1 \input texinfo @c -*-texinfo-*-
2 @setfilename ../../info/tramp
4 @settitle TRAMP User Manual
7 @c This is *so* much nicer :)
10 @c In the Tramp CVS, the version number is auto-frobbed from
11 @c configure.ac, so you should edit that file and run
12 @c "autoconf && ./configure" to change the version number.
14 @c Additionally, flags are set with respect to the Emacs flavor; and
15 @c depending whether Tramp is packaged into (X)Emacs, or standalone.
17 @include trampver.texi
19 @c Macro for formatting a filename according to the respective syntax.
20 @c xxx and yyy are auxiliary macros in order to omit leading and
21 @c trailing whitespace. Not very elegant, but I don't know it better.
27 @macro yyy {one, two}@c
35 @macro trampfn {method, user, host, localname}@c
36 @value{prefix}@yyy{\method\,@value{postfixhop}}@yyy{\user\,@@}\host\@value{postfix}\localname\@c
40 Copyright @copyright{} 1999-2012 Free Software Foundation, Inc.
43 Permission is granted to copy, distribute and/or modify this document
44 under the terms of the GNU Free Documentation License, Version 1.3 or
45 any later version published by the Free Software Foundation; with no
46 Invariant Sections, with the Front-Cover texts being ``A GNU Manual'',
47 and with the Back-Cover Texts as in (a) below. A copy of the license
48 is included in the section entitled ``GNU Free Documentation License''.
50 (a) The FSF's Back-Cover Text is: ``You have the freedom to
51 copy and modify this GNU manual. Buying copies from the FSF
52 supports it in developing GNU and promoting software freedom.''
56 @c Entries for @command{install-info} to use
57 @dircategory @value{emacsname} network features
59 * TRAMP: (tramp). Transparent Remote Access, Multiple Protocol
60 @value{emacsname} remote file access via rsh and rcp.
64 @title @value{tramp} version @value{trampver} User Manual
65 @author by Daniel Pittman
66 @author based on documentation by Kai Gro@ss{}johann
74 @node Top, Overview, (dir), (dir)
75 @top @value{tramp} version @value{trampver} User Manual
77 This file documents @value{tramp} version @value{trampver}, a remote file
78 editing package for @value{emacsname}.
80 @value{tramp} stands for `Transparent Remote (file) Access, Multiple
81 Protocol'. This package provides remote file editing, similar to
82 @value{ftppackagename}.
84 The difference is that @value{ftppackagename} uses FTP to transfer
85 files between the local and the remote host, whereas @value{tramp} uses a
86 combination of @command{rsh} and @command{rcp} or other work-alike
87 programs, such as @command{ssh}/@command{scp}.
89 You can find the latest version of this document on the web at
90 @uref{http://www.gnu.org/software/tramp/}.
92 @c Pointer to the other Emacs flavor is necessary only in case of
93 @c standalone installation.
95 The manual has been generated for @value{emacsname}.
97 If you want to read the info pages for @value{emacsothername}, you
98 should read in @ref{Installation} how to create them.
101 If you're using the other Emacs flavor, you should read the
102 @uref{@value{emacsotherfilename}, @value{emacsothername}} pages.
107 The latest release of @value{tramp} is available for
108 @uref{ftp://ftp.gnu.org/gnu/tramp/, download}, or you may see
109 @ref{Obtaining Tramp} for more details, including the CVS server
112 @value{tramp} also has a @uref{http://savannah.gnu.org/projects/tramp/,
113 Savannah Project Page}.
116 There is a mailing list for @value{tramp}, available at
117 @email{tramp-devel@@gnu.org}, and archived at
118 @uref{http://lists.gnu.org/archive/html/tramp-devel/, the
119 @value{tramp} Mail Archive}.
121 Older archives are located at
122 @uref{http://sourceforge.net/mailarchive/forum.php?forum=tramp-devel,
123 SourceForge Mail Archive} and
124 @uref{http://www.mail-archive.com/emacs-rcp@@ls6.cs.uni-dortmund.de/,
126 @c in HTML output, there's no new paragraph.
135 * Overview:: What @value{tramp} can and cannot do.
139 * Obtaining Tramp:: How to obtain @value{tramp}.
140 * History:: History of @value{tramp}.
141 @ifset installchapter
142 * Installation:: Installing @value{tramp} with your @value{emacsname}.
144 * Configuration:: Configuring @value{tramp} for use.
145 * Usage:: An overview of the operation of @value{tramp}.
146 * Bug Reports:: Reporting Bugs and Problems.
147 * Frequently Asked Questions:: Questions and answers from the mailing list.
148 * Function Index:: @value{tramp} functions.
149 * Variable Index:: User options and variables.
150 * Concept Index:: An item for each concept.
154 * Files directories and localnames:: How file names, directories and localnames are mangled and managed.
155 * Traces and Profiles:: How to Customize Traces.
156 * Issues:: Debatable Issues and What Was Decided.
158 * GNU Free Documentation License:: The license for this documentation.
161 --- The Detailed Node Listing ---
163 @ifset installchapter
164 Installing @value{tramp} with your @value{emacsname}
166 * Installation parameters:: Parameters in order to control installation.
167 * Load paths:: How to plug-in @value{tramp} into your environment.
171 Configuring @value{tramp} for use
173 * Connection types:: Types of connections made to remote machines.
174 * Inline methods:: Inline methods.
175 * External methods:: External methods.
177 * GVFS based methods:: GVFS based external methods.
180 * Gateway methods:: Gateway methods.
182 * Default Method:: Selecting a default method.
183 * Default User:: Selecting a default user.
184 * Default Host:: Selecting a default host.
185 * Multi-hops:: Connecting to a remote host using multiple hops.
186 * Customizing Methods:: Using Non-Standard Methods.
187 * Customizing Completion:: Selecting config files for user/host name completion.
188 * Password handling:: Reusing passwords for several connections.
189 * Connection caching:: Reusing connection related information.
190 * Remote Programs:: How @value{tramp} finds and uses programs on the remote machine.
191 * Remote shell setup:: Remote shell setup hints.
192 * Windows setup hints:: Issues with Cygwin ssh.
193 * Auto-save and Backup:: Auto-save and Backup.
197 * Filename Syntax:: @value{tramp} filename conventions.
198 * Alternative Syntax:: URL-like filename syntax.
199 * Filename completion:: Filename completion.
200 * Remote processes:: Integration with other @value{emacsname} packages.
201 * Cleanup remote connections:: Cleanup remote connections.
203 How file names, directories and localnames are mangled and managed
205 * Localname deconstruction:: Breaking a localname into its components.
207 * External packages:: Integration with external Lisp packages.
214 @chapter An overview of @value{tramp}
217 After the installation of @value{tramp} into your @value{emacsname}, you
218 will be able to access files on remote machines as though they were
219 local. Access to the remote file system for editing files, version
220 control, and @code{dired} are transparently enabled.
222 Your access to the remote machine can be with the @command{rsh},
223 @command{rlogin}, @command{telnet} programs or with any similar
224 connection method. This connection must pass @acronym{ASCII}
225 successfully to be usable but need not be 8-bit clean.
227 The package provides support for @command{ssh} connections out of the
228 box, one of the more common uses of the package. This allows
229 relatively secure access to machines, especially if @command{ftp}
232 Under Windows, @value{tramp} is integrated with the PuTTY package,
233 using the @command{plink} program.
235 The majority of activity carried out by @value{tramp} requires only that
236 the remote login is possible and is carried out at the terminal. In
237 order to access remote files @value{tramp} needs to transfer their content
238 to the local machine temporarily.
240 @value{tramp} can transfer files between the machines in a variety of ways.
241 The details are easy to select, depending on your needs and the
242 machines in question.
244 The fastest transfer methods for large files rely on a remote file
245 transfer package such as @command{rcp}, @command{scp}, @command{rsync}
246 or (under Windows) @command{pscp}.
248 If the remote copy methods are not suitable for you, @value{tramp} also
249 supports the use of encoded transfers directly through the shell.
250 This requires that the @command{mimencode} or @command{uuencode} tools
251 are available on the remote machine. These methods are generally
252 faster for small files.
254 @value{tramp} is still under active development and any problems you encounter,
255 trivial or major, should be reported to the @value{tramp} developers.
259 @subsubheading Behind the scenes
260 @cindex behind the scenes
261 @cindex details of operation
264 This section tries to explain what goes on behind the scenes when you
265 access a remote file through @value{tramp}.
267 Suppose you type @kbd{C-x C-f} and enter part of an @value{tramp} file name,
268 then hit @kbd{@key{TAB}} for completion. Suppose further that this is
269 the first time that @value{tramp} is invoked for the host in question. Here's
274 @value{tramp} discovers that it needs a connection to the host. So it
275 invokes @samp{telnet @var{host}} or @samp{rsh @var{host} -l
276 @var{user}} or a similar tool to connect to the remote host.
277 Communication with this process happens through an
278 @value{emacsname} buffer, that is, the output from the remote end
282 The remote host may prompt for a login name (for @command{telnet}).
283 The login name is given in the file name, so @value{tramp} sends the
284 login name and a newline.
287 The remote host may prompt for a password or pass phrase (for
288 @command{rsh} or for @command{telnet} after sending the login name).
289 @value{tramp} displays the prompt in the minibuffer, asking you for the
290 password or pass phrase.
292 You enter the password or pass phrase. @value{tramp} sends it to the remote
293 host, followed by a newline.
296 @value{tramp} now waits for the shell prompt or for a message that the login
299 If @value{tramp} sees neither of them after a certain period of time
300 (a minute, say), then it issues an error message saying that it
301 couldn't find the remote shell prompt and shows you what the remote
304 If @value{tramp} sees a @samp{login failed} message, it tells you so,
305 aborts the login attempt and allows you to try again.
308 Suppose that the login was successful and @value{tramp} sees the shell prompt
309 from the remote host. Now @value{tramp} invokes @command{/bin/sh} because
310 Bourne shells and C shells have different command
311 syntaxes.@footnote{Invoking @command{/bin/sh} will fail if your login
312 shell doesn't recognize @samp{exec /bin/sh} as a valid command.
313 Maybe you use the Scheme shell @command{scsh}@dots{}}
315 After the Bourne shell has come up, @value{tramp} sends a few commands to
316 ensure a good working environment. It turns off echoing, it sets the
317 shell prompt, and a few other things.
320 Now the remote shell is up and it good working order. Remember, what
321 was supposed to happen is that @value{tramp} tries to find out what files exist
322 on the remote host so that it can do filename completion.
324 So, @value{tramp} basically issues @command{cd} and @command{ls} commands and
325 also sometimes @command{echo} with globbing. Another command that is
326 often used is @command{test} to find out whether a file is writable or a
327 directory or the like. The output of each command is parsed for the
331 Suppose you are finished with filename completion, have entered @kbd{C-x
332 C-f}, a full file name and hit @kbd{@key{RET}}. Now comes the time to
333 transfer the file contents from the remote host to the local host so
334 that you can edit them.
336 See above for an explanation of how @value{tramp} transfers the file contents.
338 For inline transfers, @value{tramp} issues a command like @samp{mimencode -b
339 /path/to/remote/file}, waits until the output has accumulated in the
340 buffer that's used for communication, then decodes that output to
341 produce the file contents.
343 For external transfers, @value{tramp} issues a command like the
346 rcp user@@host:/path/to/remote/file /tmp/tramp.4711
348 It then reads the local temporary file @file{/tmp/tramp.4711} into a
349 buffer and deletes the temporary file.
352 You now edit the buffer contents, blithely unaware of what has happened
353 behind the scenes. (Unless you have read this section, that is.) When
354 you are finished, you type @kbd{C-x C-s} to save the buffer.
357 Again, @value{tramp} transfers the file contents to the remote host
358 either inline or external. This is the reverse of what happens when
362 I hope this has provided you with a basic overview of what happens
363 behind the scenes when you open a file with @value{tramp}.
367 @node Obtaining Tramp
368 @chapter Obtaining Tramp.
369 @cindex obtaining Tramp
371 @value{tramp} is freely available on the Internet and the latest
372 release may be downloaded from @uref{ftp://ftp.gnu.org/gnu/tramp/}.
373 This release includes the full documentation and code for
374 @value{tramp}, suitable for installation. But Emacs (22 or later)
375 includes @value{tramp} already, and there is a @value{tramp} package
376 for XEmacs, as well. So maybe it is easier to just use those. But if
377 you want the bleeding edge, read on@dots{...}
379 For the especially brave, @value{tramp} is available from CVS. The CVS
380 version is the latest version of the code and may contain incomplete
381 features or new issues. Use these versions at your own risk.
383 Instructions for obtaining the latest development version of @value{tramp}
384 from CVS can be found by going to the Savannah project page at the
385 following URL and then clicking on the CVS link in the navigation bar
389 @uref{http://savannah.gnu.org/projects/tramp/}
392 Or follow the example session below:
395 ] @strong{cd ~/@value{emacsdir}}
396 ] @strong{export CVS_RSH="ssh"}
397 ] @strong{cvs -z3 -d:pserver:anonymous@@cvs.savannah.gnu.org:/sources/tramp co tramp}
401 You should now have a directory @file{~/@value{emacsdir}/tramp}
402 containing the latest version of @value{tramp}. You can fetch the latest
403 updates from the repository by issuing the command:
406 ] @strong{cd ~/@value{emacsdir}/tramp}
407 ] @strong{export CVS_RSH="ssh"}
408 ] @strong{cvs update -d}
412 Once you've got updated files from the CVS repository, you need to run
413 @command{autoconf} in order to get an up-to-date @file{configure}
417 ] @strong{cd ~/@value{emacsdir}/tramp}
423 @chapter History of @value{tramp}
425 @cindex development history
427 Development was started end of November 1998. The package was called
428 @file{rssh.el}, back then. It only provided one method to access a
429 file, using @command{ssh} to log in to a remote host and using
430 @command{scp} to transfer the file contents. After a while, the name
431 was changed to @file{rcp.el}, and now it's @value{tramp}. Along the way,
432 many more methods for getting a remote shell and for transferring the
433 file contents were added. Support for VC was added.
435 After that, there were added the multi-hop methods in April 2000 and
436 the unification of @value{tramp} and Ange-FTP filenames in July 2002.
437 In July 2004, multi-hop methods have been replaced by proxy hosts.
438 Running commands on remote hosts was introduced in December 2005.
440 Support of gateways exists since April 2007.
443 GVFS integration started in February 2009.
446 In December 2001, @value{tramp} has been added to the XEmacs package
447 repository. Being part of the Emacs repository happened in June 2002,
448 the first release including @value{tramp} was Emacs 22.1.
450 @value{tramp} is also a Debian GNU/Linux package since February 2001.
453 @c Installation chapter is necessary only in case of standalone
454 @c installation. Text taken from trampinst.texi.
455 @ifset installchapter
456 @include trampinst.texi
460 @chapter Configuring @value{tramp} for use
461 @cindex configuration
463 @cindex default configuration
464 @value{tramp} is (normally) fully functional when it is initially
465 installed. It is initially configured to use the @command{scp}
466 program to connect to the remote host. So in the easiest case, you
467 just type @kbd{C-x C-f} and then enter the filename
468 @file{@trampfn{, user, machine, /path/to.file}}.
