mirror of https://gitee.com/openkylin/libvirt.git
708 lines
22 KiB
Plaintext
708 lines
22 KiB
Plaintext
-*- buffer-read-only: t -*- vi: set ro:
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DO NOT EDIT THIS FILE! IT IS GENERATED AUTOMATICALLY!
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Contributor guidelines
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======================
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General tips for contributing patches
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=====================================
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(1) Discuss any large changes on the mailing list first. Post patches early and
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listen to feedback.
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(2) Post patches in unified diff format. A command similar to this should work:
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diff -urp libvirt.orig/ libvirt.modified/ > libvirt-myfeature.patch
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or:
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git diff > libvirt-myfeature.patch
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(3) Split large changes into a series of smaller patches, self-contained if
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possible, with an explanation of each patch and an explanation of how the
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sequence of patches fits together.
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(4) Make sure your patches apply against libvirt GIT. Developers only follow GIT
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and don't care much about released versions.
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(5) Run the automated tests on your code before submitting any changes. In
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particular, configure with compile warnings set to -Werror:
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./configure --enable-compile-warnings=error
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and run the tests:
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make check
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make syntax-check
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make -C tests valgrind
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The latter test checks for memory leaks.
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If you encounter any failing tests, the VIR_TEST_DEBUG environment variable
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may provide extra information to debug the failures. Larger values of
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VIR_TEST_DEBUG may provide larger amounts of information:
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VIR_TEST_DEBUG=1 make check (or)
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VIR_TEST_DEBUG=2 make check
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Also, individual tests can be run from inside the "tests/" directory, like:
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./qemuxml2xmltest
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(6) Update tests and/or documentation, particularly if you are adding a new
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feature or changing the output of a program.
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There is more on this subject, including lots of links to background reading
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on the subject, on
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Richard Jones' guide to working with open source projects
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http://et.redhat.com/~rjones/how-to-supply-code-to-open-source-projects/
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Code indentation
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================
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Libvirt's C source code generally adheres to some basic code-formatting
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conventions. The existing code base is not totally consistent on this front,
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but we do prefer that contributed code be formatted similarly. In short, use
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spaces-not-TABs for indentation, use 4 spaces for each indentation level, and
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other than that, follow the K&R style.
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If you use Emacs, add the following to one of one of your start-up files
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(e.g., ~/.emacs), to help ensure that you get indentation right:
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;;; When editing C sources in libvirt, use this style.
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(defun libvirt-c-mode ()
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"C mode with adjusted defaults for use with libvirt."
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(interactive)
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(c-set-style "K&R")
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(setq indent-tabs-mode nil) ; indent using spaces, not TABs
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(setq c-indent-level 4)
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(setq c-basic-offset 4))
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(add-hook 'c-mode-hook
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'(lambda () (if (string-match "/libvirt" (buffer-file-name))
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(libvirt-c-mode))))
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If you use vim, append the following to your ~/.vimrc file:
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set nocompatible
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filetype on
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set autoindent
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set smartindent
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set cindent
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set tabstop=8
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set shiftwidth=4
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set expandtab
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set cinoptions=(0,:0,l1,t0
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filetype plugin indent on
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au FileType make setlocal noexpandtab
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au BufRead,BufNewFile *.am setlocal noexpandtab
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match ErrorMsg /\s\+$\| \+\ze\t/
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Or if you don't want to mess your ~/.vimrc up, you can save the above into a
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file called .lvimrc (not .vimrc) located at the root of libvirt source, then
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install a vim script from
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http://www.vim.org/scripts/script.php?script_id=1408, which will load the
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.lvimrc only when you edit libvirt code.
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Code formatting (especially for new code)
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=========================================
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With new code, we can be even more strict. Please apply the following function
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(using GNU indent) to any new code. Note that this also gives you an idea of
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the type of spacing we prefer around operators and keywords:
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indent-libvirt()
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{
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indent -bad -bap -bbb -bli4 -br -ce -brs -cs -i4 -l75 -lc75 \
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-sbi4 -psl -saf -sai -saw -sbi4 -ss -sc -cdw -cli4 -npcs -nbc \
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--no-tabs "$@"
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}
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Note that sometimes you'll have to post-process that output further, by piping
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it through "expand -i", since some leading TABs can get through. Usually
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they're in macro definitions or strings, and should be converted anyhow.
