From: Zooko O'Whielacronx Date: Tue, 9 Aug 2011 13:25:10 +0000 (-0700) Subject: doc: formatting: reflow to fill-column=77 X-Git-Tag: pre-393~12 X-Git-Url: https://git.rkrishnan.org/install-details.html?a=commitdiff_plain;h=33461a775ebfa2fa0a4ec0a6b355f9798d069fb6;p=tahoe-lafs%2Ftahoe-lafs.git doc: formatting: reflow to fill-column=77 --- diff --git a/docs/frontends/FTP-and-SFTP.rst b/docs/frontends/FTP-and-SFTP.rst index 805d5c72..c2cbb0be 100644 --- a/docs/frontends/FTP-and-SFTP.rst +++ b/docs/frontends/FTP-and-SFTP.rst @@ -33,25 +33,25 @@ ctime/mtime timestamps. Tahoe-LAFS Support ================== -All Tahoe-LAFS client nodes can run a frontend FTP server, allowing regular FTP -clients (like /usr/bin/ftp, ncftp, and countless others) to access the +All Tahoe-LAFS client nodes can run a frontend FTP server, allowing regular +FTP clients (like /usr/bin/ftp, ncftp, and countless others) to access the virtual filesystem. They can also run an SFTP server, so SFTP clients (like /usr/bin/sftp, the sshfs FUSE plugin, and others) can too. These frontends sit at the same level as the web-API interface. -Since Tahoe-LAFS does not use user accounts or passwords, the FTP/SFTP servers -must be configured with a way to first authenticate a user (confirm that a -prospective client has a legitimate claim to whatever authorities we might -grant a particular user), and second to decide what root directory cap should -be granted to the authenticated username. A username and password is used -for this purpose. (The SFTP protocol is also capable of using client -RSA or DSA public keys, but this is not currently implemented.) +Since Tahoe-LAFS does not use user accounts or passwords, the FTP/SFTP +servers must be configured with a way to first authenticate a user (confirm +that a prospective client has a legitimate claim to whatever authorities we +might grant a particular user), and second to decide what root directory cap +should be granted to the authenticated username. A username and password is +used for this purpose. (The SFTP protocol is also capable of using client RSA +or DSA public keys, but this is not currently implemented.) -Tahoe-LAFS provides two mechanisms to perform this user-to-rootcap mapping. The -first is a simple flat file with one account per line. The second is an -HTTP-based login mechanism, backed by simple PHP script and a database. The -latter form is used by allmydata.com to provide secure access to customer -rootcaps. +Tahoe-LAFS provides two mechanisms to perform this user-to-rootcap +mapping. The first is a simple flat file with one account per line. The +second is an HTTP-based login mechanism, backed by simple PHP script and a +database. The latter form is used by allmydata.com to provide secure access +to customer rootcaps. Creating an Account File ======================== @@ -70,8 +70,8 @@ The words "ssh-rsa" and "ssh-dsa" after the username are reserved to specify the public key format, so users cannot have a password equal to either of these strings. -Now add an 'accounts.file' directive to your tahoe.cfg file, as described -in the next sections. +Now add an 'accounts.file' directive to your tahoe.cfg file, as described in +the next sections. Configuring FTP Access ====================== @@ -84,9 +84,9 @@ the BASEDIR/tahoe.cfg file:: port = tcp:8021:interface=127.0.0.1 accounts.file = private/ftp.accounts -The FTP server will listen on the given port number and on the loopback -interface only. The "accounts.file" pathname will be interpreted -relative to the node's BASEDIR. +The FTP server will listen on the given port number and on the loopback +interface only. The "accounts.file" pathname will be interpreted relative to +the node's BASEDIR. To enable the FTP server with an account server instead, provide the URL of that server in an "accounts.url" directive:: @@ -122,8 +122,8 @@ the code for encrypting files and directories in Tahoe-LAFS itself. If you can connect to the SFTP server (which is provided by the Tahoe-LAFS gateway) only from a client on the same host, then you would be safe from any problem with the SFTP connection security. The examples given below enforce this -policy by including ":interface=127.0.0.1" in the "port" option, which -causes the server to only accept connections from localhost. +policy by including ":interface=127.0.0.1" in the "port" option, which causes +the server to only accept connections from localhost. You will use directives in the tahoe.cfg file to tell the SFTP code where to find these keys. To create one, use the ``ssh-keygen`` tool (which comes with @@ -145,8 +145,8 @@ lines to the BASEDIR/tahoe.cfg file:: accounts.file = private/ftp.accounts The SFTP server will listen on the given port number and on the loopback -interface only. The "accounts.file" pathname will be interpreted -relative to the node's BASEDIR. +interface only. The "accounts.file" pathname will be interpreted relative to +the node's BASEDIR. Or, to