Russ Allbery > Software > INN > INN 2.5 Documentation | TODO > |
This file is for people who are interested in making modifications to INN. Normal users can safely skip reading it. It is intended primarily as a guide, resource, and accumulation of tips for maintainers and contributors, and secondarily as documentation of some of INN's internals.
First of all, if you plan on working on INN source, please start from the current development tree. There may be significant changes from the previous full release, so starting from development sources will make it considerably easier to integrate your work. You can check out the current development tree using Subversion from:
<http://inn.eyrie.org/svn/>
or view it with Trac source browser at:
<https://inn.eyrie.org/trac/browser/>
You will need autoconf 2.61 or later to use the development tree. After
checking out the tree, run ./autogen
to generate the necessary autoconf
files.
Nightly snapshots can be found at:
<ftp://ftp.isc.org/isc/inn/snapshots/>
All INN code should be written expecting ANSI C and POSIX. There is no
need to attempt to support pre-ANSI compilers, and ANSI-only features such
as <stdarg.h>, string concatenation, #elif
, and token pasting may be used
freely. So far as possible, INN is written to attempt to be portable to
any system new enough that someone is likely to want to run a news server
on it, but whenever possible this portability should be provided by
checking for standard behavior in configure and supplying replacements for
standard functions that are missing.
When there is a conflict between ANSI C and C99, INN code should be written expecting C99 and autoconf used to patch up the differences.
Try to avoid using #ifdef
and the like in the middle of code as much as
possible. Instead, try to isolate the necessary portability bits and
include them in libinn or at least in conditional macros separate from the
code. Trying to read code littered with conditional compilation
directives is much more difficult.
The shell script configure at the top level of the source tree is generated by autoconf from configure.ac and the additional macros in the m4 directory, and include/config.h.in is generated by autoheader from configure.ac. At configure time, configure generates include/config.h and several other files based on options it was given and what it discovers about the target system.
All modifications to configure should instead be made to configure.ac.
The autoconf manual (available using info autoconf
if you have autoconf
and the GNU info utilities installed on your system) is a valuable
reference when making any modifications.
To regenerate configure, just run autoconf
. To regenerate
include/config.h.in, run autoheader
. Alternately, to regenerate
both, you can run ./autogen
. Please don't include patches to either
configure or include/config.h.in when sending patches to INN;
instead, note in your patch that those files must be regenerated. These
(and all other) generated files should not be checked into Subversion.
At the time of this writing, Autoconf 2.61 or later is required.
The supporting files for autoconf are in the support subdirectory, including the files config.guess and config.sub to determine the system name and ltmain.sh for libtool support. The latter file comes from the libtool distribution available from <http://www.gnu.org/software/libtool/>; the canonical version of the former two are available from <ftp://ftp.gnu.org/gnu/config/> (which currently redirects to <http://git.savannah.gnu.org/gitweb/?p=config.git;a=tree>). In addition, m4/libtool.m4 is just a copy of libtool.m4 from the libtool distribution. (Using libtool without using automake requires a few odd hacks.) New versions should be checked in periodically when available. There are no INN-specific modifications to those files except for ltmain.sh which recognizes the additional -B flag that INN's install-sh script uses. This script should also be updated at the same time from <http://git.savannah.gnu.org/gitweb/?p=automake.git;a=tree;f=lib>; it similarly contains local modifications in order to support the additional -B flag, as well as a few other changes mentioned in a comment at the beginning of the file.
INN should not compile with libtool by default, only when requested, since
otherwise normal compilations are quite slow. (Using libtool is not
without some cost.) Basic compilation with libtool works fine as of this
writing, with both static and shared compiles, but the dependencies aren't
quite right for make -j
using libtool.
INN's documentation is currently somewhat in a state of flux. Much of the documentation is still in the form of man pages written directly in nroff. Some parts of the documentation have been rewritten in POD; that documentation can be found in doc/pod. The canonical source for most of the text documentation, including README, INSTALL, NEWS, and this file, is also POD.
