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PSCP, the PuTTY Secure Copy client, is a tool for transferring files securely between computers using an SSH connection.
If you have an SSH 2 server, you might prefer PSFTP (see chapter 6) for interactive use. PSFTP does not in general work with SSH 1 servers, however.
PSCP is a command line application. This means that you cannot just double-click on its icon to run it and instead you have to bring up a console window. With Windows 95, 98, and ME, this is called an ‘MS-DOS Prompt’ and with Windows NT and 2000 it is called a ‘Command Prompt’. It should be available from the Programs section of your Start Menu.
To start PSCP it will need either to be on your
PATH or in your current directory. To add the directory containing PSCP to your
PATH environment variable, type into the console window:
This will only work for the lifetime of that particular console window. To set your
PATH more permanently on Windows NT, use the Environment tab of the System Control Panel. On Windows 95, 98, and ME, you will need to edit your
AUTOEXEC.BAT to include a
set command like the one above.
Once you've got a console window to type into, you can just type
pscp on its own to bring up a usage message. This tells you the version of PSCP you're using, and gives you a brief summary of how to use PSCP:
Z:\owendadmin>pscp PuTTY Secure Copy client Release 0.55 Usage: pscp [options] [user@]host:source target pscp [options] source [source...] [user@]host:target pscp [options] -ls [user@]host:filespec Options: -p preserve file attributes -q quiet, don't show statistics -r copy directories recursively -v show verbose messages -load sessname Load settings from saved session -P port connect to specified port -l user connect with specified username -pw passw login with specified password -1 -2 force use of particular SSH protocol version -C enable compression -i key private key file for authentication -batch disable all interactive prompts -unsafe allow server-side wildcards (DANGEROUS) -V print version information -sftp force use of SFTP protocol -scp force use of SCP protocol
(PSCP's interface is much like the Unix
scp command, if you're familiar with that.)
To receive (a) file(s) from a remote server:
pscp [options] [user@]host:source target
So to copy the file
/etc/hosts from the server
example.com as user
fred to the file
c:\temp\example-hosts.txt, you would type:
pscp email@example.com:/etc/hosts c:\temp\example-hosts.txt
To send (a) file(s) to a remote server:
pscp [options] source [source...] [user@]host:target
So to copy the local file
c:\documents\foo.txt to the server
example.com as user
fred to the file
/tmp/foo you would type:
pscp c:\documents\foo.txt firstname.lastname@example.org:/tmp/foo
You can use wildcards to transfer multiple files in either direction, like this:
pscp c:\documents\*.doc email@example.com:docfiles pscp firstname.lastname@example.org:source/*.c c:\source
However, in the second case (using a wildcard for multiple remote files) you may see a warning saying something like ‘warning: remote host tried to write to a file called 'terminal.c' when we requested a file called '*.c'. If this is a wildcard, consider upgrading to SSH 2 or using the '-unsafe' option. Renaming of this file has been disallowed’.
This is due to a fundamental insecurity in the old-style SCP protocol: the client sends the wildcard string (
*.c) to the server, and the server sends back a sequence of file names that match the wildcard pattern. However, there is nothing to stop the server sending back a different pattern and writing over one of your other files: if you request
*.c, the server might send back the file name
AUTOEXEC.BAT and install a virus for you. Since the wildcard matching rules are decided by the server, the client cannot reliably verify that the filenames sent back match the pattern.
PSCP will attempt to use the newer SFTP protocol (part of SSH 2) where possible, which does not suffer from this security flaw. If you are talking to an SSH 2 server which supports SFTP, you will never see this warning. (You can force use of the SFTP protocol, if available, with
-sftp - see section 126.96.36.199.)
If you really need to use a server-side wildcard with an SSH 1 server, you can use the
-unsafe command line option with PSCP:
pscp -unsafe email@example.com:source/*.c c:\source
This will suppress the warning message and the file transfer will happen. However, you should be aware that by using this option you are giving the server the ability to write to any file in the target directory, so you should only use this option if you trust the server administrator not to be malicious (and not to let the server machine be cracked by malicious people).
The login name on the remote server. If this is omitted, and
host is a PuTTY saved session, PSCP will use any username specified by that saved session. Otherwise, PSCP will attempt to use the local Windows username.
The name of the remote server, or the name of an existing PuTTY saved session. In the latter case, the session's settings for hostname, port number, cipher type and username will be used.
