I'm currently running a bunch of:
sudo ssh -L PORT:IP:PORT root#IP
where IP is the target of a secured machine, and PORT represents the ports I'm forwarding.
This is because I use a lot of applications which I cannot access without this forwarding. After performing this, I can access through localhost:PORT.
The main problem occured now that I actually have 4 of these ports that I have to forward.
My solution is to open 4 shells and constantly search my history backwards to look for exactly which ports need to be forwarded etc, and then run this command - one in each shell (having to fill in passwords etc).
If only I could do something like:
sudo ssh -L PORT1+PORT2+PORT+3:IP:PORT+PORT2+PORT3 root#IP
then that would already really help.
Is there a way to make it easier to do this?
The -L option can be specified multiple times within the same command. Every time with different ports. I.e. ssh -L localPort0:ip:remotePort0 -L localPort1:ip:remotePort1 ...
Exactly what NaN answered, you specify multiple -L arguments. I do this all the time. Here is an example of multi port forwarding:
ssh remote-host -L 8822:REMOTE_IP_1:22 -L 9922:REMOTE_IP_2:22
Note: This is same as -L localhost:8822:REMOTE_IP_1:22 if you don't specify localhost.
Now with this, you can now (from another terminal) do:
ssh localhost -p 8822
to connect to REMOTE_IP_1 on port 22
and similarly
ssh localhost -p 9922
to connect to REMOTE_IP_2 on port 22
Of course, there is nothing stopping you from wrapping this into a script or automate it if you have many different host/ports to forward and to certain specific ones.
For people who are forwarding multiple port through the same host can setup something like this in their ~/.ssh/config
Host all-port-forwards
Hostname 10.122.0.3
User username
LocalForward PORT_1 IP:PORT_1
LocalForward PORT_2 IP:PORT_2
LocalForward PORT_3 IP:PORT_3
LocalForward PORT_4 IP:PORT_4
and it becomes a simple ssh all-port-forwards away.
You can use the following bash function (just add it to your ~/.bashrc):
function pfwd {
for i in ${#:2}
do
echo Forwarding port $i
ssh -N -L $i:localhost:$i $1 &
done
}
Usage example:
pfwd hostname {6000..6009}
jbchichoko and yuval have given viable solutions. But jbchichoko's answer isn't a flexible answer as a function, and the opened tunnels by yuval's answer cannot be shut down by ctrl+c because it runs in the background. I give my solution below solving both the two flaws:
Defing a function in ~/.bashrc or ~/.zshrc:
# fsshmap multiple ports
function fsshmap() {
echo -n "-L 1$1:127.0.0.1:$1 " > $HOME/sh/sshports.txt
for ((i=($1+1);i<$2;i++))
do
echo -n "-L 1$i:127.0.0.1:$i " >> $HOME/sh/sshports.txt
done
line=$(head -n 1 $HOME/sh/sshports.txt)
cline="ssh "$3" "$line
echo $cline
eval $cline
}
A example of running the function:
fsshmap 6000 6010 hostname
Result of this example:
You can access 127.0.0.1:16000~16009 the same as hostname:6000~6009
In my company both me and my team members need access to 3 ports of a non-reachable "target" server so I created a permanent tunnel (that is a tunnel that can run in background indefinitely, see params -f and -N) from a reachable server to the target one. On the command line of the reachable server I executed:
ssh root#reachableIP -f -N -L *:8822:targetIP:22 -L *:9006:targetIP:9006 -L *:9100:targetIP:9100
I used user root but your own user will work. You will have to enter the password of the chosen user (even if you are already connected to the reachable server with that user).
Now port 8822 of the reachable machine corresponds to port 22 of the target one (for ssh/PuTTY/WinSCP) and ports 9006 and 9100 on the reachable machine correspond to the same ports of the target one (they host two web services in my case).
Another one liner that I use and works on debian:
ssh user#192.168.1.10 $(for j in $(seq 20000 1 20100 ) ; do echo " -L$j:127.0.0.1:$j " ; done | tr -d "\n")
One of the benefits of logging into a server with port forwarding is facilitating the use of Jupyter Notebook. This link provides an excellent description of how to it. Here I would like to do some summary and expansion for all of you guys to refer.