If you're modifying some part of INN's documentation and see that it has a POD version in doc/pod, you should make the modifications to the POD source and then regenerate the derived files. For a quick introduction to POD, see the perlpod(1) man page on your system (it should be installed if you have Perl installed).
When writing new documentation, write in whatever format you care to; if necessary, we can always convert it to POD or whatever else we want to use. Having the documentation exist in some form is more important than what language you write it in. If you don't have a preference, however, we prefer new documentation to be in POD.
If you use POD or regenerate POD documentation, please install something
close to the latest versions of the POD processing utilities to avoid
changes to the documentation depending on who generated it last. You can
find the latest version on CPAN (ftp.perl.org or another mirror) in
modules/by-module/Pod. You'll need PodParser (for versions of Perl
before 5.6.1; 5.6.1 and later come with a recent enough version) and the
latest version of podlators. For versions of Perl earlier than 5.005,
you'll also need File::Spec
in modules/by-module/File.
podlators 1.25 or later will build INN's documentation without significant changes from the versions that are checked into the repository.
There are makefile rules in doc/pod/Makefile to build all of the
documentation whose master form is POD; if you add additional
documentation, please add a rule there as well. Documentation should be
generated by cd'ing to doc/pod and typing make file
where file
is
the relative path to the documentation file. This will get all of the
various flags right for pod2text or pod2man.
INN has a set of generic error handling routines that should be used as much as possible so that the same syntax can be used for reporting errors everywhere in INN. The six basic functions are notice, sysnotice, warn, syswarn, die, and sysdie; notice prints or logs an informative message, warn prints or logs a warning, and die does the same and then exits the current program. The sys* versions add a colon, a space, and the value of strerror(errno) to the end of the message, and should be used to report failing system calls.
All of the actual error reporting is done via error handlers, and a program can register its own handlers in addition to or instead of the default one. The default error handler (message_log_stderr) prints to stderr, prepending the value of message_program_name if it's set to something other than NULL. Several other error handlers are available, particularly including ones that use syslog. See include/inn/messages.h for all of the available options.
There is a different set of error handlers for notice/sysnotice, warn/syswarn, and die/sysdie. To set them, make calls like:
message_handlers_warn(1, message_log_stderr); message_handlers_die(2, message_log_stderr, message_log_syslog_err);
The first argument is the number of handlers, and the remaining arguments are pointers to functions taking an int (the length of the formatted message), a const char * (the format), a va_list (the arguments), and an int that's 0 if warn or die was called and equal to the value of errno if syswarn or sysdie was called. The length of the formatted message is obtained by calling vsnprintf with the provided format and arguments, and therefore is reliable to use as the size of a buffer to malloc to hold the result of formatting the message provided that vsnprintf is used to format it (warning: the system vsprintf may produce more output under some circumstances, so always use vsnprintf).
The error handler can do anything it wishes; each error handler is called in the sequence given. Error handlers shouldn't call warn or die unless great caution is taken to prevent infinite recursion. Also be aware that sysdie is called if malloc fails in xmalloc, so if the error handler needs to allocate memory, it must not use xmalloc or a related function to do so and it must not call die to report failure. The default syslog handlers report memory allocation failure to stderr and exit.
Finally, die and sysdie support an additional handler (the external variable message_fatal_cleanup) that's called immediate before exiting, takes no arguments, and returns an int which is used as the argument for exit. It can do any necessary global cleanup, call abort instead to generate a core dump or the like.
