source: menu/kconfiglib.py@ 2c603d8

ablfs-more legacy trunk
Last change on this file since 2c603d8 was f596dde, checked in by Pierre Labastie <pierre@…>, 6 years ago

Get rid of the GPLv2 license:

  • Replace the menu system with the Kconfiglib, which has an ISC license
  • Remove farce and any reference to it
  • Rewrite the copyright notice, add the LICENSE files
  • Adapt Config.in and a few other programs to the new menu system
  • Property mode set to 100644
File size: 236.0 KB
Line 
1# Copyright (c) 2011-2019, Ulf Magnusson
2# SPDX-License-Identifier: ISC
3
4"""
5Overview
6========
7
8Kconfiglib is a Python 2/3 library for scripting and extracting information
9from Kconfig (https://www.kernel.org/doc/Documentation/kbuild/kconfig-language.txt)
10configuration systems.
11
12See the homepage at https://github.com/ulfalizer/Kconfiglib for a longer
13overview.
14
15Using Kconfiglib on the Linux kernel with the Makefile targets
16==============================================================
17
18For the Linux kernel, a handy interface is provided by the
19scripts/kconfig/Makefile patch, which can be applied with either 'git am' or
20the 'patch' utility:
21
22 $ wget -qO- https://raw.githubusercontent.com/ulfalizer/Kconfiglib/master/makefile.patch | git am
23 $ wget -qO- https://raw.githubusercontent.com/ulfalizer/Kconfiglib/master/makefile.patch | patch -p1
24
25Warning: Not passing -p1 to patch will cause the wrong file to be patched.
26
27Please tell me if the patch does not apply. It should be trivial to apply
28manually, as it's just a block of text that needs to be inserted near the other
29*conf: targets in scripts/kconfig/Makefile.
30
31Look further down for a motivation for the Makefile patch and for instructions
32on how you can use Kconfiglib without it.
33
34If you do not wish to install Kconfiglib via pip, the Makefile patch is set up
35so that you can also just clone Kconfiglib into the kernel root:
36
37 $ git clone git://github.com/ulfalizer/Kconfiglib.git
38 $ git am Kconfiglib/makefile.patch (or 'patch -p1 < Kconfiglib/makefile.patch')
39
40Warning: The directory name Kconfiglib/ is significant in this case, because
41it's added to PYTHONPATH by the new targets in makefile.patch.
42
43The targets added by the Makefile patch are described in the following
44sections.
45
46
47make kmenuconfig
48----------------
49
50This target runs the curses menuconfig interface with Python 3 (Python 2 is
51currently not supported for the menuconfig).
52
53
54make [ARCH=<arch>] iscriptconfig
55--------------------------------
56
57This target gives an interactive Python prompt where a Kconfig instance has
58been preloaded and is available in 'kconf'. To change the Python interpreter
59used, pass PYTHONCMD=<executable> to make. The default is "python".
60
61To get a feel for the API, try evaluating and printing the symbols in
62kconf.defined_syms, and explore the MenuNode menu tree starting at
63kconf.top_node by following 'next' and 'list' pointers.
64
65The item contained in a menu node is found in MenuNode.item (note that this can
66be one of the constants kconfiglib.MENU and kconfiglib.COMMENT), and all
67symbols and choices have a 'nodes' attribute containing their menu nodes
68(usually only one). Printing a menu node will print its item, in Kconfig
69format.
70
71If you want to look up a symbol by name, use the kconf.syms dictionary.
72
73
74make scriptconfig SCRIPT=<script> [SCRIPT_ARG=<arg>]
75----------------------------------------------------
76
77This target runs the Python script given by the SCRIPT parameter on the
78configuration. sys.argv[1] holds the name of the top-level Kconfig file
79(currently always "Kconfig" in practice), and sys.argv[2] holds the SCRIPT_ARG
80argument, if given.
81
82See the examples/ subdirectory for example scripts.
83
84
85make dumpvarsconfig
86-------------------
87
88This target prints a list of all environment variables referenced from the
89Kconfig files, together with their values. See the
90Kconfiglib/examples/dumpvars.py script.
91
92Only environment variables that are referenced via the Kconfig preprocessor
93$(FOO) syntax are included. The preprocessor was added in Linux 4.18.
94
95
96Using Kconfiglib without the Makefile targets
97=============================================
98
99The make targets are only needed to pick up environment variables exported from
100the Kbuild makefiles and referenced inside Kconfig files, via e.g.
101'source "arch/$(SRCARCH)/Kconfig" and commands run via '$(shell,...)'.
102
103These variables are referenced as of writing (Linux 4.18), together with sample
104values:
105
106 srctree (.)
107 ARCH (x86)
108 SRCARCH (x86)
109 KERNELVERSION (4.18.0)
110 CC (gcc)
111 HOSTCC (gcc)
112 HOSTCXX (g++)
113 CC_VERSION_TEXT (gcc (Ubuntu 7.3.0-16ubuntu3) 7.3.0)
114
115Older kernels only reference ARCH, SRCARCH, and KERNELVERSION.
116
117If your kernel is recent enough (4.18+), you can get a list of referenced
118environment variables via 'make dumpvarsconfig' (see above). Note that this
119command is added by the Makefile patch.
120
121To run Kconfiglib without the Makefile patch, set the environment variables
122manually:
123
124 $ srctree=. ARCH=x86 SRCARCH=x86 KERNELVERSION=`make kernelversion` ... python(3)
125 >>> import kconfiglib
126 >>> kconf = kconfiglib.Kconfig() # filename defaults to "Kconfig"
127
128Search the top-level Makefile for "Additional ARCH settings" to see other
129possibilities for ARCH and SRCARCH.
130
131
132Intro to symbol values
133======================
134
135Kconfiglib has the same assignment semantics as the C implementation.
136
137Any symbol can be assigned a value by the user (via Kconfig.load_config() or
138Symbol.set_value()), but this user value is only respected if the symbol is
139visible, which corresponds to it (currently) being visible in the menuconfig
140interface.
141
142For symbols with prompts, the visibility of the symbol is determined by the
143condition on the prompt. Symbols without prompts are never visible, so setting
144a user value on them is pointless. A warning will be printed by default if
145Symbol.set_value() is called on a promptless symbol. Assignments to promptless
146symbols are normal within a .config file, so no similar warning will be printed
147by load_config().
148
149Dependencies from parents and 'if'/'depends on' are propagated to properties,
150including prompts, so these two configurations are logically equivalent:
151
152(1)
153
154 menu "menu"
155 depends on A
156
157 if B
158
159 config FOO
160 tristate "foo" if D
161 default y
162 depends on C
163
164 endif
165
166 endmenu
167
168(2)
169
170 menu "menu"
171 depends on A
172
173 config FOO
174 tristate "foo" if A && B && C && D
175 default y if A && B && C
176
177 endmenu
178
179In this example, A && B && C && D (the prompt condition) needs to be non-n for
180FOO to be visible (assignable). If its value is m, the symbol can only be
181assigned the value m: The visibility sets an upper bound on the value that can
182be assigned by the user, and any higher user value will be truncated down.
183
184'default' properties are independent of the visibility, though a 'default' will
185often get the same condition as the prompt due to dependency propagation.
186'default' properties are used if the symbol is not visible or has no user
187value.
188
189Symbols with no user value (or that have a user value but are not visible) and
190no (active) 'default' default to n for bool/tristate symbols, and to the empty
191string for other symbol types.
192
193'select' works similarly to symbol visibility, but sets a lower bound on the
194value of the symbol. The lower bound is determined by the value of the
195select*ing* symbol. 'select' does not respect visibility, so non-visible
196symbols can be forced to a particular (minimum) value by a select as well.
197
198For non-bool/tristate symbols, it only matters whether the visibility is n or
199non-n: m visibility acts the same as y visibility.
200
201Conditions on 'default' and 'select' work in mostly intuitive ways. If the
202condition is n, the 'default' or 'select' is disabled. If it is m, the
203'default' or 'select' value (the value of the selecting symbol) is truncated
204down to m.
205
206When writing a configuration with Kconfig.write_config(), only symbols that are
207visible, have an (active) default, or are selected will get written out (note
208that this includes all symbols that would accept user values). Kconfiglib
209matches the .config format produced by the C implementations down to the
210character. This eases testing.
