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- TRAMP User Manual
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- TRAMP User Manual Table of Contents 1 An overview of TRAMP 2 Obtaining Tramp. 3 History of TRAMP 4 Installing TRAMP into XEmacs. 4.1 Parameters in order to control installation. 4.2 How to plug-in TRAMP into your environment. 5 Configuring TRAMP 5.1 Types of connections to remote hosts 5.2 Inline methods 5.3 External methods 5.4 GVFS based external methods 5.5 Gateway methods 5.6 Selecting a default method 5.6.1 Which method to use? 5.7 Selecting a default user 5.8 Selecting a default host 5.9 Connecting to a remote host using multiple hops 5.10 Using Non-Standard Methods 5.11 Selecting config files for user/host name completion 5.12 Reusing passwords for several connections 5.12.1 Using an authentication file 5.12.2 Caching passwords 5.13 Reusing connection related information 5.14 Setting own connection related information 5.15 How TRAMP finds and uses programs on the remote host 5.16 Remote shell setup hints 5.17 Android shell setup hints 5.18 Auto-save and Backup configuration 5.19 Issues with Cygwin ssh 6 Using TRAMP 6.1 TRAMP file name conventions 6.2 File name completion 6.3 Declaring multiple hops in the file name 6.4 Integration with other XEmacs packages 6.4.1 Running remote programs that create local X11 windows 6.4.2 Running shell on a remote host 6.4.3 Running shell-command on a remote host 6.4.4 Running eshell on a remote host 6.4.5 Running a debugger on a remote host 6.4.6 Running remote processes on Windows hosts 6.5 Cleanup remote connections 7 Reporting Bugs and Problems 8 Frequently Asked Questions 9 How file names, directories and localnames are mangled and managed. 9.1 Splitting a localname into its component parts 10 How to Customize Traces 11 Debatable Issues and What Was Decided Appendix A GNU Free Documentation License Function Index Variable Index Concept Index Next: Overview , Previous: (dir) , Up: (dir) [ Contents ][ Index ] TRAMP version 2.2.13 User Manual This file documents TRAMP version 2.2.13, a remote file editing package for XEmacs. TRAMP stands for “Transparent Remote (file) Access, Multiple Protocol”. This package provides remote file editing, similar to EFS. The difference is that EFS uses FTP to transfer files between the local and the remote host, whereas TRAMP uses a combination of rsh and rcp or other work-alike programs, such as ssh / scp . You can find the latest version of this document on the web at http://www.gnu.org/software/tramp/ . The manual has been generated for XEmacs. If you're using the other Emacs flavor, you should read the Emacs pages. The latest release of TRAMP is available for download , or you may see Obtaining Tramp for more details, including the Git server details. TRAMP also has a Savannah Project Page . There is a mailing list for TRAMP , available at tramp-devel@gnu.org , and archived at the TRAMP Mail Archive . Older archives are located at SourceForge Mail Archive and The Mail Archive . Copyright © 1999–2015 Free Software Foundation, Inc. Permission is granted to copy, distribute and/or modify this document under the terms of the GNU Free Documentation License, Version 1.3 or any later version published by the Free Software Foundation; with no Invariant Sections, with the Front-Cover Texts being “A GNU Manual”, and with the Back-Cover Texts as in (a) below. A copy of the license is included in the section entitled “GNU Free Documentation License”. (a) The FSF's Back-Cover Text is: “You have the freedom to copy and modify this GNU manual.” • Overview : What TRAMP can and cannot do. For the end user: • Obtaining Tramp : How to obtain TRAMP . • History : History of TRAMP . • Installation : Installing TRAMP with your XEmacs. • Configuration : Configuring TRAMP for use. • Usage : An overview of the operation of TRAMP . • Bug Reports : Reporting Bugs and Problems. • Frequently Asked Questions : Questions and answers from the mailing list. For the developer: • Files directories and localnames : How file names, directories and localnames are mangled and managed. • Traces and Profiles : How to Customize Traces. • Issues : Debatable Issues and What Was Decided. • GNU Free Documentation License : The license for this documentation. • Function Index : TRAMP functions. • Variable Index : User options and variables. • Concept Index : An item for each concept. — The Detailed Node Listing — Installing TRAMP with your XEmacs • Installation parameters : Parameters in order to control installation. • Load paths : How to plug-in TRAMP into your environment. Configuring TRAMP for use • Connection types : Types of connections to remote hosts. • Inline methods : Inline methods. • External methods : External methods. • GVFS based methods : GVFS based external methods. • Gateway methods : Gateway methods. • Default Method : Selecting a default method. • Default User : Selecting a default user. • Default Host : Selecting a default host. • Multi-hops : Connecting to a remote host using multiple hops. • Customizing Methods : Using Non-Standard Methods. • Customizing Completion : Selecting config files for user/host name completion. • Password handling : Reusing passwords for several connections. • Connection caching : Reusing connection related information. • Predefined connection information : Setting own connection related information. • Remote programs : How TRAMP finds and uses programs on the remote host. • Remote shell setup : Remote shell setup hints. • Android shell setup : Android shell setup hints. • Auto-save and Backup : Auto-save and Backup. • Windows setup hints : Issues with Cygwin ssh. Using TRAMP • File name Syntax : TRAMP file name conventions. • File name completion : File name completion. • Ad-hoc multi-hops : Declaring multiple hops in the file name. • Remote processes : Integration with other XEmacs packages. • Cleanup remote connections : Cleanup remote connections. How file names, directories and localnames are mangled and managed • Localname deconstruction : Breaking a localname into its components. Next: Obtaining Tramp , Up: Top [ Contents ][ Index ] 1 An overview of TRAMP TRAMP is for transparently accessing remote files from within XEmacs. TRAMP enables an easy, convenient, and consistent interface to remote files as if they are local files. TRAMP 's transparency extends to editing, version control, and dired . TRAMP can access remote hosts using any number of access methods, such as rsh , rlogin , telnet , and related programs. If these programs can successfully pass ASCII] characters, TRAMP can use them. TRAMP does not require or mandate 8-bit clean connections. TRAMP 's most common access method is through ssh , a more secure alternative to ftp and other older access methods. TRAMP on Windows operating systems is integrated with the PuTTY package, and uses the plink program. TRAMP mostly operates transparently in the background using the connection programs. As long as these programs enable remote login and can use the terminal, TRAMP can adapt them for seamless and transparent access. TRAMP temporarily transfers a remote file's contents to the local host editing and related operations. TRAMP can also transfer files between hosts using standard Emacs interfaces, a benefit of direct integration of TRAMP in XEmacs. TRAMP can transfer files using any number of available host programs for remote files, such as rcp , scp , rsync or (under Windows) pscp . TRAMP provides easy ways to specify these programs and customize them to specific files, hosts, or access methods. For faster small-size file transfers, TRAMP supports encoded transfers directly through the shell using mimencode or uuencode provided such tools are available on the remote host. TRAMP behind the scenes Accessing a remote file through TRAMP entails a series of actions, many of which are transparent to the user. Yet some actions may require user response (such as entering passwords or completing file names). One typical scenario, opening a file on a remote host, is presented here to illustrate the steps involved: C-x C-f to initiate find-file, enter part of the TRAMP file name, then hit TAB for completion. If this is the first time connection to that host, here's what happens: TRAMP invokes ‘ telnet host ' or ‘ rsh host -l user ' and establishes an external process to connect to the remote host. TRAMP communicates with the process through an XEmacs buffer, which also shows output from the remote host. The remote host may prompt for a login name (for telnet , for example) in the buffer. If on the other hand, the login name was included in the file name portion, TRAMP sends the login name followed by a newline. The remote host may then prompt for a password or pass phrase (for rsh or for telnet ). TRAMP displays the password prompt in the minibuffer. TRAMP then sends whatever is entered to the remote host, followed by a newline. TRAMP now waits for either the shell prompt or a failed login message. If TRAMP does not receive any messages within a timeout period (a minute, for example), then TRAMP responds with an error message about not finding the remote shell prompt. If any messages from the remote host, TRAMP displays them in the buffer. For any ‘ login failed ' message from the remote host, TRAMP aborts the login attempt, and repeats the login steps again. Upon successful login and TRAMP recognizes the shell prompt from the remote host, TRAMP prepares the shell environment by turning off echoing, setting shell prompt, and other housekeeping chores. Note that for the remote shell, TRAMP invokes /bin/sh . The remote host must recognize ‘ exec /bin/sh ' and execute the appropriate shell. This shell must support Bourne shell syntax. TRAMP executes cd and ls commands to find which files exist on the remote host. TRAMP sometimes uses echo with globbing. TRAMP checks if a file or directory is writable with test . After each command, TRAMP parses the output from the remote host for completing the next operation. After remote file name completion, TRAMP transfers the file contents from the remote host. For inline transfers, TRAMP sends a command, such as ‘ mimencode -b /path/to/remote/file ', waits until the output has accumulated in the buffer, decodes that output to produce the file's contents. For external transfers, TRAMP sends a command as follows: rcp user@host:/path/to/remote/file /tmp/tramp.4711 TRAMP reads the local temporary file /tmp/tramp.4711 into a buffer, and then deletes the temporary file. Edit, modify, change the buffer contents as normal, and then save the buffer wth C-x C-s . TRAMP transfers the buffer contents to the remote host in a reverse of the process using the appropriate inline or external program. I hope this has provided you with a basic overview of what happens behind the scenes when you open a file with TRAMP . Next: History , Previous: Overview , Up: Top [ Contents ][ Index ] 2 Obtaining Tramp. TRAMP is included as part of Emacs (since Emacs version 22.1). TRAMP is also freely packaged for download on the Internet at ftp://ftp.gnu.org/gnu/tramp/ . TRAMP development versions are available on Git servers. Development versions contain new and incomplete features. One way to obtain from Git server is to visit the Savannah project page at the following URL and then clicking on the Git link in the navigation bar at the top. http://savannah.gnu.org/projects/tramp/ Another way is to follow the terminal session below: ] cd ~/xemacs ] git clone git://git.savannah.gnu.org/tramp.git From behind a firewall: ] git config --global http.proxy http://user:pwd@proxy.server.com:8080 ] git clone http://git.savannah.gnu.org/r/tramp.git Tramp developers: ] git clone login@git.sv.gnu.org:/srv/git/tramp.git After one of the above commands, ~/xemacs/tramp will containing the latest version of TRAMP . To fetch updates from the repository, use git pull: ] cd ~/xemacs/tramp ] git pull Run autoconf as follows to generate an up-to-date configure script: ] cd ~/xemacs/tramp ] autoconf Next: Installation , Previous: Obtaining Tramp , Up: Top [ Contents ][ Index ] 3 History of TRAMP TRAMP development started at the end of November 1998 as rssh.el . It provided only one method of access. It used ssh for login and scp to transfer file contents. The name was changed to rcp.el before it got its preset name TRAMP . New methods of remote access were added, so was support for version control. April 2000 was the first time when multi-hop methods were added. In July 2002, TRAMP unified file names with Ange-FTP. In July 2004, proxy hosts replaced multi-hop methods. Running commands on remote hosts was introduced in December 2005. Support for gateways since April 2007. GVFS integration started in February 2009. Ad-hoc multi-hop methods (with a changed syntax) re-enabled in November 2011. In November 2012, added Juergen Hoetzel's tramp-adb.el . In December 2001, XEmacs package repository adds TRAMP . Next: Configuration , Previous: History , Up: Top [ Contents ][ Index ] 4 Installing TRAMP into XEmacs. If you use the version that comes with your XEmacs, the following information is not necessary. Installing TRAMP into your XEmacs is a relatively easy process, at least compared to rebuilding your machine from scratch. ;) Seriously, though, the installation should be a fairly simple matter. The easiest way to proceed is as follows: Choose a directory, say ~/xemacs/ . Change into that directory and unpack the tarball. This will give you a directory ~/xemacs/tramp-2.2.13/ which contains subdirectories lisp for the Lisp code and texi for the documentation. Make a symbolic link: ln -s tramp-2.2.13 tramp cd to ~/xemacs/tramp/ and type ./configure --with-contrib to configure Tramp for your