# 135, 593 - Pentesting MSRPC {% hint style="danger" %} Do you use **Hacktricks every day**? Did you find the book **very** **useful**? Would you like to **receive extra help** with cybersecurity questions? 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MSRPC was originally derived from open source software but has been developed further and copyrighted by Microsoft. Depending on the host configuration, the RPC endpoint mapper can be accessed through TCP and UDP port 135, via SMB with a null or authenticated session (TCP 139 and 445), and as a web service listening on TCP port 593. ``` 135/tcp open msrpc Microsoft Windows RPC ``` ## How does MSRPC work? [The MSRPC process begins on the client side](https://technet.microsoft.com/en-us/library/cc738291.aspx), with the client application calling a local stub procedure instead of code implementing the procedure. The client stub code retrieves the required parameters from the client address space and delivers them to the client runtime library, which then translates the parameters into a standard Network Data Representation format to transmit to the server. The client stub then calls functions in the RPC client runtime library to send the request and parameters to the server. If the server is located remotely, the runtime library specifies an appropriate transport protocol and engine and passes the RPC to the network stack for transport to the server.\ From here: [https://www.extrahop.com/resources/protocols/msrpc/](https://www.extrahop.com/resources/protocols/msrpc/) ![](<../.gitbook/assets/image (133).png>) **Image From book "**_**Network Security Assesment 3rd Edition**_**"** ## **Identifying Exposed RPC Services** **Section extracted from book "**_**Network Security Assesment 3rd Edition**_**"** You can query the RPC locator service and individual RPC endpoints to catalog interesting services running over TCP, UDP, HTTP, and SMB (via named pipes). Each IFID value gathered through this process denotes an RPC service (e.g., 5a7b91f8-ff00-11d0-a9b2-00c04fb6e6fc is the Messenger interface). Todd Sabin’s rpcdump and ifids Windows utilities query both the RPC locator and specific RPC endpoints to list IFID values. The rpcdump syntax is as follows: ``` D:\rpctools> rpcdump [-p port] 192.168.189.1 IfId: 5a7b91f8-ff00-11d0-a9b2-00c04fb6e6fc version 1.0 Annotation: Messenger Service UUID: 00000000-0000-0000-0000-000000000000 Binding: ncadg_ip_udp:192.168.189.1[1028] ``` You can access the RPC locator service by using four protocol sequences: * ncacn\_ip\_tcp and ncadg\_ip\_udp (TCP and UDP port 135) * ncacn\_np (the \pipe\epmapper named pipe via SMB) * ncacn\_http (RPC over HTTP via TCP port 80, 593, and others) ```bash use auxiliary/scanner/dcerpc/endpoint_mapper use auxiliary/scanner/dcerpc/hidden use auxiliary/scanner/dcerpc/management use auxiliary/scanner/dcerpc/tcp_dcerpc_auditor rpcdump.py -p 135 ``` _Note that from the mentioned options all except of **`tcp_dcerpc_auditor`** can **only** be executed against **msrpc** in **port 135**._ #### Notable RPC interfaces | **IFID value** | **Named pipe** | **Description** | | ------------------------------------ | -------------- | ----------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------- | | 12345778-1234-abcd-ef00-0123456789ab | \pipe\lsarpc | LSA interface, used to enumerate users | | 3919286a-b10c-11d0-9ba8-00c04fd92ef5 | \pipe\lsarpc | LSA Directory Services (DS) interface, used to enumerate domains and trust relationships | | 12345778-1234-abcd-ef00-0123456789ac | \pipe\samr | LSA SAMR interface, used to access public SAM database elements (e.g., usernames) and brute-force user passwords regardless of account lockout policy [Oreilly library](https://learning.oreilly.com/library/view/network-security-assessment/9781491911044/ch08.html#idm139659172852688) | | 1ff70682-0a51-30e8-076d-740be8cee98b | \pipe\atsvc | Task scheduler, used to remotely execute commands | | 338cd001-2244-31f1-aaaa-900038001003 | \pipe\winreg | Remote registry service, used to access the system registry | | 367abb81-9844-35f1-ad32-98f038001003 | \pipe\svcctl | Service control manager and server services, used to remotely start and stop services and execute commands | | 4b324fc8-1670-01d3-1278-5a47bf6ee188 | \pipe\srvsvc | Service control manager and server services, used to remotely start and stop services and execute commands | | 4d9f4ab8-7d1c-11cf-861e-0020af6e7c57 | \pipe\epmapper | DCOM interface, supporting WMI | ### Identifying IP addresses Using [https://github.com/mubix/IOXIDResolver](https://github.com/mubix/IOXIDResolver), comes from [Airbus research](https://airbus-cyber-security.com/the-oxid-resolver-part-1-remote-enumeration-of-network-interfaces-without-any-authentication/) is possible to abuse the _**ServerAlive2**_ method inside the _**IOXIDResolver**_ interface. This method has been used to get interface information as **IPv6** address from the HTB box _APT_. See [here](https://0xdf.gitlab.io/2021/04/10/htb-apt.html) for 0xdf APT writeup, it includes an alternative method using rpcmap.py from [Impacket](https://github.com/SecureAuthCorp/impacket/) with _stringbinding_ (see above). References: * [https://airbus-cyber-security.com/the-oxid-resolver-part-1-remote-enumeration-of-network-interfaces-without-any-authentication/](https://airbus-cyber-security.com/the-oxid-resolver-part-1-remote-enumeration-of-network-interfaces-without-any-authentication/) * [https://airbus-cyber-security.com/the-oxid-resolver-part-2-accessing-a-remote-object-inside-dcom/](https://airbus-cyber-security.com/the-oxid-resolver-part-2-accessing-a-remote-object-inside-dcom/) ## Port 593 The **rpcdump.exe** from [rpctools](https://resources.oreilly.com/examples/9780596510305/tree/master/tools/rpctools) can interact with this port.