211
212For a visible bool/tristate symbol FOO with value n, this line is written to
213.config:
214
215 # CONFIG_FOO is not set
216
217The point is to remember the user n selection (which might differ from the
218default value the symbol would get), while at the same sticking to the rule
219that undefined corresponds to n (.config uses Makefile format, making the line
220above a comment). When the .config file is read back in, this line will be
221treated the same as the following assignment:
222
223 CONFIG_FOO=n
224
225In Kconfiglib, the set of (currently) assignable values for a bool/tristate
226symbol appear in Symbol.assignable. For other symbol types, just check if
227sym.visibility is non-0 (non-n) to see whether the user value will have an
228effect.
229
230
231Intro to the menu tree
232======================
233
234The menu structure, as seen in e.g. menuconfig, is represented by a tree of
235MenuNode objects. The top node of the configuration corresponds to an implicit
236top-level menu, the title of which is shown at the top in the standard
237menuconfig interface. (The title is also available in Kconfig.mainmenu_text in
238Kconfiglib.)
239
240The top node is found in Kconfig.top_node. From there, you can visit child menu
241nodes by following the 'list' pointer, and any following menu nodes by
242following the 'next' pointer. Usually, a non-None 'list' pointer indicates a
243menu or Choice, but menu nodes for symbols can sometimes have a non-None 'list'
244pointer too due to submenus created implicitly from dependencies.
245
246MenuNode.item is either a Symbol or a Choice object, or one of the constants
247MENU and COMMENT. The prompt of the menu node can be found in MenuNode.prompt,
248which also holds the title for menus and comments. For Symbol and Choice,
249MenuNode.help holds the help text (if any, otherwise None).
250
251Most symbols will only have a single menu node. A symbol defined in multiple
252locations will have one menu node for each location. The list of menu nodes for
253a Symbol or Choice can be found in the Symbol/Choice.nodes attribute.
254
255Note that prompts and help texts for symbols and choices are stored in their
256menu node(s) rather than in the Symbol or Choice objects themselves. This makes
257it possible to define a symbol in multiple locations with a different prompt or
258help text in each location. To get the help text or prompt for a symbol with a
259single menu node, do sym.nodes[0].help and sym.nodes[0].prompt, respectively.
260The prompt is a (text, condition) tuple, where condition determines the
261visibility (see 'Intro to expressions' below).
262
263This organization mirrors the C implementation. MenuNode is called
264'struct menu' there, but I thought "menu" was a confusing name.
265
266It is possible to give a Choice a name and define it in multiple locations,
267hence why Choice.nodes is also a list.
268
269As a convenience, the properties added at a particular definition location are
270available on the MenuNode itself, in e.g. MenuNode.defaults. This is helpful
271when generating documentation, so that symbols/choices defined in multiple
272locations can be shown with the correct properties at each location.
273
274
275Intro to expressions
276====================
277
278Expressions can be evaluated with the expr_value() function and printed with
279the expr_str() function (these are used internally as well). Evaluating an
280expression always yields a tristate value, where n, m, and y are represented as
2810, 1, and 2, respectively.
282
283The following table should help you figure out how expressions are represented.
284A, B, C, ... are symbols (Symbol instances), NOT is the kconfiglib.NOT
285constant, etc.
286
287Expression Representation
288---------- --------------
289A A
290"A" A (constant symbol)
291!A (NOT, A)
292A && B (AND, A, B)
293A && B && C (AND, A, (AND, B, C))
294A || B (OR, A, B)
295A || (B && C && D) (OR, A, (AND, B, (AND, C, D)))
296A = B (EQUAL, A, B)
297A != "foo" (UNEQUAL, A, foo (constant symbol))
298A && B = C && D (AND, A, (AND, (EQUAL, B, C), D))
299n Kconfig.n (constant symbol)
300m Kconfig.m (constant symbol)
301y Kconfig.y (constant symbol)
302"y" Kconfig.y (constant symbol)
303
304Strings like "foo" in 'default "foo"' or 'depends on SYM = "foo"' are
305represented as constant symbols, so the only values that appear in expressions
306are symbols***. This mirrors the C implementation.
307
308***For choice symbols, the parent Choice will appear in expressions as well,
309but it's usually invisible as the value interfaces of Symbol and Choice are
310identical. This mirrors the C implementation and makes different choice modes
311"just work".
312
313Manual evaluation examples:
314
315 - The value of A && B is min(A.tri_value, B.tri_value)
316
317 - The value of A || B is max(A.tri_value, B.tri_value)
318
319 - The value of !A is 2 - A.tri_value
320
321 - The value of A = B is 2 (y) if A.str_value == B.str_value, and 0 (n)
322 otherwise. Note that str_value is used here instead of tri_value.
323
324 For constant (as well as undefined) symbols, str_value matches the name of
325 the symbol. This mirrors the C implementation and explains why
326 'depends on SYM = "foo"' above works as expected.
327
328n/m/y are automatically converted to the corresponding constant symbols
329"n"/"m"/"y" (Kconfig.n/m/y) during parsing.
330
331Kconfig.const_syms is a dictionary like Kconfig.syms but for constant symbols.
332
333If a condition is missing (e.g., <cond> when the 'if <cond>' is removed from
334'default A if <cond>'), it is actually Kconfig.y. The standard __str__()
335functions just avoid printing 'if y' conditions to give cleaner output.
336
337
338Kconfig extensions
339==================
340
341Kconfiglib includes a couple of Kconfig extensions:
342
343'source' with relative path
344---------------------------
345
346The 'rsource' statement sources Kconfig files with a path relative to directory
347of the Kconfig file containing the 'rsource' statement, instead of relative to
348the project root.
349
350Consider following directory tree:
351
352 Project
353 +--Kconfig
354 |
355 +--src
356 +--Kconfig
357 |
358 +--SubSystem1
359 +--Kconfig
360 |
361 +--ModuleA
362 +--Kconfig
363
364In this example, assume that src/SubSystem1/Kconfig wants to source
365src/SubSystem1/ModuleA/Kconfig.
366
367With 'source', this statement would be used:
368
369 source "src/SubSystem1/ModuleA/Kconfig"
370
371With 'rsource', this turns into
372
373 rsource "ModuleA/Kconfig"
374
375If an absolute path is given to 'rsource', it acts the same as 'source'.
376
377'rsource' can be used to create "position-independent" Kconfig trees that can
378be moved around freely.
379
380
381Globbing 'source'
382-----------------
383
384'source' and 'rsource' accept glob patterns, sourcing all matching Kconfig
385files. They require at least one matching file, throwing a KconfigError
386otherwise.
387
388For example, the following statement might source sub1/foofoofoo and
389sub2/foobarfoo:
390
391 source "sub[12]/foo*foo"
392
393The glob patterns accepted are the same as for the standard glob.glob()
394function.
395
396Two additional statements are provided for cases where it's acceptable for a
397pattern to match no files: 'osource' and 'orsource' (the o is for "optional").
398
399For example, the following statements will be no-ops if neither "foo" nor any
400files matching "bar*" exist:
401
402 osource "foo"
403 osource "bar*"
404
405'orsource' does a relative optional source.
406
407'source' and 'osource' are analogous to 'include' and '-include' in Make.
408
409
410Generalized def_* keywords
411--------------------------
412
413def_int, def_hex, and def_string are available in addition to def_bool and
414def_tristate, allowing int, hex, and string symbols to be given a type and a
415default at the same time.
416
417
418Extra optional warnings
419-----------------------
420
421Some optional warnings can be controlled via environment variables:
422
423 - KCONFIG_WARN_UNDEF: If set to 'y', warnings will be generated for all
424 references to undefined symbols within Kconfig files. The only gotcha is
425 that all hex literals must be prefixed with "0x" or "0X", to make it
426 possible to distinguish them from symbol references.
427
428 Some projects (e.g. the Linux kernel) use multiple Kconfig trees with many
429 shared Kconfig files, leading to some safe undefined symbol references.
430 KCONFIG_WARN_UNDEF is useful in projects that only have a single Kconfig
431 tree though.
432
433 KCONFIG_STRICT is an older alias for this environment variable, supported
434 for backwards compatibility.
435
436 - KCONFIG_WARN_UNDEF_ASSIGN: If set to 'y', warnings will be generated for
437 all assignments to undefined symbols within .config files. By default, no
438 such warnings are generated.