system. Running ‘configure' takes a while. While running, it prints some messages telling which features it is checking for. Type make to build the byte-compiled Lisp files as well as the Info manual. Type make install to install the Tramp Lisp files and Info manual. You can remove the byte-compiled Lisp files and the Info manual from the source directory by typing make clean . To also remove the files that configure created, type make distclean . NOTE: If you run into problems running the example make command, don't despair. You can still byte compile the *.el files by opening XEmacs in dired ( C-x d ) mode, at ~/xemacs/tramp/lisp . Mark the lisp files with m , then press B to byte compile your selections. Something similar can be done to create the info manual. Just change to directory ~/xemacs/tramp/texi and load the tramp.texi file in XEmacs. Then press M-x texinfo-format-buffer RET to generate ~/xemacs/tramp/info/tramp . • Installation parameters : Parameters in order to control installation. • Load paths : How to plug-in TRAMP into your environment. Next: Load paths , Up: Installation [ Contents ][ Index ] 4.1 Parameters in order to control installation. There are some Lisp packages which are not contained in older XEmacsen by default yet. In order to make a link for them into Tramp's contrib directory, you must use the --with-contrib option: ./configure --with-contrib By default, make install will install TRAMP 's files in /usr/local/share/emacs/site-lisp and /usr/local/share/info . You can specify an installation prefix other than /usr/local by giving configure the option --prefix=PATH . If your installed copy of XEmacs is named something other than xemacs , you will need to tell ‘make' where to find it so that it can correctly byte-compile the TRAMP sources. For example, to force the use of Emacs you might do this: ./configure --with-emacs You can even pass the XEmacs or Emacs command to be called: ./configure --with-emacs=emacs22 If you specify the absolute path of the command, it must not contain whitespaces. If you need it, the corresponding path shall be appended to the PATH environment variable. The syntax of TRAMP file names is different for XEmacs and Emacs. The Info manual will be generated for the Emacs flavor choosen in the configure phase. If you want the Info manual for the other version, you need to set the variable EMACS_INFO to make : ./configure --with-xemacs make EMACS_INFO=emacs Also, the --prefix=PATH option to configure may not be general enough to set the paths you want. If not, you can declare the directories Lisp and Info files should be installed. For example, to put the Lisp files in ~/elisp and the Info file in ~/info , you would type: ./configure --with-lispdir=$HOME/elisp --infodir=$HOME/info On MS Windows, given XEmacs is installed at C:/Program Files/Emacs , you should apply ./configure \ --with-lispdir='C:/Program Files/Emacs/share/emacs/site-lisp' \ --infodir='C:/Program Files/Emacs/share/info' make supports the DESTDIR variable for staged installation; See (standards)Command Variables : make DESTDIR=/tmp install Running configure might result in errors or warnings. The output explains in detail what's going wrong. In case of errors, it is mandatory to fix them before continuation. This can be missing or wrong versions of xemacs , XEmacs packages, make , or makeinfo . Warnings let configure (and the whole installation process) continue, but parts of Tramp aren't installed. This can happen with missing or wrong versions of texi2dvi or install-info . Here you can decide yourself whether you want to renounce on the related feature ( tramp.dvi file for printed output, Tramp entry in Info's dir file), or whether you want to adapt your PATH environment variable, and rerun configure . An alternative is calling the missed parts manually later on. Previous: Installation parameters , Up: Installation [ Contents ][ Index ] 4.2 How to plug-in TRAMP into your environment. If you don't install TRAMP into the intended directories, but prefer to use from the source directory, you need to add the following lines into your .emacs : (add-to-list 'load-path "~/xemacs/tramp/lisp/") (require 'tramp) NOTE: For XEmacs, the package fsf-compat must be installed. For details on package installation, see (xemacs)Packages . (If the previous link doesn't work, try the XEmacs documentation at the XEmacs site .) If the environment variable INFOPATH is set, add the directory ~/xemacs/tramp/info/ to it. Else, add the directory to Info-directory-list , as follows: (add-to-list 'Info-directory-list "~/xemacs/tramp/info/") Next: Usage , Previous: Installation , Up: Top [ Contents ][ Index ] 5 Configuring TRAMP TRAMP is initially configured to use the scp program to connect to the remote host. Just type C-x C-f and then enter file name /[user @host]/path/to.file . For details, see See Default Method . For problems related to the behavior of remote shell, see Remote shell setup for details. For changing the connection type and file access method from the defaults to one of several other options, see (see Connection types ). Note that some user options and variables described in these examples are not auto loaded by XEmacs. All examples require TRAMP is installed and loaded: (require 'tramp) • Connection types : Types of connections to remote hosts. • Inline methods : Inline methods. • External methods : External methods. • GVFS based methods : GVFS based external methods. • Gateway methods : Gateway methods. • Default Method : Selecting a default method. Here we also try to help those who don't have the foggiest which method is right for them. • Default User : Selecting a default user. • Default Host : Selecting a default host. • Multi-hops : Connecting to a remote host using multiple hops. • Customizing Methods : Using Non-Standard Methods. • Customizing Completion : Selecting config files for user/host name completion. • Password handling : Reusing passwords for several connections. • Connection caching : Reusing connection related information. • Predefined connection information : Setting own connection related information. • Remote programs : How TRAMP finds and uses programs on the remote host. • Remote shell setup : Remote shell setup hints. • Android shell setup : Android shell setup hints. • Auto-save and Backup : Auto-save and Backup. • Windows setup hints : Issues with Cygwin ssh. Next: Inline methods , Up: Configuration [ Contents ][ Index ] 5.1 Types of connections to remote hosts Inline method and external method are the two basic types of access methods. While they both use the same remote shell access programs, such as rsh , ssh , or telnet , they differ in the file access methods. Choosing the right method becomes important for editing files, transferring large files, or operating on a large number of files. The performance of the external methods is generally better than that of the inline methods, at least for large files. This is caused by the need to encode and decode the data when transferring inline. The one exception to this rule are the scp -based access methods. While these methods do see better performance when actually transferring files, the overhead of the cryptographic negotiation at startup may drown out the improvement in file transfer times. External methods should be configured such a way that they don't require a password (with ssh-agent , or such alike). Modern scp implementations offer options to reuse existing ssh connections, which will be enabled by default if available. If it isn't possible, you should consider Password handling , otherwise you will be prompted for a password every copy action. Next: External methods , Previous: Connection types , Up: Configuration [ Contents ][ Index ] 5.2 Inline methods Inline methods use the same login connection to transfer file contents. Inline methods are quick and easy for small files. They depend on the availability of suitable encoding and decoding programs on the remote host. For local source and destination, TRAMP may use built-in equivalents of such programs in XEmacs. Inline methods can work in situations where an external transfer program is unavailable. Inline methods also work when transferring files between different user identities on the same host. TRAMP checks the remote host for the availability and usability of mimencode (part of the metamail package) or uuencode . TRAMP uses the first reliable command it finds. TRAMP 's search path can be customized, see Remote programs . In case both mimencode and uuencode are unavailable, TRAMP first transfers a small Perl program to the remote host, and then tries that program for encoding and decoding. To increase transfer speeds for large text files, use compression before encoding. The variable tramp-inline-compress-start-size specifies the file size for such optimization. rsh rsh is an option for connecting to hosts within local networks since rsh is not as secure as other methods. ssh ssh is a more secure option than others to connect to a remote host. ssh can also take extra parameters as port numbers. For example, a host on port 42 is specified as host#42 (the real host name, a hash sign, then a port number). It is the same as passing -p 42 to the ssh command. telnet Connecting to a remote host with telnet is as insecure as the rsh method. su Instead of connecting to a remote host, su program allows editing as another user. The host can be either ‘ localhost ' or the host returned by the function (system-name) . See Multi-hops for an exception to this behavior. sudo Similar to su method, sudo uses sudo . sudo must have sufficient rights to start a shell. sshx Works like ssh but without the extra authentication prompts. sshx uses ‘ ssh -t -t host -l user /bin/sh ' to open a connection with a “standard” login shell. Note that sshx does not bypass authentication questions. For example, if the host key of the remote host is not known, sshx will still ask “Are you sure you want to continue connecting?”. TRAMP cannot handle such questions. Connections will have to be setup where logins can proceed without such questions. sshx is useful for Windows users when ssh triggers an error about allocating a pseudo tty. This happens due to missing shell prompts that confuses TRAMP . sshx supports the ‘ -p ' argument. krlogin This method is also similar to ssh . It uses the krlogin -x command only for remote host login. ksu This is another method from the Kerberos suite. It behaves like su . plink plink method is for Windows users with the PuTTY implementation of SSH. It uses ‘ plink -ssh ' to log in to the remote host. Check the ‘ Share SSH connections if possible ' control for that session. plink method supports the ‘ -P ' argument. plinkx Another method using PuTTY on Windows with session names instead of host names. plinkx calls ‘ plink -load session -t '. User names and port numbers must be defined in the session. Check the ‘ Share SSH connections if possible ' control for that session. Next: GVFS based methods , Previous: Inline methods , Up: Configuration [ Contents ][ Index ] 5.3 External methods External methods operate over multiple channels, using the remote shell connection for some actions while delegating file transfers to an external transfer program. External methods save on the overhead of encoding and decoding of inline methods. Since external methods have the overhead of opening a new channel, files smaller than tramp-copy-size-limit still use inline methods. rcp — rsh and rcp This method uses the rsh and rcp commands to connect to the remote host and transfer files. This is the fastest access method available. The alternative method remcp uses the remsh and rcp commands. scp — ssh and scp Using a combination of ssh to connect and scp to transfer is the most secure. While the performance is good, it is slower than the inline methods for smaller files. Though there is no overhead of encoding and decoding of the inline methods, scp 's cryptographic handshake negates those speed gains. ssh -based methods support ‘ -p ' feature for specifying port numbers. For example, host#42 passes ‘ -p 42 ' in the argument list to ssh , and ‘ -P 42 ' in the argument list to scp . rsync — ssh and rsync ssh command to connect in combination with rsync command to transfer is similar to the scp method. rsync performs much better than scp when transferring files that exist on both hosts. However, this advantage is lost if the file exists only on one side of the connection. This method supports the ‘ -p ' argument. scpx — ssh and scp scpx is useful to avoid login shell questions. It is similar in performance to scp . scpx uses ‘ ssh -t -t host -l user /bin/sh ' to open a connection. sshx is useful for Windows users when ssh triggers an error about allocating a pseudo tty. This happens due to missing shell prompts that confuses TRAMP . This method supports the ‘ -p ' argument. pscp — plink and pscp psftp — plink and psftp These methods are similar to scp or sftp , but they use the plink command to connect to the remote host, and they use pscp or psftp for transferring the files. These programs are part of PuTTY, an SSH implementation for Windows. Check the ‘ Share SSH connections if possible ' control for that session. These methods support the ‘ -P ' argument. fcp — fsh and fcp This method is similar to scp , but uses fsh to connect and fcp to transfer files. fsh/fcp , a front-end for ssh , reuse ssh session by submitting several commands. This avoids the startup overhead due to scp 's secure connection. Inline methods have similar benefits. The command used for this connection is: ‘ fsh host -l user /bin/sh -i ' fsh has no inline method since the multiplexing it offers is not useful for TRAMP . fsh