Situation 1. Login from a local machine named Host-A (e.g. your own laptop) to a remote work machine named Host-B.
ssh user#Host-B -L port_A:localhost:port_B
jupyter notebook --NotebookApp.token='' --no-browser --port=port_B
Then you can open a browser and enter: http://localhost:port_A/ to do your work on Host-B but see it in Host-A.
Situation 2. Login from a local machine named Host-A (e.g. your own laptop) to a remote login machine named Host-B and from there login to the remote work machine named Host-C. This is usually the case for most analytical servers within universities and can be achieved by using two ssh -L connected with -t.
ssh -L port_A:localhost:port_B user#Host-B -t ssh -L port_B:localhost:port_C user#Host-C
jupyter notebook --NotebookApp.token='' --no-browser --port=port_C
Then you can open a browser and enter: http://localhost:port_A/ to do your work on Host-C but see it in Host-A.
Situation 3. Login from a local machine named Host-A (e.g. your own laptop) to a remote login machine named Host-B and from there login to the remote work machine named Host-C and finally login to the remote work machine Host-D. This is not usually the case but might happen sometime. It's an extension of Situation 2 and the same logic can be applied on more machines.
ssh -L port_A:localhost:port_B user#Host-B -t ssh -L port_B:localhost:port_C user#Host-C -t ssh -L port_C:localhost:port_D user#Host-D
jupyter notebook --NotebookApp.token='' --no-browser --port=port_D
Then you can open a browser and enter: http://localhost:port_A/ to do your work on Host-D but see it in Host-A.
Note that port_A, port_B, port_C, port_D can be random numbers except common port numbers listed here. In Situation 1, port_A and port_B can be the same to simplify the procedure.
Here is a solution inspired from the one from Yuval Atzmon.
It has a few benefits over the initial solution:
first it creates a single background process and not one per port
it generates the alias that allows you to kill your tunnels
it binds only to 127.0.0.1 which is a little more secure
You may use it as:
tnl your.remote.com 1234
tnl your.remote.com {1234,1235}
tnl your.remote.com {1234..1236}
And finally kill them all with tnlkill.
function tnl {
TUNNEL="ssh -N "
echo Port forwarding for ports:
for i in ${#:2}
do
echo " - $i"
TUNNEL="$TUNNEL -L 127.0.0.1:$i:localhost:$i"
done
TUNNEL="$TUNNEL $1"
$TUNNEL &
PID=$!
alias tnlkill="kill $PID && unalias tnlkill"
}
An alternative approach is to tell ssh to work as a SOCKS proxy using the -D flag.
That way you would be able to connect to any remote network address/port accesible through the ssh server as long as the client applications are able to go through a SOCKS proxy (or work with something like socksify).
If you want a simple solution that runs in the background and is easy to kill - use a control socket
# start
$ ssh -f -N -M -S $SOCKET -L localhost:9200:localhost:9200 $HOST
# stop
$ ssh -S $SOCKET -O exit $HOST
I've developed loco for help with ssh forwarding. It can be used to share ports 5000 and 7000 on remote locally at the same ports:
pip install loco
loco listen SSHINFO -r 5000 -r 7000
First It can be done using Parallel Execution by xargs -P 0.
Create a file for binding the ports e.g.
localhost:8080:localhost:8080
localhost:9090:localhost:8080
then run
xargs -P 0 -I xxx ssh -vNTCL xxx <REMOTE> < port-forward
or you can do a one-liner
echo localhost:{8080,9090} | tr ' ' '\n' | sed 's/.*/&:&/' | xargs -P 0 -I xxx ssh -vNTCL xxx <REMOTE>
pros independent ssh port-forwarding, they are independent == avoiding Single Point of Failure
cons each ssh port-forwarding is forked separately, somehow not efficient
second it can be done using curly brackets expansion feature in bash
echo "ssh -vNTC $(echo localhost:{10,20,30,40,50} | perl -lpe 's/[^ ]+/-L $&:$&/g') <REMOTE>"
# output
ssh -vNTC -L localhost:10:localhost:10 -L localhost:20:localhost:20 -L localhost:30:localhost:30 -L localhost:40:localhost:40 -L localhost:50:localhost:50 <REMOTE>
real example
echo "-vNTC $(echo localhost:{8080,9090} | perl -lpe 's/[^ ]+/-L $&:$&/g') gitlab" | xargs ssh
Forwarding 8080 and 9090 to gitlab server.
pros one single fork == efficient
cons by closing this process (ssh) all forwarding are closed == Single Point of Failure
You can use this zsh function (probably works with bash, too)(Put it in ~/.zshrc):
ashL () {
local a=() i
for i in "$#[2,-1]"
do
a+=(-L "${i}:localhost:${i}")
done
autossh -M 0 -o "ServerAliveInterval 30" -o "ServerAliveCountMax 3" -NT "$1" "$a[#]"
}
Examples:
ashL db#114.39.161.24 6480 7690 7477
ashL db#114.39.161.24 {6000..6050} # Forwards the whole range. This is simply shell syntax sugar.