439
440 This warning can also be enabled/disabled via
441 Kconfig.enable/disable_undef_warnings().
442
443
444Preprocessor user functions defined in Python
445---------------------------------------------
446
447Preprocessor functions can be defined in Python, which makes it simple to
448integrate information from existing Python tools into Kconfig (e.g. to have
449Kconfig symbols depend on hardware information stored in some other format).
450
451Putting a Python module named kconfigfunctions(.py) anywhere in sys.path will
452cause it to be imported by Kconfiglib (in Kconfig.__init__()). Note that
453sys.path can be customized via PYTHONPATH, and includes the directory of the
454module being run by default, as well as installation directories.
455
456If the KCONFIG_FUNCTIONS environment variable is set, it gives a different
457module name to use instead of 'kconfigfunctions'.
458
459The imported module is expected to define a global dictionary named 'functions'
460that maps function names to Python functions, as follows:
461
462 def my_fn(kconf, name, arg_1, arg_2, ...):
463 # kconf:
464 # Kconfig instance
465 #
466 # name:
467 # Name of the user-defined function ("my-fn"). Think argv[0].
468 #
469 # arg_1, arg_2, ...:
470 # Arguments passed to the function from Kconfig (strings)
471 #
472 # Returns a string to be substituted as the result of calling the
473 # function
474 ...
475
476 def my_other_fn(kconf, name, arg_1, arg_2, ...):
477 ...
478
479 functions = {
480 "my-fn": (my_fn, <min.args>, <max.args>/None),
481 "my-other-fn": (my_other_fn, <min.args>, <max.args>/None),
482 ...
483 }
484
485 ...
486
487<min.args> and <max.args> are the minimum and maximum number of arguments
488expected by the function (excluding the implicit 'name' argument). If
489<max.args> is None, there is no upper limit to the number of arguments. Passing
490an invalid number of arguments will generate a KconfigError exception.
491
492Once defined, user functions can be called from Kconfig in the same way as
493other preprocessor functions:
494
495 config FOO
496 ...
497 depends on $(my-fn,arg1,arg2)
498
499If my_fn() returns "n", this will result in
500
501 config FOO
502 ...
503 depends on n
504
505Warning
506*******
507
508User-defined preprocessor functions are called as they're encountered at parse
509time, before all Kconfig files have been processed, and before the menu tree
510has been finalized. There are no guarantees that accessing Kconfig symbols or
511the menu tree via the 'kconf' parameter will work, and it could potentially
512lead to a crash. The 'kconf' parameter is provided for future extension (and
513because the predefined functions take it anyway).
514
515Preferably, user-defined functions should be stateless.
516
517
518Feedback
519========
520
521Send bug reports, suggestions, and questions to ulfalizer a.t Google's email
522service, or open a ticket on the GitHub page.
523"""
524import errno
525import importlib
526import os
527import re
528import sys
529
530# Get rid of some attribute lookups. These are obvious in context.
531from glob import iglob
532from os.path import dirname, exists, expandvars, isabs, islink, join, \
533 relpath, split
534
535
536# File layout:
537#
538# Public classes
539# Public functions
540# Internal functions
541# Global constants
542
543# Line length: 79 columns
544
545
546#
547# Public classes
548#
549
550
551class Kconfig(object):
552 """
553 Represents a Kconfig configuration, e.g. for x86 or ARM. This is the set of
554 symbols, choices, and menu nodes appearing in the configuration. Creating
555 any number of Kconfig objects (including for different architectures) is
556 safe. Kconfiglib doesn't keep any global state.
557
558 The following attributes are available. They should be treated as
559 read-only, and some are implemented through @property magic.
560
561 syms:
562 A dictionary with all symbols in the configuration, indexed by name. Also
563 includes all symbols that are referenced in expressions but never
564 defined, except for constant (quoted) symbols.
565
566 Undefined symbols can be recognized by Symbol.nodes being empty -- see
567 the 'Intro to the menu tree' section in the module docstring.
568
569 const_syms:
570 A dictionary like 'syms' for constant (quoted) symbols
571
572 named_choices:
573 A dictionary like 'syms' for named choices (choice FOO)
574
575 defined_syms:
576 A list with all defined symbols, in the same order as they appear in the
577 Kconfig files. Symbols defined in multiple locations appear multiple
578 times.
579
580 Note: You probably want to use 'unique_defined_syms' instead. This
581 attribute is mostly maintained for backwards compatibility.
582
583 unique_defined_syms:
584 A list like 'defined_syms', but with duplicates removed. Just the first
585 instance is kept for symbols defined in multiple locations. Kconfig order
586 is preserved otherwise.
587
588 Using this attribute instead of 'defined_syms' can save work, and
589 automatically gives reasonable behavior when writing configuration output
590 (symbols defined in multiple locations only generate output once, while
591 still preserving Kconfig order for readability).
592
593 choices:
594 A list with all choices, in the same order as they appear in the Kconfig
595 files.
596
597 Note: You probably want to use 'unique_choices' instead. This attribute
598 is mostly maintained for backwards compatibility.
599
600 unique_choices:
601 Analogous to 'unique_defined_syms', for choices. Named choices can have
602 multiple definition locations.
603
604 menus:
605 A list with all menus, in the same order as they appear in the Kconfig
606 files
607
608 comments:
609 A list with all comments, in the same order as they appear in the Kconfig
610 files
611
612 kconfig_filenames:
613 A list with the filenames of all Kconfig files included in the
614 configuration, relative to $srctree (or relative to the current directory
615 if $srctree isn't set), except absolute paths (e.g.
616 'source "/foo/Kconfig"') are kept as-is.
617
618 The files are listed in the order they are source'd, starting with the
619 top-level Kconfig file. If a file is source'd multiple times, it will
620 appear multiple times. Use set() to get unique filenames.
621
622 Note: Using this for incremental builds is redundant. Kconfig.sync_deps()
623 already indirectly catches any file modifications that change the
624 configuration output.
625
626 env_vars:
627 A set() with the names of all environment variables referenced in the
628 Kconfig files.
629
630 Only environment variables referenced with the preprocessor $(FOO) syntax
631 will be registered. The older $FOO syntax is only supported for backwards
632 compatibility.
633
634 Also note that $(FOO) won't be registered unless the environment variable
635 $FOO is actually set. If it isn't, $(FOO) is an expansion of an unset
636 preprocessor variable (which gives the empty string).
637
638 Another gotcha is that environment variables referenced in the values of
639 recursively expanded preprocessor variables (those defined with =) will
640 only be registered if the variable is actually used (expanded) somewhere.
641
642 The note from the 'kconfig_filenames' documentation applies here too.
643
644 n/m/y:
645 The predefined constant symbols n/m/y. Also available in const_syms.
646
647 modules:
648 The Symbol instance for the modules symbol. Currently hardcoded to
649 MODULES, which is backwards compatible. Kconfiglib will warn if
650 'option modules' is set on some other symbol. Tell me if you need proper
651 'option modules' support.
652
653 'modules' is never None. If the MODULES symbol is not explicitly defined,
654 its tri_value will be 0 (n), as expected.
655
656 A simple way to enable modules is to do 'kconf.modules.set_value(2)'
657 (provided the MODULES symbol is defined and visible). Modules are
658 disabled by default in the kernel Kconfig files as of writing, though
659 nearly all defconfig files enable them (with 'CONFIG_MODULES=y').
660
661 defconfig_list:
662 The Symbol instance for the 'option defconfig_list' symbol, or None if no
663 defconfig_list symbol exists. The defconfig filename derived from this
664 symbol can be found in Kconfig.defconfig_filename.
665
666 defconfig_filename:
667 The filename given by the defconfig_list symbol. This is taken from the
668 first 'default' with a satisfied condition where the specified file
669 exists (can be opened for reading). If a defconfig file foo/defconfig is
670 not found and $srctree was set when the Kconfig was created,
671 $srctree/foo/defconfig is looked up as well.
672
673 'defconfig_filename' is None if either no defconfig_list symbol exists,
674 or if the defconfig_list symbol has no 'default' with a satisfied
675 condition that specifies a file that exists.
676
677 Gotcha: scripts/kconfig/Makefile might pass --defconfig=<defconfig> to
678 scripts/kconfig/conf when running e.g. 'make defconfig'. This option
679 overrides the defconfig_list symbol, meaning defconfig_filename might not
680 always match what 'make defconfig' would use.
