To test ssh I read you need to use something like ssh -T user#domain.com:
According to man ssh:
-T Disable pseudo-terminal allocation.
-t Force pseudo-terminal allocation. This can be used to execute arbitrary screen-based programs on a remote
machine, which can be very useful, e.g. when implementing menu services. Multiple -t options force tty alloca-
tion, even if ssh has no local tty.
but I'm still not clear, even after reading this, what the purpose of using -T is when testing SSH.
I read up on pseudo-terminals (https://linux.die.net/man/7/pty) but that didn't seem to help.
To have interactive prompt in your ssh shell, you need to have allocated PTY also on the server side. It is done automatically when you call ssh host.
When you allocate this PTY on server, then your local terminal and the remote one are exchanging some additional messages (Terminal control characters), which give the remote shell information about the size of your local terminal, the remote can update title of your window and so on. This is something you really don't want when you want to transfer files or just pass the output "as it is". It would modify that and you would get generally something else. Again, this is done automatically in case you use scp or just noninteractive script as ssh host my_script.
So far good. You don't need the switches. But things might not be always so simple.
You might want to invoke some interactive shell as a command, for example ssh host /bin/zsh. This would work, but it will not be interactive. In this case, you need to use the -t switch to make it working properly: ssh -t host /bin/zsh.
The same thing can go other way round. You might have server set up, that it will give you some output regardless the command you ask for. In that case, you really don't want to mess it up with any terminal control characters and then you might want to use ssh -T host to avoid this clutch.
You can consider the -T also as the way to safe resources on server and as some "second line of defense". You can disable the TTY allocation in the server configuration, but what if ...
The most common use case for the -T switch is
ssh -T git#github.com
to verify that you have set up your ssh keys properly to authenticate to github.
I know this question has already been asked several times but I got another problem. I have a part in my script where I connect through ssh and scp and everytime I run the script it always ask for the password. Most of you would probably answer that I should use expect or sshpass yet I don't have any of this two. I tried running:
compgen -c
and there's no expect and sshpass existing.
Are there any alternative commands? I would really appreciate your help. Thanks
Update: I also can't install any of this since I'm only an ordinary user.
First I logged in to server A as testuser and entered the ff command:
ssh-keygen -d
Do not enter any passphrase.
This will generate files in the folder ~/.ssh/
Then scp the file rsa_id.pub (public key) to server B.
scp ~/.ssh/id_dsa.pub testuser#B:/home/testuser/.ssh/authorized_keys2
Do the same vice versa (if you want access to both). Then you can now transfer from one server to the other without the being asked for your password.
source
If you don't want to set up keys for passwordless access (against the rules?), you can set up "SSH connection sharing".
Insert these lines into your .ssh/config file:
ControlMaster auto
ControlPath /tmp/ssh_%r#%n:%p
ControlPersist 8h
Now, when you log into a server from the machine with that config it will ask you your password the first time, and won't ask again until 8 hours of idle time have passed (so, you'll get asked once per day, usually).
What it's doing is keeping the connection open in the background, and then reusing the same connection for all your SSH sessions. This gives a useful connect-speed boost, and means you don't need to re-authenticate. All-in-all, it's great for accelerating scripted SSH and SCP commands.
I am using ssh to connect to a remote machine.
Is there a way i can copy an entire directory from a local machine to the remote machine?
I found this link to do it the other way round i.e copying from remote machine to local machine.
Easiest way is scp
scp -r /path/to/local/storage user#remote.host:/path/to/copy
rsync is best for when you want to update versions where it has been previously copied.
If that doesn't work, rerun with -v and see what the error is.
It is very easy with rsync as well:
rsync /path/to/local/storage user#remote.host:/path/to/copy
I recommend the usage of rsync over scp, because it is highly likely that you will one day need a feature that rsync offers and then you benefit from your experience with the tool.
This is worked for me
rsync -avz -e 'ssh' /path/to/local/dir user#remotehost:/path/to/remote/dir
this is if you have to used another ssh port other than 22
rsync -avzh -e 'ssh -p sshPort' /my/local/dir/ remoteUser#host:/path/to/remote/dir
this works if your remote server uses default 22 port
rsync -avzh /my/local/dir/ remoteUser#host:/path/to/remote/dir
This worked for me.
