diff options
author | Thomas Bushnell <thomas@gnu.org> | 1998-04-13 19:42:18 +0000 |
---|---|---|
committer | Thomas Bushnell <thomas@gnu.org> | 1998-04-13 19:42:18 +0000 |
commit | c24c6abb004fb827c6a5237efae30b942d142b43 (patch) | |
tree | 3262d499fb307b9a5e136c36daf63486f93825aa /doc/navigating | |
parent | 94208c9d3f46f221d50886a0304dd77f18b9882f (diff) |
Mon Apr 13 15:40:43 1998 Thomas Bushnell, n/BSG <thomas@gnu.org>
* navigating: New file.
* Makefile (DIST_FILES): Mention `navigating'.
Diffstat (limited to 'doc/navigating')
-rw-r--r-- | doc/navigating | 54 |
1 files changed, 54 insertions, 0 deletions
diff --git a/doc/navigating b/doc/navigating new file mode 100644 index 00000000..2d836255 --- /dev/null +++ b/doc/navigating @@ -0,0 +1,54 @@ +Some ideas on navigating and understanding the Hurd source code. + +First you must understand Mach IPC and MiG. Pay special attention to +the way that various kinds of MiG calls manage memory; this is crucial +to avoid leaks. The "Mach server writers' guide" explains all this. + +Most programs that make up the Hurd are built out of libraries; a +solid understanding of the libraries that make up the source is +essential. First start by reading the libports library specification +(in libports/ports.h). This library manages the Mach ports that +servers handle. + +Then start looking at some Hurd interfaces. A good place to start is +to look at the proc server. There is only one proc server in a +running system, but examine the way the interface (hurd/process.defs) +is written and the way the proc server implements it. + +Then look at the auth server; make sure you understand how an auth +transaction works. Again, by looking at the implementation, you can +see a simple example. + +Filesystems are more complex; the interface specification is in +hurd/io.defs and hurd/fs.defs. These interfaces are implemented by +three different libraries: trivfs, diskfs, and netfs. trivfs +implements single-node filesystems (that thus have no directories). +Most trivfs filesystems don't even do any filesystem stuff at all. +See, for example, the null translator (trans/null.c) for a simple +example of using trivfs. + +diskfs is used for disk-based filesystems, with two in existence now: +ext2fs and ufs. If you write another diskfs-based filesystem, you +should DEFINITELY imitate the algorithms found in ext2fs and ufs; this +is crucial to getting locking right. + +netfs is used for nfs and other such things: with directories, and all +the actual filesystem operations being done by some other program (not +necessarily over a network). The nfs implementation is fairly easy to +understand. + +Examine some translators in the trans directory to see various simple +examples. + +Also very important is to acquire familiarity with the Hurd and Mach +calls provided in the GNU C library. Look at the header files in libc +to see what they are, and read through them. Also examine parts of +the libc implementation whenever you have any doubt about what an +interface call should do: find where the C library uses that call, and +that should help. It's worth, in fact, spending some time just +exploring the implementation of various things in the hurd C library. + +You should take a look at all the libraries in the Hurd; spend time +reading the code. Feel free to ask questions to help understand what +you read. + |