681
682 top_node:
683 The menu node (see the MenuNode class) of the implicit top-level menu.
684 Acts as the root of the menu tree.
685
686 mainmenu_text:
687 The prompt (title) of the top menu (top_node). Defaults to "Main menu".
688 Can be changed with the 'mainmenu' statement (see kconfig-language.txt).
689
690 variables:
691 A dictionary with all preprocessor variables, indexed by name. See the
692 Variable class.
693
694 warnings:
695 A list of strings containing all warnings that have been generated. This
696 allows flexibility in how warnings are printed and processed.
697
698 See the 'warn_to_stderr' parameter to Kconfig.__init__() and the
699 Kconfig.enable/disable_stderr_warnings() functions as well. Note that
700 warnings still get added to Kconfig.warnings when 'warn_to_stderr' is
701 True.
702
703 Just as for warnings printed to stderr, only optional warnings that are
704 enabled will get added to Kconfig.warnings. See the various
705 Kconfig.enable/disable_*_warnings() functions.
706
707 missing_syms:
708 A list with (name, value) tuples for all assignments to undefined symbols
709 within the most recently loaded .config file(s). 'name' is the symbol
710 name without the 'CONFIG_' prefix. 'value' is a string that gives the
711 right-hand side of the assignment verbatim.
712
713 See Kconfig.load_config() as well.
714
715 srctree:
716 The value of the $srctree environment variable when the configuration was
717 loaded, or the empty string if $srctree wasn't set. This gives nice
718 behavior with os.path.join(), which treats "" as the current directory,
719 without adding "./".
720
721 Kconfig files are looked up relative to $srctree (unless absolute paths
722 are used), and .config files are looked up relative to $srctree if they
723 are not found in the current directory. This is used to support
724 out-of-tree builds. The C tools use this environment variable in the same
725 way.
726
727 Changing $srctree after creating the Kconfig instance has no effect. Only
728 the value when the configuration is loaded matters. This avoids surprises
729 if multiple configurations are loaded with different values for $srctree.
730
731 config_prefix:
732 The value of the $CONFIG_ environment variable when the configuration was
733 loaded. This is the prefix used (and expected) on symbol names in .config
734 files and C headers. Defaults to "CONFIG_". Used in the same way in the C
735 tools.
736
737 Like for srctree, only the value of $CONFIG_ when the configuration is
738 loaded matters.
739 """
740 __slots__ = (
741 "_encoding",
742 "_functions",
743 "_set_match",
744 "_unset_match",
745 "_warn_for_no_prompt",
746 "_warn_for_override",
747 "_warn_for_redun_assign",
748 "_warn_for_undef_assign",
749 "_warn_to_stderr",
750 "_warnings_enabled",
751 "choices",
752 "comments",
753 "config_prefix",
754 "const_syms",
755 "defconfig_list",
756 "defined_syms",
757 "env_vars",
758 "kconfig_filenames",
759 "m",
760 "mainmenu_text",
761 "menus",
762 "missing_syms",
763 "modules",
764 "n",
765 "named_choices",
766 "srctree",
767 "syms",
768 "top_node",
769 "unique_choices",
770 "unique_defined_syms",
771 "variables",
772 "warnings",
773 "y",
774
775 # Parsing-related
776 "_parsing_kconfigs",
777 "_readline",
778 "_filename",
779 "_linenr",
780 "_include_path",
781 "_filestack",
782 "_line",
783 "_tokens",
784 "_tokens_i",
785 "_reuse_tokens",
786 )
787
788 #
789 # Public interface
790 #
791
792 def __init__(self, filename="Kconfig", warn=True, warn_to_stderr=True,
793 encoding="utf-8"):
794 """
795 Creates a new Kconfig object by parsing Kconfig files.
796 Note that Kconfig files are not the same as .config files (which store
797 configuration symbol values).
798
799 See the module docstring for some environment variables that influence
800 default warning settings (KCONFIG_WARN_UNDEF and
801 KCONFIG_WARN_UNDEF_ASSIGN).
802
803 Raises KconfigError on syntax errors, and (possibly a subclass of)
804 IOError on IO errors ('errno', 'strerror', and 'filename' are
805 available). Note that IOError can be caught as OSError on Python 3.
806
807 filename (default: "Kconfig"):
808 The Kconfig file to load. For the Linux kernel, you'll want "Kconfig"
809 from the top-level directory, as environment variables will make sure
810 the right Kconfig is included from there (arch/$SRCARCH/Kconfig as of
811 writing).
812
813 If $srctree is set, 'filename' will be looked up relative to it.
814 $srctree is also used to look up source'd files within Kconfig files.
815 See the class documentation.
816
817 If you are using Kconfiglib via 'make scriptconfig', the filename of
818 the base base Kconfig file will be in sys.argv[1]. It's currently
819 always "Kconfig" in practice.
820
821 warn (default: True):
822 True if warnings related to this configuration should be generated.
823 This can be changed later with Kconfig.enable/disable_warnings(). It
824 is provided as a constructor argument since warnings might be
825 generated during parsing.
826
827 See the other Kconfig.enable_*_warnings() functions as well, which
828 enable or suppress certain warnings when warnings are enabled.
829
830 All generated warnings are added to the Kconfig.warnings list. See
831 the class documentation.
832
833 warn_to_stderr (default: True):
834 True if warnings should be printed to stderr in addition to being
835 added to Kconfig.warnings.
836
837 This can be changed later with
838 Kconfig.enable/disable_stderr_warnings().
839
840 encoding (default: "utf-8"):
841 The encoding to use when reading and writing files. If None, the
842 encoding specified in the current locale will be used.
843
844 The "utf-8" default avoids exceptions on systems that are configured
845 to use the C locale, which implies an ASCII encoding.
846
847 This parameter has no effect on Python 2, due to implementation
848 issues (regular strings turning into Unicode strings, which are
849 distinct in Python 2). Python 2 doesn't decode regular strings
850 anyway.
851
852 Related PEP: https://www.python.org/dev/peps/pep-0538/
853 """
854 self.srctree = os.environ.get("srctree", "")
855 self.config_prefix = os.environ.get("CONFIG_", "CONFIG_")
856
857 # Regular expressions for parsing .config files
858 self._set_match = _re_match(self.config_prefix + r"([^=]+)=(.*)")
859 self._unset_match = \
860 _re_match(r"# {}([^ ]+) is not set".format(self.config_prefix))
861
862
863 self.warnings = []
864
865 self._warnings_enabled = warn
866 self._warn_to_stderr = warn_to_stderr
867 self._warn_for_undef_assign = \
868 os.environ.get("KCONFIG_WARN_UNDEF_ASSIGN") == "y"
869 self._warn_for_redun_assign = self._warn_for_override = True
870
871
872 self._encoding = encoding
873
874
875 self.syms = {}
876 self.const_syms = {}
877 self.defined_syms = []
878
879 self.missing_syms = []
880
881 self.named_choices = {}
882 self.choices = []
883
884 self.menus = []
885 self.comments = []
886
887 for nmy in "n", "m", "y":
888 sym = Symbol()
889 sym.kconfig = self
890 sym.name = nmy
891 sym.is_constant = True
892 sym.orig_type = TRISTATE
893 sym._cached_tri_val = STR_TO_TRI[nmy]
894
895 self.const_syms[nmy] = sym
896
897 self.n = self.const_syms["n"]
898 self.m = self.const_syms["m"]
899 self.y = self.const_syms["y"]
900
901 # Make n/m/y well-formed symbols
902 for nmy in "n", "m", "y":
903 sym = self.const_syms[nmy]
904 sym.rev_dep = sym.weak_rev_dep = sym.direct_dep = self.n
905
906
907 # Maps preprocessor variables names to Variable instances
908 self.variables = {}
909
910 # Predefined preprocessor functions, with min/max number of arguments
911 self._functions = {
912 "info": (_info_fn, 1, 1),
913 "error-if": (_error_if_fn, 2, 2),
914 "filename": (_filename_fn, 0, 0),
915 "lineno": (_lineno_fn, 0, 0),
916 "shell": (_shell_fn, 1, 1),
917 "warning-if": (_warning_if_fn, 2, 2),
918 }
919
920 # Add any user-defined preprocessor functions
921 try:
922 self._functions.update(
923 importlib.import_module(
924 os.environ.get("KCONFIG_FUNCTIONS", "kconfigfunctions")
925 ).functions)
926 except ImportError:
927 pass
928
929
930 # This is used to determine whether previously unseen symbols should be
931 # registered. They shouldn't be if we parse expressions after parsing,
932 # as part of Kconfig.eval_string().
