capa detects capabilities in executable files. You run it against a PE file or shellcode and it tells you what it thinks the program can do. For example, it might suggest that the file is a backdoor, is capable of installing services, or relies on HTTP to communicate.
Check out the overview in our first capa blog post.
$ capa.exe suspicious.exe
+------------------------+--------------------------------------------------------------------------------+
| ATT&CK Tactic | ATT&CK Technique |
|------------------------+--------------------------------------------------------------------------------|
| DEFENSE EVASION | Obfuscated Files or Information [T1027] |
| DISCOVERY | Query Registry [T1012] |
| | System Information Discovery [T1082] |
| EXECUTION | Command and Scripting Interpreter::Windows Command Shell [T1059.003] |
| | Shared Modules [T1129] |
| EXFILTRATION | Exfiltration Over C2 Channel [T1041] |
| PERSISTENCE | Create or Modify System Process::Windows Service [T1543.003] |
+------------------------+--------------------------------------------------------------------------------+
+-------------------------------------------------------+-------------------------------------------------+
| CAPABILITY | NAMESPACE |
|-------------------------------------------------------+-------------------------------------------------|
| check for OutputDebugString error | anti-analysis/anti-debugging/debugger-detection |
| read and send data from client to server | c2/file-transfer |
| execute shell command and capture output | c2/shell |
| receive data (2 matches) | communication |
| send data (6 matches) | communication |
| connect to HTTP server (3 matches) | communication/http/client |
| send HTTP request (3 matches) | communication/http/client |
| create pipe | communication/named-pipe/create |
| get socket status (2 matches) | communication/socket |
| receive data on socket (2 matches) | communication/socket/receive |
| send data on socket (3 matches) | communication/socket/send |
| connect TCP socket | communication/socket/tcp |
| encode data using Base64 | data-manipulation/encoding/base64 |
| encode data using XOR (6 matches) | data-manipulation/encoding/xor |
| run as a service | executable/pe |
| get common file path (3 matches) | host-interaction/file-system |
| read file | host-interaction/file-system/read |
| write file (2 matches) | host-interaction/file-system/write |
| print debug messages (2 matches) | host-interaction/log/debug/write-event |
| resolve DNS | host-interaction/network/dns/resolve |
| get hostname | host-interaction/os/hostname |
| create a process with modified I/O handles and window | host-interaction/process/create |
| create process | host-interaction/process/create |
| create registry key | host-interaction/registry/create |
| create service | host-interaction/service/create |
| create thread | host-interaction/thread/create |
| persist via Windows service | persistence/service |
+-------------------------------------------------------+-------------------------------------------------+
Download stable releases of the standalone capa binaries here. You can run the standalone binaries without installation. capa is a command line tool that should be run from the terminal.
To use capa as a library or integrate with another tool, see doc/installation.md for further setup instructions.
For more information about how to use capa, see doc/usage.md.
In the above sample output, we ran capa against an unknown binary (suspicious.exe
),
and the tool reported that the program can send HTTP requests, decode data via XOR and Base64,
install services, and spawn new processes.
Taken together, this makes us think that suspicious.exe
could be a persistent backdoor.
Therefore, our next analysis step might be to run suspicious.exe
in a sandbox and try to recover the command and control server.
By passing the -vv
flag (for very verbose), capa reports exactly where it found evidence of these capabilities.
This is useful for at least two reasons:
- it helps explain why we should trust the results, and enables us to verify the conclusions, and
- it shows where within the binary an experienced analyst might study with IDA Pro
λ capa.exe suspicious.exe -vv
...
execute shell command and capture output
namespace c2/shell
author matthew.williams@fireeye.com
scope function
att&ck Execution::Command and Scripting Interpreter::Windows Command Shell [T1059.003]
references https://docs.microsoft.com/en-us/windows/win32/api/processthreadsapi/ns-processthreadsapi-startupinfoa
examples Practical Malware Analysis Lab 14-02.exe_:0x4011C0
function @ 0x10003A13
and:
match: create a process with modified I/O handles and window @ 0x10003A13
and:
or:
api: kernel32.CreateProcess @ 0x10003D6D
number: 0x101 @ 0x10003B03
or:
number: 0x44 @ 0x10003ADC
optional:
api: kernel32.GetStartupInfo @ 0x10003AE4
match: create pipe @ 0x10003A13
or:
api: kernel32.CreatePipe @ 0x10003ACB
or:
string: cmd.exe /c @ 0x10003AED
...
capa uses a collection of rules to identify capabilities within a program. These rules are easy to write, even for those new to reverse engineering. By authoring rules, you can extend the capabilities that capa recognizes. In some regards, capa rules are a mixture of the OpenIOC, Yara, and YAML formats.
Here's an example rule used by capa:
rule:
meta:
name: hash data with CRC32
namespace: data-manipulation/checksum/crc32
author: moritz.raabe@fireeye.com
scope: function
examples:
- 2D3EDC218A90F03089CC01715A9F047F:0x403CBD
- 7D28CB106CB54876B2A5C111724A07CD:0x402350 # RtlComputeCrc32
features:
- or:
- and:
- mnemonic: shr
- number: 0xEDB88320
- number: 8
- characteristic: nzxor
- api: RtlComputeCrc32
The github.com/fireeye/capa-rules repository contains hundreds of standard library rules that are distributed with capa. Please learn to write rules and contribute new entries as you find interesting techniques in malware.
If you use IDA Pro, then you use can use the capa explorer IDA plugin. capa explorer lets you quickly identify and navigate to interesting areas of a program and dissect capa rule matches at the assembly level.