1<section xmlns="http://docbook.org/ns/docbook" version="5.0"
2	 xml:id="appendix.porting.build_hacking" xreflabel="Build Hacking">
3<?dbhtml filename="build_hacking.html"?>
4
5<info><title>Configure and Build Hacking</title>
6  <keywordset>
7    <keyword>C++</keyword>
8    <keyword>build</keyword>
9    <keyword>configure</keyword>
10    <keyword>hacking</keyword>
11    <keyword>version</keyword>
12    <keyword>dynamic</keyword>
13    <keyword>shared</keyword>
14  </keywordset>
15</info>
16
17<section xml:id="build_hacking.prereq"><info><title>Prerequisites</title></info>
18
19  <para>
20    As noted <link xmlns:xlink="http://www.w3.org/1999/xlink" xlink:href="http://gcc.gnu.org/install/prerequisites.html">previously</link>,
21    certain other tools are necessary for hacking on files that
22    control configure (<code>configure.ac</code>,
23    <code>acinclude.m4</code>) and make
24    (<code>Makefile.am</code>). These additional tools
25    (<code>automake</code>, and <code>autoconf</code>) are further
26    described in detail in their respective manuals. All the libraries
27    in GCC try to stay in sync with each other in terms of versions of
28    the auto-tools used, so please try to play nicely with the
29    neighbors.
30  </para>
31</section>
32
33<section xml:id="build_hacking.overview">
34<info><title>Overview</title></info>
35
36<section xml:id="build_hacking.overview.basic">
37<info><title>General Process</title></info>
38
39<para>
40  The configure process begins the act of building libstdc++, and is
41  started via:
42</para>
43
44<screen>
45<computeroutput>
46configure
47</computeroutput>
48</screen>
49
50<para>
51The <filename>configure</filename> file is a script generated (via
52<command>autoconf</command>) from the file
53<filename>configure.ac</filename>.
54</para>
55
56
57<para>
58  After the configure process is complete,
59</para>
60
61<screen>
62<computeroutput>
63make all
64</computeroutput>
65</screen>
66
67<para>
68in the build directory starts the build process. The <literal>all</literal> target comes from the <filename>Makefile</filename> file, which is  generated via <command>configure</command> from the <filename>Makefile.in</filename> file, which is in turn generated (via
69<command>automake</command>) from the file
70<filename>Makefile.am</filename>.
71</para>
72
73</section>
74
75
76<section xml:id="build_hacking.overview.map"><info><title>What Comes from Where</title></info>
77
78
79  <figure xml:id="fig.build_hacking.deps">
80    <title>Configure and Build File Dependencies</title>
81  <mediaobject>
82    <imageobject>
83      <imagedata align="center" format="PDF" scale="75" fileref="../images/confdeps.pdf"/>
84    </imageobject>
85    <imageobject>
86      <imagedata align="center" format="PNG" scale="100" fileref="../images/confdeps.png"/>
87    </imageobject>
88    <textobject>
89      <phrase>Dependency Graph for Configure and Build Files</phrase>
90    </textobject>
91  </mediaobject>
92  </figure>
93
94  <para>
95    Regenerate all generated files by using the command
96    <command>autoreconf</command> at the top level of the libstdc++ source
97    directory.
98  </para>
99</section>
100
101</section> <!-- overview -->
102
103
104<section xml:id="build_hacking.configure">
105<info><title>Configure</title></info>
106
107<section xml:id="build_hacking.configure.scripts"><info><title>Storing Information in non-AC files (like configure.host)</title></info>
108
109
110  <para>
111    Until that glorious day when we can use <literal>AC_TRY_LINK</literal>
112    with a cross-compiler, we have to hardcode the results of what the tests
113    would have shown if they could be run.  So we have an inflexible
114    mess like <filename>crossconfig.m4</filename>.
115  </para>
116
117  <para>
118    Wouldn't it be nice if we could store that information in files
119    like configure.host, which can be modified without needing to
120    regenerate anything, and can even be tweaked without really
121    knowing how the configury all works?  Perhaps break the pieces of
122    <filename>crossconfig.m4</filename> out and place them in their appropriate
123    <filename class="directory">config/{cpu,os}</filename> directory.