933 self._parsing_kconfigs = True
934
935 self.modules = self._lookup_sym("MODULES")
936 self.defconfig_list = None
937
938 self.top_node = MenuNode()
939 self.top_node.kconfig = self
940 self.top_node.item = MENU
941 self.top_node.is_menuconfig = True
942 self.top_node.visibility = self.y
943 self.top_node.prompt = ("Main menu", self.y)
944 self.top_node.parent = None
945 self.top_node.dep = self.y
946 self.top_node.filename = filename
947 self.top_node.linenr = 1
948 self.top_node.include_path = ()
949
950 # Parse the Kconfig files
951
952 # Not used internally. Provided as a convenience.
953 self.kconfig_filenames = [filename]
954 self.env_vars = set()
955
956 # Used to avoid retokenizing lines when we discover that they're not
957 # part of the construct currently being parsed. This is kinda like an
958 # unget operation.
959 self._reuse_tokens = False
960
961 # Keeps track of the location in the parent Kconfig files. Kconfig
962 # files usually source other Kconfig files. See _enter_file().
963 self._filestack = []
964 self._include_path = ()
965
966 # The current parsing location
967 self._filename = filename
968 self._linenr = 0
969
970 # Open the top-level Kconfig file. Store the readline() method directly
971 # as a small optimization.
972 self._readline = self._open(join(self.srctree, filename), "r").readline
973
974 try:
975 # Parse everything
976 self._parse_block(None, self.top_node, self.top_node)
977 except UnicodeDecodeError as e:
978 _decoding_error(e, self._filename)
979
980 # Close the top-level Kconfig file. __self__ fetches the 'file' object
981 # for the method.
982 self._readline.__self__.close()
983
984 self.top_node.list = self.top_node.next
985 self.top_node.next = None
986
987 self._parsing_kconfigs = False
988
989 self.unique_defined_syms = _ordered_unique(self.defined_syms)
990 self.unique_choices = _ordered_unique(self.choices)
991
992 # Do various post-processing on the menu tree
993 self._finalize_tree(self.top_node, self.y)
994
995
996 # Do sanity checks. Some of these depend on everything being finalized.
997 self._check_sym_sanity()
998 self._check_choice_sanity()
999
1000 # KCONFIG_STRICT is an older alias for KCONFIG_WARN_UNDEF, supported
1001 # for backwards compatibility
1002 if os.environ.get("KCONFIG_WARN_UNDEF") == "y" or \
1003 os.environ.get("KCONFIG_STRICT") == "y":
1004
1005 self._check_undef_syms()
1006
1007
1008 # Build Symbol._dependents for all symbols and choices
1009 self._build_dep()
1010
1011 # Check for dependency loops
1012 check_dep_loop_sym = _check_dep_loop_sym # Micro-optimization
1013 for sym in self.unique_defined_syms:
1014 check_dep_loop_sym(sym, False)
1015
1016 # Add extra dependencies from choices to choice symbols that get
1017 # awkward during dependency loop detection
1018 self._add_choice_deps()
1019
1020
1021 self._warn_for_no_prompt = True
1022
1023 self.mainmenu_text = self.top_node.prompt[0]
1024
1025 @property
1026 def defconfig_filename(self):
1027 """
1028 See the class documentation.
1029 """
1030 if self.defconfig_list:
1031 for filename, cond in self.defconfig_list.defaults:
1032 if expr_value(cond):
1033 try:
1034 with self._open_config(filename.str_value) as f:
1035 return f.name
1036 except IOError:
1037 continue
1038
1039 return None
1040
1041 def load_config(self, filename=None, replace=True, verbose=True):
1042 """
1043 Loads symbol values from a file in the .config format. Equivalent to
1044 calling Symbol.set_value() to set each of the values.
1045
1046 "# CONFIG_FOO is not set" within a .config file sets the user value of
1047 FOO to n. The C tools work the same way.
1048
1049 For each symbol, the Symbol.user_value attribute holds the value the
1050 symbol was assigned in the .config file (if any). The user value might
1051 differ from Symbol.str/tri_value if there are unsatisfied dependencies.
1052
1053 Calling this function also updates the Kconfig.missing_syms attribute
1054 with a list of all assignments to undefined symbols within the
1055 configuration file. Kconfig.missing_syms is cleared if 'replace' is
1056 True, and appended to otherwise. See the documentation for
1057 Kconfig.missing_syms as well.
1058
1059 Raises (possibly a subclass of) IOError on IO errors ('errno',
1060 'strerror', and 'filename' are available). Note that IOError can be
1061 caught as OSError on Python 3.
1062
1063 filename (default: None):
1064 Path to load configuration from (a string). Respects $srctree if set
1065 (see the class documentation).
1066
1067 If 'filename' is None (the default), the configuration file to load
1068 (if any) is calculated automatically, giving the behavior you'd
1069 usually want:
1070
1071 1. If the KCONFIG_CONFIG environment variable is set, it gives the
1072 path to the configuration file to load. Otherwise, ".config" is
1073 used. See standard_config_filename().
1074
1075 2. If the path from (1.) doesn't exist, the configuration file
1076 given by kconf.defconfig_filename is loaded instead, which is
1077 derived from the 'option defconfig_list' symbol.
1078
1079 3. If (1.) and (2.) fail to find a configuration file to load, no
1080 configuration file is loaded, and symbols retain their current
1081 values (e.g., their default values). This is not an error.
1082
1083 See the return value as well.
1084
1085 replace (default: True):
1086 If True, all existing user values will be cleared before loading the
1087 .config. Pass False to merge configurations.
1088
1089 verbose (default: True):
1090 If True and filename is None (automatically infer configuration
1091 file), a message will be printed to stdout telling which file got
1092 loaded (or that no file got loaded). This is meant to reduce
1093 boilerplate in tools.
1094
1095 Returns True if an existing configuration was loaded (that didn't come
1096 from the 'option defconfig_list' symbol), and False otherwise. This is
1097 mostly useful in conjunction with filename=None, as True will always be
1098 returned otherwise.
1099 """
1100 loaded_existing = True
1101 if filename is None:
1102 filename = standard_config_filename()
1103 if exists(filename):
1104 if verbose:
1105 print("Using existing configuration '{}' as base"
1106 .format(filename))
1107 else:
1108 filename = self.defconfig_filename
1109 if filename is None:
1110 if verbose:
1111 print("Using default symbol values as base")
1112 return False
1113
1114 if verbose:
1115 print("Using default configuration found in '{}' as "
1116 "base".format(filename))
1117
1118 loaded_existing = False
1119
1120 # Disable the warning about assigning to symbols without prompts. This
1121 # is normal and expected within a .config file.
1122 self._warn_for_no_prompt = False
1123
1124 # This stub only exists to make sure _warn_for_no_prompt gets reenabled
1125 try:
1126 self._load_config(filename, replace)
1127 except UnicodeDecodeError as e:
1128 _decoding_error(e, filename)
1129 finally:
1130 self._warn_for_no_prompt = True
1131
1132 return loaded_existing
1133
1134 def _load_config(self, filename, replace):
1135 with self._open_config(filename) as f:
1136 if replace:
1137 self.missing_syms = []
1138
1139 # If we're replacing the configuration, keep track of which
1140 # symbols and choices got set so that we can unset the rest
1141 # later. This avoids invalidating everything and is faster.
1142 # Another benefit is that invalidation must be rock solid for
1143 # it to work, making it a good test.