One or more source files. Wildcards are allowed. The syntax of wildcards depends on the system to which they apply, so if you are copying from a Windows system to a UNIX system, you should use Windows wildcard syntax (e.g.
*.*), but if you are copying from a UNIX system to a Windows system, you would use the wildcard syntax allowed by your UNIX shell (e.g.
If the source is a remote server and you do not specify a full pathname (in UNIX, a pathname beginning with a
/ (slash) character), what you specify as a source will be interpreted relative to your home directory on the remote server.
The filename or directory to put the file(s). When copying from a remote server to a local host, you may wish simply to place the file(s) in the current directory. To do this, you should specify a target of
.. For example:
pscp firstname.lastname@example.org:/home/tom/.emacs .
/home/tom/.emacs on the remote server to the current directory.
As with the
source parameter, if the target is on a remote server and is not a full path name, it is interpreted relative to your home directory on the remote server.
PSCP accepts all the general command line options supported by the PuTTY tools, except the ones which make no sense in a file transfer utility. See section 3.7.3 for a description of these options. (The ones not supported by PSCP are clearly marked.)
PSCP also supports some of its own options. The following sections describe PSCP's specific command-line options.
These are the command line options that PSCP accepts.
-ppreserve file attributes
By default, files copied with PSCP are timestamped with the date and time they were copied. The
-p option preserves the original timestamp on copied files.
-qquiet, don't show statistics
By default, PSCP displays a meter displaying the progress of the current transfer:
mibs.tar | 168 kB | 84.0 kB/s | ETA: 00:00:13 | 13%
The fields in this display are (from left to right), filename, size (in kilobytes) of file transferred so far, estimate of how fast the file is being transferred (in kilobytes per second), estimated time that the transfer will be complete, and percentage of the file so far transferred. The
-q option to PSCP suppresses the printing of these statistics.
-rcopies directories recursively
By default, PSCP will only copy files. Any directories you specify to copy will be skipped, as will their contents. The
-r option tells PSCP to descend into any directories you specify, and to copy them and their contents. This allows you to use PSCP to transfer whole directory structures between machines.
-batchavoid interactive prompts
If you use the
-batch option, PSCP will never give an interactive prompt while establishing the connection. If the server's host key is invalid, for example (see section 2.2), then the connection will simply be abandoned instead of asking you what to do next.
This may help PSCP's behaviour when it is used in automated scripts: using
-batch, if something goes wrong at connection time, the batch job will fail rather than hang.
-scpforce use of particular protocol
As mentioned in section 5.2.1, there are two different file transfer protocols in use with SSH. Despite its name, PSCP (like many other ostensible
scp clients) can use either of these protocols.
The older SCP protocol does not have a written specification and leaves a lot of detail to the server platform. Wildcards are expanded on the server. The simple design means that any wildcard specification supported by the server platform (such as brace expansion) can be used, but also leads to interoperability issues such as with filename quoting (for instance, where filenames contain spaces), and also the security issue described in section 5.2.1.
The newer SFTP protocol, which is usually associated with SSH 2 servers, is specified in a more platform independent way, and leaves issues such as wildcard syntax up to the client. This makes it more consistent across platforms, more suitable for scripting and automation, and avoids security issues with wilcard matching.
Normally PSCP will attempt to use the SFTP protocol, and only fall back to the SCP protocol if SFTP is not available on the server.
-scp option forces PSCP to use the SCP protocol or quit.
-sftp option forces PSCP to use the SFTP protocol or quit. When this option is specified, PSCP looks harder for an SFTP server, which may allow use of SFTP with SSH 1 depending on server setup.
PSCP returns an
ERRORLEVEL of zero (success) only if the files were correctly transferred. You can test for this in a batch file, using code such as this:
pscp file*.* user@hostname: if errorlevel 1 echo There was an error
Like PuTTY, PSCP can authenticate using a public key instead of a password. There are three ways you can do this.
Firstly, PSCP can use PuTTY saved sessions in place of hostnames (see section 188.8.131.52). So you would do this:
pscp sessionname:file localfile, where
sessionnameis replaced by the name of your saved session.
Secondly, you can supply the name of a private key file on the command line, with the
-i option. See section 184.108.40.206 for more information.
Thirdly, PSCP will attempt to authenticate using Pageant if Pageant is running (see chapter 9). So you would do this:
For more general information on public-key authentication, see chapter 8.