Follow this link for detailed understanding.
we can do this by using scp command for example:
scp -r /path/to/local/machine/directory user#remotehost(server IP Address):/path/to/sever/directory
In case of differnt port
By default, the SCP protocol operates on port 22 but this can be overridden by supplying the -P flag, followed by the port number for example:
scp -P 8563 -r /path/to/local/machine/directory user#remotehost(server IP Address):/path/to/sever/directory
NOTE: we use -r flag to copy directory's files/folders recursively instead of a single file.
Backgound info:
Server A needs to send data to Server B but I am not permitted to open any additional ports in the firewall between them. There is an ssh port open, so I chose to send data through an ssh tunnel. However, I now need to copy files from A to B as well.
Question:
If I scp files from A to B over my existing ssh tunnel do the files get encrypted twice? Or is scp "smart enough" to utilize the existing tunnel?
I want to avoid the additional overhead of encrypting twice if possible.
Are there other ways to send files over an ssh tunnel?
Not sure about the double encryption (I would guess yes), but why use scp over an ssh tunnel? scp is using an ssh connection, therefore, no problem with firewalls etc.
If you're looking for an alternative, you can use rsync over ssh with something like the following:
rsync -avz -e ssh /home/me myname#servername:/some/folder
Hope this helps.
When connecting to remote hosts via ssh, I frequently want to bring a file on that system to the local system for viewing or processing. Is there a way to copy the file over without (a) opening a new terminal/pausing the ssh session (b) authenticating again to either the local or remote hosts which works (c) even when one or both of the hosts is behind a NAT router?
The goal is to take advantage of as much of the current state as possible: that there is a connection between the two machines, that I'm authenticated on both, that I'm in the working directory of the file---so I don't have to open another terminal and copy and paste the remote host and path in, which is what I do now. The best solution also wouldn't require any setup before the session began, but if the setup was a one-time or able to be automated, than that's perfectly acceptable.
zssh (a ZMODEM wrapper over openssh) does exactly what you want.
Install zssh and use it instead of openssh (which I assume that you normally use)
You'll have to have the lrzsz package installed on both systems.
Then, to transfer a file zyxel.png from remote to local host:
antti#local:~$ zssh remote
Press ^# (C-Space) to enter file transfer mode, then ? for help
...
antti#remote:~$ sz zyxel.png
**B00000000000000
^#
zssh > rz
Receiving: zyxel.png
Bytes received: 104036/ 104036 BPS:16059729
Transfer complete
antti#remote:~$
Uploading goes similarly, except that you just switch rz(1) and sz(1).
Putty users can try Le Putty, which has similar functionality.
On a linux box I use the ssh-agent and sshfs. You need to setup the sshd to accept connections with key pairs. Then you use ssh-add to add you key to the ssh-agent so you don't have type your password everytime. Be sure to use -t seconds, so the key doesn't stay loaded forever.
ssh-add -t 3600 /home/user/.ssh/ssh_dsa
After that,
sshfs hostname:/ /PathToMountTo/
will mount the server file system on your machine so you have access to it.
Personally, I wrote a small bash script that add my key and mount the servers I use the most, so when I start to work I just have to launch the script and type my passphrase.
Using some little known and rarely used features of the openssh
implementation you can accomplish precisely what you want!
takes advantage of the current state
can use the working directory where you are
does not require any tunneling setup before the session begins
does not require opening a separate terminal or connection
can be used as a one-time deal in an interactive session or can be used as part of an automated session
You should only type what is at each of the local>, remote>, and
ssh> prompts in the examples below.
local> ssh username#remote
remote> ~C
ssh> -L6666:localhost:6666
remote> nc -l 6666 < /etc/passwd
remote> ~^Z
[suspend ssh]
[1]+ Stopped ssh username#remote
local> (sleep 1; nc localhost 6666 > /tmp/file) & fg
[2] 17357
ssh username#remote
remote> exit
[2]- Done ( sleep 1; nc localhost 6666 > /tmp/file )
local> cat /tmp/file
root:x:0:0:root:/root:/bin/bash
bin:x:1:1:bin:/bin:/sbin/nologin
daemon:x:2:2:daemon:/sbin:/sbin/nologin
...