124  </para>
125
126  <para>
127    Alas, writing macros like
128    "<code>AC_DEFINE(HAVE_A_NICE_DAY)</code>" can only be done inside
129    files which are passed through autoconf.  Files which are pure
130    shell script can be source'd at configure time.  Files which
131    contain autoconf macros must be processed with autoconf.  We could
132    still try breaking the pieces out into "config/*/cross.m4" bits,
133    for instance, but then we would need arguments to aclocal/autoconf
134    to properly find them all when generating configure.  I would
135    discourage that.
136</para>
137</section>
138
139<section xml:id="build_hacking.configure.conventions"><info><title>Coding and Commenting Conventions</title></info>
140
141
142  <para>
143    Most comments should use {octothorpes, shibboleths, hash marks,
144    pound signs, whatever} rather than "<literal>dnl</literal>".
145    Nearly all comments in <filename>configure.ac</filename> should.
146    Comments inside macros written in ancillary
147    <filename class="extension">.m4</filename> files should.
148    About the only comments which should <emphasis>not</emphasis>
149    use <literal>#</literal>, but use <literal>dnl</literal> instead,
150    are comments <emphasis>outside</emphasis> our own macros in the ancillary
151    files.  The difference is that <literal>#</literal> comments show up in
152    <filename>configure</filename> (which is most helpful for debugging),
153    while <literal>dnl</literal>'d lines just vanish.  Since the macros
154    in ancillary files generate code which appears in odd places,
155    their "outside" comments tend to not be useful while reading
156    <filename>configure</filename>.
157  </para>
158
159  <para>
160    Do not use any <code>$target*</code> variables, such as
161    <varname>$target_alias</varname>.  The single exception is in
162    <filename>configure.ac</filename>, for automake+dejagnu's sake.
163  </para>
164</section>
165
166<section xml:id="build_hacking.configure.acinclude"><info><title>The acinclude.m4 layout</title></info>
167
168  <para>
169    The nice thing about
170    <filename>acinclude.m4</filename>/<filename>aclocal.m4</filename>
171    is that macros aren't
172    actually performed/called/expanded/whatever here, just loaded.  So
173    we can arrange the contents however we like.  As of this writing,
174    <filename>acinclude.m4</filename> is arranged as follows:
175  </para>
176  <programlisting>
177    GLIBCXX_CHECK_HOST
178    GLIBCXX_TOPREL_CONFIGURE
179    GLIBCXX_CONFIGURE
180  </programlisting>
181  <para>
182    All the major variable "discovery" is done here.
183    <varname>CXX</varname>, multilibs,
184    etc.
185  </para>
186  <programlisting>
187    fragments included from elsewhere
188  </programlisting>
189  <para>
190    Right now, "fragments" == "the math/linkage bits".
191  </para>
192<programlisting>
193    GLIBCXX_CHECK_COMPILER_FEATURES
194    GLIBCXX_CHECK_LINKER_FEATURES
195    GLIBCXX_CHECK_WCHAR_T_SUPPORT
196</programlisting>
197<para>
198  Next come extra compiler/linker feature tests.  Wide character
199  support was placed here because I couldn't think of another place
200  for it.  It will probably get broken apart like the math tests,
201  because we're still disabling wchars on systems which could actually
202  support them.
203</para>
204<programlisting>
205    GLIBCXX_CHECK_SETRLIMIT_ancilliary
206    GLIBCXX_CHECK_SETRLIMIT
207    GLIBCXX_CHECK_S_ISREG_OR_S_IFREG
208    GLIBCXX_CHECK_POLL
209    GLIBCXX_CHECK_WRITEV
210
211    GLIBCXX_CONFIGURE_TESTSUITE
212</programlisting>
213<para>
214  Feature tests which only get used in one place.  Here, things used
215  only in the testsuite, plus a couple bits used in the guts of I/O.