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Libvirt requires a C99 compiler for various reasons. However, most of the code
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base prefers to stick to C89 syntax unless there is a compelling reason
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otherwise. For example, it is preferable to use "/* */" comments rather than
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"//". Also, when declaring local variables, the prevailing style has been to
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declare them at the beginning of a scope, rather than immediately before use.
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Curly braces
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============
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Omit the curly braces around an "if", "while", "for" etc. body only when that
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body occupies a single line. In every other case we require the braces. This
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ensures that it is trivially easy to identify a single-'statement' loop: each
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has only one 'line' in its body.
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Omitting braces with a single-line body is fine:
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while (expr) // one-line body -> omitting curly braces is ok
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single_line_stmt();
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However, the moment your loop/if/else body extends onto a second line, for
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whatever reason (even if it's just an added comment), then you should add
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braces. Otherwise, it would be too easy to insert a statement just before that
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comment (without adding braces), thinking it is already a multi-statement loop:
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while (true) // BAD! multi-line body with no braces
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/* comment... */
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single_line_stmt();
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Do this instead:
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while (true) { // Always put braces around a multi-line body.
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/* comment... */
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single_line_stmt();
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}
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There is one exception: when the second body line is not at the same
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indentation level as the first body line:
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if (expr)
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die("a diagnostic that would make this line"
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" extend past the 80-column limit"));
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It is safe to omit the braces in the code above, since the further-indented
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second body line makes it obvious that this is still a single-statement body.
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To reiterate, don't do this:
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if (expr) // BAD: no braces around...
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while (expr_2) { // ... a multi-line body
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...
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}
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Do this, instead:
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if (expr) {
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while (expr_2) {
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...
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}
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}
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However, there is one exception in the other direction, when even a one-line
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block should have braces. That occurs when that one-line, brace-less block is
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an "if" or "else" block, and the counterpart block *does* use braces. In that
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case, put braces around both blocks. Also, if the "else" block is much shorter
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than the "if" block, consider negating the "if"-condition and swapping the
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bodies, putting the short block first and making the longer, multi-line block
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be the "else" block.
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if (expr) {
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...
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...
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}
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else
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x = y; // BAD: braceless "else" with braced "then",
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// and short block last
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if (expr)
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x = y; // BAD: braceless "if" with braced "else"
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else {
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...
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...
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}
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Keeping braces consistent and putting the short block first is preferred,
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especially when the multi-line body is more than a few lines long, because it
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is easier to read and grasp the semantics of an if-then-else block when the
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simpler block occurs first, rather than after the more involved block:
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if (!expr) {
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x = y; // putting the smaller block first is more readable
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} else {
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...
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...
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}
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But if negating a complex condition is too ugly, then at least add braces:
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if (complex expr not worth negating) {
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...
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...
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} else {
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x = y;
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}
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Preprocessor
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============
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For variadic macros, stick with C99 syntax:
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#define vshPrint(_ctl, ...) fprintf(stdout, __VA_ARGS__)
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Use parenthesis when checking if a macro is defined, and use indentation to
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track nesting:
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#if defined(HAVE_POSIX_FALLOCATE) && !defined(HAVE_FALLOCATE)
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# define fallocate(a,ignored,b,c) posix_fallocate(a,b,c)
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#endif
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C types
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=======
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Use the right type.
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Scalars
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-------
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- If you're using "int" or "long", odds are good that there's a better type.
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- If a variable is counting something, be sure to declare it with an unsigned
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type.
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- If it's memory-size-related, use "size_t" (use "ssize_t" only if required).
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- If it's file-size related, use uintmax_t, or maybe "off_t".
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- If it's file-offset related (i.e., signed), use "off_t".
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- If it's just counting small numbers use "unsigned int"; (on all but oddball
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embedded systems, you can assume that that type is at least four bytes wide).
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- If a variable has boolean semantics, give it the "bool" type and use the
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corresponding "true" and "false" macros. It's ok to include <stdbool.h>, since
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libvirt's use of gnulib ensures that it exists and is usable.