The advantage of using this system everywhere in INN is that library code can use notice, warn, and die to report messages and errors, and each calling program can set up the handlers as appropriate to make sure the errors go to the right place. The default handler is fine for interactive programs; for programs that run from interactive scripts, adding something like:
message_program_name = "program";
to the beginning of main (where program is the name of the program) will make it easier to figure out which program the script calls is failing. For programs that may also be called non-interactively, like rnews, one may want to set up handlers like:
message_handlers_notice(2, message_log_stdout, message_log_syslog_info); message_handlers_warn(2, message_log_stderr, message_log_syslog_warning); message_handlers_die(2, message_log_stderr, message_log_syslog_err);
Finally, for daemons and other non-interactive programs, one may want to do:
message_handlers_notice(1, message_log_syslog_info); message_handlers_warn(1, message_log_syslog_warning); message_handlers_die(1, message_log_syslog_err);
to report errors only via syslog. (Note that if you use syslog error handlers, the program should call openlog first thing to make sure they are logged with the right facility.)
For historical reasons, error messages that are fatal to the news subsystem are logged at the LOG_CRIT priority, and therefore die in innd should use message_log_syslog_crit. This seems like priority inflation and may change in the future to message_log_syslog_err.
The test suite for INN is located in the tests directory and is just getting started. The test suite consists of a set of programs listed in tests/TESTS and the scaffolding in the runtests program.
Adding new tests is very straightforward and very flexible. Just write a
program that tests some part of INN, put it in a directory under tests
named after the part of INN it's testing, and have it output first a line
containing the count of test cases in that file, and then for each test a
line saying ok n
or not ok n
where n
is the test case number. (If a
test is skipped for some reason, such as a test of an optional feature
that wasn't compiled into INN, the test program should output ok n #
skip
.) Add any rules necessary to build the test to tests/Makefile
(note that for simplicity it doesn't recurse into subdirectories) and make
sure it creates an executable ending in .t. Then add the name of the
test to tests/TESTS, without the .t ending.
For C tests, you probably want to use the functions in libtest.c (prototypes in libtest.h) to handle all of the output. For shell script tests, see the existing tests for some helpful shell functions.
One naming convention: to distinguish more easily between for example
lib/error.c (the implementation) and tests/lib/error-t.c (the test suite),
we add -t to the end of the test file names. So tests/lib/error-t.c is
the source that compiles into an executable tests/lib/error.t which is run
by putting a line in tests/TESTS of just lib/error
.
Note that tests don't have to be written in C; in fact, lib/xmalloc.t is just a shell script (that calls a supporting C program). Tests can be written in shell or Perl (but other languages should be avoided because someone who wants to run the test suite may not have it) and just have to follow the above output conventions.
Additions to the test suite, no matter how simple, are very welcome.
All INN makefiles include Makefile.global at the top level, and only that
makefile is a configure substitution target. This has the disadvantage
that configure's normal support for building in a tree outside of the
source tree doesn't work, but it has the significant advantage of making
configure run much faster and allowing one to run make
in any subdirectory
and pick up all the definitions and settings from the top level
configuration.
All INN makefiles should also set $(top)
to be the path to the top of the
build directory (usually relative). This path is used to find various
programs like fixscript and libtool so that the same macros (set in
Makefile.global) can be used all over INN.
The format of INN's makefiles is mostly standardized; the best examples of
the format are probably frontends/Makefile and backends/Makefile, at
least for directories with lots of separate programs. The ALL
variable
holds all the files that should be generated, EXTRA
those additional files
that were generated by configure, and SOURCES
the C source files for
generating tag information.
There are a set of standard installation commands defined in make variables by Makefile.global, and these should be used for all file installations. See the comment blocks in Makefile.global.in for information on what commands are available and when they should be used. There are also variables set for each of the installation directories that INN uses, for use in building the list of installed paths to files.
Each subdirectory makefile should have the targets all
(the default),
clean
, clobber
/distclean
, install
, tags
, and profiled
.
The tags
target generates vi tags files, and the profiled
target
generates a profiling version of the programs (although this hasn't been
tested much). These rules should be present and empty in those
directories where they don't apply.
Be sure to test compiling with both static and dynamic libraries and make
sure that all the libtool support works correctly. All linking steps, and
the compile steps for all library source, should be done through $(LIBCC)
and $(LIBLD)
(which will be set as appropriate in Makefile.global).