connects to remote host and TRAMP keeps that one connection open. nc — telnet and nc Using telnet to connect and nc to transfer files is sometimes the only combination suitable for accessing routers or NAS hosts. These dumb devices have severely restricted local shells, such as the busybox and do not host any other encode or decode programs. ftp When TRAMP uses ftp , it forwards requests to whatever ftp program is specified by EFS. This external program must be capable of servicing requests from TRAMP . This method works only for unified file names, see Issues . smb — smbclient This is another non-native TRAMP method. smbclient connects to any host with SMB/CIFS protocol, such as MS Windows and Samba Servers running on Unixes. Tests show this TRAMP method works with MS Windows NT, MS Windows 2000, MS Windows XP, MS Windows Vista, and MS Windows 7. Using smbclient requires a few tweaks when working with TRAMP : The first directory in the localname must be a share name on the remote host. Since smb shares end in the $ character, TRAMP must use $$ when specifying those shares to avoid environment variable substitutions. When TRAMP is not specific about the share name or uses the generic remote directory / , smbclient returns all available shares. Since SMB authentication is based on each SMB share, TRAMP prompts for a password even when accessing a different share on the same SMB host. This prompting can be suppressed by Password handling . To accommodate user name/domain name syntax required by MS Windows authorization, TRAMP provides for an extended syntax in user%domain format (where user is username, % is the percent symbol, and domain is the windows domain name). An example: /[smb /daniel%BIZARRE @melancholia]/daniel$$/.emacs where user daniel connects as a domain user to the SMB host melancholia in the windows domain BIZARRE to edit .emacs located in the home directory (share daniel$ ). Alternatively, for local WINS users (as opposed to domain users), substitute the domain name with the name of the local host in UPPERCASE as shown here: /[smb /daniel%MELANCHOLIA @melancholia]/daniel$$/.emacs where user daniel connects as local user to the SMB host melancholia in the local domain MELANCHOLIA to edit .emacs located in the home directory (share daniel$ ). The domain name and user name are optional for smbclient authentication. When user name is not specified, smbclient uses the anonymous user (without prompting for password). This behavior is unlike other TRAMP methods, where local user name is substituted. smb method is unavailable if XEmacs is run under a local user authentication context in MS Windows. However such users can still access remote files using UNC file names instead of TRAMP : //melancholia/daniel$$/.emacs UNC file name specification does not allow to specify a different user name for authentication like the smbclient can. adb This method uses Android Debug Bridge program for accessing Android devices. The Android Debug Bridge must be installed locally for TRAMP to work. Some GNU/Linux distributions provide Android Debug Bridge as an installation package. Alternatively, the program is installed as part of the Android SDK. TRAMP finds the adb program either via the PATH environment variable or the absolute path set in the variable tramp-adb-program . TRAMP connects to Android devices with adb only when the custom option tramp-adb-connect-if-not-connected is not nil . Otherwise, the connection must be established outside XEmacs. TRAMP does not require a host name part of the remote file name when a single Android device is connected to adb . TRAMP instead uses /[adb /] as the default name. adb devices shows available host names. adb method normally does not need user name to authenticate on the Andriod device because it runs under the adbd process. But when a user name is specified, however, TRAMP applies an su in the syntax. When authentication does not succeed, especially on un-rooted Android devices, TRAMP displays login errors. For Andriod devices connected through TCP/IP, a port number can be specified using device#42 host name syntax or TRAMP can use the default value as declared in adb command. Port numbers are not applicable to Android devices connected through USB. Next: Gateway methods , Previous: External methods , Up: Configuration [ Contents ][ Index ] 5.4 GVFS based external methods GVFS is the virtual file system for the Gnome Desktop, http://en.wikipedia.org/wiki/GVFS . Remote files on GVFS are mounted locally through FUSE and TRAMP uses this locally mounted directory internally. XEmacs uses the D-Bus mechanism to communicate with GVFS. XEmacs must have the message bus system, D-Bus integration active, see (dbus)D-Bus . afp This method is for connecting to remote hosts with the Apple Filing Protocol for accessing files on Mac OS X volumes. TRAMP access syntax requires a leading volume (share) name, for example: /[afp /user @host]/volume . dav davs dav method provides access to WebDAV files and directories based on standard protocols, such as HTTP. davs does the same but with SSL encryption. Both methods support the port numbers. obex OBEX is an FTP-like access protocol for cell phones and similar simple devices. TRAMP supports OBEX over Bluetooth. sftp This method uses sftp in order to securely access remote hosts. sftp is a more secure option for connecting to hosts that for security reasons refuse ssh connections. synce synce method allows connecting to Windows Mobile devices. It uses GVFS for mounting remote files and directories via FUSE and requires the SYNCE-GVFS plugin. User Option: tramp-gvfs-methods This custom option is a list of external methods for GVFS. By default, this list includes afp , dav , davs , obex , sftp and synce . Other methods to include are: ftp and smb . Next: Default Method , Previous: GVFS based methods , Up: Configuration [ Contents ][ Index ] 5.5 Gateway methods Gateway methods are for proxy host declarations (see Multi-hops ) so as to pass through firewalls and proxy servers. They are not like the other methods that declare direct connections to a remote host. A gateway method always comes with a port setting. TRAMP targets the port number with the gateway method localhost#random_port from where the firewall or proxy server is accessed. Gateway methods support user name and password declarations for authenticating the corresponding firewall or proxy server. Such authentication can be passed through only if granted access by system administrators. tunnel This method implements an HTTP tunnel via the CONNECT command (conforming to RFC 2616, 2817 specifications). Proxy servers using HTTP version 1.1 or later protocol support this command. For authentication, this protocol uses only Basic Authentication (see RFC 2617). When no port number is specified, this protocol defaults to 8080 . socks The socks method connects to SOCKSv5 servers (see RFC 1928) and supports Username/Password Authentication . The default port number for the socks server is 1080 , if not specified otherwise. Next: Default User , Previous: Gateway methods , Up: Configuration [ Contents ][ Index ] 5.6 Selecting a default method Default method is for transferring files. The variable tramp-default-method sets it. TRAMP uses this variable to determine the default method for tramp file names that do not have one specified. (setq tramp-default-method "ssh") Default methods for transferring files can be customized for specific user and host combinations through the alist variable tramp-default-method-alist . For example, the following two lines specify to use the ssh method for all user names matching ‘ john ' and the rsync method for all host names matching ‘ lily '. The third line specifies to use the su method for the user ‘ root ' on the host ‘ localhost '. (add-to-list 'tramp-default-method-alist '("" "john" "ssh")) (add-to-list 'tramp-default-method-alist '("lily" "" "rsync")) (add-to-list 'tramp-default-method-alist '("\\`localhost\\'" "\\`root\\'" "su")) See the documentation for the variable tramp-default-method-alist for details. External methods performance faster for large files. See Inline methods . See External methods . Choosing the access method also depends on the security environment. For example, rsh and telnet methods that use clear text password transfers are inappropriate for over the Internet connections. Secure remote connections should use ssh that provide encryption. 5.6.1 Which method to use? TRAMP provides maximum number of choices for maximum flexibility. Choosing which method depends on the hosts, clients, network speeds, and the security context. Start by using an inline method. External methods might be more efficient for large files, but most TRAMP users edit small files more often than large files. Enable compression, tramp-inline-compress-start-size , for a performance boost for large files. Since ssh has become the most common method of remote host access and it has the most reasonable security protocols, use ssh method. Typical ssh usage to edit the /etc/motd file on the otherhost: C-x C-f /[ssh /root @otherhost]/etc/motd RET If ssh is unavailable for whatever reason, look for other obvious options. For Windows, try the plink method. For Kerberos, try krlogin . For editing local files as su or sudo methods, try the shortened syntax of ‘ root ': C-x C-f /[su /]/etc/motd RET For editing large files, scp is faster than ssh . pscp is faster than plink . But this speed improvement is not always true. Next: Default Host , Previous: Default Method , Up: Configuration [ Contents ][ Index ] 5.7 Selecting a default user TRAMP file name can omit the user name part since TRAMP substitutes the currently logged-in user name. However this substitution can be overridden with tramp-default-user . For example: (setq tramp-default-user "root") Instead of a single default user, tramp-default-user-alist allows multiple default user values based on access method or host name combinations. The alist can hold multiple values. For example, to use the ‘ john ' as the default user for the domain ‘ somewhere.else ' only: (add-to-list 'tramp-default-user-alist '("ssh" ".*\\.somewhere\\.else\\'" "john")) See the documentation for the variable tramp-default-user-alist for more details. A Caution: TRAMP will override any default user specified in the configuration files outside XEmacs, such as ~/.ssh/config . To stop TRAMP from applying the default value, set the corresponding alist entry to nil: (add-to-list 'tramp-default-user-alist '("ssh" "\\`here\\.somewhere\\.else\\'" nil)) The last entry in tramp-default-user-alist should be reserved for catch-all or most often used login. (add-to-list 'tramp-default-user-alist '(nil nil "jonas") t) Next: Multi-hops , Previous: Default User , Up: Configuration [ Contents ][ Index ] 5.8 Selecting a default host When host name is omitted, TRAMP substitutes the value from the tramp-default-host variable. It is initially populated with the local hostname where XEmacs is running. Both the default user and default host can be overridden as follows: (setq tramp-default-user "john" tramp-default-host "target") With both defaults set, ‘ /[ssh /] ' will connect TRAMP to John's home directory on target. Instead of a single default host, tramp-default-host-alist allows multiple default host values based on access method or user name combinations. The alist can hold multiple values. While tramp-default-host is sufficient in most cases, some methods, like adb , require defaults overwritten. See the documentation for the variable tramp-default-host-alist for more details. Next: Customizing Methods , Previous: Default Host , Up: Configuration [ Contents ][ Index ] 5.9 Connecting to a remote host using multiple hops Multi-hops are methods to reach hosts behind firewalls or to reach the outside world from inside a bastion host. With multi-hops, TRAMP can negotiate these hops with the appropriate user/host authentication at each hop. All methods until now have been the single hop kind, where the start and end points of the connection did not have intermediate check points. User Option: tramp-default-proxies-alist tramp-default-proxies-alist specifies proxy hosts to pass through. This variable is list of triples consisting of ( host user proxy ). The first match is the proxy host through which passes the file name and the target host matching user @ host . host and user are regular expressions or nil , interpreted as a regular expression which always matches. proxy is a literal TRAMP file name whose local name part is ignored, and the method and user name parts are optional. The method must be an inline or gateway method (see Inline methods , see Gateway methods ). If proxy is nil , no additional hop is required reaching user @ host . For example, to pass through the host ‘ bastion.your.domain ' as user ‘ bird ' to reach remote hosts outside the local domain: (add-to-list 'tramp-default-proxies-alist '("\\." nil "/[ssh /bird @bastion.your.domain]")) (add-to-list 'tramp-default-proxies-alist '("\\.your\\.domain\\'" nil nil)) Note : add-to-list adds elements at the beginning of a list. Therefore, most relevant rules must come last in the list. Proxy hosts can be cascaded in the alist. If there is another host called ‘ jump.your.domain ', which is the only host allowed to connect to ‘ bastion.your.domain ', then: (add-to-list 'tramp-default-proxies-alist '("\\`bastion\\.your\\.domain\\'" "\\`bird\\'" "/[ssh /jump.your.domain]")) proxy can take patterns %h or %u for host or user respectively. To login as ‘ root ' on remote hosts in the domain ‘ your.domain ', but login as ‘ root ' is disabled for non-local access, then use this alist entry: (add-to-list 'tramp-default-proxies-alist '("\\.your\\.domain\\'" "\\`root\\'" "/[ssh /%h]")) Opening /[sudo /randomhost.your.domain] first connects to ‘ randomhost.your.domain ' via ssh under your account name, and then perform sudo -u root on that host. It is key for the sudo method in the above example to be applied on the host after reaching it and not on the local host. host , user and proxy can also take Lisp forms. These forms when evaluated must return either a string or nil . To generalize (from the previous example): For all hosts, except my local one, first connect via ssh , and then apply sudo -u root : (add-to-list 'tramp-default-proxies-alist '(nil "\\`root\\'" "/[ssh /%h]")) (add-to-list 'tramp-default-proxies-alist '((regexp-quote (system-name)) nil nil)) The above configuration allows TRAMP connection as ‘ root ' to remote Ubuntu hosts. tramp-default-proxies-alist is also used for passing through firewalls or proxy servers. For example, the local host ‘ proxy.your.domain ' on port 3128 serves as HTTP proxy to the outer world. User has access rights to another proxy server on ‘ host.other.domain '. 