216</para>
217<programlisting>
218    GLIBCXX_EXPORT_INCLUDES
219    GLIBCXX_EXPORT_FLAGS
220    GLIBCXX_EXPORT_INSTALL_INFO
221</programlisting>
222<para>
223  Installation variables, multilibs, working with the rest of the
224  compiler.  Many of the critical variables used in the makefiles are
225  set here.
226</para>
227<programlisting>
228    GLIBGCC_ENABLE
229    GLIBCXX_ENABLE_C99
230    GLIBCXX_ENABLE_CHEADERS
231    GLIBCXX_ENABLE_CLOCALE
232    GLIBCXX_ENABLE_CONCEPT_CHECKS
233    GLIBCXX_ENABLE_CSTDIO
234    GLIBCXX_ENABLE_CXX_FLAGS
235    GLIBCXX_ENABLE_C_MBCHAR
236    GLIBCXX_ENABLE_DEBUG
237    GLIBCXX_ENABLE_DEBUG_FLAGS
238    GLIBCXX_ENABLE_LONG_LONG
239    GLIBCXX_ENABLE_PCH
240    GLIBCXX_ENABLE_SYMVERS
241    GLIBCXX_ENABLE_THREADS
242</programlisting>
243<para>
244  All the features which can be controlled with enable/disable
245  configure options.  Note how they're alphabetized now?  Keep them
246  like that.  :-)
247</para>
248<programlisting>
249    AC_LC_MESSAGES
250    libtool bits
251</programlisting>
252<para>
253  Things which we don't seem to use directly, but just has to be
254  present otherwise stuff magically goes wonky.
255</para>
256
257</section>
258
259<section xml:id="build_hacking.configure.enable"><info><title><constant>GLIBCXX_ENABLE</constant>, the <literal>--enable</literal> maker</title></info>
260
261
262  <para>
263    All the <literal>GLIBCXX_ENABLE_FOO</literal> macros use a common
264    helper, <literal>GLIBCXX_ENABLE</literal>.  (You don't have to use
265    it, but it's easy.)  The helper does two things for us:
266  </para>
267
268<orderedlist>
269 <listitem>
270   <para>
271     Builds the call to the <literal>AC_ARG_ENABLE</literal> macro, with
272     <option>--help</option> text
273     properly quoted and aligned.  (Death to changequote!)
274   </para>
275 </listitem>
276 <listitem>
277   <para>
278     Checks the result against a list of allowed possibilities, and
279     signals a fatal error if there's no match.  This means that the
280     rest of the <literal>GLIBCXX_ENABLE_FOO</literal> macro doesn't need to test for
281     strange arguments, nor do we need to protect against
282     empty/whitespace strings with the <code>"x$foo" = "xbar"</code>
283     idiom.
284   </para>
285 </listitem>
286</orderedlist>
287
288<para>Doing these things correctly takes some extra autoconf/autom4te code,
289   which made our macros nearly illegible.  So all the ugliness is factored
290   out into this one helper macro.
291</para>
292
293<para>Many of the macros take an argument, passed from when they are expanded
294   in configure.ac.  The argument controls the default value of the
295   enable/disable switch.  Previously, the arguments themselves had defaults.
296   Now they don't, because that's extra complexity with zero gain for us.
297</para>
298
299<para>There are three "overloaded signatures".  When reading the descriptions
300   below, keep in mind that the brackets are autoconf's quotation characters,
301   and that they will be stripped.  Examples of just about everything occur
302   in acinclude.m4, if you want to look.
