Since Java 7,
System.nanoTime() is guaranteed to be safe by JDK specification.
System.nanoTime()'s Javadoc makes it clear that all observed invocations within a JVM (that is, across all threads) are monotonic:
The value returned represents nanoseconds since some fixed but arbitrary origin time (perhaps in the future, so values may be negative). The same origin is used by all invocations of this method in an instance of a Java virtual machine; other virtual machine instances are likely to use a different origin.
JVM/JDK implementation is responsible for ironing out the inconsistencies that could be observed when underlying OS utilities are called (e. g. those mentioned in Tom Anderson's answer).
The majority of other old answers to this question (written in 2009–2012) express FUD that was probably relevant for Java 5 or Java 6 but is no longer relevant for modern versions of Java.
It's worth mentioning, however, that despite JDK guarantees
nanoTime()'s safety, there have been several bugs in OpenJDK making it to not uphold this guarantee on certain platforms or under certain circumstances (e. g. JDK-8040140, JDK-8184271). There are no open (known) bugs in OpenJDK wrt
nanoTime() at the moment, but a discovery of a new such bug or a regression in a newer release of OpenJDK shouldn't shock anybody.
With that in mind, code that uses
nanoTime() for timed blocking, interval waiting, timeouts, etc. should preferably treat negative time differences (timeouts) as zeros rather than throw exceptions. This practice is also preferable because it is consistent with the behaviour of all timed wait methods in all classes in
java.util.concurrent.*, for example
nanoTime() should still be preferred for implementing timed blocking, interval waiting, timeouts, etc. to
currentTimeMillis() because the latter is a subject to the "time going backward" phenomenon (e. g. due to server time correction), i. e.
currentTimeMillis() is not suitable for measuring time intervals at all. See this answer for more information.
Instead of using
nanoTime() for code execution time measurements directly, specialized benchmarking frameworks and profilers should preferably be used, for example JMH and async-profiler in wall-clock profiling mode.