1 Then the configuration is: (add-to-list 'tramp-default-proxies-alist '("\\`host\\.other\\.domain\\'" nil "/[tunnel /proxy.your.domain#3128]")) Gateway methods in a multiple hop chain can be declared only as the first hop. Passing through hops involves dealing with restricted shells, such as rbash . If TRAMP is made aware, then it would use them for proxies only. User Option: tramp-restricted-shell-hosts-alist An alist of regular expressions of hosts running restricted shells, such as rbash . TRAMP will then use them only as proxies. To specify the bastion host from the example above as running a restricted shell: (add-to-list 'tramp-restricted-shell-hosts-alist "\\`bastion\\.your\\.domain\\'") Next: Customizing Completion , Previous: Multi-hops , Up: Configuration [ Contents ][ Index ] 5.10 Using Non-Standard Methods The tramp-methods variable currently has an exhaustive list of predefined methods. Any part of this list can be modified with more suitable settings. Refer to the Lisp documentation of that variable, accessible with C-h v tramp-methods RET . Next: Password handling , Previous: Customizing Methods , Up: Configuration [ Contents ][ Index ] 5.11 Selecting config files for user/host name completion tramp-completion-function-alist uses predefined files for user and host name completion (see File name completion ). For each method, it keeps a set of configuration files and a function that can parse that file. Each entry in tramp-completion-function-alist is of the form ( method pair1 pair2 …). Each pair is composed of ( function file ). function is responsible for extracting user names and host names from file for completion. There are two functions which access this variable: Function: tramp-get-completion-function method This function returns the list of completion functions for method . Example: (tramp-get-completion-function "rsh") ⇒ ((tramp-parse-rhosts "/etc/hosts.equiv") (tramp-parse-rhosts "~/.rhosts")) Function: tramp-set-completion-function method function-list This function sets function-list as list of completion functions for method . Example: (tramp-set-completion-function "ssh" '((tramp-parse-sconfig "/etc/ssh_config") (tramp-parse-sconfig "~/.ssh/config"))) ⇒ ((tramp-parse-sconfig "/etc/ssh_config") (tramp-parse-sconfig "~/.ssh/config")) The following predefined functions parsing configuration files exist: tramp-parse-rhosts This function parses files which are syntactical equivalent to ~/.rhosts . It returns both host names and user names, if specified. tramp-parse-shosts This function parses files which are syntactical equivalent to ~/.ssh/known_hosts . Since there are no user names specified in such files, it can return host names only. tramp-parse-sconfig This function returns the host nicknames defined by Host entries in ~/.ssh/config style files. tramp-parse-shostkeys SSH2 parsing of directories /etc/ssh2/hostkeys/* and ~/ssh2/hostkeys/* . Hosts are coded in file names hostkey_ portnumber _ host-name .pub . User names are always nil . tramp-parse-sknownhosts Another SSH2 style parsing of directories like /etc/ssh2/knownhosts/* and ~/ssh2/knownhosts/* . This case, hosts names are coded in file names host-name . algorithm .pub . User names are always nil . tramp-parse-hosts A function dedicated to /etc/hosts for host names. tramp-parse-passwd A function which parses /etc/passwd files for user names. tramp-parse-netrc A function which parses ~/.netrc and ~/.authinfo -style files. To keep a custom file with custom data in a custom structure, a custom function has to be provided. This function must meet the following conventions: Function: my-tramp-parse file file must be either a file on the host, or nil . The function must return a list of ( user host ), which are taken as candidates for completion for user and host names. Example: (my-tramp-parse "~/.my-tramp-hosts") ⇒ ((nil "toto") ("daniel" "melancholia")) Next: Connection caching , Previous: Customizing Completion , Up: Configuration [ Contents ][ Index ] 5.12 Reusing passwords for several connections To avoid repeated prompts for passwords, consider native caching mechanisms, such as ssh-agent for ssh -like methods, or pageant for plink -like methods. TRAMP offers alternatives when native solutions cannot meet the need. 5.12.1 Using an authentication file The package auth-source.el , originally developed for No Gnus, reads passwords from different sources, See (auth)auth-source . The default authentication file is ~/.authinfo.gpg , but this can be changed via the variable auth-sources . A typical entry in the authentication file: machine melancholia port scp login daniel password geheim The port can take any TRAMP method (see Inline methods , see External methods ). Omitting port values matches all TRAMP methods. Setting auth-source-debug to t to debug messages. 5.12.2 Caching passwords TRAMP can cache passwords as entered and reuse when needed for the same user or host name independent of the access method. password-cache-expiry sets the duration (in seconds) the passwords are remembered. Passwords are never saved permanently nor can they extend beyond the lifetime of the current XEmacs session. Set password-cache-expiry to nil to disable expiration. Set password-cache to nil to disable password caching. Implementation Note : password caching depends on password-cache.el package. TRAMP activates password caching only if TRAMP can discover, while XEmacs is loading, the package through load-path . password.el is available from No Gnus or from the TRAMP contrib directory, see Installation parameters . Next: Predefined connection information , Previous: Password handling , Up: Configuration [ Contents ][ Index ] 5.13 Reusing connection related information For faster initial connection times, TRAMP stores previous connection properties in a file specified by the variable tramp-persistency-file-name . The default file name for tramp-persistency-file-name is: ~/.xemacs/tramp . TRAMP reads this file during XEmacs startup, and writes to it when exiting XEmacs. Delete this file for TRAMP to recreate a new one on next XEmacs startup. Set tramp-persistency-file-name to nil to disable storing connections persistently. To reuse connection information from the persistent list, TRAMP needs to uniquely identify every host. However in some cases, two different connections may result in the same persistent information. For example, connecting to a host using ssh and connecting to the same host through sshd on port 3001. Both access methods result in nearly identical persistent specifications /[ssh /localhost] and /[ssh /localhost#3001] . Changing host names could avoid duplicates. One way is to add a Host section in ~/.ssh/config (see Frequently Asked Questions ). Another way is to apply multiple hops (see Multi-hops ). When TRAMP detects a change in the operating system version in a remote host (via the command uname -sr ), it flushes all connection related information for that host and creates a new entry. Next: Remote programs , Previous: Connection caching , Up: Configuration [ Contents ][ Index ] 5.14 Setting own connection related information For more precise customization, parameters specified by tramp-methods can be overwritten manually. Set tramp-connection-properties to manually override tramp-methods . Properties in this list are in the form ( regexp property value ) . regexp matches remote file names. Use nil to match all. property is the property's name, and value is the property's value. property is any method specific parameter contained in tramp-methods . The parameter key in tramp-methods is a symbol name tramp-<foo> . To overwrite that property, use the string ‘ <foo> ' for property . For example, this changes the remote shell: (add-to-list 'tramp-connection-properties (list (regexp-quote "/[ssh /user @randomhost.your.domain]") "remote-shell" "/bin/ksh")) (add-to-list 'tramp-connection-properties (list (regexp-quote "/[ssh /user @randomhost.your.domain]") "remote-shell-login" '("-"))) The parameters tramp-remote-shell and tramp-remote-shell-login in tramp-methods now have new values for the remote host. property could also be any property found in tramp-persistency-file-name . To get around how restricted shells randomly drop connections, set the special property ‘ busybox '. For example: (add-to-list 'tramp-connection-properties (list (regexp-quote "/[ssh /user @randomhost.your.domain]") "busybox" t)) Next: Remote shell setup , Previous: Predefined connection information , Up: Configuration [ Contents ][ Index ] 5.15 How TRAMP finds and uses programs on the remote host TRAMP requires access to and rights to several commands on remote hosts: ls , test , find and cat . Besides there are other required programs for Inline methods and External methods of connection. To improve performance and accuracy of remote file access, TRAMP uses perl (or perl5 ) and grep when available. User Option: tramp-remote-path tramp-remote-path specifies which remote directory paths TRAMP can search for Remote programs . TRAMP uses standard defaults, such as /bin and /usr/bin , which are reasonable for most hosts. To accommodate differences in hosts and paths, for example, /bin:/usr/bin on Debian GNU/Linux or /usr/xpg4/bin:/usr/ccs/bin:/usr/bin:/opt/SUNWspro/bin on Solaris, TRAMP queries the remote host with getconf PATH and updates the symbol tramp-default-remote-path . For instances where hosts keep obscure locations for paths for security reasons, manually add such paths to local .emacs as shown below for TRAMP to use when connecting. (add-to-list 'tramp-remote-path "/usr/local/perl/bin") Another way to find the remote path is to use the path assigned to the remote user by the remote host. TRAMP does not normally retain this remote path after logging. However, tramp-own-remote-path preserves the path value, which can be used to update tramp-remote-path . (add-to-list 'tramp-remote-path 'tramp-own-remote-path) When remote search paths are changed, local TRAMP caches must be recomputed. To force TRAMP to recompute afresh, exit XEmacs, remove the persistent file (see Connection caching ), and restart XEmacs. Next: Android shell setup , Previous: Remote programs , Up: Configuration [ Contents ][ Index ] 5.16 Remote shell setup hints TRAMP checks for the availability of standard programs in the usual locations. Common tactics include successively trying test -e , /usr/bin/test -e , and /bin/test -e . ls -d is another approach. But these approaches do not help with these new login patterns. When TRAMP encounters two-factor logins or additional challenge questions, such as entering birth date or security code or passphrase, TRAMP needs a few more configuration steps to accommodate them. The difference between a password prompt and a passphrase prompt is that the password for completing the login while the passphrase is for authorizing access to local authentication information, such as the ssh key. There is no one configuration to accommodate all the variations in login security, especially not the exotic ones. However, TRAMP provides a few tweaks to address the most common ones. tramp-shell-prompt-pattern tramp-shell-prompt-pattern is for remote login shell prompt, which may not be the same as the local login shell prompt, shell-prompt-pattern . Since most hosts use identical prompts, TRAMP sets a similar default value for both prompts. tramp-password-prompt-regexp tramp-wrong-passwd-regexp TRAMP uses tramp-password-prompt-regexp to distinguish between prompts for passwords and prompts for passphrases. By default, tramp-password-prompt-regexp handles the detection in English language environments. See a localization example below: (setq tramp-password-prompt-regexp (concat "^.*" (regexp-opt '("passphrase" "Passphrase" ;; English "password" "Password" ;; Deutsch "passwort" "Passwort" ;; Français "mot de passe" "Mot de passe") t) ".