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- In the unusual event that you require a specific width, use a standard type
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like "int32_t", "uint32_t", "uint64_t", etc.
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- While using "bool" is good for readability, it comes with minor caveats:
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-- Don't use "bool" in places where the type size must be constant across all
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systems, like public interfaces and on-the-wire protocols. Note that it would
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be possible (albeit wasteful) to use "bool" in libvirt's logical wire
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protocol, since XDR maps that to its lower-level "bool_t" type, which *is*
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fixed-size.
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-- Don't compare a bool variable against the literal, "true", since a value with
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a logical non-false value need not be "1". I.e., don't write "if (seen ==
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true) ...". Rather, write "if (seen)...".
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Of course, take all of the above with a grain of salt. If you're about to use
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some system interface that requires a type like "size_t", "pid_t" or "off_t",
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use matching types for any corresponding variables.
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Also, if you try to use e.g., "unsigned int" as a type, and that conflicts
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with the signedness of a related variable, sometimes it's best just to use the
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*wrong* type, if 'pulling the thread' and fixing all related variables would
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be too invasive.
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Finally, while using descriptive types is important, be careful not to go
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overboard. If whatever you're doing causes warnings, or requires casts, then
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reconsider or ask for help.
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Pointers
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--------
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Ensure that all of your pointers are 'const-correct'. Unless a pointer is used
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to modify the pointed-to storage, give it the "const" attribute. That way, the
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reader knows up-front that this is a read-only pointer. Perhaps more
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importantly, if we're diligent about this, when you see a non-const pointer,
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you're guaranteed that it is used to modify the storage it points to, or it is
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aliased to another pointer that is.
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Low level memory management
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===========================
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Use of the malloc/free/realloc/calloc APIs is deprecated in the libvirt
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codebase, because they encourage a number of serious coding bugs and do not
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enable compile time verification of checks for NULL. Instead of these
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routines, use the macros from memory.h.
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- To allocate a single object:
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virDomainPtr domain;
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if (VIR_ALLOC(domain) < 0) {
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virReportOOMError();
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return NULL;
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}
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- To allocate an array of objects:
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virDomainPtr domains;
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size_t ndomains = 10;
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if (VIR_ALLOC_N(domains, ndomains) < 0) {
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virReportOOMError();
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return NULL;
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}
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- To allocate an array of object pointers:
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virDomainPtr *domains;
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size_t ndomains = 10;
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if (VIR_ALLOC_N(domains, ndomains) < 0) {
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virReportOOMError();
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return NULL;
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}
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- To re-allocate the array of domains to be 1 element longer (however, note that
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repeatedly expanding an array by 1 scales quadratically, so this is
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recommended only for smaller arrays):
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virDomainPtr domains;
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size_t ndomains = 0;
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if (VIR_EXPAND_N(domains, ndomains, 1) < 0) {
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virReportOOMError();
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return NULL;
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}
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domains[ndomains - 1] = domain;
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- To ensure an array has room to hold at least one more element (this approach
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scales better, but requires tracking allocation separately from usage)
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virDomainPtr domains;
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size_t ndomains = 0;
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size_t ndomains_max = 0;
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if (VIR_RESIZE_N(domains, ndomains_max, ndomains, 1) < 0) {
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virReportOOMError();
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return NULL;
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}
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domains[ndomains++] = domain;
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- To trim an array of domains from its allocated size down to the actual used
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size:
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virDomainPtr domains;
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size_t ndomains = x;
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size_t ndomains_max = y;
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VIR_SHRINK_N(domains, ndomains_max, ndomains_max - ndomains);
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- To free an array of domains:
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virDomainPtr domains;
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size_t ndomains = x;
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size_t ndomains_max = y;
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size_t i;
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for (i = 0; i < ndomains; i++)
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VIR_FREE(domains[i]);
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VIR_FREE(domains);
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ndomains_max = ndomains = 0;
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File handling
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=============
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Usage of the "fdopen()", "close()", "fclose()" APIs is deprecated in libvirt
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code base to help avoiding double-closing of files or file descriptors, which
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is particulary dangerous in a multi-threaded applications. Instead of these
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APIs, use the macros from virfile.h
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- Open a file from a file descriptor:
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if ((file = VIR_FDOPEN(fd, "r")) == NULL) {
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virReportSystemError(errno, "%s",
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_("failed to open file from file descriptor"));