470 On some hosts, there are problems with opening a connection. These are
471 related to the behavior of the remote shell. See @xref{Remote shell
472 setup}, for details on this.
474 If you do not wish to use these commands to connect to the remote
475 host, you should change the default connection and transfer method
476 that @value{tramp} uses. There are several different methods that @value{tramp}
477 can use to connect to remote machines and transfer files
478 (@pxref{Connection types}).
480 If you don't know which method is right for you, see @xref{Default
485 * Connection types:: Types of connections made to remote machines.
486 * Inline methods:: Inline methods.
487 * External methods:: External methods.
489 * GVFS based methods:: GVFS based external methods.
492 * Gateway methods:: Gateway methods.
494 * Default Method:: Selecting a default method.
495 Here we also try to help those who
496 don't have the foggiest which method
498 * Default User:: Selecting a default user.
499 * Default Host:: Selecting a default host.
500 * Multi-hops:: Connecting to a remote host using multiple hops.
501 * Customizing Methods:: Using Non-Standard Methods.
502 * Customizing Completion:: Selecting config files for user/host name completion.
503 * Password handling:: Reusing passwords for several connections.
504 * Connection caching:: Reusing connection related information.
505 * Remote Programs:: How @value{tramp} finds and uses programs on the remote machine.
506 * Remote shell setup:: Remote shell setup hints.
507 * Windows setup hints:: Issues with Cygwin ssh.
508 * Auto-save and Backup:: Auto-save and Backup.
512 @node Connection types
513 @section Types of connections made to remote machines.
514 @cindex connection types, overview
516 There are two basic types of transfer methods, each with its own
517 advantages and limitations. Both types of connection make use of a
518 remote shell access program such as @command{rsh}, @command{ssh} or
519 @command{telnet} to connect to the remote machine.
521 This connection is used to perform many of the operations that @value{tramp}
522 requires to make the remote file system transparently accessible from
523 the local machine. It is only when visiting files that the methods
526 @cindex inline methods
527 @cindex external methods
528 @cindex methods, inline
529 @cindex methods, external
530 Loading or saving a remote file requires that the content of the file
531 be transferred between the two machines. The content of the file can
532 be transferred using one of two methods: the @dfn{inline method} over
533 the same connection used to log in to the remote machine, or the
534 @dfn{external method} through another connection using a remote copy
535 program such as @command{rcp}, @command{scp} or @command{rsync}.
537 The performance of the external methods is generally better than that
538 of the inline methods, at least for large files. This is caused by
539 the need to encode and decode the data when transferring inline.
541 The one exception to this rule are the @command{scp} based transfer
542 methods. While these methods do see better performance when actually
543 transferring files, the overhead of the cryptographic negotiation at
544 startup may drown out the improvement in file transfer times.
546 External methods should be configured such a way that they don't
547 require a password (with @command{ssh-agent}, or such alike). Modern
548 @command{scp} implementations offer options to reuse existing
549 @command{ssh} connections, see method @command{scpc}. If it isn't
550 possible, you should consider @ref{Password handling}, otherwise you
551 will be prompted for a password every copy action.
555 @section Inline methods
556 @cindex inline methods
557 @cindex methods, inline
559 The inline methods in @value{tramp} are quite powerful and can work in
560 situations where you cannot use an external transfer program to connect.
561 Inline methods are the only methods that work when connecting to the
562 remote machine via telnet. (There are also strange inline methods which
563 allow you to transfer files between @emph{user identities} rather than
566 These methods depend on the existence of a suitable encoding and
567 decoding command on remote machine. Locally, @value{tramp} may be able to
568 use features of @value{emacsname} to decode and encode the files or
569 it may require access to external commands to perform that task.
573 @cindex base-64 encoding
574 @value{tramp} checks the availability and usability of commands like
575 @command{mimencode} (part of the @command{metamail} package) or
576 @command{uuencode} on the remote host. The first reliable command
577 will be used. The search path can be customized, see @ref{Remote
580 If both commands aren't available on the remote host, @value{tramp}
581 transfers a small piece of Perl code to the remote host, and tries to
582 apply it for encoding and decoding.
584 The variable @var{tramp-inline-compress-start-size} controls, whether
585 a file shall be compressed before encoding. This could increase
586 transfer speed for large text files.
594 Connect to the remote host with @command{rsh}. Due to the unsecure
595 connection it is recommended for very local host topology only.
597 On operating systems which provide the command @command{remsh} instead
598 of @command{rsh}, you can use the method @option{remsh}. This is true
599 for HP-UX or Cray UNICOS, for example.
606 Connect to the remote host with @command{ssh}. This is identical to
607 the previous option except that the @command{ssh} package is used,
608 making the connection more secure.
610 There are also two variants, @option{ssh1} and @option{ssh2}, that
611 call @samp{ssh -1} and @samp{ssh -2}, respectively. This way, you can
612 explicitly select whether you want to use the SSH protocol version 1
613 or 2 to connect to the remote host. (You can also specify in
614 @file{~/.ssh/config}, the SSH configuration file, which protocol
615 should be used, and use the regular @option{ssh} method.)
617 All the methods based on @command{ssh} have an additional feature: you
618 can specify a host name which looks like @file{host#42} (the real host
619 name, then a hash sign, then a port number). This means to connect to
620 the given host but to also pass @code{-p 42} as arguments to the
621 @command{ssh} command.
624 @item @option{telnet}
625 @cindex method telnet
626 @cindex telnet method
628 Connect to the remote host with @command{telnet}. This is as unsecure
629 as the @option{rsh} method.
636 This method does not connect to a remote host at all, rather it uses
637 the @command{su} program to allow you to edit files as another user.
638 That means, the specified host name in the file name must be either
639 @samp{localhost} or the host name as returned by the function
640 @command{(system-name)}. For an exception of this rule see
648 This is similar to the @option{su} method, but it uses @command{sudo}
649 rather than @command{su} to become a different user.
651 Note that @command{sudo} must be configured to allow you to start a
652 shell as the user. It would be nice if it was sufficient if
653 @command{ls} and @command{mimencode} were allowed, but that is not
654 easy to implement, so I haven't got around to it, yet.
661 As you would expect, this is similar to @option{ssh}, only a little
662 different. Whereas @option{ssh} opens a normal interactive shell on
663 the remote host, this option uses @samp{ssh -t -t @var{host} -l
664 @var{user} /bin/sh} to open a connection. This is useful for users
665 where the normal login shell is set up to ask them a number of
666 questions when logging in. This procedure avoids these questions, and
667 just gives @value{tramp} a more-or-less `standard' login shell to work
670 Note that this procedure does not eliminate questions asked by
671 @command{ssh} itself. For example, @command{ssh} might ask ``Are you
672 sure you want to continue connecting?'' if the host key of the remote
673 host is not known. @value{tramp} does not know how to deal with such a
674 question (yet), therefore you will need to make sure that you can log
675 in without such questions.
677 This is also useful for Windows users where @command{ssh}, when
678 invoked from an @value{emacsname} buffer, tells them that it is not
679 allocating a pseudo tty. When this happens, the login shell is wont
680 to not print any shell prompt, which confuses @value{tramp} mightily.
682 This supports the @samp{-p} argument.
685 @item @option{krlogin}
686 @cindex method krlogin
687 @cindex krlogin method
688 @cindex Kerberos (with krlogin method)
690 This method is also similar to @option{ssh}. It only uses the
691 @command{krlogin -x} command to log in to the remote host.
697 @cindex Kerberos (with ksu method)
699 This is another method from the Kerberos suite. It behaves like @option{su}.
706 This method is mostly interesting for Windows users using the PuTTY
707 implementation of SSH. It uses @samp{plink -ssh} to log in to the
710 This supports the @samp{-P} argument.
712 Additionally, the methods @option{plink1} and @option{plink2} are
713 provided, which call @samp{plink -1 -ssh} or @samp{plink -2 -ssh} in
714 order to use SSH protocol version 1 or 2 explicitly.
716 CCC: Do we have to connect to the remote host once from the command
717 line to accept the SSH key? Maybe this can be made automatic?
719 CCC: Say something about the first shell command failing. This might
720 be due to a wrong setting of @code{tramp-rsh-end-of-line}.
723 @item @option{plinkx}
724 @cindex method plinkx
725 @cindex plinkx method
727 Another method using PuTTY on Windows. Instead of host names, it
728 expects PuTTY session names, calling @samp{plink -load @var{session}
729 -t"}. User names are relevant only in case the corresponding session
730 hasn't defined a user name. Different port numbers must be defined in
736 @node External methods
737 @section External methods
738 @cindex methods, external
739 @cindex external methods
741 The external methods operate through multiple channels, using the
742 remote shell connection for many actions while delegating file
743 transfers to an external transfer utility.
745 This saves the overhead of encoding and decoding that multiplexing the
746 transfer through the one connection has with the inline methods.
748 Since external methods need their own overhead opening a new channel,
749 all files which are smaller than @var{tramp-copy-size-limit} are still
750 transferred with the corresponding inline method. It should provide a
751 fair trade-off between both approaches.
754 @item @option{rcp} --- @command{rsh} and @command{rcp}
757 @cindex rcp (with rcp method)
758 @cindex rsh (with rcp method)
760 This method uses the @command{rsh} and @command{rcp} commands to connect
761 to the remote machine and transfer files. This is probably the fastest
762 connection method available.
764 The alternative method @option{remcp} uses the @command{remsh} and
765 @command{rcp} commands. It should be applied on machines where
766 @command{remsh} is used instead of @command{rsh}.
769 @item @option{scp} --- @command{ssh} and @command{scp}
772 @cindex scp (with scp method)
773 @cindex ssh (with scp method)
775 Using @command{ssh} to connect to the remote host and @command{scp} to
776 transfer files between the machines is the best method for securely
777 connecting to a remote machine and accessing files.
779 The performance of this option is also quite good. It may be slower than
780 the inline methods when you often open and close small files however.
781 The cost of the cryptographic handshake at the start of an @command{scp}
782 session can begin to absorb the advantage that the lack of encoding and
785 There are also two variants, @option{scp1} and @option{scp2}, that
786 call @samp{ssh -1} and @samp{ssh -2}, respectively. This way, you can
787 explicitly select whether you want to use the SSH protocol version 1
788 or 2 to connect to the remote host. (You can also specify in
789 @file{~/.ssh/config}, the SSH configuration file, which protocol
790 should be used, and use the regular @option{scp} method.)
792 All the @command{ssh} based methods support the @samp{-p} feature
793 where you can specify a port number to connect to in the host name.
794 For example, the host name @file{host#42} tells @value{tramp} to
795 specify @samp{-p 42} in the argument list for @command{ssh}, and to
796 specify @samp{-P 42} in the argument list for @command{scp}.
799 @item @option{sftp} --- @command{ssh} and @command{sftp}
802 @cindex sftp (with sftp method)
803 @cindex ssh (with sftp method)
805 That is mostly the same method as @option{scp}, but using
806 @command{sftp} as transfer command. So the same remarks are valid.
808 This command does not work like @value{ftppackagename}, where
809 @command{ftp} is called interactively, and all commands are send from
810 within this session. Instead of, @command{ssh} is used for login.
812 This method supports the @samp{-p} argument.
815 @item @option{rsync} --- @command{ssh} and @command{rsync}
818 @cindex rsync (with rsync method)
819 @cindex ssh (with rsync method)
821 Using the @command{ssh} command to connect securely to the remote
822 machine and the @command{rsync} command to transfer files is almost
823 identical to the @option{scp} method.
825 While @command{rsync} performs much better than @command{scp} when
826 transferring files that exist on both hosts, this advantage is lost if
827 the file exists only on one side of the connection. A file can exists
828 on both the remote and local host, when you copy a file from/to a
829 remote host. When you just open a file from the remote host (or write
830 a file there), a temporary file on the local side is kept as long as
831 the corresponding buffer, visiting this file, is alive.
833 This method supports the @samp{-p} argument.
836 @item @option{scpx} --- @command{ssh} and @command{scp}
839 @cindex scp (with scpx method)
840 @cindex ssh (with scpx method)
842 As you would expect, this is similar to @option{scp}, only a little
843 different. Whereas @option{scp} opens a normal interactive shell on
844 the remote host, this option uses @samp{ssh -t -t @var{host} -l
845 @var{user} /bin/sh} to open a connection. This is useful for users
846 where the normal login shell is set up to ask them a number of
847 questions when logging in. This procedure avoids these questions, and
848 just gives @value{tramp} a more-or-less `standard' login shell to work
851 This is also useful for Windows users where @command{ssh}, when
852 invoked from an @value{emacsname} buffer, tells them that it is not
853 allocating a pseudo tty. When this happens, the login shell is wont
854 to not print any shell prompt, which confuses @value{tramp} mightily.
856 This method supports the @samp{-p} argument.
859 @item @option{scpc} --- @command{ssh} and @command{scp}
862 @cindex scp (with scpc method)
863 @cindex ssh (with scpc method)
865 Newer versions of @option{ssh} (for example OpenSSH 4) offer an option
866 @option{ControlMaster}. This allows @option{scp} to reuse an existing
867 @option{ssh} channel, which increases performance.
869 Before you use this method, you should check whether your @option{ssh}
870 implementation supports this option. Try from the command line
873 ssh localhost -o ControlMaster=yes /bin/true
876 If that command succeeds silently, then you can use @option{scpc}; but
880 command-line: line 0: Bad configuration option: ControlMaster
883 then you cannot use it.
885 This method supports the @samp{-p} argument.
888 @item @option{rsyncc} --- @command{ssh} and @command{rsync}
889 @cindex method rsyncc
890 @cindex rsyncc method
891 @cindex rsync (with rsyncc method)
892 @cindex ssh (with rsyncc method)
894 Like the @option{scpc} method, @option{rsyncc} improves the underlying
895 @command{ssh} connection by the option @option{ControlMaster}. This
896 allows @command{rsync} to reuse an existing @command{ssh} channel,
897 which increases performance.
899 This method supports the @samp{-p} argument.
902 @item @option{pscp} --- @command{plink} and @command{pscp}
905 @cindex pscp (with pscp method)
906 @cindex plink (with pscp method)
907 @cindex PuTTY (with pscp method)
909 This method is similar to @option{scp}, but it uses the
910 @command{plink} command to connect to the remote host, and it uses
911 @command{pscp} for transferring the files. These programs are part
912 of PuTTY, an SSH implementation for Windows.
914 This method supports the @samp{-P} argument.
917 @item @option{psftp} --- @command{plink} and @command{psftp}
920 @cindex psftp (with psftp method)
921 @cindex plink (with psftp method)
922 @cindex PuTTY (with psftp method)
924 As you would expect, this method is similar to @option{sftp}, but it
925 uses the @command{plink} command to connect to the remote host, and it
926 uses @command{psftp} for transferring the files. These programs are
927 part of PuTTY, an SSH implementation for Windows.