303</para>
304
305<programlisting>
306    GLIBCXX_ENABLE (FEATURE, DEFAULT, HELP-ARG, HELP-STRING)
307    GLIBCXX_ENABLE (FEATURE, DEFAULT, HELP-ARG, HELP-STRING, permit a|b|c)
308    GLIBCXX_ENABLE (FEATURE, DEFAULT, HELP-ARG, HELP-STRING, SHELL-CODE-HANDLER)
309</programlisting>
310
311<itemizedlist>
312 <listitem>
313   <para>
314     <literal>FEATURE</literal> is the string that follows
315     <option>--enable</option>.  The results of the
316     test (such as it is) will be in the variable
317     <varname>$enable_FEATURE</varname>,
318     where <literal>FEATURE</literal> has been squashed.  Example:
319     <code>[extra-foo]</code>, controlled by the
320     <option>--enable-extra-foo</option>
321     option and stored in <varname>$enable_extra_foo</varname>.
322   </para>
323 </listitem>
324 <listitem>
325   <para>
326     <literal>DEFAULT</literal> is the value to store in
327     <varname>$enable_FEATURE</varname> if the user does
328     not pass <option>--enable</option>/<option>--disable</option>.
329     It should be one of the permitted values passed later.
330     Examples: <code>[yes]</code>, or <code>[bar]</code>, or
331     <code>[$1]</code> (which passes the argument given to the
332     <literal>GLIBCXX_ENABLE_FOO</literal> macro as the default).
333   </para>
334   <para>
335     For cases where we need to probe for particular models of things,
336     it is useful to have an undocumented "auto" value here (see
337     <literal>GLIBCXX_ENABLE_CLOCALE</literal> for an example).
338   </para>
339 </listitem>
340 <listitem>
341   <para>
342     <literal>HELP-ARG</literal> is any text to append to the option string
343     itself in the <option>--help</option> output.  Examples:
344     <code>[]</code> (i.e., an empty string, which appends nothing),
345     <code>[=BAR]</code>, which produces <code>--enable-extra-foo=BAR</code>,
346     and <code>[@&lt;:@=BAR@:&gt;@]</code>, which produces
347     <code>--enable-extra-foo[=BAR]</code>.  See the difference?  See
348     what it implies to the user?
349   </para>
350   <para>
351     If you're wondering what that line noise in the last example was,
352     that's how you embed autoconf special characters in output text.
353     They're called <link xmlns:xlink="http://www.w3.org/1999/xlink" xlink:href="http://www.gnu.org/software/autoconf/manual/autoconf.html#Quadrigraphs"><emphasis>quadrigraphs</emphasis></link>
354     and you should use them whenever necessary.
355 </para>
356 </listitem>
357 <listitem>
358   <para><literal>HELP-STRING</literal> is what you think it is.  Do not include the
359   "default" text like we used to do; it will be done for you by
360   <literal>GLIBCXX_ENABLE</literal>.  By convention, these are not full English
361   sentences.  Example: <literal>[turn on extra foo]</literal>
362   </para>
363 </listitem>
364</itemizedlist>
365
366<para>
367  With no other arguments, only the standard autoconf patterns are
368  allowed: "<option>--{enable,disable}-foo[={yes,no}]</option>" The
369  <varname>$enable_FEATURE</varname> variable is guaranteed to equal
370  either "<literal>yes</literal>" or "<literal>no</literal>"
371  after the macro.  If the user tries to pass something else, an
372  explanatory error message will be given, and configure will halt.
373</para>
374
375<para>
376  The second signature takes a fifth argument, "<code>[permit
377  a | b | c | ...]</code>"
378  This allows <emphasis>a</emphasis> or <emphasis>b</emphasis> or
379  ... after the equals sign in the option, and
380  <varname>$enable_FEATURE</varname> is
381  guaranteed to equal one of them after the macro.  Note that if you
382  want to allow plain <option>--enable</option>/<option>--disable</option>
383  with no "<literal>=whatever</literal>", you must
384  include "<literal>yes</literal>" and "<literal>no</literal>" in the
385  list of permitted values.  Also note that whatever you passed as
386  <literal>DEFAULT</literal> must be in the list.  If the
387  user tries to pass something not on the list, a semi-explanatory
388  error message will be given, and configure will halt.  Example:
389  <code>[permit generic|gnu|ieee_1003.1-2001|yes|no|auto]</code>
390</para>
391
392<para>
393  The third signature takes a fifth argument.  It is arbitrary shell
394  code to execute if the user actually passes the enable/disable
395  option.  (If the user does not, the default is used.  Duh.)  No
396  argument checking at all is done in this signature.  See
397  <literal>GLIBCXX_ENABLE_CXX_FLAGS</literal> for an example of handling,
398  and an error message.