*:\0? *")) Similar localization may be necessary for handling wrong password prompts, for which TRAMP uses tramp-wrong-passwd-regexp . tset and other questions To suppress inappropriate prompts for terminal type, TRAMP sets the TERM to dumb before the remote login process begins via the variable tramp-terminal-type . This will silence common tset related prompts. TRAMP 's strategy for handling such prompts (commonly triggered from login scripts on remote hosts) is to set the environment variables so that no prompts interrupt the shell initialization process. An alternative approach is to configure TRAMP with strings that can identify such questions using tramp-actions-before-shell . Example: (defconst my-tramp-prompt-regexp (concat (regexp-opt '("Enter the birth date of your mother:") t) "\\s-*") "Regular expression matching my login prompt question.") (defun my-tramp-action (proc vec) "Enter \"19000101\" in order to give a correct answer." (save-window-excursion (with-current-buffer (tramp-get-connection-buffer vec) (tramp-message vec 6 "\n%s" (buffer-string)) (tramp-send-string vec "19000101")))) (add-to-list 'tramp-actions-before-shell '(my-tramp-prompt-regexp my-tramp-action)) Conflicting names for users and variables in .profile When a user name is the same as a variable name in a local file, such as .profile , then TRAMP may send incorrect values for environment variables. To avoid incorrect values, change the local variable name to something different from the user name. For example, if the user name is FRUMPLE , then change the variable name to FRUMPLE_DIR . Non-Bourne commands in .profile When the remote host's .profile is also used for shells other than Bourne shell, then some incompatible syntaxes for commands in .profile may trigger errors in Bourne shell on the host and may not complete client's TRAMP connections. One example of a Bourne shell incompatible syntax in .profile : using export FOO=bar instead of FOO=bar; export FOO . After remote login, TRAMP will trigger an error during its execution of /bin/sh on the remote host because Bourne shell does not recognize the export command as entered in .profile . Likewise, ( ~ ) character in paths will cause errors because Bourne shell does not do ( ~ ) character expansions. One approach to avoiding these incompatibilities is to make all commands in ~/.shrc and ~/.profile Bourne shell compatible so TRAMP can complete connections to that remote. To accommodate using non-Bourne shells on that remote, use other shell-specific config files. For example, bash can use ~/.bash_profile and ignore .profile . Interactive shell prompt TRAMP redefines the remote shell prompt internally for robust parsing. This redefinition affects the looks of a prompt in an interactive remote shell through commands, such as M-x shell . Such prompts, however, can be reset to something more readable and recognizable using these TRAMP variables. TRAMP sets the INSIDE_EMACS variable in the startup script file ~/.emacs_SHELLNAME . SHELLNAME is bash or equivalent shell names. Change it by setting the environment variable ESHELL in the .emacs as follows: (setenv "ESHELL" "bash") Then re-set the prompt string in ~/.emacs_SHELLNAME as follows: # Reset the prompt for remote Tramp shells. if [ "${INSIDE_EMACS/*tramp*/tramp}" == "tramp" ] ; then PS1="[\u@\h \w]$ " fi busybox / nc TRAMP 's nc method uses the nc command to install and execute a listener as follows (see tramp-methods ): # nc -l -p 42 The above command-line syntax has changed with busybox versions. If nc refuses the -p parameter, then overwrite as follows: (add-to-list 'tramp-connection-properties `(,(regexp-quote "192.168.0.1") "remote-copy-args" (("-l") ("%r")))) where ‘ 192.168.0.1 ' is the remote host IP address (see Predefined connection information ). Next: Auto-save and Backup , Previous: Remote shell setup , Up: Configuration [ Contents ][ Index ] 5.17 Android shell setup hints TRAMP uses the adb method to access Android devices. Android devices provide a restricted shell access through an USB connection. The local host must have Andriod SDK installed. Applications such as SSHDroid that run sshd process on the Android device can accept any ssh -based methods provided these settings are adjusted: sh must be specified for remote shell since Android devices do not provide /bin/sh . sh will then invoke whatever shell is installed on the device with this setting: (add-to-list 'tramp-connection-properties (list (regexp-quote "192.168.0.26") "remote-shell" "sh")) where ‘ 192.168.0.26 ' is the Android device's IP address. (see Predefined connection information ). TRAMP requires preserving PATH environment variable from user settings. Android devices prefer /system/xbin path over /system/bin . Both of these are set as follows: (add-to-list 'tramp-remote-path 'tramp-own-remote-path) (add-to-list 'tramp-remote-path "/system/xbin") When the Android device is not ‘ rooted ', specify a writable directory for temporary files: (add-to-list 'tramp-remote-process-environment "TMPDIR=$HOME") Open a remote connection with the command C-x C-f /[ssh /192.168.0.26#2222] , where sshd is listening on port ‘ 2222 '. To add a corresponding entry to the ~/.ssh/config file (recommended), use this: Host android HostName 192.168.0.26 User root Port 2222 To use the host name ‘ android ' instead of the IP address shown in the previous example, fix the connection properties as follows: (add-to-list 'tramp-connection-properties (list (regexp-quote "android") "remote-shell" "sh")) Open a remote connection with a more concise command C-x C-f /[ssh /android] . Next: Windows setup hints , Previous: Android shell setup , Up: Configuration [ Contents ][ Index ] 5.18 Auto-save and Backup configuration To avoid TRAMP from saving backup files owned by root to locations accessible to others, default backup settings in bkup-backup-directory-info have to be altered. Here's a scenario where files could be inadvertently exposed. XEmacs by default writes backup files to the same directory as the original files unless changed to another location, such as ~/.emacs.d/backups/ . Such a directory will also be used by default by TRAMP when using, say, a restricted file /[su /root @localhost]/etc/secretfile . The backup file of the secretfile is now owned by the user logged in from tramp and not root. When bkup-backup-directory-info is nil (the default), such problems do not occur. To “turns off” the backup feature for TRAMP files and stop TRAMP from saving to the backup directory, use this: (require 'backup-dir) (add-to-list 'bkup-backup-directory-info (list tramp-file-name-regexp "")) Another option is to create better backup file naming with user and host names prefixed to the file name. For example, transforming /etc/secretfile to ~/.emacs.d/backups/!su:root@localhost:!etc!secretfile , set the TRAMP variable tramp-bkup-backup-directory-info from the existing variable bkup-backup-directory-info . Then TRAMP backs up to a file name that is transformed with a prefix consisting of the DIRECTORY name. This file name prefixing happens only when the DIRECTORY is an absolute local file name. Example: (require 'backup-dir) (add-to-list 'bkup-backup-directory-info (list "." "~/.emacs.d/backups/" 'full-path)) (setq tramp-bkup-backup-directory-info bkup-backup-directory-info) The backup file name of /[su /root @localhost]/etc/secretfile would be /[su /root @localhost]~/.emacs.d/backups/![su!root@localhost]!etc!secretfile~ Just as for backup files, similar issues of file naming affect auto-saving TRAMP files. auto-save-directory can also be used here instead of other locations specfied above. Previous: Auto-save and Backup , Up: Configuration [ Contents ][ Index ] 5.19 Issues with Cygwin ssh This section is incomplete. Please share your solutions. Cygwin's ssh works only with a Cygwin version of XEmacs. To check for compatibility: type M-x eshell , and start ssh test.host . Incompatbilities trigger this message: Pseudo-terminal will not be allocated because stdin is not a terminal. Some older versions of Cygwin's ssh work with the sshx access method. Consult Cygwin's FAQ at http://cygwin.com/faq/ for details. When using the scpx access method, XEmacs may call scp with Windows file naming, such as c:/foo . But the version of scp that is installed with Cygwin does not know about Windows file naming, which causes it to incorrectly look for a host named c . A workaround: write a wrapper script for scp to convert Windows file names to Cygwin file names. When using the ssh-agent on Windows for password-less interaction, ssh methods depend on the environment variable SSH_AUTH_SOCK . But this variable is not set when XEmacs is started from a Desktop shortcut and authentication fails. One workaround is to use a Windows based SSH Agent, such as Pageant. It is part of the Putty Suite of tools. The fallback is to start XEmacs from a shell. Next: Bug Reports , Previous: Configuration , Up: Top [ Contents ][ Index ] 6 Using TRAMP TRAMP operates transparently, accessing remote files as if they are local. However, TRAMP employs a formalized remote file naming syntax to perform its functions transparently. This syntax consists of many parts specifying access methods, authentication, host names, and file names. Unlike opening local files in XEmacs, which are instantaneous, opening remote files in TRAMP is slower at first. Sometimes there is a noticable delay before the prompts for passwords or authentication appear in the minibuffer. Hitting RET or other keys during this gap will be processed by XEmacs. This type-ahead facility is a feature of XEmacs that may cause missed prompts when using TRAMP . • File name Syntax : TRAMP file name conventions. • File name completion : File name completion. • Ad-hoc multi-hops : Declaring multiple hops in the file name. • Remote processes : Integration with other XEmacs packages. • Cleanup remote connections : Cleanup remote connections. Next: File name completion , Up: Usage [ Contents ][ Index ] 6.1 TRAMP file name conventions /[host]localfilename opens file localfilename on the remote host host , using the default method. See Default Method . /[melancholia].emacs For the file .emacs located in the home directory, on the host melancholia . /[melancholia.danann.net].emacs For the file .emacs specified using the fully qualified domain name of the host. /[melancholia]~/.emacs For the file .emacs specified using the ~ , which is expanded. /[melancholia]~daniel/.emacs For the file .emacs located in daniel 's home directory on the host, melancholia . The ~<user> construct is expanded to the home directory of that user on the remote host. /[melancholia]/etc/squid.conf For the file /etc/squid.conf on the host melancholia . host can take IPv4 or IPv6 address, as in /[127.0.0.1].emacs or /[::1].emacs . By default, TRAMP will use the current local user name as the remote user name for log in to the remote host. Specifying a different name using the proper syntax will override this default behavior: /[user @host]path/to.file /[daniel @melancholia].emacs is for file .emacs in daniel 's home directory on the host, melancholia . Specify other file access methods (see Inline methods , see External methods ) as part of the file name. This is done by replacing the initial /[ with /[ method / (Note the trailing slash!). The syntax specificaton for user, host, and file do not change. To connect to the host melancholia as daniel , using ssh method for .emacs in daniel 's home directory, the full specification is: /[ssh /daniel @melancholia].emacs . A remote file name containing a host name, which is the same string as a method name, is not allowed. For specifying port numbers, affix #<port> to the host name. For example: /[ssh /daniel @melancholia#42].emacs . Next: Ad-hoc multi-hops , Previous: File name Syntax , Up: Usage [ Contents ][ Index ] 6.2 File name completion TRAMP can complete the following TRAMP file name components: method names, user names, host names, and file names located on remote hosts. For example, type C-x C-f /[t TAB , TRAMP completion choices show up as [telnet/ [toto] ‘ [telnet/ ' is a possible completion for the respective method, and ‘ [toto] ' might be a host TRAMP has detected in your ~/.ssh/known_hosts file (when using ssh as default method). Type e TAB for the minibuffer completion to ‘ /[telnet/ '. Typing TAB shows host names TRAMP from /etc/hosts file, for example. /[telnet /127.0.0.1] /[telnet /192.168.0.1] /[telnet /::1] /[telnet /localhost] /[telnet /melancholia.danann.net] /[telnet /melancholia] Choose a host from the above list and then continue to complete file names on that host. When the configuration (see Customizing Completion ) includes user names, then the completion lists will account for the user names as well. Remote hosts previously visited or hosts whose connections are kept persistently (see Connection caching ) will be included in the completion lists. After remote host name completion comes completion of file names on the remote host. It works the same as on loal host file completion except when killing with double-slash // kills only the file name part of the TRAMP file name syntax. Example: C-x C-f /[telnet /melancholia]/usr/local/bin// -| /[telnet /melancholia]/ C-x C-f /[telnet /melancholia]// -| / During file name completion, remote directory contents are re-read regularly to account for any changes in the filesystem that may affect the completion candidates. Such re-reads can account for changes to the file system by applications outside XEmacs (see Connection caching ). User Option: tramp-completion-reread-directory-timeout The timeout is number of seconds since last remote command for rereading remote directory contents. 