929 This method supports the @samp{-P} argument.
932 @item @option{fcp} --- @command{fsh} and @command{fcp}
935 @cindex fsh (with fcp method)
936 @cindex fcp (with fcp method)
938 This method is similar to @option{scp}, but it uses the @command{fsh}
939 command to connect to the remote host, and it uses @command{fcp} for
940 transferring the files. @command{fsh/fcp} are a front-end for
941 @command{ssh} which allow for reusing the same @command{ssh} session
942 for submitting several commands. This avoids the startup overhead of
943 @command{scp} (which has to establish a secure connection whenever it
944 is called). Note, however, that you can also use one of the inline
945 methods to achieve a similar effect.
947 This method uses the command @samp{fsh @var{host} -l @var{user}
948 /bin/sh -i} to establish the connection, it does not work to just say
949 @command{fsh @var{host} -l @var{user}}.
954 There is no inline method using @command{fsh} as the multiplexing
955 provided by the program is not very useful in our context. @value{tramp}
956 opens just one connection to the remote host and then keeps it open,
964 This is not a native @value{tramp} method. Instead, it forwards all
965 requests to @value{ftppackagename}.
967 This works only for unified filenames, see @ref{Issues}.
971 @item @option{smb} --- @command{smbclient}
975 This is another not natural @value{tramp} method. It uses the
976 @command{smbclient} command on different Unices in order to connect to
977 an SMB server. An SMB server might be a Samba (or CIFS) server on
978 another UNIX host or, more interesting, a host running MS Windows. So
979 far, it is tested against MS Windows NT, MS Windows 2000, and MS
982 The first directory in the localname must be a share name on the remote
983 host. Remember that the @code{$} character, in which default shares
984 usually end, must be written @code{$$} due to environment variable
985 substitution in file names. If no share name is given (i.e. remote
986 directory @code{/}), all available shares are listed.
988 Since authorization is done on share level, you will always be
989 prompted for a password if you access another share on the same host.
990 This can be suppressed by @ref{Password handling}.
992 For authorization, MS Windows uses both a user name and a domain name.
993 Because of this, the @value{tramp} syntax has been extended: you can
994 specify a user name which looks like @code{user%domain} (the real user
995 name, then a percent sign, then the domain name). So, to connect to
996 the machine @code{melancholia} as user @code{daniel} of the domain
997 @code{BIZARRE}, and edit @file{.emacs} in the home directory (share
998 @code{daniel$}) I would specify the filename @file{@trampfn{smb,
999 daniel%BIZARRE, melancholia, /daniel$$/.emacs}}.
1001 Depending on the Windows domain configuration, a Windows user might be
1002 considered as domain user per default. In order to connect as local
1003 user, the WINS name of that machine must be given as domain name.
1004 Usually, it is the machine name in capital letters. In the example
1005 above, the local user @code{daniel} would be specified as
1006 @file{@trampfn{smb, daniel%MELANCHOLIA, melancholia, /daniel$$/.emacs}}.
1008 The domain name as well as the user name are optional. If no user
1009 name is specified at all, the anonymous user (without password
1010 prompting) is assumed. This is different from all other @value{tramp}
1011 methods, where in such a case the local user name is taken.
1013 The @option{smb} method supports the @samp{-p} argument.
1015 @strong{Please note:} If @value{emacsname} runs locally under MS
1016 Windows, this method isn't available. Instead, you can use UNC
1017 file names like @file{//melancholia/daniel$$/.emacs}. The only
1018 disadvantage is that there's no possibility to specify another user
1024 @node GVFS based methods
1025 @section GVFS based external methods
1026 @cindex methods, gvfs
1027 @cindex gvfs based methods
1030 The connection methods described in this section are based on GVFS
1031 @uref{http://en.wikipedia.org/wiki/GVFS}. Via GVFS, the remote
1032 filesystem is mounted locally through FUSE. @value{tramp} uses
1033 this local mounted directory internally.
1035 The communication with GVFS is implemented via D-Bus messages.
1036 Therefore, your @value{emacsname} must have D-Bus integration,
1037 @pxref{Top, , D-Bus, dbus}.
1046 This method provides access to WebDAV files and directories. There
1047 exists also the external method @option{davs}, which uses SSL
1048 encryption for the access.
1050 Both methods support the port number specification as discussed above.
1057 OBEX is an FTP-like access protocol for simple devices, like cell
1058 phones. For the time being, @value{tramp} only supports OBEX over Bluetooth.
1061 @item @option{synce}
1062 @cindex method synce
1063 @cindex synce method
1065 The @option{synce} method allows communication with Windows Mobile
1066 devices. Beside GVFS for mounting remote files and directories via
1067 FUSE, it also needs the SYNCE-GVFS plugin.
1070 @defopt tramp-gvfs-methods
1071 This customer option, a list, defines the external methods which
1072 shall be used with GVFS. Per default, these are @option{dav},
1073 @option{davs}, @option{obex} and @option{synce}. Other possible
1074 values are @option{ftp}, @option{sftp} and @option{smb}.
1080 @node Gateway methods
1081 @section Gateway methods
1082 @cindex methods, gateway
1083 @cindex gateway methods
1085 Gateway methods are not methods to access a remote host directly.
1086 These methods are intended to pass firewalls or proxy servers.
1087 Therefore, they can be used for proxy host declarations
1088 (@pxref{Multi-hops}) only.
1090 A gateway method must always come along with a method which supports
1091 port setting. This is because @value{tramp} targets the accompanied
1092 method to @file{localhost#random_port}, from where the firewall or
1093 proxy server is accessed.
1095 Gateway methods support user name and password declarations. These
1096 are used to authenticate towards the corresponding firewall or proxy
1097 server. They can be passed only if your friendly administrator has
1098 granted your access.
1101 @item @option{tunnel}
1102 @cindex method tunnel
1103 @cindex tunnel method
1105 This method implements an HTTP tunnel via the @command{CONNECT}
1106 command (see RFC 2616, 2817). Any HTTP 1.1 compliant (proxy) server
1107 shall support this command.
1109 As authentication method, only @option{Basic Authentication} (see RFC
1110 2617) is implemented so far. If no port number is given in the
1111 declaration, port @option{8080} is used for the proxy server.
1114 @item @option{socks}
1115 @cindex method socks
1116 @cindex socks method
1118 The @command{socks} method provides access to SOCKSv5 servers (see
1119 RFC 1928). @option{Username/Password Authentication} according to RFC
1122 The default port number of the socks server is @option{1080}, if not
1123 specified otherwise.
1129 @node Default Method
1130 @section Selecting a default method
1131 @cindex default method
1133 @vindex tramp-default-method
1134 When you select an appropriate transfer method for your typical usage
1135 you should set the variable @code{tramp-default-method} to reflect that
1136 choice. This variable controls which method will be used when a method
1137 is not specified in the @value{tramp} file name. For example:
1140 (setq tramp-default-method "ssh")
1143 @vindex tramp-default-method-alist
1144 You can also specify different methods for certain user/host
1145 combinations, via the variable @code{tramp-default-method-alist}. For
1146 example, the following two lines specify to use the @option{ssh}
1147 method for all user names matching @samp{john} and the @option{rsync}
1148 method for all host names matching @samp{lily}. The third line
1149 specifies to use the @option{su} method for the user @samp{root} on
1150 the machine @samp{localhost}.
1153 (add-to-list 'tramp-default-method-alist '("" "john" "ssh"))
1154 (add-to-list 'tramp-default-method-alist '("lily" "" "rsync"))
1155 (add-to-list 'tramp-default-method-alist
1156 '("\\`localhost\\'" "\\`root\\'" "su"))
1160 See the documentation for the variable
1161 @code{tramp-default-method-alist} for more details.
1163 External methods are normally preferable to inline methods, giving
1166 @xref{Inline methods}.
1167 @xref{External methods}.
1169 Another consideration with the selection of transfer methods is the
1170 environment you will use them in and, especially when used over the
1171 Internet, the security implications of your preferred method.
1173 The @option{rsh} and @option{telnet} methods send your password as
1174 plain text as you log in to the remote machine, as well as
1175 transferring the files in such a way that the content can easily be
1176 read from other machines.
1178 If you need to connect to remote systems that are accessible from the
1179 Internet, you should give serious thought to using @option{ssh} based
1180 methods to connect. These provide a much higher level of security,
1181 making it a non-trivial exercise for someone to obtain your password
1182 or read the content of the files you are editing.
1185 @subsection Which method is the right one for me?
1186 @cindex choosing the right method
1188 Given all of the above, you are probably thinking that this is all fine
1189 and good, but it's not helping you to choose a method! Right you are.
1190 As a developer, we don't want to boss our users around but give them
1191 maximum freedom instead. However, the reality is that some users would
1192 like to have some guidance, so here I'll try to give you this guidance
1193 without bossing you around. You tell me whether it works @dots{}
1195 My suggestion is to use an inline method. For large files, external
1196 methods might be more efficient, but I guess that most people will
1197 want to edit mostly small files. And if you access large text files,
1198 compression (driven by @var{tramp-inline-compress-start-size}) shall
1199 still result in good performance.
1201 I guess that these days, most people can access a remote machine by
1202 using @command{ssh}. So I suggest that you use the @option{ssh}
1203 method. So, type @kbd{C-x C-f @trampfn{ssh, root, otherhost,
1204 /etc/motd} @key{RET}} to edit the @file{/etc/motd} file on the other
1207 If you can't use @option{ssh} to log in to the remote host, then
1208 select a method that uses a program that works. For instance, Windows
1209 users might like the @option{plink} method which uses the PuTTY
1210 implementation of @command{ssh}. Or you use Kerberos and thus like
1213 For the special case of editing files on the local host as another
1214 user, see the @option{su} or @option{sudo} methods. They offer
1215 shortened syntax for the @samp{root} account, like
1216 @file{@trampfn{su, , , /etc/motd}}.
1218 People who edit large files may want to consider @option{scpc} instead
1219 of @option{ssh}, or @option{pscp} instead of @option{plink}. These
1220 external methods are faster than inline methods for large files.
1221 Note, however, that external methods suffer from some limitations.
1222 Please try first whether you really get a noticeable speed advantage
1223 from using an external method! Maybe even for large files, inline
1224 methods are fast enough.
1228 @section Selecting a default user
1229 @cindex default user
1231 The user part of a @value{tramp} file name can be omitted. Usually,
1232 it is replaced by the user name you are logged in. Often, this is not
1233 what you want. A typical use of @value{tramp} might be to edit some
1234 files with root permissions on the local host. This case, you should
1235 set the variable @code{tramp-default-user} to reflect that choice.
1239 (setq tramp-default-user "root")
1242 @code{tramp-default-user} is regarded as obsolete, and will be removed
1245 @vindex tramp-default-user-alist
1246 You can also specify different users for certain method/host
1247 combinations, via the variable @code{tramp-default-user-alist}. For
1248 example, if you always have to use the user @samp{john} in the domain
1249 @samp{somewhere.else}, you can specify the following:
1252 (add-to-list 'tramp-default-user-alist
1253 '("ssh" ".*\\.somewhere\\.else\\'" "john"))
1257 See the documentation for the variable
1258 @code{tramp-default-user-alist} for more details.
1260 One trap to fall in must be known. If @value{tramp} finds a default
1261 user, this user will be passed always to the connection command as
1262 parameter (for example @samp{ssh here.somewhere.else -l john}. If you
1263 have specified another user for your command in its configuration
1264 files, @value{tramp} cannot know it, and the remote access will fail.
1265 If you have specified in the given example in @file{~/.ssh/config} the
1269 Host here.somewhere.else
1274 than you must discard selecting a default user by @value{tramp}. This
1275 will be done by setting it to @code{nil} (or @samp{lily}, likewise):
1278 (add-to-list 'tramp-default-user-alist
1279 '("ssh" "\\`here\\.somewhere\\.else\\'" nil))
1282 The last entry in @code{tramp-default-user-alist} could be your
1283 default user you'll apply predominantly. You shall @emph{append} it
1284 to that list at the end:
1287 (add-to-list 'tramp-default-user-alist '(nil nil "jonas") t)
1292 @section Selecting a default host
1293 @cindex default host
1295 @vindex tramp-default-host
1296 Finally, it is even possible to omit the host name part of a
1297 @value{tramp} file name. This case, the value of the variable
1298 @code{tramp-default-host} is used. Per default, it is initialized
1299 with the host name your local @value{emacsname} is running.
1301 If you, for example, use @value{tramp} mainly to contact the host
1302 @samp{target} as user @samp{john}, you can specify:
1305 (setq tramp-default-user "john"
1306 tramp-default-host "target")
1309 Then the simple file name @samp{@trampfn{ssh, , ,}} will connect you
1310 to John's home directory on target.
1312 Note, however, that the most simplification @samp{/::} won't work,
1313 because @samp{/:} is the prefix for quoted file names.
1318 @section Connecting to a remote host using multiple hops
1322 Sometimes, the methods described before are not sufficient. Sometimes,
1323 it is not possible to connect to a remote host using a simple command.
1324 For example, if you are in a secured network, you might have to log in
1325 to a `bastion host' first before you can connect to the outside world.
1326 Of course, the target host may also require a bastion host.
1328 @vindex tramp-default-proxies-alist
1329 In order to specify such multiple hops, it is possible to define a proxy
1330 host to pass through, via the variable
1331 @code{tramp-default-proxies-alist}. This variable keeps a list of
1332 triples (@var{host} @var{user} @var{proxy}).
1334 The first matching item specifies the proxy host to be passed for a
1335 file name located on a remote target matching @var{user}@@@var{host}.
1336 @var{host} and @var{user} are regular expressions or @code{nil}, which
1337 is interpreted as a regular expression which always matches.
1339 @var{proxy} must be a Tramp filename which localname part is ignored.
1340 Method and user name on @var{proxy} are optional, which is interpreted
1341 with the default values.
1343 The method must be an inline or gateway method (@pxref{Inline
1344 methods}, @pxref{Gateway methods}).
1347 The method must be an inline method (@pxref{Inline methods}).
1349 If @var{proxy} is @code{nil}, no additional hop is required reaching
1350 @var{user}@@@var{host}.
1352 If you, for example, must pass the host @samp{bastion.your.domain} as
1353 user @samp{bird} for any remote host which is not located in your local
1357 (add-to-list 'tramp-default-proxies-alist
1358 '("\\." nil "@trampfn{ssh, bird, bastion.your.domain,}"))
1359 (add-to-list 'tramp-default-proxies-alist
1360 '("\\.your\\.domain\\'" nil nil))
1363 Please note the order of the code. @code{add-to-list} adds elements at the
1364 beginning of a list. Therefore, most relevant rules must be added last.
1366 Proxy hosts can be cascaded. If there is another host called
1367 @samp{jump.your.domain}, which is the only one in your local domain who
1368 is allowed connecting @samp{bastion.your.domain}, you can add another
1372 (add-to-list 'tramp-default-proxies-alist
1373 '("\\`bastion\\.your\\.domain\\'"
1375 "@trampfn{ssh, , jump.your.domain,}"))
1378 @var{proxy} can contain the patterns @code{%h} or @code{%u}. These
1379 patterns are replaced by the strings matching @var{host} or
1380 @var{user}, respectively.
