Both client-side and server-side SCP are supported. Starting from version 2.0, the SCP related code is located in the sshd-scp
module, so you need
to add this additional dependency to your maven project:
<dependency>
<groupId>org.apache.sshd</groupId>
<artifactId>sshd-scp</artifactId>
<version>...same as sshd-core...</version>
</dependency>
Callback to inform about SCP related events. ScpTransferEventListener
(s) can be registered on both client and server side:
// Server side
ScpCommandFactory factory = new ScpCommandFactory(...with/out delegate..);
factory.addEventListener(new MyServerSideScpTransferEventListener());
sshd.setCommandFactory(factory);
// Client side
try (ClientSession session = client.connect(user, host, port)
.verify(...timeout...)
.getSession()) {
session.addPasswordIdentity(password);
session.auth().verify(...timeout...);
ScpClientCreator creator = ... obtain an instance ...
ScpClient client = creator.createScpClient(session, new MySuperDuperListener());
...scp.upload/download...
}
The basic SCP protocol is text-based and therefore subject to character encoding/decoding of the data being exchanged. By default, the exchange is supposed to use the UTF-8 encoding which is the default/standard one for SSH. However, there are clients/servers "in the wild" that do not conform to this convention. For this purpose, it is possible to define a different character encoding via the SCP_INCOMING/OUTGOING_ENCODING
properties - e.g.:
SshServer sshd = ...setup server...
// Can also use the character name string rather than the object instance itself
ScpModuleProperties.SCP_INCOMING_ENCODING.set(sshd, Charset.forName("US-ASCII"));
ScpModuleProperties.SCP_OUTGOING_ENCODING.set(sshd, Charset.forName("US-ASCII"));
Caveat emptor: the code does not enforce "symmetry" of the chosen character sets - in other words, users can either by design or error cause different encoding to be used for the incoming commands vs. the outgoing responses. It is important to bear in mind that if the text to be encoded/decoded contains characters that cannot be safely handled by the chosen encoder/decoder than the result might not be correctly parsed/understood by the peer.
In order to obtain an ScpClient
one needs to use an ScpClientCreator
:
try (ClientSession session = ... obtain an instance ...) {
ScpClientCreator creator = ... obtain an instance ...
ScpClient client = creator.createScpClient(session);
... use client ...
}
A default ScpClientCreator
instance is provided as part of the module - see ScpClientCreator.instance()
If the intended use of the client instance is "one-shot" - i.e., the client session should be closed when the SCP client instance is closed, then it is possible to obtain a special wrapper that implements this functionality:
// The underlying session will also be closed when the client is
try (CloseableScpClient client = createScpClient(...)) {
... use client ...
}
CloseableScpClient createScpClient(...) {
ClientSession session = ... obtain an instance ...;
ScpClientCreator creator = ... obtain an instance ...
ScpClient client = creator.createScpClient(session);
return CloseableScpClient.singleSessionInstance(client);
}
The ScpClientCreator
can also be used to attach a default ScpTransferEventListener
that will be automatically
add to all created SCP client instances through that creator - unless specifically overridden:
ClientSession session = ... obtain an instance ...
ScpClientCreator creator = ... obtain an instance ...
creator.setScpTransferEventListener(new MySuperDuperListener());
ScpClient client1 = creator.createScpClient(session); // <<== automatically uses MySuperDuperListener
ScpClient client2 = creator.createScpClient(session, new SomeOtherListener()); // <<== uses SomeOtherListener instead of MySuperDuperListener
As part of the ScpClientCreator
, the SCP module also uses a ScpFileOpener
instance in order to access
the local files. The default implementation simply opens an InputStream
or OutputStream on the requested local path. However,
the user may replace it and intercept the calls - e.g., for logging, monitoring transfer progess, wrapping/filtering the streams, etc...
The user may attach a default opener that will be automatically attached to all clients created unless specifically overridden:
/**
* Example of using a non-default opener for monitoring and reporting on transfer progress
*/
public class ScpTransferProgressMonitor extends DefaultScpFileOpener {
public static final ScpTransferProgressMonitor MONITOR = new ScpTransferProgressMonitor();
public ScpTransferProgressMonitor() {
super();
}
@Override
public InputStream openRead(
Session session, Path file, long size, Set<PosixFilePermission> permissions, OpenOption... options)
throws IOException {
return new MyProgressReportingInputStream(super.openRead(session, file, size, permissions, options), size /* how much is expected */);
}
@Override
public OutputStream openWrite(
Session session, Path file, long size, Set<PosixFilePermission> permissions, OpenOption... options)
throws IOException {
return new MyProgressReportingOutputStream(super.openWrite(session, file, size, permissions, options), size /* how much is expected */);
}
}
ClientSession session = ... obtain an instance ...