Or, more often you want to go the other direction, for example if you
want to do something like transfer your ~/.ssh/id_rsa.pub file from
your local machine to the ~/.ssh/authorized_keys file of the remote
machine.
local> ssh username#remote
remote> ~C
ssh> -R5555:localhost:5555
remote> ~^Z
[suspend ssh]
[1]+ Stopped ssh username#remote
local> nc -l 5555 < ~/.ssh/id_rsa.pub &
[2] 26607
local> fg
ssh username#remote
remote> nc localhost 5555 >> ~/.ssh/authorized_keys
remote> cat ~/.ssh/authorized_keys
ssh-rsa AAAAB3NzaC1yc2ZQQQQBIwAAAQEAsgaVp8mnWVvpGKhfgwHTuOObyfYSe8iFvksH6BGWfMgy8poM2+5sTL6FHI7k0MXmfd7p4rzOL2R4q9yjG+Hl2PShjkjAVb32Ss5ZZ3BxHpk30+0HackAHVqPEJERvZvqC3W2s4aKU7ae4WaG1OqZHI1dGiJPJ1IgFF5bWbQl8CP9kZNAHg0NJZUCnJ73udZRYEWm5MEdTIz0+Q5tClzxvXtV4lZBo36Jo4vijKVEJ06MZu+e2WnCOqsfdayY7laiT0t/UsulLNJ1wT+Euejl+3Vft7N1/nWptJn3c4y83c4oHIrsLDTIiVvPjAj5JTkyH1EA2pIOxsKOjmg2Maz7Pw== username#local
A little bit of explanation is in order.
The first step is to open a LocalForward; if you don't already have
one established then you can use the ~C escape character to open an
ssh command line which will give you the following commands:
remote> ~C
ssh> help
Commands:
-L[bind_address:]port:host:hostport Request local forward
-R[bind_address:]port:host:hostport Request remote forward
-D[bind_address:]port Request dynamic forward
-KR[bind_address:]port Cancel remote forward
In this example I establish a LocalForward on port 6666 of localhost
for both the client and the server; the port number can be any
arbitrary open port.
The nc command is from the netcat package; it is described as the
"TCP/IP swiss army knife"; it is a simple, yet very flexible and
useful program. Make it a standard part of your unix toolbelt.
At this point nc is listening on port 6666 and waiting for another
program to connect to that port so it can send the contents of
/etc/passwd.
Next we make use of another escape character ~^Z which is tilde
followed by control-Z. This temporarily suspends the ssh process and
drops us back into our shell.
One back on the local system you can use nc to connect to the
forwarded port 6666. Note the lack of a -l in this case because that
option tells nc to listen on a port as if it were a server which is
not what we want; instead we want to just use nc as a client to
connect to the already listening nc on the remote side.
The rest of the magic around the nc command is required because if
you recall above I said that the ssh process was temporarily
suspended, so the & will put the whole (sleep + nc) expression
into the background and the sleep gives you enough time for ssh to
return to the foreground with fg.
In the second example the idea is basically the same except we set up
a tunnel going the other direction using -R instead of -L so that
we establish a RemoteForward. And then on the local side is where
you want to use the -l argument to nc.
The escape character by default is ~ but you can change that with:
-e escape_char
Sets the escape character for sessions with a pty (default: ‘~’). The escape character is only recognized at the beginning of a line. The escape character followed by a dot
(‘.’) closes the connection; followed by control-Z suspends the connection; and followed by itself sends the escape character once. Setting the character to “none” disables any
escapes and makes the session fully transparent.
A full explanation of the commands available with the escape characters is available in the ssh manpage
ESCAPE CHARACTERS
When a pseudo-terminal has been requested, ssh supports a number of functions through the use of an escape character.
A single tilde character can be sent as ~~ or by following the tilde by a character other than those described below. The escape character must always follow a newline to be interpreted
as special. The escape character can be changed in configuration files using the EscapeChar configuration directive or on the command line by the -e option.
The supported escapes (assuming the default ‘~’) are:
~. Disconnect.
~^Z Background ssh.
~# List forwarded connections.
~& Background ssh at logout when waiting for forwarded connection / X11 sessions to terminate.
~? Display a list of escape characters.
~B Send a BREAK to the remote system (only useful for SSH protocol version 2 and if the peer supports it).
~C Open command line. Currently this allows the addition of port forwardings using the -L, -R and -D options (see above). It also allows the cancellation of existing remote port-
forwardings using -KR[bind_address:]port. !command allows the user to execute a local command if the PermitLocalCommand option is enabled in ssh_config(5). Basic help is avail‐
able, using the -h option.
