From: david-sarah Date: Thu, 3 Jun 2010 05:44:58 +0000 (-0700) Subject: Minor documentation tweaks. X-Git-Url: https://git.rkrishnan.org/listings?a=commitdiff_plain;h=87ddf54ed8d81ed79b2f559a358297a4f12c8de9;p=tahoe-lafs%2Ftahoe-lafs.git Minor documentation tweaks. --- diff --git a/docs/architecture.txt b/docs/architecture.txt index c0eb8611..aa0101d1 100644 --- a/docs/architecture.txt +++ b/docs/architecture.txt @@ -1,9 +1,21 @@ += Tahoe-LAFS Architecture = - Tahoe-LAFS Architecture +1. Overview +2. The Key-Value Store +3. File Encoding +4. Capabilities +5. Server Selection +6. Swarming Download, Trickling Upload +7. The Filesystem Layer +8. Leases, Refreshing, Garbage Collection +9. File Repairer +10. Security +11. Reliability -(See the docs/specifications directory for more details.) -OVERVIEW +== Overview == + +(See the docs/specifications directory for more details.) There are three layers: the key-value store, the filesystem, and the application. @@ -31,7 +43,7 @@ There are several other applications built on top of the Tahoe-LAFS filesystem (see the RelatedProjects page of the wiki for a list). -THE KEY-VALUE STORE +== The Key-Value Store == The key-value store is implemented by a grid of Tahoe-LAFS storage servers -- user-space processes. Tahoe-LAFS storage clients communicate with the storage @@ -64,7 +76,7 @@ For future releases, we have plans to decentralize introduction, allowing any server to tell a new client about all the others. -FILE ENCODING +== File Encoding == When a client stores a file on the grid, it first encrypts the file. It then breaks the encrypted file into small segments, in order to reduce the memory @@ -105,7 +117,7 @@ turn them into segments of ciphertext, use the decryption key to convert that into plaintext, then emit the plaintext bytes to the output target. -CAPABILITIES +== Capabilities == Capabilities to immutable files represent a specific set of bytes. Think of it like a hash function: you feed in a bunch of bytes, and you get out a @@ -137,7 +149,7 @@ filesystem layer (described below) adds human-meaningful names atop the key-value layer. -SERVER SELECTION +== Server Selection == When a file is uploaded, the encoded shares are sent to some servers. But to which ones? The "server selection" algorithm is used to make this choice. @@ -238,7 +250,7 @@ servers.) long-term connections, at the expense of complexity and latency. -SWARMING DOWNLOAD, TRICKLING UPLOAD +== Swarming Download, Trickling Upload == Because the shares being downloaded are distributed across a large number of nodes, the download process will pull from many of them at the same time. The @@ -269,7 +281,7 @@ in the same facility, so the helper-to-storage-server bandwidth is huge. See "helper.txt" for details about the upload helper. -THE FILESYSTEM LAYER +== The Filesystem Layer == The "filesystem" layer is responsible for mapping human-meaningful pathnames (directories and filenames) to pieces of data. The actual bytes inside these @@ -299,7 +311,7 @@ links to spaces that are shared with specific other users, and other spaces that are globally visible. -LEASES, REFRESHING, GARBAGE COLLECTION +== Leases, Refreshing, Garbage Collection == When a file or directory in the virtual filesystem is no longer referenced, the space that its shares occupied on each storage server can be freed, @@ -320,7 +332,7 @@ See docs/garbage-collection.txt for further information, and how to configure garbage collection. -FILE REPAIRER +== File Repairer == Shares may go away because the storage server hosting them has suffered a failure: either temporary downtime (affecting availability of the file), or a @@ -377,7 +389,7 @@ to other nodes. in client behavior. -SECURITY +== Security == The design goal for this project is that an attacker may be able to deny service (i.e. prevent you from recovering a file that was uploaded earlier) @@ -441,7 +453,7 @@ normal web site, using username and password to give a user access to her capabilities). -RELIABILITY +== Reliability == File encoding and peer-node selection parameters can be adjusted to achieve different goals. Each choice results in a number of properties; there are diff --git a/docs/frontends/FTP-and-SFTP.txt b/docs/frontends/FTP-and-SFTP.txt index 49b6eea7..5e994bd8 100644 --- a/docs/frontends/FTP-and-SFTP.txt +++ b/docs/frontends/FTP-and-SFTP.txt @@ -1,4 +1,4 @@ -= Tahoe FTP/SFTP Frontend = += Tahoe FTP and SFTP Frontends = 1. FTP/SFTP Background 2. Tahoe Support @@ -6,6 +6,8 @@ 4. Configuring FTP Access 5. Configuring SFTP Access 6. Dependencies +7. Immutable and mutable files + == FTP/SFTP Background == @@ -24,6 +26,7 @@ Both FTP and SFTP were developed assuming a UNIX-like server, with accounts and passwords, octal file modes (user/group/other, read/write/execute), and ctime/mtime timestamps. + == Tahoe Support == All Tahoe client nodes can run a frontend FTP server, allowing regular FTP @@ -49,6 +52,7 @@ 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 == To use the first form, create a file (probably in @@ -72,6 +76,7 @@ either of these strings. Then add an 'accounts.file' directive to your tahoe.cfg file, as described in the next sections. + == Configuring FTP Access == To enable the FTP server with an accounts file, add the following lines to @@ -96,6 +101,7 @@ that server in an "accounts.url" directive: You can provide both accounts.file and accounts.url, although it probably isn't very useful except for testing. + == Configuring SFTP Access == The Tahoe SFTP server requires a host keypair, just like the regular SSH