ScpClientCreator creator = ... obtain an instance ...
creator.setScpFileOpener(ScpTransferProgressMonitor.INSTANCE);
ScpClient client1 = creator.createScpClient(session); // <<== automatically uses ScpTransferProgressMonitor
ScpClient client2 = creator.createScpClient(session, new SomeOtherOpener()); // <<== uses SomeOtherOpener instead of ScpTransferProgressMonitor
Note(s):
-
Due to SCP protocol limitations one cannot change the size of the input/output since it is passed as part of the command before the file opener is invoked - so there are a few limitations on what one can do within this interface implementation.
-
By default, SCP synchronizes the local copied file data with the file system using the Java SYNC open option. This behavior can be controlled by setting the
scp-auto-sync-on-write
(a.k.a.ScpModuleProperties#PROP_AUTO_SYNC_FILE_ON_WRITE
) property to false or overriding theDefaultScpFileOpener#resolveOpenOptions
, or even overriding theScpFileOpener#openWrite
method altogether. -
Patterns used in
ScpFileOpener#getMatchingFilesToSend
are matched using case sensitivity derived from the O/S as detected by the internalOsUtils
. If a different behavior is required, then one needs to replace the default opener with one that uses a different sensitivity viaDirectoryScanner#setCaseSensitive
call (or executes the pattern matching in another way).Windows
- case insensitiveUnix
- case sensitive
Setting up SCP support on the server side is straightforward - simply initialize a ScpCommandFactory
and
set it as the primary command factory. If support for commands other than SCP is also required then provide
the extra commands factory as a delegate of the ScpCommandFactory
. The SCP factory will intercept the SCP
command and execute it, while propagating all other commands to the delegate. If no delegate configured then the
non-SCP command is deemed as having failed (same as if it were rejected by the delegate).
ScpCommandFactory factory = new ScpCommandFactory.Builder()
.withDelegate(new MyCommandDelegate())
.build();
SshServer sshd = ...create an instance...
sshd.setCommandFactory(factory);
The ScpCommandFactory
allows users to attach an ScpFileOpener
and/or ScpTransferEventListener
having the same behavior as the client - i.e.,
monitoring and intervention on the accessed local files. Furthermore, the factory can also be configured with a custom executor service for
executing the requested copy commands as well as controlling the internal buffer sizes used to copy files.
Some SCP clients (e.g. WinSCP) open a shell connection even if configured to use pure SCP in order to retrieve information about the remote server's files and potentially navigate through them. In other words, SCP is only used as the transfer protocol, but the application relies on "out-of-band" information (shell in this case) in order to provide the user with the available files list on the remote server.
Due to various considerations, some users might not want or be able to provide a full blown shell interface on the server side. For this
purpose SSHD provides an ScpShell
class that provides a good enough implementation of the limited command types that an SCP client
is likely to require. For this purpose, the ScpCommandFactory
also implements ShellFactory
which spawns the limited ScpShell
support.
ScpCommandFactory factory = new ScpCommandFactory.Builder()
.with(...)
.with(...)
.build()
;
sshd.setCommandFactory(factory);
sshd.setShellFactory(factory);
Note: a similar result can be achieved if activating SSHD from the command line by specifying -o ShellFactory=scp
The SCP "shell" is text-based and therefore subject to character encoding/decoding of the data being exchanged. By default, the exchange is supposed to use the UTF-8 encoding which is the default/standard one for SSH. However, there are clients/servers "in the wild" that do not conform to this convention. For this purpose, it is possible to define a different character encoding via the SHELL_NAME_EN/DECODING_CHARSET
properties - e.g.:
SshServer sshd = ...setup server...
// Can also use the character name string rather than the object instance itself
ScpModuleProperties.SHELL_NAME_ENCODING_CHARSET.set(sshd, Charset.forName("US-ASCII"));
ScpModuleProperties.SHELL_NAME_DECODING_CHARSET.set(sshd, Charset.forName("US-ASCII"));
Caveat emptor: the code does not enforce "symmetry" of the chosen character sets - in other words, users can either by design or error cause different encoding to be used for the incoming commands vs. the outgoing responses. It is important to bear in mind that if the text to be encoded/decoded contains characters that cannot be safely handled by the chosen encoder/decoder than the result might not be correctly parsed/understood by the peer.
A similar behavior is controlled via SHELL_ENVVARS_ENCODING_CHARSET
which controls responses from the ScpShell
regarding environment variables - the main difference being that the default is US-ASCII rather than UTF-8.
The code provides an ScpTransferHelper
class that enables copying files between 2 remote accounts without going through
the local file system.
ClientSession src = ...;
ClientSession dst = ...;
// Can also provide a listener in the constructor in order to be informed of the actual transfer progress
ScpRemote2RemoteTransferHelper helper = new ScpRemote2RemoteTransferHelper(src, dst);
// can be repeated for as many files as necessary using the same helper
helper.transferFile("remote/src/path/file1", "remote/dst/path/file2");