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return -1;
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}
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/* fd is now invalid; only access the file using file variable */
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- Close a file descriptor:
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if (VIR_CLOSE(fd) < 0) {
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virReportSystemError(errno, "%s", _("failed to close file"));
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}
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- Close a file:
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if (VIR_FCLOSE(file) < 0) {
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virReportSystemError(errno, "%s", _("failed to close file"));
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}
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- Close a file or file descriptor in an error path, without losing the previous
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"errno" value:
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VIR_FORCE_CLOSE(fd);
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VIR_FORCE_FCLOSE(file);
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String comparisons
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==================
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Do not use the strcmp, strncmp, etc functions directly. Instead use one of the
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following semantically named macros
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- For strict equality:
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STREQ(a,b)
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STRNEQ(a,b)
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- For case insensitive equality:
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STRCASEEQ(a,b)
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STRCASENEQ(a,b)
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- For strict equality of a substring:
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STREQLEN(a,b,n)
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STRNEQLEN(a,b,n)
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- For case insensitive equality of a substring:
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STRCASEEQLEN(a,b,n)
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STRCASENEQLEN(a,b,n)
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- For strict equality of a prefix:
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STRPREFIX(a,b)
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String copying
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==============
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Do not use the strncpy function. According to the man page, it does *not*
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guarantee a NULL-terminated buffer, which makes it extremely dangerous to use.
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Instead, use one of the functionally equivalent functions:
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virStrncpy(char *dest, const char *src, size_t n, size_t destbytes)
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The first three arguments have the same meaning as for strncpy; namely the
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destination, source, and number of bytes to copy, respectively. The last
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argument is the number of bytes available in the destination string; if a copy
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of the source string (including a \0) will not fit into the destination, no
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bytes are copied and the routine returns NULL. Otherwise, n bytes from the
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source are copied into the destination and a trailing \0 is appended.
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virStrcpy(char *dest, const char *src, size_t destbytes)
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Use this variant if you know you want to copy the entire src string into dest.
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Note that this is a macro, so arguments could be evaluated more than once.
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This is equivalent to virStrncpy(dest, src, strlen(src), destbytes)
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virStrcpyStatic(char *dest, const char *src)
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Use this variant if you know you want to copy the entire src string into dest
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*and* you know that your destination string is a static string (i.e. that
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sizeof(dest) returns something meaningful). Note that this is a macro, so
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arguments could be evaluated more than once. This is equivalent to
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virStrncpy(dest, src, strlen(src), sizeof(dest)).
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Variable length string buffer
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=============================
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If there is a need for complex string concatenations, avoid using the usual
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sequence of malloc/strcpy/strcat/snprintf functions and make use of the
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virBuffer API described in buf.h
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Typical usage is as follows:
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char *
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somefunction(...)
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{
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virBuffer buf = VIR_BUFFER_INITIALIZER;
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...
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virBufferAddLit(&buf, "<domain>\n");
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virBufferAsprintf(&buf, " <memory>%d</memory>\n", memory);
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...
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virBufferAddLit(&buf, "</domain>\n");
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...
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if (virBufferError(&buf)) {
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virBufferFreeAndReset(&buf);
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virReportOOMError();
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return NULL;
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}
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return virBufferContentAndReset(&buf);
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}
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Include files
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=============
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There are now quite a large number of include files, both libvirt internal and
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external, and system includes. To manage all this complexity it's best to
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stick to the following general plan for all *.c source files:
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/*
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* Copyright notice
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* ....
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* ....
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* ....
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*
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*/
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#include <config.h> Must come first in every file.
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#include <stdio.h> Any system includes you need.
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#include <string.h>
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#include <limits.h>
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#if HAVE_NUMACTL Some system includes aren't supported
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# include <numa.h> everywhere so need these #if guards.
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#endif
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#include "internal.h" Include this first, after system includes.
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#include "util.h" Any libvirt internal header files.
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#include "buf.h"
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static int
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myInternalFunc() The actual code.
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{
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...
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Of particular note: *Do not* include libvirt/libvirt.h or libvirt/virterror.h.
