Package go-smb is a work in progress to create a go library that implements an SMB2/3 client with support for DCERPC and MSRRP. This project was created as a way to learn how to interact remotely with Windows services and the remote registry.
It is based upon the work of https://github.com/stacktitan/smb but has seen a lot of changes to add support for SMB3, DCERPC and MSRRP where parts of the code are taken from or inspired by another go-smb project located at https://github.com/hirochachacha/go-smb2. Kerberos support is implemented with the help of a forked and modified version of the gokrb5 library from https://github.com/jcmturner/gokrb5
For inspiration on how to use the library, look at some of the other projects that implement it:
- go-ShareEnum: Enumerate and list SMB shares
- go-lsass: Remotely deploy and execute a process dumper to retrieve an LSASS memory dump without requiring local interactive access.
- go-secdump: Remotely extract credentials from the Window SAM hive without touching disk.
- go-CMLoot: Enumerate and download files from the SCCM deployment share
There are multiple ways to establish a connection and authenticate against the remote system.
A direct connection could be established by using the smb.NewConnection(options) call to authenticate against the remote server using provided credentials.
A connection could also be established through an upstream SOCKS5 proxy, either by passing credentials through the options struct, or by relying on the upstream proxy to handle authentication such as Impacket's ntlmrelayx.py does.
A third way is to use the experimental NTLM relay support by listening for incoming SMB connections, forwarding the NTLM authentication to the target system and then hijacking the authenticated connection. This won't work if SMB signing is required or if only SMB 3.x is supported as the current implementation is locked to SMB 2.1.
For inspiration on how to use the various forms of establishing a connection and how to use the different methods of authentication I recommended inspecting the go-ShareEnum repo.
The following snippet of code illustrates how a program could be written to use different connection types.
socksServerIP := "" // Specify to use an upstream SOCKS5 proxy server
socksPort := 1080
targetHost := "192.168.0.1"
targetPort := 445
username := "ServerAdmin"
password := "SecretPass123"
domain := "domain.local"
hashBytes := []byte{} // Either specify a password or the NT Hash bytes for authentication
relayConnection := false // if true, perform NTLM relaying
options := smb.Options{
Host: targetHost,
Port: targetPort,
Initiator: &spnego.NTLMInitiator{
User: username,
Password: password,
Hash: hashBytes,
Domain: domain,
LocalUser: false, // Authenticate with local and not domain account?
},
DisableEncryption: false, // Useful for debugging when SMB 3.1.1 is used
ForceSMB2: false,
}
var session *smb.Connection
if socksServerIP != "" {
dialSocksProxy, err := proxy.SOCKS5("tcp", fmt.Sprintf("%s:%d", socksServerIP, socksPort), nil, proxy.Direct)
if err != nil {
log.Errorln(err)
return
}
options.ProxyDialer = dialSocksProxy
}
if relayConnection {
options.RelayPort = relayPort
session, err = smb.NewRelayConnection(options)
} else {
session, err = smb.NewConnection(options)
}
if err != nil {
log.Criticalln(err)
return
}
...
A very basic example of how to list SMB shares available at a target server. For a more detailed example, checkout go-ShareEnum.
package main
import (
"fmt"
"github.com/jfjallid/go-smb/smb"
"github.com/jfjallid/go-smb/spnego"
"github.com/jfjallid/go-smb/smb/dcerpc"
)
func main() {
hostname := "127.0.0.1"
options := smb.Options{
Host: hostname,
Port: 445,
Initiator: &spnego.NTLMInitiator{
User: "Administrator",
Password: "AdminPass123",
Domain: "",
},
}
session, err := smb.NewConnection(options)
if err != nil {
fmt.Println(err)
return
}
defer session.Close()
if session.IsSigningRequired() {
fmt.Println("[-] Signing is required")
} else {
fmt.Println("[+] Signing is NOT required")
}
if session.IsAuthenticated() {
fmt.Printf("[+] Login successful as %s\n", session.GetAuthUsername())
} else {
fmt.Println("[-] Login failed")
}
share := "IPC$"
err = session.TreeConnect(share)
if err != nil {
fmt.Println(err)
return
}
defer session.TreeDisconnect(share)
f, err := session.OpenFile(share, "srvsvc")
if err != nil {
fmt.Println(err)
return
}
defer f.CloseFile()
bind, err := dcerpc.Bind(f, dcerpc.MSRPCUuidSrvSvc, 3, 0, dcerpc.MSRPCUuidNdr)
if err != nil {
fmt.Println(err)
return
}
shares, err := bind.NetShareEnumAll(hostname)
if err != nil {
fmt.Println(err)
return
}
fmt.Printf("\nShares:\n")
for _, share := range shares {
fmt.Printf("Name: %s\nComment: %s\nType: %s\n\n", share.Name, share.Comment, share.Type)
}
}