399</para>
400
401</section>
402
403<section xml:id="build_hacking.configure.version"><info><title>Shared Library Versioning</title></info>
404
405<para>
406The <filename class="library">libstdc++.so</filename> shared library must
407be carefully managed to maintain binary compatible with older versions
408of the library. This ensures a new version of the library is still usable by
409programs that were linked against an older version.
410</para>
411
412<para>
413Dependent on the target supporting it, the library uses <link
414xmlns:xlink="http://www.w3.org/1999/xlink"
415xlink:href="https://www.akkadia.org/drepper/symbol-versioning">ELF
416symbol versioning</link> for all exported symbols. The symbol versions
417are defined by a <link xmlns:xlink="http://www.w3.org/1999/xlink"
418xlink:href="https://sourceware.org/binutils/docs/ld/VERSION.html">linker
419script</link> that assigns a version to every symbol.
420The set of symbols in each version is fixed when a GCC
421release is made, and must not change after that.
422</para>
423
424<para> When new symbols are added to the library they must be added
425to a new symbol version, which must be created the first time new symbols
426are added after a release. Adding a new symbol version involves the
427following steps:
428</para>
429
430<itemizedlist>
431<listitem><para>
432Edit <filename>acinclude.m4</filename> to update the "revision" value of
433<varname>libtool_VERSION</varname>, e.g. from <literal>6:22:0</literal>
434to <literal>6:23:0</literal>, which will cause the shared library to be
435built as <filename class="library">libstdc++.so.6.0.23</filename>.
436</para>
437</listitem>
438<listitem><para>
439Regenerate the <filename>configure</filename> script by running the
440<command>autoreconf</command> tool from the correct version of the Autoconf
441package (as dictated by the <link xmlns:xlink="http://www.w3.org/1999/xlink"
442xlink:href="https://gcc.gnu.org/install/prerequisites.html">GCC
443prerequisites</link>).
444</para>
445</listitem>
446<listitem><para>
447Edit the file <filename>config/abi/pre/gnu.ver</filename> to
448add a new version node after the last new node. The node name should be
449<literal>GLIBCXX_3.4.X</literal> where <literal>X</literal> is the new
450revision set in <filename>acinclude.m4</filename>, and the node should
451depend on the previous version e.g.
452<programlisting>
453    GLIBCXX_3.4.23 {
454
455    } GLIBCXX_3.4.22;
456</programlisting>
457For symbols in the ABI runtime, libsupc++, the symbol version naming uses
458<literal>CXXABI_1.3.Y</literal> where <literal>Y</literal> increases
459monotonically with each new version. Again, the new node must depend on the
460previous version node e.g.
461<programlisting>
462    CXXABI_1.3.11 {
463
464    } CXXABI_1.3.10;
465</programlisting>
466</para>
467</listitem>
468<listitem><para>
469In order for the <link linkend="test.run.variations">check-abi</link> test
470target to pass the testsuite must be updated to know about the new symbol
471version(s). Edit the file <filename>testsuite/util/testsuite_abi.cc</filename>
472file to add the new versions to the <varname>known_versions</varname> list,
473and update the checks for the latest versions that set the
474<varname>latestp</varname> variable).
475</para>
476</listitem>
477<listitem><para>
478Add the library (<filename class="library">libstdc++.so.6.0.X</filename>)
479and symbols versions
480(<literal>GLIBCXX_3.4.X</literal> and <literal>CXXABI_1.3.Y</literal>)
481to the <link linkend="abi.versioning.history">History</link> section in
482<filename>doc/xml/manual/abi.xml</filename> at the relevant places.