1144
1145 for sym in self.unique_defined_syms:
1146 sym._was_set = False
1147
1148 for choice in self.unique_choices:
1149 choice._was_set = False
1150
1151 # Small optimizations
1152 set_match = self._set_match
1153 unset_match = self._unset_match
1154 syms = self.syms
1155
1156 for linenr, line in enumerate(f, 1):
1157 # The C tools ignore trailing whitespace
1158 line = line.rstrip()
1159
1160 match = set_match(line)
1161 if match:
1162 name, val = match.groups()
1163 if name not in syms:
1164 self._undef_assign(name, val, filename, linenr)
1165 continue
1166
1167 sym = syms[name]
1168 if not sym.nodes:
1169 self._undef_assign(name, val, filename, linenr)
1170 continue
1171
1172 if sym.orig_type in _BOOL_TRISTATE:
1173 # The C implementation only checks the first character
1174 # to the right of '=', for whatever reason
1175 if not ((sym.orig_type is BOOL and
1176 val.startswith(("y", "n"))) or
1177 (sym.orig_type is TRISTATE and
1178 val.startswith(("y", "m", "n")))):
1179 self._warn("'{}' is not a valid value for the {} "
1180 "symbol {}. Assignment ignored."
1181 .format(val, TYPE_TO_STR[sym.orig_type],
1182 _name_and_loc(sym)),
1183 filename, linenr)
1184 continue
1185
1186 val = val[0]
1187
1188 if sym.choice and val != "n":
1189 # During .config loading, we infer the mode of the
1190 # choice from the kind of values that are assigned
1191 # to the choice symbols
1192
1193 prev_mode = sym.choice.user_value
1194 if prev_mode is not None and \
1195 TRI_TO_STR[prev_mode] != val:
1196
1197 self._warn("both m and y assigned to symbols "
1198 "within the same choice",
1199 filename, linenr)
1200
1201 # Set the choice's mode
1202 sym.choice.set_value(val)
1203
1204 elif sym.orig_type is STRING:
1205 match = _conf_string_match(val)
1206 if not match:
1207 self._warn("malformed string literal in "
1208 "assignment to {}. Assignment ignored."
1209 .format(_name_and_loc(sym)),
1210 filename, linenr)
1211 continue
1212
1213 val = unescape(match.group(1))
1214
1215 else:
1216 match = unset_match(line)
1217 if not match:
1218 # Print a warning for lines that match neither
1219 # set_match() nor unset_match() and that are not blank
1220 # lines or comments. 'line' has already been
1221 # rstrip()'d, so blank lines show up as "" here.
1222 if line and not line.lstrip().startswith("#"):
1223 self._warn("ignoring malformed line '{}'"
1224 .format(line),
1225 filename, linenr)
1226
1227 continue
1228
1229 name = match.group(1)
1230 if name not in syms:
1231 self._undef_assign(name, "n", filename, linenr)
1232 continue
1233
1234 sym = syms[name]
1235 if not sym.nodes:
1236 self._undef_assign(name, "n", filename, linenr)
1237 continue
1238
1239 if sym.orig_type not in _BOOL_TRISTATE:
1240 continue
1241
1242 val = "n"
1243
1244 # Done parsing the assignment. Set the value.
1245
1246 if sym._was_set:
1247 # Use strings for bool/tristate user values in the warning
1248 if sym.orig_type in _BOOL_TRISTATE:
1249 display_user_val = TRI_TO_STR[sym.user_value]
1250 else:
1251 display_user_val = sym.user_value
1252
1253 msg = '{} set more than once. Old value: "{}", new value: "{}".'.format(
1254 _name_and_loc(sym), display_user_val, val
1255 )
1256
1257 if display_user_val == val:
1258 self._warn_redun_assign(msg, filename, linenr)
1259 else:
1260 self._warn_override(msg, filename, linenr)
1261
1262 sym.set_value(val)
1263
1264 if replace:
1265 # If we're replacing the configuration, unset the symbols that
1266 # didn't get set
1267
1268 for sym in self.unique_defined_syms:
1269 if not sym._was_set:
1270 sym.unset_value()
1271
1272 for choice in self.unique_choices:
1273 if not choice._was_set:
1274 choice.unset_value()
1275
1276 def _undef_assign(self, name, val, filename, linenr):
1277 # Called for assignments to undefined symbols during .config loading
1278
1279 self.missing_syms.append((name, val))
1280
1281 if self._warn_for_undef_assign:
1282 self._warn(
1283 "attempt to assign the value '{}' to the undefined symbol {}"
1284 .format(val, name), filename, linenr)
1285
1286 def write_autoconf(self, filename,
1287 header="/* Generated by Kconfiglib (https://github.com/ulfalizer/Kconfiglib) */\n"):
1288 r"""
1289 Writes out symbol values as a C header file, matching the format used
1290 by include/generated/autoconf.h in the kernel.
1291
1292 The ordering of the #defines matches the one generated by
1293 write_config(). The order in the C implementation depends on the hash
1294 table implementation as of writing, and so won't match.
1295
1296 filename:
1297 Self-explanatory.
1298
1299 header (default: "/* Generated by Kconfiglib (https://github.com/ulfalizer/Kconfiglib) */\n"):
1300 Text that will be inserted verbatim at the beginning of the file. You
1301 would usually want it enclosed in '/* */' to make it a C comment,
1302 and include a final terminating newline.
1303 """
1304 with self._open(filename, "w") as f:
1305 f.write(header)
1306
1307 for sym in self.unique_defined_syms:
1308 # Note: _write_to_conf is determined when the value is
1309 # calculated. This is a hidden function call due to
1310 # property magic.
1311 val = sym.str_value
1312 if sym._write_to_conf:
1313 if sym.orig_type in _BOOL_TRISTATE:
1314 if val != "n":
1315 f.write("#define {}{}{} 1\n"
1316 .format(self.config_prefix, sym.name,
1317 "_MODULE" if val == "m" else ""))
1318
1319 elif sym.orig_type is STRING:
1320 f.write('#define {}{} "{}"\n'
1321 .format(self.config_prefix, sym.name,
1322 escape(val)))
1323
1324 else: # sym.orig_type in _INT_HEX:
1325 if sym.orig_type is HEX and \
1326 not val.startswith(("0x", "0X")):
1327 val = "0x" + val
1328
1329 f.write("#define {}{} {}\n"
1330 .format(self.config_prefix, sym.name, val))
1331
1332 def write_config(self, filename=None,
1333 header="# Generated by Kconfiglib (https://github.com/ulfalizer/Kconfiglib)\n",
1334 save_old=True, verbose=True):
1335 r"""
1336 Writes out symbol values in the .config format. The format matches the
1337 C implementation, including ordering.
1338
1339 Symbols appear in the same order in generated .config files as they do
1340 in the Kconfig files. For symbols defined in multiple locations, a
1341 single assignment is written out corresponding to the first location
1342 where the symbol is defined.
1343
1344 See the 'Intro to symbol values' section in the module docstring to
1345 understand which symbols get written out.
1346
1347 filename (default: None):
1348 Filename to save configuration to (a string).
1349
1350 If None (the default), the filename in the the environment variable
1351 KCONFIG_CONFIG is used if set, and ".config" otherwise. See
1352 standard_config_filename().
1353
1354 header (default: "# Generated by Kconfiglib (https://github.com/ulfalizer/Kconfiglib)\n"):
1355 Text that will be inserted verbatim at the beginning of the file. You
1356 would usually want each line to start with '#' to make it a comment,
1357 and include a final terminating newline.
1358
1359 save_old (default: True):
1360 If True and <filename> already exists, a copy of it will be saved to
1361 .<filename>.old in the same directory before the new configuration is
1362 written. The leading dot is added only if the filename doesn't
1363 already start with a dot.
1364
1365 Errors are silently ignored if .<filename>.old cannot be written
1366 (e.g. due to being a directory).
1367
1368 verbose (default: True):
1369 If True and filename is None (automatically infer configuration
1370 file), a message will be printed to stdout telling which file got
1371 written. This is meant to reduce boilerplate in tools.
1372 """
1373 if filename is None:
1374 filename = standard_config_filename()
1375 else:
1376 verbose = False
1377
1378 if save_old:
1379 _save_old(filename)
1380
1381 with self._open(filename, "w") as f:
1382 f.write(header)
1383
1384 for node in self.node_iter(unique_syms=True):
1385 item = node.item
1386
1387 if item.__class__ is Symbol:
1388 f.write(item.config_string)
1389
1390 elif expr_value(node.dep) and \
1391 ((item is MENU and expr_value(node.visibility)) or
1392 item is COMMENT):
1393
1394 f.write("\n#\n# {}\n#\n".format(node.prompt[0]))
1395
1396 if verbose:
1397 print("Configuration written to '{}'".format(filename))
1398
1399 def write_min_config(self, filename,
1400 header="# Generated by Kconfiglib (https://github.com/ulfalizer/Kconfiglib)\n"):
1401 """
1402 Writes out a "minimal" configuration file, omitting symbols whose value
1403 matches their default value. The format matches the one produced by
1404 'make savedefconfig'.