0 re-reads immediately during file name completion, nil uses cached directory contents. Next: Remote processes , Previous: File name completion , Up: Usage [ Contents ][ Index ] 6.3 Declaring multiple hops in the file name TRAMP file name syntax can accommodate ad hoc specification of multiple proxies without using tramp-default-proxies-alist configuration setup(see Multi-hops ). Each proxy is specified using the same syntax as the remote host specification minus the file name part. Each hop is separated by a ‘ | '. Chain the proxies from the starting host to the destination remote host name and file name. For example, hopping over a single proxy ‘ bird@bastion ' to a remote file on ‘ you@remotehost ': C-x C-f /[ssh/bird@bastion|ssh/you@remotehost]/path Proxies can take patterns %h or %u . TRAMP adds the ad-hoc definitions on the fly to tramp-default-proxies-alist and is available for re-use during that XEmacs session. Subsequent TRAMP connections to the same remote host can then use the shortcut form: ‘ /[ssh /you @remotehost]/path '. User Option: tramp-save-ad-hoc-proxies For ad-hoc definitions to be saved automatically in tramp-default-proxies-alist for future XEmacs sessions, set tramp-save-ad-hoc-proxies . (setq tramp-save-ad-hoc-proxies t) Next: Cleanup remote connections , Previous: Ad-hoc multi-hops , Up: Usage [ Contents ][ Index ] 6.4 Integration with other XEmacs packages TRAMP supports starting new running processes on the remote host for discovering remote file names. XEmacs packages on the remote host need no specific modifications for TRAMP 's use. This type of integration does not work with the ftp method, and does not support the pty association as specified in start-file-process . process-file and start-file-process work on the remote host when the variable default-directory is remote: (let ((default-directory "/ssh:remote.host:")) (start-file-process "grep" (get-buffer-create "*grep*") "/bin/sh" "-c" "grep -e tramp *")) Remote processes do not apply to GVFS (see GVFS based methods ) because the remote file system is mounted on the local host and TRAMP just accesses by changing the default-directory . TRAMP starts a remote process when a command is executed in a remote file or directory buffer. As of now, these packages have been integrated to work with TRAMP : compile.el (commands like compile and grep ) and gud.el ( gdb or perldb ). For TRAMP to find the command on the remote, it must be accessible through the default search path as setup by TRAMP upon first connection. Alternatively, use an absolute path or extend tramp-remote-path (see Remote programs ): (add-to-list 'tramp-remote-path "~/bin") (add-to-list 'tramp-remote-path "/appli/pub/bin") Customize tramp-remote-process-environment to suit the remote program's environment for the remote host. tramp-remote-process-environment is a list of strings structured similar to process-environment , where each element is a string of the form ‘ ENVVARNAME=VALUE '. To avoid any conflicts with local host variables set through local configuration files, such as ~/.profile , use ‘ ENVVARNAME= ' to unset them for the remote environment. Use add-to-list to add entries: (add-to-list 'tramp-remote-process-environment "JAVA_HOME=/opt/java") Modifying or deleting already existing values in the tramp-remote-process-environment list may not be feasible on restricted remote hosts. For example, some system administrators disallow changing HISTORY variable. To accommodate such restrictions when using TRAMP , fix the tramp-remote-process-environment by the following code in the local .emacs file: (let ((process-environment tramp-remote-process-environment)) (setenv "HISTORY" nil) (setq tramp-remote-process-environment process-environment)) TRAMP does not use the defaults specified in process-environment for running process-file or start-file-process on remote hosts. When values from process-environment are needed for remote processes, then set them as follows: (let ((process-environment (cons "HGPLAIN=1" process-environment))) (process-file …)) This works only for environment variables not already set in the process-environment . For integrating other XEmacs packages so TRAMP can execute remotely, please file a bug report. See Bug Reports . 6.4.1 Running remote programs that create local X11 windows To allow a remote program to create an X11 window on the local host, set the DISPLAY environment variable for the remote host as follows in the local .emacs file: (add-to-list 'tramp-remote-process-environment (format "DISPLAY=%s" (getenv "DISPLAY"))) (getenv "DISPLAY") should return a recognizable name for the local host that the remote host can redirect X11 window interactions. If querying for a recognizable name is not possible for whatever reason, then replace (getenv "DISPLAY") with a hard-coded, fixed name. Note that using :0 for X11 display name here will not work as expected. An alternate approach is specify ForwardX11 yes or ForwardX11Trusted yes in the file ~/.ssh/config on the local host. 6.4.2 Running shell on a remote host Set explicit-shell-file-name to the appropriate shell name when using TRAMP between two hosts with different operating systems, such as ‘ windows-nt ' and ‘ gnu/linux '. This option ensures the correct name of the remote shell program. 6.4.3 Running shell-command on a remote host shell-command executes commands synchronously or asynchronously on remote hosts and displays output in buffers on the local host. Example: C-x C-f /[sudo /] RET M-! tail -f /var/log/syslog.log & RET tail command outputs continuously to the local buffer, *Async Shell Command* 6.4.4 Running eshell on a remote host TRAMP is integrated into eshell.el , which enables interactive eshell sessions on remote hosts at the command prompt. You must add the module eshell-tramp to eshell-modules-list . Here's a sample interaction after opening M-x eshell on a remote host: ~ $ cd /[sudo /]/etc RET /[sudo /root @host]/etc $ hostname RET host /[sudo /root @host]/etc $ id RET uid=0(root) gid=0(root) groups=0(root) /[sudo /root @host]/etc $ find-file shadow RET #<buffer shadow> /[sudo /root @host]/etc $ 6.4.5 Running a debugger on a remote host gud.el provides a unified interface to symbolic debuggers TRAMP can run debug on remote hosts by calling gdb with a remote file name: M-x gdb RET Run gdb (like this): gdb --annotate=3 /[ssh /host]~/myprog RET Relative file names are based on the remote default directory. When myprog.pl exists in /[ssh /host]/home/user , valid calls include: M-x perldb RET Run perldb (like this): perl -d myprog.pl RET Just the local part of a remote file name, such as perl -d /home/user/myprog.pl , is not possible. Arguments of the program to be debugged must be literal, can take relative or absolute paths, but not remote paths. 6.4.6 Running remote processes on Windows hosts winexe runs processes on a remote Windows host, and TRAMP can use it for process-file and start-file-process . tramp-smb-winexe-program specifies the local winexe command. Powershell V2.0 on the remote host is required to run processes triggered from TRAMP . explicit-shell-file-name and explicit-*-args have to be set properly so M-x shell can open a proper remote shell on a Windows host. To open cmd , set it as follows: (setq explicit-shell-file-name "cmd" explicit-cmd-args '("/q")) To open powershell as a remote shell, use this: (setq explicit-shell-file-name "powershell" explicit-powershell-args '("-file" "-")) Previous: Remote processes , Up: Usage [ Contents ][ Index ] 6.5 Cleanup remote connections TRAMP provides several ways to flush remote connections. Command: tramp-cleanup-connection vec This command flushes all connection related objects. vec is the internal representation of a remote connection. When called interactively, this command lists active remote connections in the minibuffer. Each connection is of the format /[method /user @host] . Flushing remote connections also cleans the password cache (see Password handling ), file cache, connection cache (see Connection caching ), and connection buffers. Command: tramp-cleanup-this-connection Flushes only the current buffer's remote connection objects, the same as in tramp-cleanup-connection . Command: tramp-cleanup-all-connections Flushes all active remote connection objects, the same as in tramp-cleanup-connection . Command: tramp-cleanup-all-buffers Just as for tramp-cleanup-all-connections , all remote connections are cleaned up in addition to killing buffers related to that remote connection. Next: Frequently Asked Questions , Previous: Usage , Up: Top [ Contents ][ Index ] 7 Reporting Bugs and Problems TRAMP 's development team is actively engaged in solving bugs and problems and looks to feature requests and suggestions. TRAMP 's mailing list is the place for more advice and information on working with TRAMP , solving problems, discussing, and general discussions about TRAMP . TRAMP 's mailing list is moderated but even non-subscribers can post for moderator approval. Sometimes this approval step may take as long as 48 hours due to public holidays. tramp-devel@gnu.org is the mailing list. Messages sent to this address go to all the subscribers. This is not the address to send subscription requests to. To subscribe to the mailing list, visit: the TRAMP Mail Subscription Page . Check if the bug or problem is already addressed in See Frequently Asked Questions . Run M-x tramp-bug to generate a buffer with details of the system along with the details of the TRAMP installation. Please include these details with the bug report. The bug report must describe in as excruciating detail as possible the steps required to reproduce the problem. These details must include the setup of the remote host and any special or unique conditions that exist. Include a minimal test case that reproduces the problem. This will help the development team find the best solution and avoid unrelated detours. To exclude cache-related problems, flush all caches before running the test, Cleanup remote connections . When including TRAMP 's messages in the bug report, increase the verbosity level to 6 (see Traces ) in the ~/.emacs file before repeating steps to the bug. Include the contents of the *tramp/foo* and *debug tramp/foo* buffers with the bug report. Note that a verbosity level greater than 6 is not necessary at this stage. Also note that a verbosity level of 6 or greater, the contents of files and directories will be included in the debug buffer. Passwords typed in TRAMP will never be included there. Next: Files directories and localnames , Previous: Bug Reports , Up: Top [ Contents ][ Index ] 8 Frequently Asked Questions Where is the latest TRAMP ? TRAMP is available at the GNU URL: ftp://ftp.gnu.org/gnu/tramp/ TRAMP 's GNU project page is located here: http://savannah.gnu.org/projects/tramp/ Which systems does it work on? The package works successfully on Emacs 22, Emacs 23, Emacs 24, Emacs 25, XEmacs 21 (starting with 21.4), and SXEmacs 22. While Unix and Unix-like systems are the primary remote targets, TRAMP has equal success connecting to other platforms, such as MS Windows XP/Vista/7. How to speed up TRAMP ? TRAMP does many things in the background, some of which depends on network speeds, response speeds of remote hosts, and authentication delays. During these operations, TRAMP 's responsiveness slows down. Some suggestions within the scope of TRAMP 's settings include: Use an external method, such as scp , which are faster than internal methods. Keep the file tramp-persistency-file-name , which is where TRAMP caches remote information about hosts and files. Caching is enabled by default. Don't disable it. Set remote-file-name-inhibit-cache to nil if remote files are not independently updated outside TRAMP 's control. That cache cleanup will be necessary if the remote directories or files are updated independent of TRAMP . Set tramp-completion-reread-directory-timeout to nil to speed up completions, File name completion . Disable version control to avoid delays: (setq vc-ignore-dir-regexp (format "\\(%s\\)\\|\\(%s\\)" vc-ignore-dir-regexp tramp-file-name-regexp)) Disable excessive traces. Set tramp-verbose to 3 or lower, default being 3. Increase trace levels temporarily when hunting for bugs. TRAMP does not connect to the remote host Three main reasons for why TRAMP does not connect to the remote host: - Unknown characters in the prompt TRAMP needs a clean recognizable prompt on the remote host for accurate parsing. Shell prompts that contain escape sequences for coloring cause parsing problems. Remote shell setup for customizing prompt detection using regular expressions. To check if the remote host's prompt is being recognized, use this test: switch to TRAMP connection buffer *tramp/foo* , put the cursor at the top of the buffer, and then apply the following expression: M-: (re-search-forward (concat tramp-shell-prompt-pattern "$")) If the cursor has not moved to the prompt at the bottom of the buffer, then TRAMP has failed to recognize the prompt. When using zsh on remote hosts, disable zsh line editor because zsh uses left-hand side and right-hand side prompts in parallel. Add the following line to ~/.zshrc : [ $TERM = "dumb" ] && unsetopt zle && PS1='$ ' When using fish shell on remote hosts, disable fancy formatting by adding the following to ~/.config/fish/config.fish : function fish_prompt if test $TERM = "dumb" echo "\$ " else … end end When using WinSSHD on remote hosts, TRAMP do not recognize the strange prompt settings. - Echoed characters after login TRAMP suppresses echos from remote hosts with the stty -echo command. But sometimes it is too late to suppress welcome messages from the remote host containing harmful control characters. Using sshx or scpx methods can avoid this problem because they allocate a pseudo tty. See Inline methods . - TRAMP stops transferring strings longer than 500 characters Set tramp-chunksize to 500 to get around this problem, which is related to faulty implementation of process-send-string on HP-UX, FreeBSD and Tru64 Unix systems. Consult the documentation for tramp-chunksize to see when this is necessary. Set file-precious-flag to t for files accessed by TRAMP so the file contents are checked using checksum by first saving to a temporary file. (add-hook 'find-file-hook (lambda () (when (file-remote-p default-directory) (set (make-local-variable 'file-precious-flag) t)))) TRAMP does not recognize if a ssh session hangs ssh sessions on the local host hang when the network is down. TRAMP cannot safely detect such hangs. The network configuration for ssh can be configured to kill such hangs with the following command in the ~/.ssh/config : Host * ServerAliveInterval 5 TRAMP does not use default ssh ControlPath TRAMP overwrites ControlPath settings when initiating ssh sessions. TRAMP does this to fend off a stall if a master session opened outside the XEmacs session is no longer open. That is why TRAMP prompts for the password again even if there is an ssh already open. Some ssh versions support a ControlPersist option, which allows to set the ControlPath provided the variable tramp-ssh-controlmaster-options is customized as follows: (setq tramp-ssh-controlmaster-options (concat "-o ControlPath=/tmp/ssh-ControlPath-%%r@%%h:%%p " "-o ControlMaster=auto -o ControlPersist=yes")) Note how "%r", "%h" and "%p" must be encoded as "%%r", "%%h" and "%%p". If the ~/.ssh/config is configured appropriately for the above behavior, then any changes to ssh can be suppressed with this nil setting: (setq tramp-use-ssh-controlmaster-options nil) File name completion does not work with TRAMP ANSI escape sequences from the remote shell may cause errors in TRAMP 's parsing of remote buffers. To test if this is the case, open a remote shell and check if the output of ls is in color. To disable ANSI escape sequences from the remote hosts, disable --color=yes or --color=auto in the remote host's .bashrc or .profile . Turn this alias on and off to see if file name completion works. File name completion does not work in directories with large number of files This may be related to globbing, which is the use of shell's ability to expand wild card specifications, such as ‘ *.c '. For directories with large number of files, globbing might exceed the shell's limit on length of command lines and hang. TRAMP uses globbing. To test if globbing hangs, open a shell on the remote host and then run ‘ ls -d * ..?