483</para>
484</listitem>
485</itemizedlist>
486
487<para>
488Once the new symbol version has been added you can add the names of your new
489symbols in the new version node:
490<programlisting>
491    GLIBCXX_3.4.23 {
492
493      # basic_string&lt;C, T, A&gt;::_Alloc_hider::_Alloc_hider(C*, A&amp;&amp;)
494      _ZNSt7__cxx1112basic_stringI[cw]St11char_traitsI[cw]ESaI[cw]EE12_Alloc_hiderC[12]EP[cw]OS3_;
495
496    } GLIBCXX_3.4.22;
497</programlisting>
498You can either use mangled names, or demangled names inside an
499<literal>extern "C++"</literal> block. You might find that the new symbol
500matches an existing pattern in an old symbol version (causing the
501<literal>check-abi</literal> test target to fail). If that happens then the
502existing pattern must be adjusted to be more specific so that it doesn't
503match the new symbol.
504</para>
505
506<para>
507For an example of these steps, including adjusting old patterns to be less
508greedy, see <link xmlns:xlink="http://www.w3.org/1999/xlink"
509xlink:href="https://gcc.gnu.org/ml/gcc-patches/2016-07/msg01926.html">https://gcc.gnu.org/ml/gcc-patches/2016-07/msg01926.html</link>
510and the attached patch.
511</para>
512
513<para>
514If it wasn't done for the last release, you might also need to regenerate
515the <filename>baseline_symbols.txt</filename> file that defines the set
516of expected symbols for old symbol versions. A new baseline file can be
517generated by running <userinput>make new-abi-baseline</userinput> in the
518<filename class="directory"><replaceable>libbuilddir</replaceable>/testsuite</filename>
519directory. Be sure to generate the baseline from a clean build using
520unmodified sources, or you will incorporate your local changes into the
521baseline file.
522</para>
523
524</section>
525</section> <!-- configure -->
526
527<section xml:id="build_hacking.make"><info><title>Make</title></info>
528
529  <para>
530    The build process has to make all of object files needed for
531    static or shared libraries, but first it has to generate some
532    include files. The general order is as follows:
533  </para>
534
535<orderedlist>
536 <listitem>
537   <para>
538     make include files, make pre-compiled headers
539   </para>
540 </listitem>
541 <listitem>
542   <para>
543     make libsupc++
544   </para>
545   <para>
546     Generates a libtool convenience library,
547     <filename>libsupc++convenience</filename> with language-support
548     routines. Also generates a freestanding static library,
549     <filename>libsupc++.a</filename>.
550   </para>
551 </listitem>
552 <listitem>
553   <para>
554     make src
555   </para>
556   <para>
557     Generates two convenience libraries, one for C++98 and one for
558     C++11, various compatibility files for shared and static
559     libraries, and then collects all the generated bits and creates
560     the final libstdc++ libraries.
561  </para>
562<orderedlist>
563 <listitem>
564   <para>
565     make src/c++98
566   </para>
567   <para>
568     Generates a libtool convenience library,
569     <filename>libc++98convenience</filename> with language-support
570     routines. Uses the <option>-std=gnu++98</option> dialect.
571   </para>
572 </listitem>
573 <listitem>
574   <para>
575     make src/c++11
576   </para>
577   <para>
578     Generates a libtool convenience library,
579     <filename>libc++11convenience</filename> with language-support
580     routines. Uses the <option>-std=gnu++11</option> dialect.
581   </para>
582 </listitem>
583 <listitem>
584   <para>
585     make src
586   </para>
587   <para>
588     Generates needed compatibility objects for shared and static
589     libraries. Shared-only code is seggregated at compile-time via
590     the macro <literal>_GLIBCXX_SHARED</literal>.
591   </para>
592
593   <para>
594     Then, collects all the generated convenience libraries, adds in
595     any required compatibility objects, and creates the final shared
596     and static libraries: <filename>libstdc++.so</filename> and
597     <filename>libstdc++.a</filename>.
598   </para>
599
600 </listitem>
601</orderedlist>
602 </listitem>
603</orderedlist>
604
605</section> <!-- make -->
606
607</section>
608