1405
1406 The resulting configuration file is incomplete, but a complete
1407 configuration can be derived from it by loading it. Minimal
1408 configuration files can serve as a more manageable configuration format
1409 compared to a "full" .config file, especially when configurations files
1410 are merged or edited by hand.
1411
1412 filename:
1413 Self-explanatory.
1414
1415 header (default: "# Generated by Kconfiglib (https://github.com/ulfalizer/Kconfiglib)\n"):
1416 Text that will be inserted verbatim at the beginning of the file. You
1417 would usually want each line to start with '#' to make it a comment,
1418 and include a final terminating newline.
1419 """
1420 with self._open(filename, "w") as f:
1421 f.write(header)
1422
1423 for sym in self.unique_defined_syms:
1424 # Skip symbols that cannot be changed. Only check
1425 # non-choice symbols, as selects don't affect choice
1426 # symbols.
1427 if not sym.choice and \
1428 sym.visibility <= expr_value(sym.rev_dep):
1429 continue
1430
1431 # Skip symbols whose value matches their default
1432 if sym.str_value == sym._str_default():
1433 continue
1434
1435 # Skip symbols that would be selected by default in a
1436 # choice, unless the choice is optional or the symbol type
1437 # isn't bool (it might be possible to set the choice mode
1438 # to n or the symbol to m in those cases).
1439 if sym.choice and \
1440 not sym.choice.is_optional and \
1441 sym.choice._get_selection_from_defaults() is sym and \
1442 sym.orig_type is BOOL and \
1443 sym.tri_value == 2:
1444 continue
1445
1446 f.write(sym.config_string)
1447
1448 def sync_deps(self, path):
1449 """
1450 Creates or updates a directory structure that can be used to avoid
1451 doing a full rebuild whenever the configuration is changed, mirroring
1452 include/config/ in the kernel.
1453
1454 This function is intended to be called during each build, before
1455 compiling source files that depend on configuration symbols.
1456
1457 path:
1458 Path to directory
1459
1460 sync_deps(path) does the following:
1461
1462 1. If the directory <path> does not exist, it is created.
1463
1464 2. If <path>/auto.conf exists, old symbol values are loaded from it,
1465 which are then compared against the current symbol values. If a
1466 symbol has changed value (would generate different output in
1467 autoconf.h compared to before), the change is signaled by
1468 touch'ing a file corresponding to the symbol.
1469
1470 The first time sync_deps() is run on a directory, <path>/auto.conf
1471 won't exist, and no old symbol values will be available. This
1472 logically has the same effect as updating the entire
1473 configuration.
1474
1475 The path to a symbol's file is calculated from the symbol's name
1476 by replacing all '_' with '/' and appending '.h'. For example, the
1477 symbol FOO_BAR_BAZ gets the file <path>/foo/bar/baz.h, and FOO
1478 gets the file <path>/foo.h.
1479
1480 This scheme matches the C tools. The point is to avoid having a
1481 single directory with a huge number of files, which the underlying
1482 filesystem might not handle well.
1483
1484 3. A new auto.conf with the current symbol values is written, to keep
1485 track of them for the next build.
1486
1487
1488 The last piece of the puzzle is knowing what symbols each source file
1489 depends on. Knowing that, dependencies can be added from source files
1490 to the files corresponding to the symbols they depends on. The source
1491 file will then get recompiled (only) when the symbol value changes
1492 (provided sync_deps() is run first during each build).
1493
1494 The tool in the kernel that extracts symbol dependencies from source
1495 files is scripts/basic/fixdep.c. Missing symbol files also correspond
1496 to "not changed", which fixdep deals with by using the $(wildcard) Make
1497 function when adding symbol prerequisites to source files.
1498
1499 In case you need a different scheme for your project, the sync_deps()
1500 implementation can be used as a template.
1501 """
1502 if not exists(path):
1503 os.mkdir(path, 0o755)
1504
1505 # This setup makes sure that at least the current working directory
1506 # gets reset if things fail
1507 prev_dir = os.getcwd()
1508 try:
1509 # cd'ing into the symbol file directory simplifies
1510 # _sync_deps() and saves some work
1511 os.chdir(path)
1512 self._sync_deps()
1513 finally:
1514 os.chdir(prev_dir)
1515
1516 def _sync_deps(self):
1517 # Load old values from auto.conf, if any
1518 self._load_old_vals()
1519
1520 for sym in self.unique_defined_syms:
1521 # Note: _write_to_conf is determined when the value is
1522 # calculated. This is a hidden function call due to
1523 # property magic.
1524 val = sym.str_value
1525
1526 # Note: n tristate values do not get written to auto.conf and
1527 # autoconf.h, making a missing symbol logically equivalent to n
1528
1529 if sym._write_to_conf:
1530 if sym._old_val is None and \
1531 sym.orig_type in _BOOL_TRISTATE and \
1532 val == "n":
1533 # No old value (the symbol was missing or n), new value n.
1534 # No change.
1535 continue
1536
1537 if val == sym._old_val:
1538 # New value matches old. No change.
1539 continue
1540
1541 elif sym._old_val is None:
1542 # The symbol wouldn't appear in autoconf.h (because
1543 # _write_to_conf is false), and it wouldn't have appeared in
1544 # autoconf.h previously either (because it didn't appear in
1545 # auto.conf). No change.
1546 continue
1547
1548 # 'sym' has a new value. Flag it.
1549 _touch_dep_file(sym.name)
1550
1551 # Remember the current values as the "new old" values.
1552 #
1553 # This call could go anywhere after the call to _load_old_vals(), but
1554 # putting it last means _sync_deps() can be safely rerun if it fails
1555 # before this point.
1556 self._write_old_vals()
1557
1558 def _write_old_vals(self):
1559 # Helper for writing auto.conf. Basically just a simplified
1560 # write_config() that doesn't write any comments (including
1561 # '# CONFIG_FOO is not set' comments). The format matches the C
1562 # implementation, though the ordering is arbitrary there (depends on
1563 # the hash table implementation).
1564 #
1565 # A separate helper function is neater than complicating write_config()
1566 # by passing a flag to it, plus we only need to look at symbols here.
1567
1568 with self._open("auto.conf", "w") as f:
1569 for sym in self.unique_defined_syms:
1570 if not (sym.orig_type in _BOOL_TRISTATE and not sym.tri_value):
1571 f.write(sym.config_string)
1572
1573 def _load_old_vals(self):
1574 # Loads old symbol values from auto.conf into a dedicated
1575 # Symbol._old_val field. Mirrors load_config().
1576 #
1577 # The extra field could be avoided with some trickery involving dumping
1578 # symbol values and restoring them later, but this is simpler and
1579 # faster. The C tools also use a dedicated field for this purpose.
1580
1581 for sym in self.unique_defined_syms:
1582 sym._old_val = None
1583
1584 if not exists("auto.conf"):
1585 # No old values
1586 return
1587
1588 with self._open("auto.conf", "r") as f:
1589 for line in f:
1590 match = self._set_match(line)
1591 if not match:
1592 # We only expect CONFIG_FOO=... (and possibly a header
1593 # comment) in auto.conf
1594 continue
1595
1596 name, val = match.groups()
1597 if name in self.syms:
1598 sym = self.syms[name]
1599
1600 if sym.orig_type is STRING:
1601 match = _conf_string_match(val)
1602 if not match:
1603 continue
1604 val = unescape(match.group(1))
1605
1606 self.syms[name]._old_val = val
1607 else:
1608 # Flag that the symbol no longer exists, in
1609 # case something still depends on it
1610 _touch_dep_file(name)
1611
1612 def node_iter(self, unique_syms=False):
1613 """
1614 Returns a generator for iterating through all MenuNode's in the Kconfig
1615 tree. The iteration is done in Kconfig definition order (each node is
1616 visited before its children, and the children of a node are visited
1617 before the next node).
1618
1619 The Kconfig.top_node menu node is skipped. It contains an implicit menu
1620 that holds the top-level items.