* > /dev/null '. When testing, ensure the remote shell is the same shell ( /bin/sh , ksh or bash ), that TRAMP uses when connecting to that host. How to get notified after TRAMP completes file transfers? Make XEmacs beep after reading from or writing to the remote host with the following code in ~/.emacs file. (defadvice tramp-handle-write-region (after tramp-write-beep-advice activate) "Make tramp beep after writing a file." (interactive) (beep)) (defadvice tramp-handle-do-copy-or-rename-file (after tramp-copy-beep-advice activate) "Make tramp beep after copying a file." (interactive) (beep)) (defadvice tramp-handle-insert-file-contents (after tramp-insert-beep-advice activate) "Make tramp beep after inserting a file." (interactive) (beep)) Why is ~/.sh_history file on the remote host growing? Due to ksh saving tilde expansions triggered by TRAMP , the history file is probably growing rapidly. To fix, turn off saving history by putting this shell code in the .kshrc file: if [ -f $HOME/.sh_history ] ; then /bin/rm $HOME/.sh_history fi if [ "${HISTFILE-unset}" != "unset" ] ; then unset HISTFILE fi if [ "${HISTSIZE-unset}" != "unset" ] ; then unset HISTSIZE fi For ssh -based method, add the following line to your ~/.ssh/environment file: HISTFILE=/dev/null How to shorten long file names when typing in TRAMP ? Adapt several of these approaches to reduce typing. If the full name is /[ssh /news @news.my.domain]/opt/news/etc , then: Use default values for method name and user name: You can define default methods and user names for hosts, (see Default Method , see Default User ): (setq tramp-default-method "ssh" tramp-default-user "news") The reduced typing: C-x C-f /[news.my.domain]/opt/news/etc . Note that there are some useful shortcuts already. Accessing your local host as ‘ root ' user, is possible just by C-x C-f /[su /] . Use configuration options of the access method: Programs used for access methods already offer powerful configurations (see Customizing Completion ). For ssh , configure the file ~/.ssh/config : Host xy HostName news.my.domain User news The reduced typing: C-x C-f /[ssh /xy]/opt/news/etc . Depending on the number of files in the directories, host names completion can further reduce key strokes: C-x C-f /[ssh/x TAB . Use environment variables to expand long strings For long file names, set up environment variables that are expanded in the minibuffer. Environment variables are set either outside XEmacs or inside XEmacs with Lisp: (setenv "xy" "/[ssh /news @news.my.domain]/opt/news/etc/") The reduced typing: C-x C-f $xy RET . Note that file name cannot be edited here because the environment variables are not expanded during editing in the minibuffer. Define own keys: Redefine another key sequence in XEmacs for C-x C-f : (global-set-key [(control x) (control y)] (lambda () (interactive) (find-file (read-file-name "Find Tramp file: " "/[ssh /news @news.my.domain]/opt/news/etc/")))) Simply typing C-x C-y would prepare minibuffer editing of file name. See the Emacs Wiki for a more comprehensive example. Define own abbreviation (1): Abbreviation list expansion can be used to reduce typing long file names: (add-to-list 'directory-abbrev-alist '("^/xy" . "/[ssh /news @news.my.domain]/opt/news/etc/")) The reduced typing: C-x C-f /xy RET . Note that file name cannot be edited here because the environment variables are not expanded during editing in the minibuffer. Define own abbreviation (2): The abbrev-mode gives additional flexibility for editing in the minibuffer: (define-abbrev-table 'my-tramp-abbrev-table '(("xy" "/[ssh /news @news.my.domain]/opt/news/etc/"))) (add-hook 'minibuffer-setup-hook (lambda () (abbrev-mode 1) (setq local-abbrev-table my-tramp-abbrev-table))) (defadvice minibuffer-complete (before my-minibuffer-complete activate) (expand-abbrev)) ;; If you use partial-completion-mode (defadvice PC-do-completion (before my-PC-do-completion activate) (expand-abbrev)) The reduced typing: C-x C-f xy TAB . The minibuffer expands for further editing. Use bookmarks: Use bookmarks to save Tramp file names. Upon visiting a location with TRAMP , save it as a bookmark with menu-bar view bookmarks set . To revisit that bookmark: menu-bar view bookmarks jump . Use recent files: recent-files remembers visited places. Keep remote file names in the recent list without have to check for their accessibility through remote access: (recent-files-initialize) (add-hook 'find-file-hook (lambda () (when (file-remote-p (buffer-file-name)) (recent-files-make-permanent))) 'append) Reaching recently opened files: menu-bar Recent Files . Thanks to TRAMP users for contributing to these recipes. Why saved multi-hop file names do not work in a new XEmacs session? When saving ad-hoc multi-hop TRAMP file names (see Ad-hoc multi-hops ) via bookmarks, recent files, or another package, use the full ad-hoc file name including all hops, like /[ssh /bird @bastion|ssh/news.my.domain]/opt/news/etc . Alternatively, when saving abbreviated multi-hop file names /[ssh /news @news.my.domain]/opt/news/etc , the custom option tramp-save-ad-hoc-proxies must be set non- nil value. How to disable other packages from calling TRAMP ? There are packages that call TRAMP without the user ever entering a remote file name. Even without applying a remote file syntax, some packages enable TRAMP on their own. How can users disable such features. - ido.el Disable TRAMP file name completion: (custom-set-variables '(ido-enable-tramp-completion nil)) - rlogin.el Disable remote directory tracking mode: (rlogin-directory-tracking-mode -1) How to disable TRAMP ? - To disable both TRAMP , set tramp-mode to nil in .emacs . (setq tramp-mode nil) - To unload TRAMP , type M-x tramp-unload-tramp . Next: Traces and Profiles , Previous: Frequently Asked Questions , Up: Top [ Contents ][ Index ] 9 How file names, directories and localnames are mangled and managed. • Localname deconstruction : Splitting a localname into its component parts. Up: Files directories and localnames [ Contents ][ Index ] 9.1 Splitting a localname into its component parts TRAMP package redefines lisp functions file-name-directory and file-name-nondirectory to accommodate the unique file naming syntax that TRAMP requires. The replacements dissect the file name, use the original handler for the localname, take that result, and then re-build the TRAMP file name. By relying on the original handlers for localnames, TRAMP benefits from platform specific hacks to the original handlers. Next: Issues , Previous: Files directories and localnames , Up: Top [ Contents ][ Index ] 10 How to Customize Traces TRAMP messages are raised with verbosity levels ranging from 0 to 10. TRAMP does not display all messages; only those with a verbosity level less than or equal to tramp-verbose . The verbosity levels are 0 silent (no TRAMP messages at all) 1 errors 2 warnings 3 connection to remote hosts (default verbosity) 4 activities 5 internal 6 sent and received strings 7 file caching 8 connection properties 9 test commands 10 traces (huge) With tramp-verbose greater than or equal to 4, messages are also written to a TRAMP debug buffer. Such debug buffers are essential to bug and problem analyses. For TRAMP bug reports, set the tramp-verbose level to 6 (see Bug Reports ). The debug buffer is in Outline Mode. In this buffer, messages can be filtered by their level. To see messages up to verbosity level 5, enter C-u 6 C-c C-q . TRAMP handles errors internally. But to get a Lisp backtrace, both the error and the signal have to be set as follows: (setq debug-on-error t debug-on-signal t) To enable stepping through TRAMP function call traces, they have to be specifically enabled as shown in this code: (require 'trace) (dolist (elt (all-completions "tramp-" obarray 'functionp)) (trace-function-background (intern elt))) (untrace-function 'tramp-read-passwd) (untrace-function 'tramp-gw-basic-authentication) The buffer *trace-output* contains the output from the function call traces. Disable tramp-read-passwd and tramp-gw-basic-authentication to stop password strings from being written to *trace-output* . Next: GNU Free Documentation License , Previous: Traces and Profiles , Up: Top [ Contents ][ Index ] 11 Debatable Issues and What Was Decided The uuencode method does not always work. uudecode on some systems cannot write to stdout, but TRAMP depends on encoding and decoding programs to be able to read from stdin and write to stdout. We can find ways to circumvent uudecode 's ability to write to stdout, such as writing to a temporary file and then piping that to stdout. But I have decided not to implement workarounds as they are too fragile to work reliably. Some on systems, TRAMP will not have uuencode method. The TRAMP file name syntax differs between Emacs and XEmacs. The Emacs maintainers wish to use a unified file name syntax for Ange-FTP and TRAMP so that users don't have to learn yet another syntax though it is okay to learn new extensions. For the XEmacs maintainers, the disruption from a unified file name syntax are not worth the gains. Firstly, the XEmacs package system relies on EFS for downloading new packages and therefore is already installed. On the other hand, TRAMP is not installed by default in XEmacs. Unifying will require TRAMP installed from the start. Note: To make the syntax similar to EFS, make this change to the init file: (setq tramp-unified-filenames t) (require 'tramp) To disable auto loading XEmacs TRAMP package, set file permissions of …/xemacs-packages/lisp/tramp/auto-autoloads.el* to 000 . When using unified file names, XEmacs download sites are added to tramp-default-method-alist with default method of ftp See Default Method for proper working of the XEmacs package system. The syntax for unified file names is described in the TRAMP manual for Emacs. Next: Function Index , Previous: Issues , Up: Top [ Contents ][ Index ] Appendix A GNU Free Documentation License Version 1.3, 3 November 2008 Copyright © 2000, 2001, 2002, 2007, 2008, 2009 Free Software Foundation, Inc. http://fsf.org/ Everyone is permitted to copy and distribute verbatim copies of this license document, but changing it is not allowed. PREAMBLE The purpose of this License is to make a manual, textbook, or other functional and useful document free in the sense of freedom: to assure everyone the effective freedom to copy and redistribute it, with or without modifying it, either commercially or noncommercially. Secondarily, this License preserves for the author and publisher a way to get credit for their work, while not being considered responsible for modifications made by others. This License is a kind of “copyleft”, which means that derivative works of the document must themselves be free in the same sense. It complements the GNU General Public License, which is a copyleft license designed for free software. We have designed this License in order to use it for manuals for free software, because free software needs free documentation: a free program should come with manuals providing the same freedoms that the software does. But this License is not limited to software manuals; it can be used for any textual work, regardless of subject matter or whether it is published as a printed book. We recommend this License principally for works whose purpose is instruction or reference. APPLICABILITY AND DEFINITIONS This License applies to any manual or other work, in any medium, that contains a notice placed by the copyright holder saying it can be distributed under the terms of this License. Such a notice grants a world-wide, royalty-free license, unlimited in duration, to use that work under the conditions stated herein. The “Document”, below, refers to any such manual or work. Any member of the public is a licensee, and is addressed as “you”. You accept the license if you copy, modify or distribute the work in a way requiring permission under copyright law. 