Related
I have 1 server which is behind a NAT and a firewall and I have another in another location that is accessible via a domain. The server behind the NAT and firewall is running on a cloud environment and is designed to be disposable ie if it breaks we can simply redeploy it with a single script, in this case, it is OpenStack using a heat template. When that server fires up it runs the following command to create a reverse SSH tunnel to the server outside the NAT and Firewall to allow us to connect via port 8080 on that server. The issue I am having is it seems if that OpenSSH tunnel gets broken (server goes down maybe) the tunnel remains, meaning when we re-deploy the heat template to launch the server again it will no longer be able to connect to that port unless I kill the ssh process on the server outside the NAT beforehand.
here is the command I am using currently to start the reverse tunnel:
sudo ssh -f -N -T -R 9090:localhost:80 user#example.com
I had a similar issue, and fixed it this way:
First, at the server, I created in the home directory a script called .kill_tunel_ssh.sh with this contents:
#this finds the process that is opening the port 9090, finds its PID and kills it
sudo netstat -ltpun | grep 9090 | grep 127 | awk -F ' ' '{print $7}' | awk -F '/' '{print $1}' | xargs kill -9
Then, at the client, I created a script called connect_ssh.sh with this contents:
#this opens a ssh connection, runs the script .kill_tunnel_ssh.sh and exit
ssh user#remote.com "./.kill_tunel_ssh.sh"
#this opens a ssh connection opening the reverse tunnel
ssh user#remote.com -R 9090:localhost:80
Now, I always use connect_ssh.sh to open the SSH connection, instead of using the ssh command directly.
It requires the user at the remote host to have sudo configured without asking for password when executing the netstat command.
Maybe (probably) there is a better way to accomplish it, but that is working for me.
I can't get connection chain with ssh one liner to work.
Chain:
My PC -> jumphost -> Bastion -> my app X host(sharing subnet with Bastion)
-Jumphost expect private key A
-Bastion and X host both expect private key B
my pc> ssh -i /path_to_priv_key_for_X/id_rsa -o StrictHostKeyChecking=no -o
"ProxyCommand ssh -p 22 -W %h:%p -o \"ProxyCommand ssh -p 24 -W %h:%p
-i /path_to_key_jump/id_rsa jumphostuser#jumphostdomain\" -i
/path_to_bastion_key/id_rsa bastionuser#ip_to_bastion" myappuser#subnet_ip
Above does not work, but
ssh -i /path_to_bastion_key/id_rsa -o "ProxyCommand ssh -p 24 -W
%h:%p -i /path_to_key_jump/id_rsa jumphostuser#jumphostdomain"
bastionuser#ip_to_bastion
works, so I can access bastion with one liner, but adding app x host in the command chain does not work, wonder why?
I can step by step manually access the myapp X host like this
mypc> ssh -p 24 -i path_to_key_jump/id_rsa jumphostuser#jumphostdomain
jumphost> ssh -i /path_to_bastion_key/id_rsa bastionuser#ip_to_bastion
bastion> ssh myappuser#subnet_ip
myapp>
How to make in command line two hops over two jump hosts both requiring different key without ssh config?
Something which is working for me surprisingly well is ssh with -J option:
-J destination
Connect to the target host by first making a ssh connection
to the jump host described by destination and then establishing a TCP
forwarding to the ultimate destination from there.
In fact, I's about its feature which I was not aware of for very long time:
Multiple jump hops may be specified separated by comma characters.
So multi-hop like PC -> jump server 1 -> jump server 2 -> target server (in my example: PC -> vpn -> vnc -> ece server can be done with one combo:
$ ssh -J vpn,scs694#tr200vnc rms#tr001tbece11
Of course, most handy is to have ssh keys to open pwd-less connections (PC->vpn and vpn -> vnc and vnc -> target.