1382 If you, for example, wants to work as @samp{root} on hosts in the
1383 domain @samp{your.domain}, but login as @samp{root} is disabled for
1384 non-local access, you might add the following rule:
1387 (add-to-list 'tramp-default-proxies-alist
1388 '("\\.your\\.domain\\'" "\\`root\\'" "@trampfn{ssh, , %h,}"))
1391 Opening @file{@trampfn{sudo, , randomhost.your.domain,}} would connect
1392 first @samp{randomhost.your.domain} via @code{ssh} under your account
1393 name, and perform @code{sudo -u root} on that host afterwards. It is
1394 important to know that the given method is applied on the host which
1395 has been reached so far. @code{sudo -u root}, applied on your local
1396 host, wouldn't be useful here.
1398 @var{host}, @var{user} and @var{proxy} can also be Lisp forms. These
1399 forms are evaluated, and must return a string, or @code{nil}. The
1400 previous example could be generalized then: For all hosts except my
1401 local one connect via @code{ssh} first, and apply @code{sudo -u root}
1405 (add-to-list 'tramp-default-proxies-alist
1406 '(nil "\\`root\\'" "@trampfn{ssh, , %h,}"))
1407 (add-to-list 'tramp-default-proxies-alist
1408 '((regexp-quote (system-name)) nil nil))
1411 This is the recommended configuration to work as @samp{root} on remote
1415 Finally, @code{tramp-default-proxies-alist} can be used to pass
1416 firewalls or proxy servers. Imagine your local network has a host
1417 @samp{proxy.your.domain} which is used on port 3128 as HTTP proxy to
1418 the outer world. Your friendly administrator has granted you access
1419 under your user name to @samp{host.other.domain} on that proxy
1420 server.@footnote{HTTP tunnels are intended for secure SSL/TLS
1421 communication. Therefore, many proxy server restrict the tunnels to
1422 related target ports. You might need to run your ssh server on your
1423 target host @samp{host.other.domain} on such a port, like 443 (https).
1424 See @uref{http://savannah.gnu.org/maintenance/CvsFromBehindFirewall}
1425 for discussion of ethical issues.} You would need to add the
1429 (add-to-list 'tramp-default-proxies-alist
1430 '("\\`host\\.other\\.domain\\'" nil
1431 "@trampfn{tunnel, , proxy.your.domain#3128,}"))
1434 Gateway methods can be declared as first hop only in a multiple hop
1439 @node Customizing Methods
1440 @section Using Non-Standard Methods
1441 @cindex customizing methods
1442 @cindex using non-standard methods
1443 @cindex create your own methods
1445 There is a variable @code{tramp-methods} which you can change if the
1446 predefined methods don't seem right.
1448 For the time being, I'll refer you to the Lisp documentation of that
1449 variable, accessible with @kbd{C-h v tramp-methods @key{RET}}.
1452 @node Customizing Completion
1453 @section Selecting config files for user/host name completion
1454 @cindex customizing completion
1455 @cindex selecting config files
1456 @vindex tramp-completion-function-alist
1458 The variable @code{tramp-completion-function-alist} is intended to
1459 customize which files are taken into account for user and host name
1460 completion (@pxref{Filename completion}). For every method, it keeps
1461 a set of configuration files, accompanied by a Lisp function able to
1462 parse that file. Entries in @code{tramp-completion-function-alist}
1463 have the form (@var{method} @var{pair1} @var{pair2} ...).
1465 Each @var{pair} is composed of (@var{function} @var{file}).
1466 @var{function} is responsible to extract user names and host names
1467 from @var{file} for completion. There are two functions which access
1470 @defun tramp-get-completion-function method
1471 This function returns the list of completion functions for @var{method}.
1475 (tramp-get-completion-function "rsh")
1477 @result{} ((tramp-parse-rhosts "/etc/hosts.equiv")
1478 (tramp-parse-rhosts "~/.rhosts"))
1482 @defun tramp-set-completion-function method function-list
1483 This function sets @var{function-list} as list of completion functions
1488 (tramp-set-completion-function "ssh"
1489 '((tramp-parse-sconfig "/etc/ssh_config")
1490 (tramp-parse-sconfig "~/.ssh/config")))
1492 @result{} ((tramp-parse-sconfig "/etc/ssh_config")
1493 (tramp-parse-sconfig "~/.ssh/config"))
1497 The following predefined functions parsing configuration files exist:
1500 @item @code{tramp-parse-rhosts}
1501 @findex tramp-parse-rhosts
1503 This function parses files which are syntactical equivalent to
1504 @file{~/.rhosts}. It returns both host names and user names, if
1507 @item @code{tramp-parse-shosts}
1508 @findex tramp-parse-shosts
1510 This function parses files which are syntactical equivalent to
1511 @file{~/.ssh/known_hosts}. Since there are no user names specified
1512 in such files, it can return host names only.
1514 @item @code{tramp-parse-sconfig}
1515 @findex tramp-parse-shosts
1517 This function returns the host nicknames defined by @code{Host} entries
1518 in @file{~/.ssh/config} style files.
1520 @item @code{tramp-parse-shostkeys}
1521 @findex tramp-parse-shostkeys
1523 SSH2 parsing of directories @file{/etc/ssh2/hostkeys/*} and
1524 @file{~/ssh2/hostkeys/*}. Hosts are coded in file names
1525 @file{hostkey_@var{portnumber}_@var{host-name}.pub}. User names
1526 are always @code{nil}.
1528 @item @code{tramp-parse-sknownhosts}
1529 @findex tramp-parse-shostkeys
1531 Another SSH2 style parsing of directories like
1532 @file{/etc/ssh2/knownhosts/*} and @file{~/ssh2/knownhosts/*}. This
1533 case, hosts names are coded in file names
1534 @file{@var{host-name}.@var{algorithm}.pub}. User names are always @code{nil}.
1536 @item @code{tramp-parse-hosts}
1537 @findex tramp-parse-hosts
1539 A function dedicated to @file{/etc/hosts} style files. It returns
1542 @item @code{tramp-parse-passwd}
1543 @findex tramp-parse-passwd
1545 A function which parses @file{/etc/passwd} like files. Obviously, it
1546 can return user names only.
1548 @item @code{tramp-parse-netrc}
1549 @findex tramp-parse-netrc
1551 Finally, a function which parses @file{~/.netrc} like files. This
1552 includes also @file{~/.authinfo}-style files.
1555 If you want to keep your own data in a file, with your own structure,
1556 you might provide such a function as well. This function must meet
1557 the following conventions:
1559 @defun my-tramp-parse file
1560 @var{file} must be either a file name on your host, or @code{nil}.
1561 The function must return a list of (@var{user} @var{host}), which are
1562 taken as candidates for user and host name completion.
1566 (my-tramp-parse "~/.my-tramp-hosts")
1568 @result{} ((nil "toto") ("daniel" "melancholia"))
1573 @node Password handling
1574 @section Reusing passwords for several connections.
1577 Sometimes it is necessary to connect to the same remote host several
1578 times. Reentering passwords again and again would be annoying, when
1579 the chosen method does not support access without password prompt
1580 through own configuration.
1582 The best recommendation is to use the method's own mechanism for
1583 password handling. Consider @command{ssh-agent} for @option{ssh}-like
1584 methods, or @command{pageant} for @option{plink}-like methods.
1586 However, if you cannot apply such native password handling,
1587 @value{tramp} offers alternatives.
1590 @anchor{Using an authentication file}
1591 @subsection Using an authentication file
1593 @vindex auth-sources
1594 The package @file{auth-source.el}, originally developed in No Gnus,
1595 offers the possibility to read passwords from a file, like FTP does it
1596 from @file{~/.netrc}. The default authentication file is
1597 @file{~/.authinfo.gpg}, this can be changed via the variable
1598 @code{auth-sources}.
1601 A typical entry in the authentication file would be
1604 machine melancholia port scp login daniel password geheim
1607 The port can be any @value{tramp} method (@pxref{Inline methods},
1608 @pxref{External methods}), to match only this method. When you omit
1609 the port, you match all @value{tramp} methods.
1611 In case of problems, setting @code{auth-source-debug} to @code{t}
1612 gives useful debug messages.
1615 @anchor{Caching passwords}
1616 @subsection Caching passwords
1618 If there is no authentication file, @value{tramp} caches the passwords
1619 entered by you. They will be reused next time if a connection needs
1620 them for the same user name and host name, independently of the
1623 @vindex password-cache-expiry
1624 Passwords are not saved permanently, that means the password caching
1625 is limited to the lifetime of your @value{emacsname} session. You
1626 can influence the lifetime of password caching by customizing the
1627 variable @code{password-cache-expiry}. The value is the number of
1628 seconds how long passwords are cached. Setting it to @code{nil}
1629 disables the expiration.
1631 @vindex password-cache
1632 If you don't like this feature for security reasons, password caching
1633 can be disabled totally by customizing the variable
1634 @code{password-cache} (setting it to @code{nil}).
1636 Implementation Note: password caching is based on the package
1637 @file{password-cache.el}. For the time being, it is activated only
1638 when this package is seen in the @code{load-path} while loading
1640 @ifset installchapter
1641 If you don't use No Gnus, you can take @file{password.el} from the
1642 @value{tramp} @file{contrib} directory, see @ref{Installation
1647 @node Connection caching
1648 @section Reusing connection related information.
1651 @vindex tramp-persistency-file-name
1652 In order to reduce initial connection time, @value{tramp} stores
1653 connection related information persistently. The variable
1654 @code{tramp-persistency-file-name} keeps the file name where these
1655 information are written. Its default value is
1657 @file{~/.emacs.d/tramp}.
1660 @file{~/.xemacs/tramp}.
1662 It is recommended to choose a local file name.
1664 @value{tramp} reads this file during startup, and writes it when
1665 exiting @value{emacsname}. You can simply remove this file if
1666 @value{tramp} shall be urged to recompute these information next
1667 @value{emacsname} startup time.
1669 Using such persistent information can be disabled by setting
1670 @code{tramp-persistency-file-name} to @code{nil}.
1672 Once consequence of reusing connection related information is that
1673 @var{tramp} needs to distinguish hosts. If you, for example, run a
1674 local @code{sshd} on port 3001, which tunnels @command{ssh} to another
1675 host, you could access both @file{@trampfn{ssh, , localhost,}} and
1676 @file{@trampfn{ssh, , localhost#3001,}}. @var{tramp} would use the
1677 same host related information (like paths, Perl variants, etc) for
1678 both connections, although the information is valid only for one of
1681 In order to avoid trouble, you must use another host name for one of
1682 the connections, like introducing a @option{Host} section in
1683 @file{~/.ssh/config} (@pxref{Frequently Asked Questions}) or applying
1684 multiple hops (@pxref{Multi-hops}).
1686 When @value{tramp} detects a changed operating system version on a
1687 remote host (via the command @command{uname -sr}), it flushes all
1688 connection related information for this host, and opens the
1692 @node Remote Programs
1693 @section How @value{tramp} finds and uses programs on the remote machine.
1695 @value{tramp} depends on a number of programs on the remote host in order to
1696 function, including @command{ls}, @command{test}, @command{find} and
1699 In addition to these required tools, there are various tools that may be
1700 required based on the connection method. See @ref{Inline methods} and
1701 @ref{External methods} for details on these.
1703 Certain other tools, such as @command{perl} (or @command{perl5}) and
1704 @command{grep} will be used if they can be found. When they are
1705 available, they are used to improve the performance and accuracy of
1708 @vindex tramp-remote-path
1709 @vindex tramp-default-remote-path
1710 @vindex tramp-own-remote-path
1711 @defopt tramp-remote-path
1712 When @value{tramp} connects to the remote machine, it searches for the
1713 programs that it can use. The variable @code{tramp-remote-path}
1714 controls the directories searched on the remote machine.
1716 By default, this is set to a reasonable set of defaults for most
1717 machines. The symbol @code{tramp-default-remote-path} is a place
1718 holder, it is replaced by the list of directories received via the
1719 command @command{getconf PATH} on your remote machine. For example,
1720 on Debian GNU/Linux this is @file{/bin:/usr/bin}, whereas on Solaris
1721 this is @file{/usr/xpg4/bin:/usr/ccs/bin:/usr/bin:/opt/SUNWspro/bin}.
1722 It is recommended to apply this symbol on top of
1723 @code{tramp-remote-path}.
1725 It is possible, however, that your local (or remote ;) system
1726 administrator has put the tools you want in some obscure local
1729 In this case, you can still use them with @value{tramp}. You simply
1730 need to add code to your @file{.emacs} to add the directory to the
1731 remote path. This will then be searched by @value{tramp} when you
1732 connect and the software found.
1734 To add a directory to the remote search path, you could use code such
1738 @i{;; We load @value{tramp} to define the variable.}
1740 @i{;; We have @command{perl} in "/usr/local/perl/bin"}
1741 (add-to-list 'tramp-remote-path "/usr/local/perl/bin")
1744 Another possibility is to reuse the path settings of your remote
1745 account when you log in. Usually, these settings are overwritten,
1746 because they might not be useful for @value{tramp}. The place holder
1747 @code{tramp-own-remote-path} preserves these settings. You can
1751 (add-to-list 'tramp-remote-path 'tramp-own-remote-path)
1755 @value{tramp} caches several information, like the Perl binary
1756 location. The changed remote search path wouldn't affect these
1757 settings. In order to force @value{tramp} to recompute these values,
1758 you must exit @value{emacsname}, remove your persistency file
1759 (@pxref{Connection caching}), and restart @value{emacsname}.
1762 @node Remote shell setup
1763 @section Remote shell setup hints
1764 @cindex remote shell setup
1765 @cindex @file{.profile} file
1766 @cindex @file{.login} file
1767 @cindex shell init files
1769 As explained in the @ref{Overview} section, @value{tramp} connects to the
1770 remote host and talks to the shell it finds there. Of course, when you
1771 log in, the shell executes its init files. Suppose your init file
1772 requires you to enter the birth date of your mother; clearly @value{tramp}
1773 does not know this and hence fails to log you in to that host.
1775 There are different possible strategies for pursuing this problem. One
1776 strategy is to enable @value{tramp} to deal with all possible situations.
1777 This is a losing battle, since it is not possible to deal with
1778 @emph{all} situations. The other strategy is to require you to set up
1779 the remote host such that it behaves like @value{tramp} expects. This might
1780 be inconvenient because you have to invest a lot of effort into shell
1781 setup before you can begin to use @value{tramp}.
1783 The package, therefore, pursues a combined approach. It tries to
1784 figure out some of the more common setups, and only requires you to
1785 avoid really exotic stuff. For example, it looks through a list of
1786 directories to find some programs on the remote host. And also, it
1787 knows that it is not obvious how to check whether a file exists, and
1788 therefore it tries different possibilities. (On some hosts and
1789 shells, the command @command{test -e} does the trick, on some hosts
1790 the shell builtin doesn't work but the program @command{/usr/bin/test
1791 -e} or @command{/bin/test -e} works. And on still other hosts,
1792 @command{ls -d} is the right way to do this.)
1794 Below you find a discussion of a few things that @value{tramp} does not deal
1795 with, and that you therefore have to set up correctly.
