thread repeatedly calls the printLong()
method, the printLong()
method could occasionally print a value of i
that is neither zero nor the value of the j
argument.
class LongContainer { private long i = 0; void assignValue(long j) { i = j; } void printLong() { System.out.println("i = " + i); } }
A similar problem can occur when i
is declared double
.
Compliant Solution (Volatile)
This compliant solution declares i
volatile. Writes and reads of long
and double
volatile values are always atomic.
class LongContainer { private volatile long i = 0; void assignValue(long j) { i = j; } void printLong() { System.out.println("i = " + i); } }
It is important to ensure that the argument to the assignValue()
method is obtained from a volatile variable or obtained as the result of an atomic read. Otherwise, a read of the variable argument can itself expose a vulnerability.
The semantics of volatile
explicitly exclude any guarantee of the atomicity of compound operations that involve read-modify-write sequences such as incrementing a value. See rule VNA02-J. Ensure that compound operations on shared variables are atomic for more information.
Exceptions
VNA05-EX0: If all reads and writes of 64-bit long
and double
values occur within a synchronized region, the atomicity of the read/write is guaranteed. This requires both that the value is exposed only through synchronized methods in the class and that the value is inaccessible from other code (whether directly or indirectly). For more information, see rule VNA02-J. Ensure that compound operations on shared variables are atomic.)
VNA05-EX1: This rule can be ignored for platforms that guarantee that 64-bit long
and double
values are read and written as atomic operations. Note, however, that such guarantees are not portable across different platforms.
Risk Assessment
Failure to ensure the atomicity of operations involving 64-bit values in multithreaded applications can result in reading and writing indeterminate values. However, many JVMs read and write 64-bit values atomically even though the specification does not require them to.
Rule |
Severity |
Likelihood |
Remediation Cost |
Priority |
Level |
---|---|---|---|---|---|
VNA05-J |
low |
unlikely |
medium |
P2 |
L3 |
Automated Detection
Some static analysis tools are capable of detecting violations of this rule.
Related Guidelines
Bibliography
<ac:structured-macro ac:name="unmigrated-wiki-markup" ac:schema-version="1" ac:macro-id="fbaff059-0f9a-4a0b-8c3a-4f9a6ed20993"><ac:plain-text-body><![CDATA[ |
[[Goetz 2006 |
AA. References#Goetz 06]] |
3.1.2, Non-atomic 64-Bit Operations |
]]></ac:plain-text-body></ac:structured-macro> |
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[[Goetz 2004c |
AA. References#Goetz 04c]] |
|
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[[JLS 2005 |
AA. References#JLS 05]] |
§17.7, Non-atomic Treatment of double and long |
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