I'm investigating the differences between using log4net and
System.Diagnostics.Trace for logging, and I'm curious about the performance differences I've observed.
I created a test application to compare the performance of both logging methods in several scenarios, and I'm finding that log4net is significantly slower than the
Trace class. For example, in a scenario where I log 1,000 messages with no string formatting, log4net's mean execution time over 1,000 trials is 9.00ms.
Trace executes with a mean of 1.13ms. A lot of my test cases have a relatively large amount of variance in the log4net execution times; the periodic nature of outlier long executions seems to suggest GC interference. Poking around with CLR Profiler confirms there are a large amount of collections for a ton of
log4net.Core.LoggingEvent objects that are generated (to be fair, it looks like
Trace generates a ton of
Char objects as well, but it doesn't display the large variance that log4net does.)
One thing I'm keeping in mind here are that even though log4net seems roughly 9 times slower than
Trace, the difference is 8ms over 1,000 iterations; this isn't exactly a significant performance drain. Still, some of my expected use cases might be calling methods that are logging things hundreds of thousands of times, and these numbers are from my fast machine. On a slower machine more typical of our users' configurations the difference is 170ms to 11ms which is a tiny bit more alarming.
Is this performance typical of log4net, or are there some gotchas that can significantly increase log4net's performance?
(NOTE: I am aware that string formatting can alter the execution time; I am trying to compare apples to apples and I have test cases with no formatting and test cases with formatting; log4net stays as proportionally slow whether string formatting is used or not.)
The story so far:
- Robert Gould has the best answer to the question; I was mainly curious if it was typical to see log4net perform much slower than the
- Alex Shnayder's answer is interesting information but doesn't really fall under the scope of the question. Half of the intent for introducing this logging is to assist in debugging both logical and performance problems on live systems; our customers put our products in many exotic scenarios that are often difficult to reproduce without expensive and large-scale hardware configurations. My main concern is that a large timing difference between "not logging" and "logging" could affect the system in such a way that bugs don't happen. In the end, the scale of the performance decrease is large but the magnitude is small, so I'm hoping it won't be a problem.