1798 @item @var{shell-prompt-pattern}
1799 @vindex shell-prompt-pattern
1801 After logging in to the remote host, @value{tramp} has to wait for the remote
1802 shell startup to finish before it can send commands to the remote
1803 shell. The strategy here is to wait for the shell prompt. In order to
1804 recognize the shell prompt, the variable @code{shell-prompt-pattern} has
1805 to be set correctly to recognize the shell prompt on the remote host.
1807 Note that @value{tramp} requires the match for @code{shell-prompt-pattern}
1808 to be at the end of the buffer. Many people have something like the
1809 following as the value for the variable: @code{"^[^>$][>$] *"}. Now
1810 suppose your shell prompt is @code{a <b> c $ }. In this case,
1811 @value{tramp} recognizes the @code{>} character as the end of the prompt,
1812 but it is not at the end of the buffer.
1814 @item @var{tramp-shell-prompt-pattern}
1815 @vindex tramp-shell-prompt-pattern
1817 This regular expression is used by @value{tramp} in the same way as
1818 @code{shell-prompt-pattern}, to match prompts from the remote shell.
1819 This second variable exists because the prompt from the remote shell
1820 might be different from the prompt from a local shell --- after all,
1821 the whole point of @value{tramp} is to log in to remote hosts as a
1822 different user. The default value of
1823 @code{tramp-shell-prompt-pattern} is the same as the default value of
1824 @code{shell-prompt-pattern}, which is reported to work well in many
1827 @item @var{tramp-password-prompt-regexp}
1828 @vindex tramp-password-prompt-regexp
1829 @vindex tramp-wrong-passwd-regexp
1831 During login, @value{tramp} might be forced to enter a password or a
1832 passphrase. The difference between both is that a password is
1833 requested from the shell on the remote host, while a passphrase is
1834 needed for accessing local authentication information, like your ssh
1837 @var{tramp-password-prompt-regexp} handles the detection of such
1838 requests for English environments. When you use another localization
1839 of your (local or remote) host, you might need to adapt this. Example:
1843 tramp-password-prompt-regexp
1847 '("passphrase" "Passphrase"
1849 "password" "Password"
1851 "passwort" "Passwort"
1853 "mot de passe" "Mot de passe") t)
1857 In parallel, it might also be necessary to adapt
1858 @var{tramp-wrong-passwd-regexp}.
1860 @item @command{tset} and other questions
1861 @cindex Unix command tset
1862 @cindex tset Unix command
1864 Some people invoke the @command{tset} program from their shell startup
1865 scripts which asks the user about the terminal type of the shell.
1866 Maybe some shells ask other questions when they are started.
1867 @value{tramp} does not know how to answer these questions. There are
1868 two approaches for dealing with this problem. One approach is to take
1869 care that the shell does not ask any questions when invoked from
1870 @value{tramp}. You can do this by checking the @code{TERM}
1871 environment variable, it will be set to @code{dumb} when connecting.
1873 @vindex tramp-terminal-type
1874 The variable @code{tramp-terminal-type} can be used to change this value
1877 @vindex tramp-actions-before-shell
1878 The other approach is to teach @value{tramp} about these questions. See
1879 the variable @code{tramp-actions-before-shell}. Example:
1882 (defconst my-tramp-prompt-regexp
1883 (concat (regexp-opt '("Enter the birth date of your mother:") t)
1885 "Regular expression matching my login prompt question.")
1887 (defun my-tramp-action (proc vec)
1888 "Enter \"19000101\" in order to give a correct answer."
1889 (save-window-excursion
1890 (with-current-buffer (tramp-get-connection-buffer vec)
1891 (tramp-message vec 6 "\n%s" (buffer-string))
1892 (tramp-send-string vec "19000101"))))
1894 (add-to-list 'tramp-actions-before-shell
1895 '(my-tramp-prompt-regexp my-tramp-action))
1899 @item Environment variables named like users in @file{.profile}
1901 If you have a user named frumple and set the variable @code{FRUMPLE} in
1902 your shell environment, then this might cause trouble. Maybe rename
1903 the variable to @code{FRUMPLE_DIR} or the like.
1905 This weird effect was actually reported by a @value{tramp} user!
1908 @item Non-Bourne commands in @file{.profile}
1910 After logging in to the remote host, @value{tramp} issues the command
1911 @command{exec /bin/sh}. (Actually, the command is slightly
1912 different.) When @command{/bin/sh} is executed, it reads some init
1913 files, such as @file{~/.shrc} or @file{~/.profile}.
1915 Now, some people have a login shell which is not @code{/bin/sh} but a
1916 Bourne-ish shell such as bash or ksh. Some of these people might put
1917 their shell setup into the files @file{~/.shrc} or @file{~/.profile}.
1918 This way, it is possible for non-Bourne constructs to end up in those
1919 files. Then, @command{exec /bin/sh} might cause the Bourne shell to
1920 barf on those constructs.
1922 As an example, imagine somebody putting @command{export FOO=bar} into
1923 the file @file{~/.profile}. The standard Bourne shell does not
1924 understand this syntax and will emit a syntax error when it reaches
1927 Another example is the tilde (@code{~}) character, say when adding
1928 @file{~/bin} to @code{PATH}. Many Bourne shells will not expand this
1929 character, and since there is usually no directory whose name consists
1930 of the single character tilde, strange things will happen.
1932 What can you do about this?
1934 Well, one possibility is to make sure that everything in
1935 @file{~/.shrc} and @file{~/.profile} on all remote hosts is
1936 Bourne-compatible. In the above example, instead of @command{export
1937 FOO=bar}, you might use @command{FOO=bar; export FOO} instead.
1939 The other possibility is to put your non-Bourne shell setup into some
1940 other files. For example, bash reads the file @file{~/.bash_profile}
1941 instead of @file{~/.profile}, if the former exists. So bash
1942 aficionados just rename their @file{~/.profile} to
1943 @file{~/.bash_profile} on all remote hosts, and Bob's your uncle.
1945 The @value{tramp} developers would like to circumvent this problem, so
1946 if you have an idea about it, please tell us. However, we are afraid
1947 it is not that simple: before saying @command{exec /bin/sh},
1948 @value{tramp} does not know which kind of shell it might be talking
1949 to. It could be a Bourne-ish shell like ksh or bash, or it could be a
1950 csh derivative like tcsh, or it could be zsh, or even rc. If the
1951 shell is Bourne-ish already, then it might be prudent to omit the
1952 @command{exec /bin/sh} step. But how to find out if the shell is
1956 @item Interactive shell prompt
1958 @value{tramp} redefines the shell prompt in order to parse the shell's
1959 output robustly. When calling an interactive shell by @kbd{M-x
1960 shell}, this doesn't look nice.
1962 You can redefine the shell prompt by checking the environment variable
1963 @code{INSIDE_EMACS}, which is set by @value{tramp}, in your startup
1964 script @file{~/.emacs_SHELLNAME}. @code{SHELLNAME} might be the string
1965 @code{bash} or similar, in case of doubt you could set it the
1966 environment variable @code{ESHELL} in your @file{.emacs}:
1969 (setenv "ESHELL" "bash")
1972 Your file @file{~/.emacs_SHELLNAME} could contain code like
1975 # Reset the prompt for remote Tramp shells.
1976 if [ "$@{INSIDE_EMACS/*tramp*/tramp@}" == "tramp" ] ; then
1983 @xref{Interactive Shell, , , @value{emacsdir}}.
1990 @node Auto-save and Backup
1991 @section Auto-save and Backup configuration
1995 @vindex backup-directory-alist
1998 @vindex bkup-backup-directory-info
2001 Normally, @value{emacsname} writes backup files to the same directory
2002 as the original files, but this behavior can be changed via the
2005 @code{backup-directory-alist}.
2008 @code{bkup-backup-directory-info}.
2010 In connection with @value{tramp}, this can have unexpected side
2011 effects. Suppose that you specify that all backups should go to the
2012 directory @file{~/.emacs.d/backups/}, and then you edit the file
2013 @file{@trampfn{su, root, localhost, /etc/secretfile}}. The effect is
2014 that the backup file will be owned by you and not by root, thus
2015 possibly enabling others to see it even if they were not intended to
2020 @code{backup-directory-alist}
2023 @code{bkup-backup-directory-info}
2025 is @code{nil} (the default), such problems do not occur.
2027 Therefore, it is useful to set special values for @value{tramp}
2028 files. For example, the following statement effectively `turns off'
2031 @code{backup-directory-alist}
2034 @code{bkup-backup-directory-info}
2036 for @value{tramp} files:
2040 (add-to-list 'backup-directory-alist
2041 (cons tramp-file-name-regexp nil))
2046 (require 'backup-dir)
2047 (add-to-list 'bkup-backup-directory-info
2048 (list tramp-file-name-regexp ""))
2053 It is also possible to disable backups depending on the used method.
2054 The following code disables backups for the @option{su} and
2055 @option{sudo} methods:
2058 (setq backup-enable-predicate
2060 (and (normal-backup-enable-predicate name)
2062 (let ((method (file-remote-p name 'method)))
2063 (when (stringp method)
2064 (member method '("su" "sudo"))))))))
2069 Another possibility is to use the @value{tramp} variable
2071 @code{tramp-backup-directory-alist}.
2074 @code{tramp-bkup-backup-directory-info}.
2076 This variable has the same meaning like
2078 @code{backup-directory-alist}.
2081 @code{bkup-backup-directory-info}.
2083 If a @value{tramp} file is backed up, and DIRECTORY is an absolute
2084 local file name, DIRECTORY is prepended with the @value{tramp} file
2085 name prefix of the file to be backed up.
2092 (add-to-list 'backup-directory-alist
2093 (cons "." "~/.emacs.d/backups/"))
2094 (setq tramp-backup-directory-alist backup-directory-alist)
2099 (require 'backup-dir)
2100 (add-to-list 'bkup-backup-directory-info
2101 (list "." "~/.emacs.d/backups/" 'full-path))
2102 (setq tramp-bkup-backup-directory-info bkup-backup-directory-info)
2107 The backup file name of @file{@trampfn{su, root, localhost,
2108 /etc/secretfile}} would be
2110 @file{@trampfn{su, root, localhost,
2111 ~/.emacs.d/backups/!su:root@@localhost:!etc!secretfile~}}
2114 @file{@trampfn{su, root, localhost,
2115 ~/.emacs.d/backups/![su!root@@localhost]!etc!secretfile~}}
2118 The same problem can happen with auto-saving files.
2120 The variable @code{auto-save-file-name-transforms} keeps information,
2121 on which directory an auto-saved file should go. By default, it is
2122 initialized for @value{tramp} files to the local temporary directory.
2124 On some versions of @value{emacsname}, namely the version built for
2125 Debian GNU/Linux, the variable @code{auto-save-file-name-transforms}
2126 contains the directory where @value{emacsname} was built. A
2127 workaround is to manually set the variable to a sane value.
2129 If auto-saved files should go into the same directory as the original
2130 files, @code{auto-save-file-name-transforms} should be set to @code{nil}.
2132 Another possibility is to set the variable
2133 @code{tramp-auto-save-directory} to a proper value.
2136 For this purpose you can set the variable @code{auto-save-directory}
2141 @node Windows setup hints
2142 @section Issues with Cygwin ssh
2143 @cindex Cygwin, issues
2145 This section needs a lot of work! Please help.
2147 @cindex method sshx with Cygwin
2148 @cindex sshx method with Cygwin
2149 The recent Cygwin installation of @command{ssh} works only with a
2150 Cygwinized @value{emacsname}. You can check it by typing @kbd{M-x
2151 eshell}, and starting @kbd{ssh test.machine}. The problem is evident
2152 if you see a message like this:
2155 Pseudo-terminal will not be allocated because stdin is not a terminal.
2158 Older @command{ssh} versions of Cygwin are told to cooperate with
2159 @value{tramp} selecting @option{sshx} as the connection method. You
2160 can find information about setting up Cygwin in their FAQ at
2161 @uref{http://cygwin.com/faq/}.
2163 @cindex method scpx with Cygwin
2164 @cindex scpx method with Cygwin
2165 If you wish to use the @option{scpx} connection method, then you might
2166 have the problem that @value{emacsname} calls @command{scp} with a
2167 Windows filename such as @code{c:/foo}. The Cygwin version of
2168 @command{scp} does not know about Windows filenames and interprets
2169 this as a remote filename on the host @code{c}.
2171 One possible workaround is to write a wrapper script for @option{scp}
2172 which converts the Windows filename to a Cygwinized filename.
2174 @cindex Cygwin and ssh-agent
2175 @cindex SSH_AUTH_SOCK and @value{emacsname} on Windows
2176 If you want to use either @option{ssh} based method on Windows, then
2177 you might encounter problems with @command{ssh-agent}. Using this
2178 program, you can avoid typing the pass-phrase every time you log in.
2179 However, if you start @value{emacsname} from a desktop shortcut, then
2180 the environment variable @code{SSH_AUTH_SOCK} is not set and so
2181 @value{emacsname} and thus @value{tramp} and thus @command{ssh} and
2182 @command{scp} started from @value{tramp} cannot communicate with
2183 @command{ssh-agent}. It works better to start @value{emacsname} from
2186 If anyone knows how to start @command{ssh-agent} under Windows in such a
2187 way that desktop shortcuts can profit, please holler. I don't really
2188 know anything at all about Windows@dots{}
2192 @chapter Using @value{tramp}
2193 @cindex using @value{tramp}
2195 Once you have installed @value{tramp} it will operate fairly
2196 transparently. You will be able to access files on any remote machine
2197 that you can log in to as though they were local.
2199 Files are specified to @value{tramp} using a formalized syntax specifying the
2200 details of the system to connect to. This is similar to the syntax used
2201 by the @value{ftppackagename} package.
2204 Something that might happen which surprises you is that
2205 @value{emacsname} remembers all your keystrokes, so if you see a
2206 password prompt from @value{emacsname}, say, and hit @kbd{@key{RET}}
2207 twice instead of once, then the second keystroke will be processed by
2208 @value{emacsname} after @value{tramp} has done its thing. Why, this
2209 type-ahead is normal behavior, you say. Right you are, but be aware
2210 that opening a remote file might take quite a while, maybe half a
2211 minute when a connection needs to be opened. Maybe after half a
2212 minute you have already forgotten that you hit that key!
2215 * Filename Syntax:: @value{tramp} filename conventions.
2216 * Alternative Syntax:: URL-like filename syntax.
2217 * Filename completion:: Filename completion.
2218 * Remote processes:: Integration with other @value{emacsname} packages.
2219 * Cleanup remote connections:: Cleanup remote connections.
2223 @node Filename Syntax
2224 @section @value{tramp} filename conventions
2225 @cindex filename syntax
2226 @cindex filename examples
2228 To access the file @var{localname} on the remote machine @var{machine}
2229 you would specify the filename @file{@trampfn{, , machine,
2230 localname}}. This will connect to @var{machine} and transfer the file
2231 using the default method. @xref{Default Method}.