INN comes with and installs a large number of different scripts, both Bourne shell and Perl, and also comes with support for Tcl scripts (although it doesn't come with any). Shell variables containing both configure-time information and configuration information from inn.conf are set by the innshellvars support libraries, so the only system-specific configuration that should have to be done is fixing the right path to the interpreter and adding a line to load the appropriate innshellvars.
support/fixscript, built by configure, does this. It takes a .in file and generates the final script (removing the .in) by fixing the path to the interpreter on the first line and replacing the second line, whatever it is, with code to load the innshellvars appropriate for that interpreter. (If invoked with -i, it just fixes the interpreter path.)
Scripts should use innshellvars (via fixscript) to get the right path and the right variables whenever possible, rather than having configure substitute values in them. Any values needed at run-time should instead be available from all of the different innshellvars.
As for Perl, the INN::Config
module has the same features as
innshellvars.pl (only kept for compatibility reasons with old scripts
not shipped with INN); however, it can be safely used with warnings on
in Perl scripts.
See the existing scripts for examples of how this is done.
Include files relevant to all of INN, or relevant to the two libraries built as part of INN (the utility libinn library and the libstorage library that contains all storage and overview functions) are found in the include directory; other include files relevant only to a portion of INN are found in the relevant directory.
Practically all INN source files will start with:
#include "config.h" #include "clibrary.h"
The first picks up all defines generated by autoconf and is necessary for types that may not be present on all systems (uid_t, pid_t, size_t, uint32_t, and the like). It therefore should be included before any other headers that use those types, as well as to get general configuration information. It also includes inn/defines.h and inn/options.h, which pick up additional support macros and compile-time configuration.
The second is portably equivalent to:
#include <sys/types.h> #include <stdarg.h> #include <stdio.h> #include <stdlib.h> #include <stddef.h> #include <stdint.h> #include <string.h> #include <unistd.h>
except that it doesn't include headers that are missing on a given system, replaces functions not found on the system with the INN equivalents, provides macros that INN assumes are available but which weren't found, and defines some additional portability things. Even if this is more headers than the source file actually needs, it's generally better to just include clibrary.h rather than trying to duplicate the autoconf-driven hackery that it does to do things portably. The primary exception is for source files in lib that only define a single function and are used for portability; those may want to include only config.h so that they can be easily used in other projects that use autoconf. config.h is a fairly standard header name for this purpose.
clibrary.h does also include config.h, but it's somewhat poor form to rely on this; it's better to explicitly list the header dependencies for the benefit of someone else reading the code.
There are portable wrappers around several header files that have known portability traps or that need some fixing up on some platforms. Look in include/portable and familiarize yourself with them and use them where appropriate.
Another frequently included header file is inn/libinn.h, which among other things defines xmalloc(), xrealloc(), xstrdup(), and xcalloc(), which are checked versions of the standard memory allocation routines that terminate the program if the memory allocation fails. These should generally always be used instead of the regular C versions. inn/libinn.h also provides various other utility functions that are frequently used.
inn/paths.h includes a wide variety of paths determined at configure time, both default paths to various parts of INN and paths to programs. Don't just use the default paths, though, if they're also configurable in inn.conf; instead, call innconf_read() and use the global innconf structure.
Other files in include are interfaces to particular bits of INN library functionality or are used for other purposes; see the comments in each file.
Eventually, the header files will be separated into installed header files and uninstalled header files; the latter are those headers that are used only for compiling INN and aren't useful for users of INN's libraries (such as clibrary.h). All of the installed headers will live in include/inn and be installed in a subdirectory named inn in the configured include directory. This conversion is still in progress.
When writing header files, remember that C reserves all identifiers beginning with two underscores and all identifiers beginning with an underscore and a capital letter for the use of the implementation; don't use any identifiers with names like that. Additionally, any identifier beginning with an underscore and a lower-case letter is reserved in file scope, which means that such identifiers can only be used by INN for the name of structure members or function arguments in function prototypes.
