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# Frequently asked questions (FAQ)
If you find an interesting or important question missing, submit it via
[https://github.com/AFLplusplus/AFLplusplus/issues](https://github.com/AFLplusplus/AFLplusplus/issues).
### General
* [What is the difference between afl and afl++?](#what-is-the-difference-between-afl-and-afl)
* [What is an edge?](#what-is-an-edge)
### Targets
* [How can I fuzz a binary-only target?](#how-can-i-fuzz-a-binary-only-target)
* [How can I fuzz a network service?](#how-can-i-fuzz-a-network-service)
* [How can I fuzz a GUI program?](#how-can-i-fuzz-a-gui-program)
### Performance
* [How can I improve the fuzzing speed?](#how-can-i-improve-the-fuzzing-speed)
* [Why is my stability below 100%?](#why-is-my-stability-below-100)
* [How can I improve the stability value?](#how-can-i-improve-the-stability-value)
### Troubleshooting
* [I got a weird compile error from clang](#i-got-a-weird-compile-error-from-clang)
## Questions & answers
### What is the difference between AFL and AFL++?
AFL++ is a superior fork to Google's AFL - more speed, more and better mutations, more and better instrumentation, custom module support, etc.
For more information about the history of AFL++, see [docs/history_afl++.md](docs/history_afl++.md).
### What is an "edge"?
A program contains `functions`, `functions` contain the compiled machine code.
The compiled machine code in a `function` can be in a single or many `basic blocks`.
A `basic block` is the largest possible number of subsequent machine code
instructions that has exactly one entrypoint (which can be be entered by multiple other basic blocks)
and runs linearly without branching or jumping to other addresses (except at the end).
```
function() {
A:
some
code
B:
if (x) goto C; else goto D;
C:
some code
goto E
D:
some code
goto B
E:
return
}
```
Every code block between two jump locations is a `basic block`.
An `edge` is then the unique relationship between two directly connected `basic blocks` (from the
code example above):
```
Block A
|
v
Block B <------+
/ \ |
v v |
Block C Block D --+
\
v
Block E
```
Every line between two blocks is an `edge`.
Note that a few basic block loop to itself, this too would be an edge.
### How can I fuzz a binary-only target?
AFL++ is a great fuzzer if you have the source code available.
However, if there is only the binary program and no source code available, then the standard non-instrumented mode is not effective.
To learn how these binaries can be fuzzed, read [binaryonly_fuzzing.md](binaryonly_fuzzing.md).
### How can I fuzz a network service?
The short answer is - you cannot, at least not "out of the box".
For more information on fuzzing network services, see [docs/best_practices.md#fuzzing-network-service](docs/best_practices.md#fuzzing-network-service).
### How can I fuzz a GUI program?
Not all GUI programs are suitable for fuzzing. If the GUI program can read the fuzz data from a file without needing any user interaction, then it would be suitable for fuzzing.
For more information on fuzzing GUI programs, see [docs/best_practices.md#fuzzing-gui-program](docs/best_practices.md#fuzzing-gui-program).
### How can I improve the fuzzing speed?
There are a few things you can do to improve the fuzzing speed, see [docs/best_practices.md#improving-speed](docs/best_practices.md#improving-speed).
### Why is my stability below 100%?
Stability is measured by how many percent of the edges in the target are
"stable". Sending the same input again and again should take the exact same
path through the target every time. If that is the case, the stability is 100%.
If however randomness happens, e.g. a thread reading other external data,
reaction to timing, etc., then in some of the re-executions with the same data
the edge coverage result will be different accross runs.
Those edges that change are then flagged "unstable".
The more "unstable" edges, the more difficult for AFL++ to identify valid new
paths.
A value above 90% is usually fine and a value above 80% is also still ok, and
even a value above 20% can still result in successful finds of bugs.
However, it is recommended that for values below 90% or 80% you should take
countermeasures to improve stability.
### How can I improve the stability value?
This depends on the target and the instrumentation.
For more information on stability and how to improve the stability value, see [docs/best_practices.md#improving-stability](docs/best_practices.md#improving-stability).
### I got a weird compile error from clang
If you see this kind of error when trying to instrument a target with afl-cc/
afl-clang-fast/afl-clang-lto:
```
/prg/tmp/llvm-project/build/bin/clang-13: symbol lookup error: /usr/local/bin/../lib/afl//cmplog-instructions-pass.so: undefined symbol: _ZNK4llvm8TypeSizecvmEv
clang-13: error: unable to execute command: No such file or directory
clang-13: error: clang frontend command failed due to signal (use -v to see invocation)
clang version 13.0.0 (https://github.com/llvm/llvm-project 1d7cf550721c51030144f3cd295c5789d51c4aad)
Target: x86_64-unknown-linux-gnu
Thread model: posix
InstalledDir: /prg/tmp/llvm-project/build/bin
clang-13: note: diagnostic msg:
********************
```
Then this means that your OS updated the clang installation from an upgrade
package and because of that the AFL++ llvm plugins do not match anymore.
Solution: `git pull ; make clean install` of AFL++
|