~R Request rekeying of the connection (only useful for SSH protocol version 2 and if the peer supports it).
Using ControlMaster (the -M switch) is the best solution, way simpler and easier than the rest of the answers here. It allows you to share a single connection among multiple sessions. Sounds like it does what the poster wants. You still have to type the scp or sftp command line though. Try it. I use it for all of my sshing.
In order to do this I have my home router set up to forward port 22 back to my home machine (which is firewalled to only accept ssh connections from my work machine) and I also have an account set up with DynDNS to provide Dynamic DNS that will resolve to my home IP automatically.
Then when I ssh into my work computer, the first thing I do is run a script that starts an ssh-agent (if your server doesn't do that automatically). The script I run is:
#!/bin/bash
ssh-agent sh -c 'ssh-add < /dev/null && bash'
It asks for my ssh key passphrase so that I don't have to type it in every time. You don't need that step if you use an ssh key without a passphrase.
For the rest of the session, sending files back to your home machine is as simple as
scp file_to_send.txt your.domain.name:~/
Here is a hack called ssh-xfer which addresses the exact problem, but requires patching OpenSSH, which is a nonstarter as far as I'm concerned.
Here is my preferred solution to this problem. Set up a reverse ssh tunnel upon creating the ssh session. This is made easy by two bash function: grabfrom() needs to be defined on the local host, while grab() should be defined on the remote host. You can add any other ssh variables you use (e.g. -X or -Y) as you see fit.
function grabfrom() { ssh -R 2202:127.0.0.1:22 ${#}; };
function grab() { scp -P 2202 $# localuser#127.0.0.1:~; };
Usage:
localhost% grabfrom remoteuser#remotehost
password: <remote password goes here>
remotehost% grab somefile1 somefile2 *.txt
password: <local password goes here>
Positives:
It works without special software on either host beyond OpenSSH
It works when local host is behind a NAT router
It can be implemented as a pair of two one-line bash function
Negatives:
It uses a fixed port number so:
won't work with multiple connections to remote host
might conflict with a process using that port on the remote host
It requires localhost accept ssh connections
It requires a special command on initiation the session
It doesn't implicitly handle authentication to the localhost
It doesn't allow one to specify the destination directory on localhost
If you grab from multiple localhosts to the same remote host, ssh won't like the keys changing
Future work:
This is still pretty kludgy. Obviously, it would be possible to handle the authentication issue by setting up ssh keys appropriately and it's even easier to allow the specification of a remote directory by adding a parameter to grab()
More difficult is addressing the other negatives. It would be nice to pick a dynamic port but as far as I can tell there is no elegant way to pass that port to the shell on the remote host; As best as I can tell, OpenSSH doesn't allow you to set arbitrary environment variables on the remote host and bash can't take environment variables from a command line argument. Even if you could pick a dynamic port, there is no way to ensure it isn't used on the remote host without connecting first.
You can use SCP protocol for tranfering a file.you can refer this link
http://tekheez.biz/scp-protocol-in-unix/
The best way to use this you can expose your files over HTTP and download it from another server, you can achieve this using ZSSH Python library,
ZSSH - ZIP over SSH (Simple Python script to exchange files between servers).
Install it using PIP.
python3 -m pip install zssh
Run this command from your remote server.
python3 -m zssh -as --path /desktop/path_to_expose
It will give you an URL to execute from another server.
In the local system or another server where you need to download those files and extract.
python3 -m zssh -ad --path /desktop/path_to_download --zip http://example.com/temp_file.zip
For more about this library: https://pypi.org/project/zssh/
You should be able to set up public & private keys so that no auth is needed.
Which way you do it depends on security requirements, etc (be aware that there are linux/unix ssh worms which will look at keys to find other hosts they can attack).
I do this all the time from behind both linksys and dlink routers. I think you may need to change a couple of settings but it's not a big deal.
Use the -M switch.
"Places the ssh client into 'master' mode for connection shar-ing. Multiple -M options places ssh into ``master'' mode with confirmation required before slave connections are accepted. Refer to the description of ControlMaster in ssh_config(5) for details."
I don't quite see how that answers the OP's question - can you expand on this a bit, David?