Try to pay attention to the impact of a header file on the program
namespace, particularly for installed header files in include/inn. All
symbols defined by a header file should ideally begin with INN_
, inn_
, or
some other unique prefix indicating the subsystem that symbol is part of,
to avoid accidental conflicts with symbols defined by the program that
uses that header file.
INN has quite a variety of coding styles intermixed. As with all programs, it's preferrable when making minor modifications to keep the coding style of the code you're modifying. In INN, that will vary by file. (Over time we're trying to standardize on one coding style, so changing the region you worked on to fit the general coding style is also acceptable).
If you're writing a substantial new piece of code, the prevailing "standard" INN coding style is the following:
Write in regular ANSI C whenever possible. Use the normal ANSI and POSIX constructs and use autoconf or portability wrappers to fix things up beforehand so that the code itself can read like regular ANSI or POSIX code. Code should be written so that it works as expected on a modern platform and is fixed up with portability tricks for older platforms, not the other way around. You may assume an ANSI C compiler.
Try to use const wherever appropriate. Don't use register; modern compilers will do as good of a job as you will in choosing what to put into a register. Don't bother with restrict (at least yet).
Use string handling functions that take counts for the size of the buffer whenever possible. This means using snprintf in preference to sprintf and using strlcpy and strlcat in preference to strcpy and strcat. Also, use strlcpy and strlcat instead of strncpy and strncat, as it is much easier to audit uses of the former than the latter. strlcpy is like strncpy except that it always nul-terminates and doesn't fill the rest of the buffer with nuls, making it more efficient. strlcat is like strncat except that it always nul-terminates and it takes the total size of the buffer as its third argument rather than just the amount of space left. All of these functions are guaranteed to be available; there are replacements in lib for systems that don't have them.
If you have to use a string copying routine that doesn't nul-terminate, use memcpy instead. Avoid introducing any uses of strcpy, strcat, strncpy, or strncat so that we can use grep to find dangerous usages and switch them to better functions.
Avoid #ifdef
and friends whenever possible. Particularly avoid using them
in the middle of code blocks. Try to hide all portability preprocessor
magic in header files or in portability code in lib. When something just
has to be done two completely different ways depending on the platform or
compile options or the like, try to abstract that functionality out into a
generic function and provide two separate implementations using #ifdef
;
then the main code can just call that function.
If you do have to use preprocessor defines, note that if you always define
them to either 0
or 1
(never use #define
without a second argument),
you can use the preprocessor define in a regular if statement rather than
using #if
or #ifdef
. Make use of this instead of #ifdef
when possible,
since that way the compiler will still syntax-check the other branch for
you and it makes it far easier to convert the code to use a run-time check
if necessary. (Unfortunately, this trick can't be used if one branch may
call functions unavailable on a particular platform.)
Avoid uses of fixed-width buffers except in performance-critical code, as it's harder to be sure that such code is correct and it tends to be less flexible later on. If you need a reusable, resizable memory buffer, one is provided in lib/buffer.c.
Avoid uses of static variables whenever possible, particularly in libraries, because it interferes with making the code re-entrant down the road and makes it harder to follow what's going on. Similarly, avoid using global variables whenever possible, and if they are required, try to wrap them into structures that could later be changed into arguments to the affected functions.
Use a roughly BSD indentation style but with four-space indents. This means no space before the parenthesis around function arguments, open brace on the same line as if/while/for, and close and open brace on the same line as else).
Introductory comments for functions or files are generally written as:
/* ** Introductory comment. */
Other multiline comments in the source are generally written as:
/* This is a multiline comment. */
Comments before functions saying what they do are nice to have. In
general, the RCS/SVN Id
tag is on the first line of each source file since
it's useful to know when a file was last modified.
Checks for NULL pointers are preferrably written out explicitly; in other words, use:
if (p != NULL)
rather than:
if (p)
to make it clearer what the code is assuming.