2233 Some examples of @value{tramp} filenames are shown below.
2236 @item @trampfn{, , melancholia, .emacs}
2237 Edit the file @file{.emacs} in your home directory on the machine
2240 @item @trampfn{, , melancholia.danann.net, .emacs}
2241 This edits the same file, using the fully qualified domain name of
2244 @item @trampfn{, , melancholia, ~/.emacs}
2245 This also edits the same file --- the @file{~} is expanded to your
2246 home directory on the remote machine, just like it is locally.
2248 @item @trampfn{, , melancholia, ~daniel/.emacs}
2249 This edits the file @file{.emacs} in the home directory of the user
2250 @code{daniel} on the machine @code{melancholia}. The @file{~<user>}
2251 construct is expanded to the home directory of that user on the remote
2254 @item @trampfn{, , melancholia, /etc/squid.conf}
2255 This edits the file @file{/etc/squid.conf} on the machine
2260 @var{machine} can also be an IPv4 or IPv6 address, like in
2261 @file{@trampfn{, , 127.0.0.1, .emacs}} or @file{@trampfn{, ,
2262 @value{ipv6prefix}::1@value{ipv6postfix}, .emacs}}.
2264 For syntactical reasons, IPv6 addresses must be embedded in square
2265 brackets @file{@value{ipv6prefix}} and @file{@value{ipv6postfix}}.
2268 Unless you specify a different name to use, @value{tramp} will use the
2269 current local user name as the remote user name to log in with. If you
2270 need to log in as a different user, you can specify the user name as
2271 part of the filename.
2273 To log in to the remote machine as a specific user, you use the syntax
2274 @file{@trampfn{, user, machine, path/to.file}}. That means that
2275 connecting to @code{melancholia} as @code{daniel} and editing
2276 @file{.emacs} in your home directory you would specify
2277 @file{@trampfn{, daniel, melancholia, .emacs}}.
2279 It is also possible to specify other file transfer methods
2280 (@pxref{Inline methods}, @pxref{External methods}) as part of the
2283 This is done by putting the method before the user and host name, as
2284 in @file{@value{prefix}@var{method}@value{postfixhop}} (Note the
2288 This is done by replacing the initial @file{@value{prefix}} with
2289 @file{@value{prefix}<method>@value{postfixhop}}. (Note the trailing
2292 The user, machine and file specification remain the same.
2294 So, to connect to the machine @code{melancholia} as @code{daniel},
2295 using the @option{ssh} method to transfer files, and edit
2296 @file{.emacs} in my home directory I would specify the filename
2297 @file{@trampfn{ssh, daniel, melancholia, .emacs}}.
2299 Finally, for some methods it is possible to specify a different port
2300 number than the default one, given by the method. This is specified
2301 by adding @file{#<port>} to the host name, like in @file{@trampfn{ssh,
2302 daniel, melancholia#42, .emacs}}.
2305 @node Alternative Syntax
2306 @section URL-like filename syntax
2307 @cindex filename syntax
2308 @cindex filename examples
2310 Additionally to the syntax described in the previous chapter, it is
2311 possible to use a URL-like syntax for @value{tramp}. This can be
2312 switched on by customizing the variable @code{tramp-syntax}. Please
2313 note that this feature is experimental for the time being.
2315 The variable @code{tramp-syntax} must be set before requiring @value{tramp}:
2318 (setq tramp-syntax 'url)
2322 Then, a @value{tramp} filename would look like this:
2323 @file{/@var{method}://@var{user}@@@var{machine}:@var{port}/@var{path/to.file}}.
2324 @file{/@var{method}://} is mandatory, all other parts are optional.
2325 @file{:@var{port}} is useful for methods only who support this.
2327 The last example from the previous section would look like this:
2328 @file{/ssh://daniel@@melancholia/.emacs}.
2330 For the time being, @code{tramp-syntax} can have the following values:
2334 @item @code{ftp} -- That is the default syntax
2335 @item @code{url} -- URL-like syntax
2338 @item @code{sep} -- That is the default syntax
2339 @item @code{url} -- URL-like syntax
2340 @item @code{ftp} -- EFS-like syntax
2345 @node Filename completion
2346 @section Filename completion
2347 @cindex filename completion
2349 Filename completion works with @value{tramp} for completion of method
2350 names, of user names and of machine names as well as for completion of
2351 file names on remote machines.
2353 In order to enable this, partial completion must be activated in your
2356 @xref{Completion Options, , , @value{emacsdir}}.
2360 If you, for example, type @kbd{C-x C-f @value{prefix}t
2361 @key{TAB}}, @value{tramp} might give you as result the choice for
2364 @multitable {@trampfn{telnet, , melancholia.danann.net,}} {@trampfn{telnet, , 192.168.0.1,}}
2366 @item @value{prefixhop}telnet@value{postfixhop} @tab tmp/
2367 @item @value{prefixhop}toto@value{postfix} @tab
2370 @item @value{prefixhop}telnet@value{postfixhop} @tab @value{prefixhop}toto@value{postfix}
2375 @samp{@value{prefixhop}telnet@value{postfixhop}}
2376 is a possible completion for the respective method,
2378 @samp{tmp/} stands for the directory @file{/tmp} on your local
2381 and @samp{@value{prefixhop}toto@value{postfix}}
2382 might be a host @value{tramp} has detected in your @file{~/.ssh/known_hosts}
2383 file (given you're using default method @option{ssh}).
2385 If you go on to type @kbd{e @key{TAB}}, the minibuffer is completed to
2386 @samp{@value{prefix}telnet@value{postfixhop}}.
2387 Next @kbd{@key{TAB}} brings you all machine names @value{tramp} detects in
2388 your @file{/etc/hosts} file, let's say
2391 @multitable {@trampfn{telnet, , melancholia.danann.net,}} {@trampfn{telnet, , 192.168.0.1,}}
2392 @item @trampfn{telnet, , 127.0.0.1,} @tab @trampfn{telnet, , 192.168.0.1,}
2393 @item @trampfn{telnet, , @value{ipv6prefix}::1@value{ipv6postfix},} @tab @trampfn{telnet, , localhost,}
2394 @item @trampfn{telnet, , melancholia.danann.net,} @tab @trampfn{telnet, , melancholia,}
2398 Now you can choose the desired machine, and you can continue to
2399 complete file names on that machine.
2401 If the configuration files (@pxref{Customizing Completion}), which
2402 @value{tramp} uses for analysis of completion, offer user names, those user
2403 names will be taken into account as well.
2405 Remote machines which have been visited in the past and kept
2406 persistently (@pxref{Connection caching}) will be offered too.
2408 Once the remote machine identification is completed, it comes to
2409 filename completion on the remote host. This works pretty much like
2410 for files on the local host, with the exception that minibuffer
2411 killing via a double-slash works only on the filename part, except
2412 that filename part starts with @file{//}.
2414 A triple-slash stands for the default behavior.
2417 @xref{Minibuffer File, , , @value{emacsdir}}.
2425 @kbd{C-x C-f @trampfn{telnet, , melancholia, /usr/local/bin//etc} @key{TAB}}
2426 @print{} @trampfn{telnet, , melancholia, /etc}
2428 @kbd{C-x C-f @trampfn{telnet, , melancholia, //etc} @key{TAB}}
2431 @kbd{C-x C-f @trampfn{telnet, , melancholia, /usr/local/bin///etc} @key{TAB}}
2436 @kbd{C-x C-f @trampfn{telnet, , melancholia, /usr/local/bin//}}
2437 @print{} @trampfn{telnet, , melancholia, /}
2439 @kbd{C-x C-f @trampfn{telnet, , melancholia, //}}
2444 A remote directory might have changed its contents out of
2445 @value{emacsname} control, for example by creation or deletion of
2446 files by other processes. Therefore, during filename completion, the
2447 remote directory contents are reread regularly in order to detect such
2448 changes, which would be invisible otherwise (@pxref{Connection caching}).
2450 @defopt tramp-completion-reread-directory-timeout
2451 This variable defines the number of seconds since last remote command
2452 before rereading a directory contents. A value of 0 would require an
2453 immediate reread during filename completion, @code{nil} means to use
2454 always cached values for the directory contents.
2458 @node Remote processes
2459 @section Integration with other @value{emacsname} packages.
2463 @value{tramp} supports running processes on a remote host. This
2464 allows to exploit @value{emacsname} packages without modification for
2465 remote file names. It does not work for the @option{ftp} and
2466 @option{smb} methods. Association of a pty, as specified in
2467 @code{start-file-process}, is not supported.
2469 @code{process-file} and @code{start-file-process} work on the remote
2470 host when the variable @code{default-directory} is remote:
2473 (let ((default-directory "/ssh:remote.host:"))
2474 (start-file-process "grep" (get-buffer-create "*grep*")
2475 "/bin/sh" "-c" "grep -e tramp *"))
2479 If the remote host is mounted via GVFS (see @ref{GVFS based methods}),
2480 the remote filesystem is mounted locally. Therefore, there are no
2481 remote processes; all processes run still locally on your machine with
2482 an adapted @code{default-directory}. This section does not apply for
2483 such connection methods.
2486 Remote processes are started when a corresponding command is executed
2487 from a buffer belonging to a remote file or directory. Up to now, the
2488 packages @file{compile.el} (commands like @code{compile} and
2489 @code{grep}) and @file{gud.el} (@code{gdb} or @code{perldb}) have been
2490 integrated. Integration of further packages is planned, any help for
2493 When your program is not found in the default search path
2494 @value{tramp} sets on the remote machine, you should either use an
2495 absolute path, or extend @code{tramp-remote-path} (see @ref{Remote
2499 (add-to-list 'tramp-remote-path "~/bin")
2500 (add-to-list 'tramp-remote-path "/appli/pub/bin")
2503 The environment for your program can be adapted by customizing
2504 @code{tramp-remote-process-environment}. This variable is a list of
2505 strings. It is structured like @code{process-environment}. Each
2506 element is a string of the form ENVVARNAME=VALUE. An entry
2507 ENVVARNAME= disables the corresponding environment variable, which
2508 might have been set in your init file like @file{~/.profile}.
2511 Adding an entry can be performed via @code{add-to-list}:
2514 (add-to-list 'tramp-remote-process-environment "JAVA_HOME=/opt/java")
2517 Changing or removing an existing entry is not encouraged. The default
2518 values are chosen for proper @value{tramp} work. Nevertheless, if for
2519 example a paranoid system administrator disallows changing the
2520 @code{HISTORY} environment variable, you can customize
2521 @code{tramp-remote-process-environment}, or you can apply the
2522 following code in your @file{.emacs}:
2525 (let ((process-environment tramp-remote-process-environment))
2526 (setenv "HISTORY" nil)
2527 (setq tramp-remote-process-environment process-environment))
2530 If you use other @value{emacsname} packages which do not run
2531 out-of-the-box on a remote host, please let us know. We will try to
2532 integrate them as well. @xref{Bug Reports}.
2535 @subsection Running remote programs that create local X11 windows
2537 If you want to run a remote program, which shall connect the X11
2538 server you are using with your local host, you can set the
2539 @code{DISPLAY} environment variable on the remote host:
2542 (add-to-list 'tramp-remote-process-environment
2543 (format "DISPLAY=%s" (getenv "DISPLAY")))
2547 @code{(getenv "DISPLAY")} shall return a string containing a host
2548 name, which can be interpreted on the remote host; otherwise you might
2549 use a fixed host name. Strings like @code{:0} cannot be used properly
2552 Another trick might be that you put @code{ForwardX11 yes} or
2553 @code{ForwardX11Trusted yes} to your @file{~/.ssh/config} file for
2557 @subsection Running @code{shell} on a remote host
2560 Calling @code{M-x shell} in a buffer related to a remote host runs the
2561 local shell as defined in @option{shell-file-name}. This might be
2562 also a valid path name for a shell to be applied on the remote host,
2563 but it will fail at least when your local and remote hosts belong to
2564 different system types, like @samp{windows-nt} and @samp{gnu/linux}.
2566 You must set the variable @option{explicit-shell-file-name} to the
2567 shell path name on the remote host, in order to start that shell on
2571 Starting with Emacs 24 this won't be necessary, if you call
2572 @code{shell} interactively. You will be asked for the remote shell
2573 path, if you are on a remote buffer, and if
2574 @option{explicit-shell-file-name} is equal to @code{nil}.
2578 @subsection Running @code{shell-command} on a remote host
2579 @cindex shell-command
2581 @code{shell-command} allows to execute commands in a shell, either
2582 synchronously, either asynchronously. This works also on remote
2586 @kbd{C-x C-f @trampfn{sudo, , , } @key{RET}}
2587 @kbd{M-! tail -f /var/log/syslog.log & @key{RET}}
2590 You will see the buffer @file{*Async Shell Command*}, containing the
2591 continuous output of the @command{tail} command.
2594 @subsection Running @code{eshell} on a remote host
2597 @value{tramp} is integrated into @file{eshell.el}. That is, you can
2598 open an interactive shell on your remote host, and run commands there.
2599 After you have started @code{M-x eshell}, you could perform commands
2603 @b{~ $} cd @trampfn{sudo, , , /etc} @key{RET}
2604 @b{@trampfn{sudo, root, host, /etc} $} hostname @key{RET}
2606 @b{@trampfn{sudo, root, host, /etc} $} id @key{RET}
2607 uid=0(root) gid=0(root) groups=0(root)
2608 @b{@trampfn{sudo, root, host, /etc} $} find-file shadow @key{RET}
2610 @b{@trampfn{sudo, root, host, /etc} $}
2614 Since @value{emacsname} 23.2, @code{eshell} has also an own
2615 implementation of the @code{su} and @code{sudo} commands. Both
2616 commands change the default directory of the @file{*eshell*} buffer to
2617 the value related to the user the command has switched to. This works
2618 even on remote hosts, adding silently a corresponding entry to the
2619 variable @code{tramp-default-proxies-alist} (@pxref{Multi-hops}):
2622 @b{~ $} cd @trampfn{ssh, user, remotehost, /etc} @key{RET}
2623 @b{@trampfn{ssh, user, remotehost, /etc} $} find-file shadow @key{RET}
2624 File is not readable: @trampfn{ssh, user, remotehost, /etc/shadow}
2625 @b{@trampfn{ssh, user, remotehost, /etc} $} sudo find-file shadow @key{RET}
2628 @b{@trampfn{ssh, user, remotehost, /etc} $} su - @key{RET}
2629 @b{@trampfn{su, root, remotehost, /root} $} id @key{RET}
2630 uid=0(root) gid=0(root) groups=0(root)
2631 @b{@trampfn{su, root, remotehost, /root} $}
2636 @anchor{Running a debugger on a remote host}
2637 @subsection Running a debugger on a remote host
2642 @file{gud.el} offers an unified interface to several symbolic
2646 (@ref{Debuggers, , , @value{emacsdir}}).
2649 With @value{tramp}, it is possible to debug programs on
2650 remote hosts. You can call @code{gdb} with a remote file name:
2653 @kbd{M-x gdb @key{RET}}
2654 @b{Run gdb (like this):} gdb --annotate=3 @trampfn{ssh, , host, ~/myprog} @key{RET}
2657 The file name can also be relative to a remote default directory.
2658 Given you are in a buffer that belongs to the remote directory
2659 @trampfn{ssh, , host, /home/user}, you could call
2662 @kbd{M-x perldb @key{RET}}
2663 @b{Run perldb (like this):} perl -d myprog.pl @key{RET}
2666 It is not possible to use just the absolute local part of a remote
2667 file name as program to debug, like @kbd{perl -d
2668 /home/user/myprog.pl}, though.