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It is included by "internal.h" already and there are some special reasons why
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you cannot include these files explicitly.
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Printf-style functions
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======================
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Whenever you add a new printf-style function, i.e., one with a format string
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argument and following "..." in its prototype, be sure to use gcc's printf
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attribute directive in the prototype. For example, here's the one for
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virAsprintf, in util.h:
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int virAsprintf(char **strp, const char *fmt, ...)
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ATTRIBUTE_FORMAT(printf, 2, 3);
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This makes it so gcc's -Wformat and -Wformat-security options can do their
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jobs and cross-check format strings with the number and types of arguments.
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When printing to a string, consider using virBuffer for incremental
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allocations, virAsprintf for a one-shot allocation, and snprintf for
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fixed-width buffers. Do not use sprintf, even if you can prove the buffer
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won't overflow, since gnulib does not provide the same portability guarantees
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for sprintf as it does for snprintf.
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Use of goto
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===========
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The use of goto is not forbidden, and goto is widely used throughout libvirt.
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While the uncontrolled use of goto will quickly lead to unmaintainable code,
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there is a place for it in well structured code where its use increases
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readability and maintainability. In general, if goto is used for error
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recovery, it's likely to be ok, otherwise, be cautious or avoid it all
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together.
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The typical use of goto is to jump to cleanup code in the case of a long list
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of actions, any of which may fail and cause the entire operation to fail. In
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this case, a function will have a single label at the end of the function.
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It's almost always ok to use this style. In particular, if the cleanup code
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only involves free'ing memory, then having multiple labels is overkill.
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VIR_FREE() and every function named XXXFree() in libvirt is required to handle
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NULL as its arg. Thus you can safely call free on all the variables even if
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they were not yet allocated (yes they have to have been initialized to NULL).
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This is much simpler and clearer than having multiple labels.
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There are a couple of signs that a particular use of goto is not ok:
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- You're using multiple labels. If you find yourself using multiple labels,
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you're strongly encouraged to rework your code to eliminate all but one of
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them.
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- The goto jumps back up to a point above the current line of code being
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executed. Please use some combination of looping constructs to re-execute code
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instead; it's almost certainly going to be more understandable by others. One
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well-known exception to this rule is restarting an i/o operation following
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EINTR.
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- The goto jumps down to an arbitrary place in the middle of a function followed
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by further potentially failing calls. You should almost certainly be using a
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conditional and a block instead of a goto. Perhaps some of your function's
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logic would be better pulled out into a helper function.
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Although libvirt does not encourage the Linux kernel wind/unwind style of
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multiple labels, there's a good general discussion of the issue archived at
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KernelTrap
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http://kerneltrap.org/node/553/2131
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When using goto, please use one of these standard labels if it makes sense:
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error: A path only taken upon return with an error code
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cleanup: A path taken upon return with success code + optional error
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no_memory: A path only taken upon return with an OOM error code
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retry: If needing to jump upwards (e.g., retry on EINTR)
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Libvirt committer guidelines
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============================
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The AUTHORS files indicates the list of people with commit access right who
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can actually merge the patches.
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The general rule for committing a patch is to make sure it has been reviewed
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properly in the mailing-list first, usually if a couple of people gave an ACK
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or +1 to a patch and nobody raised an objection on the list it should be good
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to go. If the patch touches a part of the code where you're not the main
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maintainer, or where you do not have a very clear idea of how things work,
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it's better to wait for a more authoritative feedback though. Before
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committing, please also rebuild locally, run 'make check syntax-check', and
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make sure you don't raise errors. Try to look for warnings too; for example,
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configure with
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--enable-compile-warnings=error
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which adds -Werror to compile flags, so no warnings get missed
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An exception to 'review and approval on the list first' is fixing failures to
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build:
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- if a recently committed patch breaks compilation on a platform or for a given
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driver, then it's fine to commit a minimal fix directly without getting the
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review feedback first
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- if make check or make syntax-check breaks, if there is an obvious fix, it's
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fine to commit immediately. The patch should still be sent to the list (or
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tell what the fix was if trivial), and 'make check syntax-check' should pass
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too, before committing anything
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- fixes for documentation and code comments can be managed in the same way, but
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still make sure they get reviewed if non-trivial.
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