It's better to always put the body of an if
statement on a separate line,
even if it's only a single line. In other words, write:
if (p != NULL) return p;
and not:
if (p != NULL) return p;
This is in part for a practical reason: some code coverage analysis tools like purecov will count the second example above as a single line and won't notice if the condition always evaluates the same way.
Plain structs make perfectly reasonable abstract data types; it's not
necessary to typedef the struct to something else. Structs are actually
very useful for opaque data structures, since you can predeclare them and
then manipulate pointers to them without ever having to know what the
contents look like. Please try to avoid typedefs except for function
pointers or other extremely confusing data types, or for data types where
we really gain some significant data abstraction from hiding the
underlying data type. Also avoid using the _t
suffix for any type; all
types ending in _t
are reserved by POSIX. For typedefs of function
pointer types, a suffix of _func
usually works.
This style point is currently widely violated inside of INN itself; INN originally made extensive use of typedefs.
When noting something that should be improved later, add a comment
containing FIXME:
so that one can easily grep for such comments.
INN's indentation style roughly corresponds to that produced by GNU indent 2.2.6 with the following options:
-bad -bap -nsob -fca -lc78 -cd41 -cp1 -br -ce -cdw -cli0 -ss -npcs -ncs -di1 -nbc -psl -brs -i4 -ci4 -lp -ts8 -nut -ip5 -lps -l78 -bbo -hnl
Unfortunately, indent currently doesn't get everything right (it has problems with spacing around struct pointer arguments in functions, wants to put in a space between a dereference of a function pointer and the arguments to the called function, misidentifies some macro calls as being type declarations, and fouls up long but simple case statements). It would be excellent if someday we could just run all of INN's code through indent routinely to enforce a consistant coding style, but indent isn't quite ready for that.
For users of emacs cc-mode, use the "bsd" style but with:
(setq c-basic-offset 4)
Finally, if possible, please don't use tabs in source files, since they can expand differently in different environments. In particular, please try not to use the mix of tabs and spaces that is the default in emacs. If you use emacs to edit INN code, you may want to put:
; Use only spaces when indenting or centering, no tabs. (setq-default indent-tabs-mode nil)
in your ~/.emacs file.
Note that this is only a rough guideline and the maintainers aren't style nazis; we're more interested in your code contribution than in how you write it.
This is a checklist that INN maintainers should go through when preparing a new release of INN.
Update the files shipped with INN, and that are maintained by external projects.
Make sure that support/config.guess, support/config.sub, support/install-sh, support/ltmain.sh and libtool m4 files (libtool.m4, ltoptions.m4, ltsugar.m4, ltversion.m4 and lt~obsolete.m4) are the latest versions. See the instructions in Configuring and Portability for details on how to update these files.
Make sure that the latest version of C TAP Harness is used for the test suite. It is available from <http://www.eyrie.org/~eagle/software/c-tap-harness/>. The file runtests.c should be updated. libtest.c, libtest.h and libtest.sh come from tap/basic.c, tap/basic.h and tap/libtap.sh respectively. Parts specific to INN should be kept during an update (especially sections relative to LIBTEST_NEW_FORMAT because the test suite has not yet been updated to use the new format of C TAP Harness).
Make sure that samples/control.ctl and samples/nocem.ctl are in sync with the master version at <ftp://ftp.isc.org/pub/usenet/CONFIG/control.ctl> and <http://rosalind.home.xs4all.nl/nocemreg/nocemreg.html>.
Update doc/pod/news.pod and regenerate NEWS. Be more detailed for a minor release than for a major release. For a major release, also add information on how to upgrade from the last major release, including anything special to be aware of. (Minor releases shouldn't require any special care when upgrading.)
Bump the revision number in doc/FAQ (subject 1.2) so that it could be included in a final release. It should not be changed for a beta or a release candidate.
If making a major release, branch the source tree by creating a new
directory under branches in Subversion named after the major release.