I hope it will help,
Jarek
To add to the above. My use-case was a triple-hop to a database server, which looked like Server 1 (Basic Auth) --> Server 2 (Token) --> Server 3 (Basic Auth) --> DB Server (Port Forward).
After quite a few hours of turmoil, the solution was:
ssh -v -4 -J username#server1,username#server2 -N username#Server3 -L 1122:dbserver:{the_database_port_number}
Then I was able to just have the DB client hit localhost:1122 where 1122 can be any free port number on your localhost.
I have an ansible playbook which connects to a virtual machine via a non-standard ssh port (forwarded to localhost) and a different user than the host user (vagrant).
The ssh port is specified in the ansible inventory:
[vms]
localhost:2222
The username given on the command line to ansible-playbook:
ansible-playbook -i <inventory from above> <some playbook> -u vagrant
The communication with the VM works correctly, however, %p always expands to 22 and %r to the host username.
Consequently, I cannot flush the SSH connection (for the user's changed group membership to take effect) like this:
- name: flush the ssh connection
command: ssh -o ControlPath="~/.ansible/cp/ansible-ssh-%h-%p-%r" -O stop {{inventory_hostname}}
delegate_to: 127.0.0.1
Am I making a silly mistake somewhere? Alternatively, is there a different way to flush the SSH connection?
The percent expand is not expanded by ansible, but by ssh later on.
Sorry, forgot to add the most important part
Using
command: ssh -o ControlPath=[...] -O stop {{inventory_hostname}}
will use default port, because you didn't specify it on the command-line. You would have to specify also the port to "flush" the connection this way:
command: ssh -o ControlPath=[...] -O stop -p {{inventory_port}} {{inventory_hostname}}
But I don't think it is needed. Ansible should clean up the connections when the playbook ends and I don't see any different reason why to do that.
I have a server who is forwarding connections to a set of other servers.
Here I forward all incomming connections on:
my.tunnel.com:33199 to my.server2.com:52222
And..
my.tunnel.com:33200 to my.server3.com:52222
.. until
my.tunnel.com:XXXXX to my.serverN.com:52222
I'm initiating this by the following command on each server, except the tunnel my.tunnel.com:
ssh -o StrictHostKeyChecking=no -l root -i /etc/ssh/id_rsa -R *:33199:127.0.0.1:22 -p 443 my.tunnel.com 0 33199
...
ssh -o StrictHostKeyChecking=no -l root -i /etc/ssh/id_rsa -R *:XXXXX:127.0.0.1:22 -p 443 my.tunnel.com 0 XXXXX
Well, this works fine!
But!
At the point of the launching of each of these commands I'd like to check on my.tunnel.com that my.server2.com wants my.tunnel.com to forward exactly from port 33199, but not another port! So at this point I'd like to get this port number.
Please let me know if the problem is still not enough clearly exposed.
Thanks!
To get the forwarded port
There is no such information in the environmental variables, so you must pass it yourself:
ssh -R 33199:127.0.0.1:22 my.tunnel.com "export MY_FWD_PORT=33199; my_command"
(my_command is the script you want to run on the server). More information about passing variables - https://superuser.com/q/163167/93604
To get the source port
Look at the environment variable SSH_CONNECTION in man ssh(1). Its meaning is:
source_ip source_port dest_ip dest_port
You probably want source_port, so just get the second part of it:
echo $SSH_CONNECTION | awk '{ print $2 }'
or
echo $SSH_CONNECTION | cut -d" " -f 2
I have written a small bash script which needs an ssh tunnel to draw data from a remote server, so it prompts the user:
echo "Please open an ssh tunnel using 'ssh -L 6000:localhost:5432 example.com'"
I would like to check whether the user had opened this tunnel, and exit with an error message if no tunnel exist. Is there any way to query the ssh tunnel, i.e. check if the local port 6000 is really tunneled to that server?
Netcat is your friend:
nc -z localhost 6000 || echo "no tunnel open"
This is my test. Hope it is useful.