2670 Arguments of the program to be debugged are taken literally. That
2671 means, file names as arguments must be given as ordinary relative or
2672 absolute file names, without any remote specification.
2675 @node Cleanup remote connections
2676 @section Cleanup remote connections.
2679 Sometimes it is useful to cleanup remote connections. The following
2680 commands support this.
2682 @deffn Command tramp-cleanup-connection vec
2683 This command flushes all connection related objects. @option{vec} is
2684 the internal representation of a remote connection. Called
2685 interactively, the command offers all active remote connections in the
2686 minibuffer as remote file name prefix like @file{@trampfn{method,
2687 user, host, }}. The cleanup includes password cache (@pxref{Password
2688 handling}), file cache, connection cache (@pxref{Connection caching}),
2692 @deffn Command tramp-cleanup-this-connection
2693 This command flushes all objects of the current buffer's remote
2694 connection. The same objects are removed as in
2695 @code{tramp-cleanup-connection}.
2698 @deffn Command tramp-cleanup-all-connections
2699 This command flushes objects for all active remote connections. The
2700 same objects are removed as in @code{tramp-cleanup-connection}.
2703 @deffn Command tramp-cleanup-all-buffers
2704 Like in @code{tramp-cleanup-all-connections}, all remote connections
2705 are cleaned up. Additionally all buffers, which are related to a
2706 remote connection, are killed.
2711 @chapter Reporting Bugs and Problems
2714 Bugs and problems with @value{tramp} are actively worked on by the
2715 development team. Feature requests and suggestions are also more than
2718 The @value{tramp} mailing list is a great place to get information on
2719 working with @value{tramp}, solving problems and general discussion
2720 and advice on topics relating to the package. It is moderated so
2721 non-subscribers can post but messages will be delayed, possibly up to
2722 48 hours (or longer in case of holidays), until the moderator approves
2725 The mailing list is at @email{tramp-devel@@gnu.org}. Messages sent to
2726 this address go to all the subscribers. This is @emph{not} the address
2727 to send subscription requests to.
2729 Subscribing to the list is performed via
2730 @uref{http://lists.gnu.org/mailman/listinfo/tramp-devel/,
2731 the @value{tramp} Mail Subscription Page}.
2734 To report a bug in @value{tramp}, you should execute @kbd{M-x
2735 tramp-bug}. This will automatically generate a buffer with the details
2736 of your system and @value{tramp} version.
2738 When submitting a bug report, please try to describe in excruciating
2739 detail the steps required to reproduce the problem, the setup of the
2740 remote machine and any special conditions that exist. You should also
2741 check that your problem is not described already in @xref{Frequently
2744 If you can identify a minimal test case that reproduces the problem,
2745 include that with your bug report. This will make it much easier for
2746 the development team to analyze and correct the problem.
2748 Before reporting the bug, you should set the verbosity level to 6
2749 (@pxref{Traces and Profiles, Traces}) in the @file{~/.emacs} file and
2750 repeat the bug. Then, include the contents of the @file{*tramp/foo*}
2751 and @file{*debug tramp/foo*} buffers in your bug report. A verbosity
2752 level greater than 6 will produce a very huge debug buffer, which is
2753 mostly not necessary for the analysis.
2755 Please be aware that, with a verbosity level of 6 or greater, the
2756 contents of files and directories will be included in the debug
2757 buffer. Passwords you've typed will never be included there.
2760 @node Frequently Asked Questions
2761 @chapter Frequently Asked Questions
2762 @cindex frequently asked questions
2767 Where can I get the latest @value{tramp}?
2769 @value{tramp} is available under the URL below.
2772 @uref{ftp://ftp.gnu.org/gnu/tramp/}
2775 There is also a Savannah project page.
2778 @uref{http://savannah.gnu.org/projects/tramp/}
2782 Which systems does it work on?
2784 The package has been used successfully on Emacs 22, Emacs 23, Emacs
2785 24, XEmacs 21 (starting with 21.4), and SXEmacs 22.
2787 The package was intended to work on Unix, and it really expects a
2788 Unix-like system on the remote end (except the @option{smb} method),
2789 but some people seemed to have some success getting it to work on MS
2790 Windows XP/Vista/7 @value{emacsname}.
2794 How could I speed up @value{tramp}?
2796 In the backstage, @value{tramp} needs a lot of operations on the
2797 remote host. The time for transferring data from and to the remote
2798 host as well as the time needed to perform the operations there count.
2799 In order to speed up @value{tramp}, one could either try to avoid some
2800 of the operations, or one could try to improve their performance.
2802 Use an external method, like @option{scpc}.
2804 Use caching. This is already enabled by default. Information about
2805 the remote host as well as the remote files are cached for reuse. The
2806 information about remote hosts is kept in the file specified in
2807 @code{tramp-persistency-file-name}. Keep this file. If you are
2808 confident that files on remote hosts are not changed out of
2809 @value{emacsname}' control, set @code{remote-file-name-inhibit-cache}
2812 Disable version control. If you access remote files which are not
2813 under version control, a lot of check operations can be avoided by
2814 disabling VC. This can be achieved by
2817 (setq vc-ignore-dir-regexp
2818 (format "\\(%s\\)\\|\\(%s\\)"
2819 vc-ignore-dir-regexp
2820 tramp-file-name-regexp))
2823 Disable excessive traces. The default trace level of @value{tramp},
2824 defined in the variable @code{tramp-verbose}, is 3. You should
2825 increase this level only temporarily, hunting bugs.
2829 @value{tramp} does not connect to the remote host
2831 When @value{tramp} does not connect to the remote host, there are three
2832 reasons heading the bug mailing list:
2836 Unknown characters in the prompt
2838 @value{tramp} needs to recognize the prompt on the remote machine
2839 after execution any command. This is not possible when the prompt
2840 contains unknown characters like escape sequences for coloring. This
2841 should be avoided on the remote side. @xref{Remote shell setup}. for
2842 setting the regular expression detecting the prompt.
2844 You can check your settings after an unsuccessful connection by
2845 switching to the @value{tramp} connection buffer @file{*tramp/foo*},
2846 setting the cursor at the top of the buffer, and applying the expression
2849 @kbd{M-: (re-search-forward (concat tramp-shell-prompt-pattern "$"))}
2852 If it fails, or the cursor is not moved at the end of the buffer, your
2853 prompt is not recognized correctly.
2855 A special problem is the zsh, which uses left-hand side and right-hand
2856 side prompts in parallel. Therefore, it is necessary to disable the
2857 zsh line editor on the remote host. You shall add to @file{~/.zshrc}
2858 the following command:
2861 [ $TERM = "dumb" ] && unsetopt zle && PS1='$ '
2864 Furthermore it has been reported, that @value{tramp} (like sshfs,
2865 incidentally) doesn't work with WinSSHD due to strange prompt settings.
2868 Echoed characters after login
2870 When the remote machine opens an echoing shell, there might be control
2871 characters in the welcome message. @value{tramp} tries to suppress
2872 such echoes via the @code{stty -echo} command, but sometimes this
2873 command is not reached, because the echoed output has confused
2874 @value{tramp} already. In such situations it might be helpful to use
2875 the @option{sshx} or @option{scpx} methods, which allocate a pseudo tty.
2876 @xref{Inline methods}.
2879 @value{tramp} doesn't transfer strings with more than 500 characters
2882 On some few systems, the implementation of @code{process-send-string}
2883 seems to be broken for longer strings. It is reported for HP-UX,
2884 FreeBSD and Tru64 Unix, for example. This case, you should customize
2885 the variable @code{tramp-chunksize} to 500. For a description how to
2886 determine whether this is necessary see the documentation of
2887 @code{tramp-chunksize}.
2889 Additionally, it will be useful to set @code{file-precious-flag} to
2890 @code{t} for @value{tramp} files. Then the file contents will be
2891 written into a temporary file first, which is checked for correct
2894 @pxref{Saving Buffers, , , elisp}
2901 (when (file-remote-p default-directory)
2902 (set (make-local-variable 'file-precious-flag) t))))
2908 @value{tramp} does not recognize hung @command{ssh} sessions
2910 When your network connection is down, @command{ssh} sessions might
2911 hang. @value{tramp} cannot detect it safely, because it still sees a
2912 running @command{ssh} process. Timeouts cannot be used as well,
2913 because it cannot be predicted how long a remote command will last,
2914 for example when copying very large files.
2916 Therefore, you must configure the @command{ssh} process to die
2917 in such a case. The following entry in @file{~/.ssh/config} would do
2922 ServerAliveInterval 5
2927 File name completion does not work with @value{tramp}
2929 When you log in to the remote machine, do you see the output of
2930 @command{ls} in color? If so, this may be the cause of your problems.
2932 @command{ls} outputs @acronym{ANSI} escape sequences that your terminal
2933 emulator interprets to set the colors. These escape sequences will
2934 confuse @value{tramp} however.
2936 In your @file{.bashrc}, @file{.profile} or equivalent on the remote
2937 machine you probably have an alias configured that adds the option
2938 @option{--color=yes} or @option{--color=auto}.
2940 You should remove that alias and ensure that a new login @emph{does not}
2941 display the output of @command{ls} in color. If you still cannot use
2942 filename completion, report a bug to the @value{tramp} developers.
2946 File name completion does not work in large directories
2948 @value{tramp} uses globbing for some operations. (Globbing means to use the
2949 shell to expand wildcards such as `*.c'.) This might create long
2950 command lines, especially in directories with many files. Some shells
2951 choke on long command lines, or don't cope well with the globbing
2954 If you have a large directory on the remote end, you may wish to execute
2955 a command like @samp{ls -d * ..?* > /dev/null} and see if it hangs.
2956 Note that you must first start the right shell, which might be
2957 @command{/bin/sh}, @command{ksh} or @command{bash}, depending on which
2958 of those supports tilde expansion.
2962 How can I get notified when @value{tramp} file transfers are complete?
2964 The following snippet can be put in your @file{~/.emacs} file. It
2965 makes @value{emacsname} beep after reading from or writing to the
2969 (defadvice tramp-handle-write-region
2970 (after tramp-write-beep-advice activate)
2971 "Make tramp beep after writing a file."
2975 (defadvice tramp-handle-do-copy-or-rename-file
2976 (after tramp-copy-beep-advice activate)
2977 "Make tramp beep after copying a file."
2981 (defadvice tramp-handle-insert-file-contents
2982 (after tramp-insert-beep-advice activate)
2983 "Make tramp beep after inserting a file."
2991 I'ld like to get a Visual Warning when working in a sudo:ed context
2993 When you are working with @samp{root} privileges, it might be useful
2994 to get an indication in the buffer's modeline. The following code,
2995 tested with @value{emacsname} 22.1, does the job. You should put it
2996 into your @file{~/.emacs}:
2999 (defun my-mode-line-function ()
3000 (when (string-match "^/su\\(do\\)?:" default-directory)
3001 (setq mode-line-format
3002 (format-mode-line mode-line-format 'font-lock-warning-face))))
3004 (add-hook 'find-file-hooks 'my-mode-line-function)
3005 (add-hook 'dired-mode-hook 'my-mode-line-function)
3012 I'ld like to see a host indication in the mode line when I'm remote
3014 The following code has been tested with @value{emacsname} 22.1. You
3015 should put it into your @file{~/.emacs}:
3018 (defconst my-mode-line-buffer-identification
3022 (if (file-remote-p default-directory)
3023 (tramp-file-name-host
3024 (tramp-dissect-file-name default-directory))
3026 (if (string-match "^[^0-9][^.]*\\(\\..*\\)" host-name)
3027 (substring host-name 0 (match-beginning 1))
3032 mode-line-buffer-identification
3033 my-mode-line-buffer-identification)
3039 mode-line-buffer-identification
3040 my-mode-line-buffer-identification)))
3043 Since @value{emacsname} 23.1, the mode line contains an indication if
3044 @code{default-directory} for the current buffer is on a remote host.
3045 The corresponding tooltip includes the name of that host. If you
3046 still want the host name as part of the mode line, you can use the
3047 example above, but the @code{:eval} clause can be simplified:
3052 (or (file-remote-p default-directory 'host)
3054 (if (string-match "^[^0-9][^.]*\\(\\..*\\)" host-name)
3055 (substring host-name 0 (match-beginning 1))
3063 My remote host does not understand default directory listing options
3065 @value{emacsname} computes the @command{dired} options depending on
3066 the local host you are working. If your @command{ls} command on the
3067 remote host does not understand those options, you can change them
3072 'dired-before-readin-hook
3074 (when (file-remote-p default-directory)
3075 (setq dired-actual-switches "-al"))))
3081 There's this @file{~/.sh_history} file on the remote host which keeps
3082 growing and growing. What's that?
3084 Sometimes, @value{tramp} starts @command{ksh} on the remote host for
3085 tilde expansion. Maybe @command{ksh} saves the history by default.
3086 @value{tramp} tries to turn off saving the history, but maybe you have
3087 to help. For example, you could put this in your @file{.kshrc}:
3090 if [ -f $HOME/.sh_history ] ; then
3091 /bin/rm $HOME/.sh_history
3093 if [ "$@{HISTFILE-unset@}" != "unset" ] ; then
3096 if [ "$@{HISTSIZE-unset@}" != "unset" ] ; then
3102 @item There are longish file names to type. How to shorten this?
3104 Let's say you need regularly access to @file{@trampfn{ssh, news,
3105 news.my.domain, /opt/news/etc}}, which is boring to type again and
3106 again. The following approaches can be mixed:
3110 @item Use default values for method and user name:
3112 You can define default methods and user names for hosts,
3113 (@pxref{Default Method}, @pxref{Default User}):
3116 (setq tramp-default-method "ssh"
3117 tramp-default-user "news")
3120 The file name left to type would be
3121 @kbd{C-x C-f @trampfn{, , news.my.domain, /opt/news/etc}}.
3123 Note that there are some useful settings already. Accessing your
3124 local host as @samp{root} user, is possible just by @kbd{C-x C-f
3127 @item Use configuration possibilities of your method:
3129 Several connection methods (i.e. the programs used) offer powerful
3130 configuration possibilities (@pxref{Customizing Completion}). In the
3131 given case, this could be @file{~/.ssh/config}:
3135 HostName news.my.domain
3139 The file name left to type would be @kbd{C-x C-f @trampfn{ssh, , xy,
3140 /opt/news/etc}}. Depending on files in your directories, it is even
3141 possible to complete the host name with @kbd{C-x C-f
3142 @value{prefix}ssh@value{postfixhop}x @key{TAB}}.