This branch will be used for minor releases based on that major release
and can be done a little while before the .0
release of that major
release.
svn copy -r ZZZZ -m "Branch Y.Y.0 release." file:///srv/svn/inn/trunk file:///srv/svn/inn/branches/Y.Y
Then, remove the first paragraph in doc/pod/readme.pod which deals with development versions.
Check out a copy of the release branch. It's currently necessary to run
autogen
and configure
to generate Makefile.global. Then, run
make warnings
to generate all necessary files. Afterwards, run
make check-manifest
. There shouldn't be any differences; otherwise,
fix the MANIFEST file.
Run make release
for a final release, support/mksnapshot BETA b1
for the first beta version of a new release, or support/mksnapshot RC rc1
for the first release candidate version of a new release. Note that you
need to have a copy of svn2cl from <https://arthurdejong.org/svn2cl/>
to do this; at least version 0.7 is required. Start the ChangeLog at the
time of the previous release. (Eventually, the script will be smart enough
to do this for you.)
Check that the ChangeLog file is correct; otherwise, regenerate it or
manually edit it. Then run again make release
or any other command
you used.
Generate an MD5 checksum of the release tarball.
md5sum inn-Y.Y.Y.tar.gz > inn-Y.Y.Y.tar.gz.md5
Generate a diff between this release and the previous release if feasible (always for minor releases, possibly not a good idea due to the length of the diff for major releases). You will need the tar file of the previous release for the comparison.
diff -Nurp inn-X.X.X inn-Y.Y.Y > inn-X.X.X-Y.Y.Y.diff gzip inn-X.X.X-Y.Y.Y.diff
Make the resulting tar file, along with its MD5 checksum and the possible diff from the previous release, available for testing in the testing directory on ftp.isc.org and announce its availability on inn-workers. Install it on at least one system and make sure that system runs fine for at least a few days. This is also a good time to send out a draft of the release announcement to inn-workers for proof-reading.
Move the release into the public area of the ftp site and update the
inn.tar.gz link. Also put the diff and the MD5 checksum on the ftp site
and update the inn.tar.gz.md5 link. Contact the ISC folks to get the
release PGP-signed and the ISC web site updated (the relevant contact is
web-request
instead of webmaster
). Update the inn.tar.gz.asc link.
Possibly move older releases off into the OLD directory.
After the ISC web site has been updated with links towards the new release, send an announce on inn-announce and in news.software.nntp (with a possible crosspost to news.admin.announce).
Tag the checked-out tree that was used for generating the release with a release tag by copying it to tags in Subversion.
svn copy -r ZZZZ -m "Tag Y.Y.Y release." file:///srv/svn/inn/branches/Y.Y file:///srv/svn/inn/tags/Y.Y.Y
Bump revision numbers to reflect the one of the following release, especially in doc/pod/install.pod and doc/pod/readme.pod for major releases, configure.ac and Makefile.global.in for both minor and major releases. The release versions in the Trac wiki should also be updated.
Some additional references that may be hard to find and may be of use to people working on INN:
The home page for the IETF NNTP standardization effort, including links to the IETF NNTP working group archives and copies of the latest drafts of the new NNTP standard. The old archived mailing list traffic contains a lot of interesting discussion of why NNTP is the way it is.
A collection of documents about the Usenet article format, including most of the relevant RFCs and Internet-Drafts.
The archives for the USEFOR IETF working group, the working group for the RFC 1036 replacement (the format of Usenet articles), now published as RFC 5536 and RFC 5537.
Forrest Cavalier provides several tools for following INN development at this page and elsewhere in the Usenet RKT. Under here is a web-accessible checked-out copy of the current INN source tree and pointers to how to use CVSup. However, please note that INN development now uses Subversion.
A primer on IPv6 with pointers to the appropriate places for more technical details as needed, useful when working on IPv6 support in INN.
$Id$
Russ Allbery > Software > INN > INN 2.5 Documentation | TODO > |