# $COMMAND is the command used to create the reverse ssh tunnel
COMMAND="ssh -p $SSH_PORT -q -N -R $REMOTE_HOST:$REMOTE_HTTP_PORT:localhost:80 $USER_NAME#$REMOTE_HOST"
# Is the tunnel up? Perform two tests:
# 1. Check for relevant process ($COMMAND)
pgrep -f -x "$COMMAND" > /dev/null 2>&1 || $COMMAND
# 2. Test tunnel by looking at "netstat" output on $REMOTE_HOST
ssh -p $SSH_PORT $USER_NAME#$REMOTE_HOST netstat -an | egrep "tcp.*:$REMOTE_HTTP_PORT.*LISTEN" \
> /dev/null 2>&1
if [ $? -ne 0 ] ; then
pkill -f -x "$COMMAND"
$COMMAND
fi
Autossh is best option - checking process is not working in all cases (e.g. zombie process, network related problems)
example:
autossh -M 2323 -c arcfour -f -N -L 8088:localhost:80 host2
This is really more of a serverfault-type question, but you can use netstat.
something like:
# netstat -lpnt | grep 6000 | grep ssh
This will tell you if there's an ssh process listening on the specified port. it will also tell you the PID of the process.
If you really want to double-check that the ssh process was started with the right options, you can then look up the process by PID in something like
# ps aux | grep PID
Use autossh. It's the tool that's meant for monitoring the ssh connection.
We can check using ps command
# ps -aux | grep ssh
Will show all shh service running and we can find the tunnel service listed
These are more detailed steps to test or troubleshoot an SSH tunnel. You can use some of them in a script. I'm adding this answer because I had to troubleshoot the link between two applications after they stopped working. Just grepping for the ssh process wasn't enough, as it was still there. And I couldn't use nc -z because that option wasn't available on my incantation of netcat.
Let's start from the beginning. Assume there is a machine, which will be called local with IP address 10.0.0.1 and another, called remote, at 10.0.3.12. I will prepend these hostnames, to the commands below, so it's obvious where they're being executed.
The goal is to create a tunnel that will forward TCP traffic from the loopback address on the remote machine on port 123 to the local machine on port 456. This can be done with the following command, on the local machine:
local:~# ssh -N -R 123:127.0.0.1:456 10.0.3.12
To check that the process is running, we can do:
local:~# ps aux | grep ssh
If you see the command in the output, we can proceed. Otherwise, check that the SSH key is installed in the remote. Note that excluding the username before the remote IP, makes ssh use the current username.
Next, we want to check that the tunnel is open on the remote:
remote:~# netstat | grep 10.0.0.1
We should get an output similar to this:
tcp 0 0 10.0.3.12:ssh 10.0.0.1:45988 ESTABLISHED
Would be nice to actually see some data going through from the remote to the host. This is where netcat comes in. On CentOS it can be installed with yum install nc.
First, open a listening port on the local machine:
local:~# nc -l 127.0.0.1:456
Then make a connection on the remote:
remote:~# nc 127.0.0.1 123
If you open a second terminal to the local machine, you can see the connection. Something like this:
local:~# netstat | grep 456
tcp 0 0 localhost.localdom:456 localhost.localdo:33826 ESTABLISHED
tcp 0 0 localhost.localdo:33826 localhost.localdom:456 ESTABLISHED
Better still, go ahead and type something on the remote:
remote:~# nc 127.0.0.1 8888
Hallo?
anyone there?
You should see this being mirrored on the local terminal:
local:~# nc -l 127.0.0.1:456
Hallo?
anyone there?
The tunnel is working! But what if you have an application, called appname, which is supposed to be listening on port 456 on the local machine? Terminate nc on both sides then run your application. You can check that it's listening on the correct port with this:
local:~# netstat -tulpn | grep LISTEN | grep appname
tcp 0 0 127.0.0.1:456 0.0.0.0:* LISTEN 2964/appname
By the way, running the same command on the remote should show sshd listening on port 127.0.0.1:123.
#!/bin/bash
# Check do we have tunnel to example.com server
lsof -i tcp#localhost:6000 > /dev/null
# If exit code wasn't 0 then tunnel doesn't exist.
if [ $? -eq 1 ]
then
echo ' > You missing ssh tunnel. Creating one..'
ssh -L 6000:localhost:5432 example.com
fi
echo ' > DO YOUR STUFF < '
stunnel is a good tool to make semi-permanent connections between hosts.
http://www.stunnel.org/
If you are using ssh in background, use this:
sudo lsof -i -n | egrep '\<ssh\>'