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TERMINATION You may not copy, modify, sublicense, or distribute the Document except as expressly provided under this License. Any attempt otherwise to copy, modify, sublicense, or distribute it is void, and will automatically terminate your rights under this License. However, if you cease all violation of this License, then your license from a particular copyright holder is reinstated (a) provisionally, unless and until the copyright holder explicitly and finally terminates your license, and (b) permanently, if the copyright holder fails to notify you of the violation by some reasonable means prior to 60 days after the cessation. Moreover, your license from a particular copyright holder is reinstated permanently if the copyright holder notifies you of the violation by some reasonable means, this is the first time you have received notice of violation of this License (for any work) from that copyright holder, and you cure the violation prior to 30 days after your receipt of the notice. Termination of your rights under this section does not terminate the licenses of parties who have received copies or rights from you under this License. If your rights have been terminated and not permanently reinstated, receipt of a copy of some or all of the same material does not give you any rights to use it. FUTURE REVISIONS OF THIS LICENSE The Free Software Foundation may publish new, revised versions of the GNU Free Documentation License from time to time. Such new versions will be similar in spirit to the present version, but may differ in detail to address new problems or concerns. See http://www.gnu.org/copyleft/ . Each version of the License is given a distinguishing version number. If the Document specifies that a particular numbered version of this License “or any later version” applies to it, you have the option of following the terms and conditions either of that specified version or of any later version that has been published (not as a draft) by the Free Software Foundation. If the Document does not specify a version number of this License, you may choose any version ever published (not as a draft) by the Free Software Foundation. If the Document specifies that a proxy can decide which future versions of this License can be used, that proxy's public statement of acceptance of a version permanently authorizes you to choose that version for the Document. RELICENSING “Massive Multiauthor Collaboration Site” (or “MMC Site”) means any World Wide Web server that publishes copyrightable works and also provides prominent facilities for anybody to edit those works. A public wiki that anybody can edit is an example of such a server. A “Massive Multiauthor Collaboration” (or “MMC”) contained in the site means any set of copyrightable works thus published on the MMC site. “CC-BY-SA” means the Creative Commons Attribution-Share Alike 3.0 license published by Creative Commons Corporation, a not-for-profit corporation with a principal place of business in San Francisco, California, as well as future copyleft versions of that license published by that same organization. “Incorporate” means to publish or republish a Document, in whole or in part, as part of another Document. An MMC is “eligible for relicensing” if it is licensed under this License, and if all works that were first published under this License somewhere other than this MMC, and subsequently incorporated in whole or in part into the MMC, (1) had no cover texts or invariant sections, and (2) were thus incorporated prior to November 1, 2008. The operator of an MMC Site may republish an MMC contained in the site under CC-BY-SA on the same site at any time before August 1, 2009, provided the MMC is eligible for relicensing. ADDENDUM: How to use this License for your documents To use this License in a document you have written, include a copy of the License in the document and put the following copyright and license notices just after the title page: Copyright (C) year your name . Permission is granted to copy, distribute and/or modify this document under the terms of the GNU Free Documentation License, Version 1.3 or any later version published by the Free Software Foundation; with no Invariant Sections, no Front-Cover Texts, and no Back-Cover Texts. A copy of the license is included in the section entitled ``GNU Free Documentation License''. If you have Invariant Sections, Front-Cover Texts and Back-Cover Texts, replace the “with…Texts.” line with this: with the Invariant Sections being list their titles , with the Front-Cover Texts being list , and with the Back-Cover Texts being list . If you have Invariant Sections without Cover Texts, or some other combination of the three, merge those two alternatives to suit the situation. If your document contains nontrivial examples of program code, we recommend releasing these examples in parallel under your choice of free software license, such as the GNU General Public License, to permit their use in free software. Next: Variable Index , Previous: GNU Free Documentation License , Up: Top [ Contents ][ Index ] Function Index Jump to: M T Index Entry Section M my-tramp-parse : Customizing Completion T tramp-bug : Bug Reports tramp-cleanup-all-buffers : Cleanup remote connections tramp-cleanup-all-connections : Cleanup remote connections tramp-cleanup-connection : Cleanup remote connections tramp-cleanup-this-connection : Cleanup remote connections tramp-get-completion-function : Customizing Completion tramp-parse-hosts : Customizing Completion tramp-parse-netrc : Customizing Completion tramp-parse-passwd : Customizing Completion tramp-parse-rhosts : Customizing Completion tramp-parse-shostkeys : Customizing Completion tramp-parse-shostkeys : Customizing Completion tramp-parse-shosts : Customizing Completion tramp-parse-shosts : Customizing Completion tramp-set-completion-function : Customizing Completion Jump to: M T Next: Concept Index , Previous: Function Index , Up: Top [ Contents ][ Index ] Variable Index Jump to: A B P T Index Entry Section A auth-sources : Password handling B bkup-backup-directory-info : Auto-save and Backup P password-cache : Password handling password-cache-expiry : Password handling T tramp-actions-before-shell : Remote shell setup tramp-completion-function-alist : Customizing Completion tramp-completion-reread-directory-timeout : File name completion tramp-completion-reread-directory-timeout : File name completion tramp-connection-properties : Predefined connection information tramp-default-host : Default Host tramp-default-host-alist : Default Host tramp-default-method : Default Method tramp-default-method-alist : Default Method tramp-default-proxies-alist : Multi-hops tramp-default-proxies-alist : Multi-hops tramp-default-remote-path : Remote programs tramp-default-user : Default User tramp-default-user-alist : Default User tramp-gvfs-methods : GVFS based methods tramp-gvfs-methods : GVFS based methods tramp-own-remote-path : Remote programs tramp-password-prompt-regexp : Remote shell setup tramp-persistency-file-name : Connection caching tramp-remote-path : Remote programs tramp-remote-path : Remote programs tramp-restricted-shell-hosts-alist : Multi-hops tramp-restricted-shell-hosts-alist : Multi-hops tramp-save-ad-hoc-proxies : Ad-hoc multi-hops tramp-save-ad-hoc-proxies : Ad-hoc multi-hops tramp-shell-prompt-pattern : Remote shell setup tramp-terminal-type : Remote shell setup tramp-wrong-passwd-regexp : Remote shell setup Jump to: A B P T Previous: Variable Index , Up: Top [ Contents ][ Index ] Concept Index Jump to: . A B C D E F G H I K M N O P R S T U W Index Entry Section . .login file : Remote shell setup .profile file : Remote shell setup A adb method : External methods afp method : GVFS based methods android shell setup : Android shell setup auto-save : Auto-save and Backup B backup : Auto-save and Backup base-64 encoding : Inline methods behind the scenes : Overview bug reports : Bug Reports C caching : Connection caching choosing the right method : Default Method cleanup : Cleanup remote connections compile : Remote processes configuration : Configuration connection types, overview : Connection types create your own methods : Customizing Methods customizing completion : Customizing Completion customizing methods : Customizing Methods Cygwin and ssh-agent : Windows setup hints Cygwin, issues : Windows setup hints D dav method : GVFS based methods davs method : GVFS based methods dbus : GVFS based methods default configuration : Configuration default host : Default Host default method : Default Method default user : Default User details of operation : Overview development history : History E eshell : Remote processes external methods : Connection types external methods : External methods F FAQ : Frequently Asked Questions fcp (with fcp method) : External methods fcp method : External methods file name completion : File name completion file name examples : File name Syntax file name syntax : File name Syntax frequently asked questions : Frequently Asked Questions fsh (with fcp method) : External methods fsh method : External methods ftp method : External methods G gateway methods : Gateway methods gdb : Remote processes gud : Remote processes gvfs based methods : GVFS based methods H history : History how it works : Overview I inline methods : Connection types inline methods : Inline methods installation : Installation installation : Installation parameters installation : Load paths K Kerberos (with krlogin method) : Inline methods Kerberos (with ksu method) : Inline methods krlogin method : Inline methods ksu method : Inline methods M method adb : External methods method afp : GVFS based methods method dav : GVFS based methods method davs : GVFS based methods method fcp : External methods method fsh : External methods method ftp : External methods method krlogin : Inline methods method ksu : Inline methods method nc : External methods method obex : GVFS based methods method plink : Inline methods method plinkx : Inline methods method pscp : External methods method psftp : External methods method rcp : External methods method rsh : Inline methods method rsync : External methods method scp : External methods method scpx : External methods method scpx with Cygwin : Windows setup hints method sftp : GVFS based methods method smb : External methods method socks : Gateway methods method ssh : Inline methods method sshx : Inline methods method sshx with Cygwin : Windows setup hints method su : Inline methods method sudo : Inline methods method synce : GVFS based methods method telnet : Inline methods method tunnel : Gateway methods methods, external : Connection types methods, external : External methods methods, gateway : Gateway methods methods, gvfs : GVFS based methods methods, inline : Connection types methods, inline : Inline methods mimencode : Inline methods multi-hop : Multi-hops multi-hop, ad-hoc : Ad-hoc multi-hops N nc (with nc method) : External methods nc method : External methods nc Unix command : Remote shell setup O obex method : GVFS based methods obtaining Tramp : Obtaining Tramp overview : Overview P passwords : Password handling perldb : Remote processes plink (with pscp method) : External methods plink (with psftp method) : External methods plink method : Inline methods plinkx method : Inline methods powershell : Remote processes proxy hosts : Multi-hops proxy hosts, ad-hoc : Ad-hoc multi-hops pscp (with pscp method) : External methods pscp (with psftp method) : External methods pscp method : External methods psftp method : External methods PuTTY (with pscp method) : External methods PuTTY (with psftp method) : External methods R rcp (with rcp method) : External methods rcp method : External methods recompile : Remote processes remote shell setup : Remote shell setup rsh (with rcp method) : External methods rsh method : Inline methods rsync (with rsync method) : External methods rsync method : External methods S scp (with scp method) : External methods scp (with scpx method) : External methods scp method : External methods scpx method : External methods scpx method with Cygwin : Windows setup hints selecting config files : Customizing Completion sftp method : GVFS based methods shell : Remote processes shell init files : Remote shell setup shell-command : Remote processes smb method : External methods socks method : Gateway methods ssh (with rsync method) : External methods ssh (with scp method) : External methods ssh (with scpx method) : External methods ssh method : Inline methods sshx method : Inline methods sshx method with Cygwin : Windows setup hints SSH_AUTH_SOCK and XEmacs on Windows : Windows setup hints su method : Inline methods sudo method : Inline methods synce method : GVFS based methods T telnet (with nc method) : External methods telnet method : Inline methods tset Unix command : Remote shell setup tunnel method : Gateway methods type-ahead : Usage U Unix command nc : Remote shell setup Unix command tset : Remote shell setup using non-standard methods : Customizing Methods using TRAMP : Usage uuencode : Inline methods W winexe : Remote processes Jump to: . A B C D E F G H I K M N O P R S T U W Footnotes (1) HTTP tunnels are intended for secure SSL/TLS communication. Therefore, many proxy servers restrict the tunnels to related target ports. You might need to run your ssh server on your target host ‘ host.other.domain ' on such a port, like 443 (https). See http://savannah.gnu.org/maintenance/CvsFromBehindFirewall for discussion of ethical issues.
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