use an account server instead, do this:: @@ -167,29 +167,28 @@ clients and with the sshfs filesystem, see Dependencies ============ -The Tahoe-LAFS SFTP server requires the Twisted "Conch" component (a "conch" is -a twisted shell, get it?). Many Linux distributions package the Conch code +The Tahoe-LAFS SFTP server requires the Twisted "Conch" component (a "conch" +is a twisted shell, get it?). Many Linux distributions package the Conch code separately: debian puts it in the "python-twisted-conch" package. Conch requires the "pycrypto" package, which is a Python+C implementation of many cryptographic functions (the debian package is named "python-crypto"). -Note that "pycrypto" is different than the "pycryptopp" package that Tahoe-LAFS -uses (which is a Python wrapper around the C++ -based Crypto++ library, a -library that is frequently installed as /usr/lib/libcryptopp.a, to avoid -problems with non-alphanumerics in filenames). +Note that "pycrypto" is different than the "pycryptopp" package that +Tahoe-LAFS uses (which is a Python wrapper around the C++ -based Crypto++ +library, a library that is frequently installed as /usr/lib/libcryptopp.a, to +avoid problems with non-alphanumerics in filenames). Immutable and Mutable Files =========================== -All files created via SFTP (and FTP) are immutable files. However, files -can only be created in writeable directories, which allows the directory -entry to be relinked to a different file. Normally, when the path of an -immutable file is opened for writing by SFTP, the directory entry is -relinked to another file with the newly written contents when the file -handle is closed. The old file is still present on the grid, and any other -caps to it will remain valid. (See `docs/garbage-collection.rst -<../garbage-collection.rst>`_ for how to reclaim the space used by files -that are no longer needed.) +All files created via SFTP (and FTP) are immutable files. However, files can +only be created in writeable directories, which allows the directory entry to +be relinked to a different file. Normally, when the path of an immutable file +is opened for writing by SFTP, the directory entry is relinked to another +file with the newly written contents when the file handle is closed. The old +file is still present on the grid, and any other caps to it will remain +valid. (See `docs/garbage-collection.rst <../garbage-collection.rst>`_ for +how to reclaim the space used by files that are no longer needed.) The 'no-write' metadata field of a directory entry can override this behaviour. If the 'no-write' field holds a true value, then a permission @@ -197,15 +196,14 @@ error will occur when trying to write to the file, even if it is in a writeable directory. This does not prevent the directory entry from being unlinked or replaced. -When using sshfs, the 'no-write' field can be set by clearing the 'w' -bits in the Unix permissions, for example using the command -'chmod 444 path/to/file'. Note that this does not mean that arbitrary -combinations of Unix permissions are supported. If the 'w' bits are -cleared on a link to a mutable file or directory, that link will become -read-only. +When using sshfs, the 'no-write' field can be set by clearing the 'w' bits in +the Unix permissions, for example using the command 'chmod 444 +path/to/file'. Note that this does not mean that arbitrary combinations of +Unix permissions are supported. If the 'w' bits are cleared on a link to a +mutable file or directory, that link will become read-only. -If SFTP is used to write to an existing mutable file, it will publish a -new version when the file handle is closed. +If SFTP is used to write to an existing mutable file, it will publish a new +version when the file handle is closed. Known Issues ============ @@ -215,19 +213,19 @@ Mutable files are not supported by the FTP frontend (`ticket #680 containing mutable files cannot even be listed over FTP. The FTP frontend sometimes fails to report errors, for example if an upload -fails because it does meet the "servers of happiness" threshold (`ticket #1081 -`_). Upload errors also -may not be reported when writing files using SFTP via sshfs (`ticket #1059 -`_). +fails because it does meet the "servers of happiness" threshold (`ticket +#1081 `_). Upload errors +also may not be reported when writing files using SFTP via sshfs (`ticket +#1059 `_). Non-ASCII filenames are not supported by FTP (`ticket #682 -`_). They can be used -with SFTP only if the client encodes filenames as UTF-8 (`ticket #1089 +`_). They can be used with +SFTP only if the client encodes filenames as UTF-8 (`ticket #1089 `_). The gateway node may hang or consume 100% CPU if the client tries to rekey. -(`ticket #1297 `_). -This is due to `a bug in Twisted `_ +(`ticket #1297 `_). This +is due to `a bug in Twisted `_ which was fixed in Twisted 11.0 (released 3-April-2011). For options to disable rekeying in various clients in order to work around