3144 @item Use environment variables:
3146 File names typed in the minibuffer can be expanded by environment
3147 variables. You can set them outside @value{emacsname}, or even with
3151 (setenv "xy" "@trampfn{ssh, news, news.my.domain, /opt/news/etc/}")
3154 Then you need simply to type @kbd{C-x C-f $xy @key{RET}}, and here you
3155 are. The disadvantage is that you cannot edit the file name, because
3156 environment variables are not expanded during editing in the
3159 @item Define own keys:
3161 You can define your own key sequences in @value{emacsname}, which can
3162 be used instead of @kbd{C-x C-f}:
3166 [(control x) (control y)]
3172 "@trampfn{ssh, news, news.my.domain, /opt/news/etc/}"))))
3175 Simply typing @kbd{C-x C-y} would initialize the minibuffer for
3176 editing with your beloved file name.
3178 See also @uref{http://www.emacswiki.org/cgi-bin/wiki/TrampMode, the
3179 Emacs Wiki} for a more comprehensive example.
3181 @item Define own abbreviation (1):
3183 It is possible to define an own abbreviation list for expanding file
3188 'directory-abbrev-alist
3189 '("^/xy" . "@trampfn{ssh, news, news.my.domain, /opt/news/etc/}"))
3192 This shortens the file opening command to @kbd{C-x C-f /xy
3193 @key{RET}}. The disadvantage is, again, that you cannot edit the file
3194 name, because the expansion happens after entering the file name only.
3196 @item Define own abbreviation (2):
3198 The @code{abbrev-mode} gives more flexibility for editing the
3202 (define-abbrev-table 'my-tramp-abbrev-table
3203 '(("xy" "@trampfn{ssh, news, news.my.domain, /opt/news/etc/}")))
3206 'minibuffer-setup-hook
3209 (setq local-abbrev-table my-tramp-abbrev-table)))
3211 (defadvice minibuffer-complete
3212 (before my-minibuffer-complete activate)
3215 ;; If you use partial-completion-mode
3216 (defadvice PC-do-completion
3217 (before my-PC-do-completion activate)
3221 After entering @kbd{C-x C-f xy @key{TAB}}, the minibuffer is
3222 expanded, and you can continue editing.
3224 @item Use bookmarks:
3226 Bookmarks can be used to visit Tramp files or directories.
3228 @pxref{Bookmarks, , , @value{emacsdir}}
3231 When you have opened @file{@trampfn{ssh, news, news.my.domain,
3232 /opt/news/etc/}}, you should save the bookmark via
3234 @kbd{@key{menu-bar} @key{edit} @key{bookmarks} @key{set}}.
3237 @kbd{@key{menu-bar} @key{view} @key{bookmarks} @key{set}}.
3240 Later on, you can always navigate to that bookmark via
3242 @kbd{@key{menu-bar} @key{edit} @key{bookmarks} @key{jump}}.
3245 @kbd{@key{menu-bar} @key{view} @key{bookmarks} @key{jump}}.
3248 @item Use recent files:
3256 remembers visited places.
3259 @pxref{File Conveniences, , , @value{emacsdir}}
3262 @pxref{recent-files, , , edit-utils}
3266 You could keep remote file names in the recent list without checking
3267 their readability through a remote access:
3274 (recent-files-initialize)
3278 (when (file-remote-p (buffer-file-name))
3279 (recent-files-make-permanent)))
3284 The list of files opened recently is reachable via
3286 @kbd{@key{menu-bar} @key{file} @key{Open Recent}}.
3289 @kbd{@key{menu-bar} @key{Recent Files}}.
3293 @item Use filecache:
3295 @file{filecache} remembers visited places. Add the directory into
3299 (eval-after-load "filecache"
3300 '(file-cache-add-directory
3301 "@trampfn{ssh, news, news.my.domain, /opt/news/etc/}"))
3304 Whenever you want to load a file, you can enter @kbd{C-x C-f
3305 C-@key{TAB}} in the minibuffer. The completion is done for the given
3312 @file{bbdb} has a built-in feature for @value{ftppackagename} files,
3313 which works also for @value{tramp}.
3315 @pxref{bbdb-ftp, Storing FTP sites in the BBDB, , bbdb}
3318 You need to load @file{bbdb}:
3325 Then you can create a BBDB entry via @kbd{M-x bbdb-create-ftp-site}.
3326 Because BBDB is not prepared for @value{tramp} syntax, you must
3327 specify a method together with the user name when needed. Example:
3330 @kbd{M-x bbdb-create-ftp-site @key{RET}}
3331 @b{Ftp Site:} news.my.domain @key{RET}
3332 @b{Ftp Directory:} /opt/news/etc/ @key{RET}
3333 @b{Ftp Username:} ssh@value{postfixhop}news @key{RET}
3334 @b{Company:} @key{RET}
3335 @b{Additional Comments:} @key{RET}
3338 When you have opened your BBDB buffer, you can access such an entry by
3339 pressing the key @key{F}.
3344 I would like to thank all @value{tramp} users who have contributed to
3345 the different recipes!
3350 How can I use @value{tramp} to connect to a remote @value{emacsname}
3353 You can configure Emacs Client doing this.
3355 @xref{Emacs Server, , , @value{emacsdir}}.
3358 On the remote host, you start the Emacs Server:
3362 (setq server-host (system-name)
3367 Make sure that the result of @code{(system-name)} can be resolved on
3368 your local host; otherwise you might use a hard coded IP address.
3370 The resulting file @file{~/.emacs.d/server/server} must be copied to
3371 your local host, at the same location. You can call then the Emacs
3372 Client from the command line:
3375 emacsclient @trampfn{ssh, user, host, /file/to/edit}
3378 @code{user} and @code{host} shall be related to your local host.
3380 If you want to use Emacs Client also as editor for other programs, you
3381 could write a script @file{emacsclient.sh}:
3385 emacsclient @trampfn{ssh, $(whoami), $(hostname --fqdn), $1}
3388 Then you must set the environment variable @code{EDITOR} pointing to
3392 export EDITOR=/path/to/emacsclient.sh
3398 There are packages which call @value{tramp} although I haven't entered
3399 a remote file name ever. I dislike it, how could I disable it?
3401 In general, @value{tramp} functions are used only when
3402 you apply remote file name syntax. However, some packages enable
3403 @value{tramp} on their own.
3409 You could disable @value{tramp} file name completion:
3412 (custom-set-variables
3413 '(ido-enable-tramp-completion nil))
3419 You could disable remote directory tracking mode:
3422 (rlogin-directory-tracking-mode -1)
3428 How can I disable @value{tramp} at all?
3430 Shame on you, why did you read until now?
3435 If you just want to have @value{ftppackagename} as default remote
3436 files access package, you should apply the following code:
3439 (setq tramp-default-method "ftp")
3446 @value{tramp} (and @value{ftppackagename}),
3451 you must set @code{tramp-mode} to @code{nil}:
3454 (setq tramp-mode nil)
3458 Unloading @value{tramp} can be achieved by applying @kbd{M-x
3459 tramp-unload-tramp}.
3461 This resets also the @value{ftppackagename} plugins.
3467 @c For the developer
3468 @node Files directories and localnames
3469 @chapter How file names, directories and localnames are mangled and managed.
3472 * Localname deconstruction:: Breaking a localname into its components.
3474 * External packages:: Integration with external Lisp packages.
3479 @node Localname deconstruction
3480 @section Breaking a localname into its components.
3482 @value{tramp} file names are somewhat different, obviously, to ordinary file
3483 names. As such, the lisp functions @code{file-name-directory} and
3484 @code{file-name-nondirectory} are overridden within the @value{tramp}
3487 Their replacements are reasonably simplistic in their approach. They
3488 dissect the filename, call the original handler on the localname and
3489 then rebuild the @value{tramp} file name with the result.
3491 This allows the platform specific hacks in the original handlers to take
3492 effect while preserving the @value{tramp} file name information.
3496 @node External packages
3497 @section Integration with external Lisp packages.
3498 @subsection Filename completion.
3500 While reading filenames in the minibuffer, @value{tramp} must decide
3501 whether it completes possible incomplete filenames, or not. Imagine
3502 there is the following situation: You have typed @kbd{C-x C-f
3503 @value{prefix}ssh@value{postfixhop} @key{TAB}}. @value{tramp} cannot
3504 know, whether @option{ssh} is a method or a host name. It checks
3505 therefore the last input character you have typed. If this is
3506 @key{TAB}, @key{SPACE} or @kbd{?}, @value{tramp} assumes that you are
3507 still in filename completion, and it does not connect to the possible
3508 remote host @option{ssh}.
3510 @vindex tramp-completion-mode
3511 External packages, which use other characters for completing filenames
3512 in the minibuffer, must signal this to @value{tramp}. For this case,
3513 the variable @code{tramp-completion-mode} can be bound temporarily to
3514 a non-@code{nil} value.
3517 (let ((tramp-completion-mode t))
3522 @subsection File attributes cache.
3524 When @value{tramp} runs remote processes, files on the remote host
3525 could change their attributes. Consequently, @value{tramp} must flush
3526 its complete cache keeping attributes for all files of the remote host
3529 This is a performance degradation, because the lost file attributes
3530 must be recomputed when needed again. In cases the caller of
3531 @code{process-file} knows that there are no file attribute changes, it
3532 shall let-bind the variable @code{process-file-side-effects} to
3533 @code{nil}. @value{tramp} wouldn't flush the file attributes cache then.
3536 (let (process-file-side-effects)
3540 For asynchronous processes, @value{tramp} flushes the file attributes
3541 cache via a process sentinel. If the caller of
3542 @code{start-file-process} knows that there are no file attribute
3543 changes, it shall set the process sentinel to @code{nil}. In case the
3544 caller defines an own process sentinel, @value{tramp}'s process
3545 sentinel is overwritten. The caller can still flush the file
3546 attributes cache in its process sentinel with this code:
3549 (unless (memq (process-status proc) '(run open))
3550 (dired-uncache remote-directory))
3553 @code{remote-directory} shall be the root directory, where file
3554 attribute changes can happen during the process lifetime.
3555 @value{tramp} traverses all subdirectories, starting at this
3556 directory. Often, it is sufficient to use @code{default-directory} of
3557 the process buffer as root directory.
3561 @node Traces and Profiles
3562 @chapter How to Customize Traces
3564 All @value{tramp} messages are raised with a verbosity level. The
3565 verbosity level can be any number between 0 and 10. Only messages with
3566 a verbosity level less than or equal to @code{tramp-verbose} are
3569 The verbosity levels are
3571 @w{ 0} silent (no @value{tramp} messages at all)
3572 @*@indent @w{ 1} errors
3573 @*@indent @w{ 2} warnings
3574 @*@indent @w{ 3} connection to remote hosts (default verbosity)
3575 @*@indent @w{ 4} activities
3576 @*@indent @w{ 5} internal
3577 @*@indent @w{ 6} sent and received strings
3578 @*@indent @w{ 7} file caching
3579 @*@indent @w{ 8} connection properties
3580 @*@indent @w{ 9} test commands
3581 @*@indent @w{10} traces (huge)
3583 When @code{tramp-verbose} is greater than or equal to 4, the messages
3584 are also written into a @value{tramp} debug buffer. This debug buffer
3585 is useful for analyzing problems; sending a @value{tramp} bug report
3586 should be done with @code{tramp-verbose} set to a verbosity level of at
3587 least 6 (@pxref{Bug Reports}).
3589 The debug buffer is in
3591 @ref{Outline Mode, , , @value{emacsdir}}.
3596 That means, you can change the level of messages to be viewed. If you
3597 want, for example, see only messages up to verbosity level 5, you must
3598 enter @kbd{C-u 6 C-c C-q}.
3600 Other keys for navigating are described in
3601 @ref{Outline Visibility, , , @value{emacsdir}}.
3604 @value{tramp} errors are handled internally in order to raise the
3605 verbosity level 1 messages. When you want to get a Lisp backtrace in
3606 case of an error, you need to set both
3609 (setq debug-on-error t
3613 Sometimes, it might be even necessary to step through @value{tramp}
3614 function call traces. Such traces are enabled by the following code:
3619 (dolist (elt (all-completions "tramp-" obarray 'functionp))
3620 (trace-function-background (intern elt)))
3621 (untrace-function 'tramp-read-passwd)
3622 (untrace-function 'tramp-gw-basic-authentication)
3625 The function call traces are inserted in the buffer
3626 @file{*trace-output*}. @code{tramp-read-passwd} and
3627 @code{tramp-gw-basic-authentication} shall be disabled when the
3628 function call traces are added to @value{tramp}, because both
3629 functions return password strings, which should not be distributed.
3633 @chapter Debatable Issues and What Was Decided
3636 @item The uuencode method does not always work.
3638 Due to the design of @value{tramp}, the encoding and decoding programs
3639 need to read from stdin and write to stdout. On some systems,
3640 @command{uudecode -o -} will read stdin and write the decoded file to
3641 stdout, on other systems @command{uudecode -p} does the same thing.
3642 But some systems have uudecode implementations which cannot do this at
3643 all---it is not possible to call these uudecode implementations with
3644 suitable parameters so that they write to stdout.
3646 Of course, this could be circumvented: the @code{begin foo 644} line
3647 could be rewritten to put in some temporary file name, then
3648 @command{uudecode} could be called, then the temp file could be
3649 printed and deleted.
3651 But I have decided that this is too fragile to reliably work, so on some
3652 systems you'll have to do without the uuencode methods.
3654 @item The @value{tramp} filename syntax differs between Emacs and XEmacs.
3656 The Emacs maintainers wish to use a unified filename syntax for
3657 Ange-FTP and @value{tramp} so that users don't have to learn a new
3658 syntax. It is sufficient to learn some extensions to the old syntax.
3660 For the XEmacs maintainers, the problems caused from using a unified
3661 filename syntax are greater than the gains. The XEmacs package system
3662 uses EFS for downloading new packages. So, obviously, EFS has to be
3663 installed from the start. If the filenames were unified, @value{tramp}
3664 would have to be installed from the start, too.
3667 @strong{Note:} If you'd like to use a similar syntax like
3668 @value{ftppackagename}, you need the following settings in your init
3672 (setq tramp-unified-filenames t)
3676 The autoload of the @value{emacsname} @value{tramp} package must be
3677 disabled. This can be achieved by setting file permissions @code{000}
3678 to the files @file{.../xemacs-packages/lisp/tramp/auto-autoloads.el*}.
3680 In case of unified filenames, all @value{emacsname} download sites are
3681 added to @code{tramp-default-method-alist} with default method
3682 @option{ftp} @xref{Default Method}. These settings shouldn't be
3683 touched for proper working of the @value{emacsname} package system.
3685 The syntax for unified filenames is described in the @value{tramp} manual
3686 for @value{emacsothername}.
3690 @node GNU Free Documentation License
3691 @appendix GNU Free Documentation License
3692 @include doclicense.texi
3694 @node Function Index
3695 @unnumbered Function Index
3698 @node Variable Index
3699 @unnumbered Variable Index
3703 @unnumbered Concept Index
3710 @c * Say something about the .login and .profile files of the remote
3712 @c * Explain how tramp.el works in principle: open a shell on a remote
3713 @c host and then send commands to it.
3714 @c * Use `filename' resp. `file name' consistently.
3715 @c * Use `host' resp. `machine' consistently.
3716 @c * Consistent small or capitalized words especially in menus.