1621
1622 As an example, the following code will produce a list equal to
1623 Kconfig.defined_syms:
1624
1625 defined_syms = [node.item for node in kconf.node_iter()
1626 if isinstance(node.item, Symbol)]
1627
1628 unique_syms (default: False):
1629 If True, only the first MenuNode will be included for symbols defined
1630 in multiple locations.
1631
1632 Using kconf.node_iter(True) in the example above would give a list
1633 equal to unique_defined_syms.
1634 """
1635 if unique_syms:
1636 for sym in self.unique_defined_syms:
1637 sym._visited = False
1638
1639 node = self.top_node
1640 while 1:
1641 # Jump to the next node with an iterative tree walk
1642 if node.list:
1643 node = node.list
1644 elif node.next:
1645 node = node.next
1646 else:
1647 while node.parent:
1648 node = node.parent
1649 if node.next:
1650 node = node.next
1651 break
1652 else:
1653 # No more nodes
1654 return
1655
1656 if unique_syms and node.item.__class__ is Symbol:
1657 if node.item._visited:
1658 continue
1659 node.item._visited = True
1660
1661 yield node
1662
1663 def eval_string(self, s):
1664 """
1665 Returns the tristate value of the expression 's', represented as 0, 1,
1666 and 2 for n, m, and y, respectively. Raises KconfigError if syntax
1667 errors are detected in 's'. Warns if undefined symbols are referenced.
1668
1669 As an example, if FOO and BAR are tristate symbols at least one of
1670 which has the value y, then config.eval_string("y && (FOO || BAR)")
1671 returns 2 (y).
1672
1673 To get the string value of non-bool/tristate symbols, use
1674 Symbol.str_value. eval_string() always returns a tristate value, and
1675 all non-bool/tristate symbols have the tristate value 0 (n).
1676
1677 The expression parsing is consistent with how parsing works for
1678 conditional ('if ...') expressions in the configuration, and matches
1679 the C implementation. m is rewritten to 'm && MODULES', so
1680 eval_string("m") will return 0 (n) unless modules are enabled.
1681 """
1682 # The parser is optimized to be fast when parsing Kconfig files (where
1683 # an expression can never appear at the beginning of a line). We have
1684 # to monkey-patch things a bit here to reuse it.
1685
1686 self._filename = None
1687
1688 # Don't include the "if " from below to avoid giving confusing error
1689 # messages
1690 self._line = s
1691 self._tokens = self._tokenize("if " + s)
1692 self._tokens_i = 1 # Skip the 'if' token
1693
1694 return expr_value(self._expect_expr_and_eol())
1695
1696 def unset_values(self):
1697 """
1698 Resets the user values of all symbols, as if Kconfig.load_config() or
1699 Symbol.set_value() had never been called.
1700 """
1701 self._warn_for_no_prompt = False
1702 try:
1703 # set_value() already rejects undefined symbols, and they don't
1704 # need to be invalidated (because their value never changes), so we
1705 # can just iterate over defined symbols
1706 for sym in self.unique_defined_syms:
1707 sym.unset_value()
1708
1709 for choice in self.unique_choices:
1710 choice.unset_value()
1711 finally:
1712 self._warn_for_no_prompt = True
1713
1714 def enable_warnings(self):
1715 """
1716 See Kconfig.__init__().
1717 """
1718 self._warnings_enabled = True
1719
1720 def disable_warnings(self):
1721 """
1722 See Kconfig.__init__().
1723 """
1724 self._warnings_enabled = False
1725
1726 def enable_stderr_warnings(self):
1727 """
1728 See Kconfig.__init__().
1729 """
1730 self._warn_to_stderr = True
1731
1732 def disable_stderr_warnings(self):
1733 """
1734 See Kconfig.__init__().
1735 """
1736 self._warn_to_stderr = False
1737
1738 def enable_undef_warnings(self):
1739 """
1740 Enables warnings for assignments to undefined symbols. Disabled by
1741 default unless the KCONFIG_WARN_UNDEF_ASSIGN environment variable was
1742 set to 'y' when the Kconfig instance was created.
1743 """
1744 self._warn_for_undef_assign = True
1745
1746 def disable_undef_warnings(self):
1747 """
1748 See enable_undef_assign().
1749 """
1750 self._warn_for_undef_assign = False
1751
1752 def enable_override_warnings(self):
1753 """
1754 Enables warnings for duplicated assignments in .config files that set
1755 different values (e.g. CONFIG_FOO=m followed by CONFIG_FOO=y, where
1756 the last value set is used).
1757
1758 These warnings are enabled by default. Disabling them might be helpful
1759 in certain cases when merging configurations.
1760 """
1761 self._warn_for_override = True
1762
1763 def disable_override_warnings(self):
1764 """
1765 See enable_override_warnings().
1766 """
1767 self._warn_for_override = False
1768
1769 def enable_redun_warnings(self):
1770 """
1771 Enables warnings for duplicated assignments in .config files that all
1772 set the same value.
1773
1774 These warnings are enabled by default. Disabling them might be helpful
1775 in certain cases when merging configurations.
1776 """
1777 self._warn_for_redun_assign = True
1778
1779 def disable_redun_warnings(self):
1780 """
1781 See enable_redun_warnings().
1782 """
1783 self._warn_for_redun_assign = False
1784
1785 def __repr__(self):
1786 """
1787 Returns a string with information about the Kconfig object when it is
1788 evaluated on e.g. the interactive Python prompt.
1789 """
1790 return "<{}>".format(", ".join((
1791 "configuration with {} symbols".format(len(self.syms)),
1792 'main menu prompt "{}"'.format(self.mainmenu_text),
1793 "srctree is current directory" if not self.srctree else
1794 'srctree "{}"'.format(self.srctree),
1795 'config symbol prefix "{}"'.format(self.config_prefix),
1796 "warnings " +
1797 ("enabled" if self._warnings_enabled else "disabled"),
1798 "printing of warnings to stderr " +
1799 ("enabled" if self._warn_to_stderr else "disabled"),
1800 "undef. symbol assignment warnings " +
1801 ("enabled" if self._warn_for_undef_assign else "disabled"),
1802 "redundant symbol assignment warnings " +
1803 ("enabled" if self._warn_for_redun_assign else "disabled")
1804 )))
1805
1806 #
1807 # Private methods
1808 #
1809
1810
1811 #
1812 # File reading
1813 #
1814
1815 def _open_config(self, filename):
1816 # Opens a .config file. First tries to open 'filename', then
1817 # '$srctree/filename' if $srctree was set when the configuration was
1818 # loaded.
1819
1820 try:
1821 return self._open(filename, "r")
1822 except IOError as e:
1823 # This will try opening the same file twice if $srctree is unset,
1824 # but it's not a big deal
1825 try:
1826 return self._open(join(self.srctree, filename), "r")
1827 except IOError as e2:
1828 # This is needed for Python 3, because e2 is deleted after
1829 # the try block:
1830 #
1831 # https://docs.python.org/3/reference/compound_stmts.html#the-try-statement
1832 e = e2
1833
1834 raise _KconfigIOError(
1835 e, "Could not open '{}' ({}: {}). Check that the $srctree "
1836 "environment variable ({}) is set correctly."
1837 .format(filename, errno.errorcode[e.errno], e.strerror,
1838 "set to '{}'".format(self.srctree) if self.srctree
1839 else "unset or blank"))
1840
1841 def _enter_file(self, full_filename, rel_filename):
1842 # Jumps to the beginning of a sourced Kconfig file, saving the previous
1843 # position and file object.
1844 #
1845 # full_filename:
1846 # Actual path to the file.
1847 #
1848 # rel_filename:
1849 # File path with $srctree prefix stripped, stored in e.g.
1850 # self._filename (which makes it indirectly show up in
1851 # MenuNode.filename). Equals full_filename for absolute paths.
1852
1853 self.kconfig_filenames.append(rel_filename)
1854
1855 # The parent Kconfig files are represented as a list of
1856 # (<include path>, <Python 'file' object for Kconfig file>) tuples.
1857 #
1858 # <include path> is immutable and holds a *tuple* of
1859 # (<filename>, <linenr>) tuples, giving the locations of the 'source'
1860 # statements in the parent Kconfig files. The current include path is
1861 # also available in Kconfig._include_path.
1862 #
1863 # The point of this redundant setup is to allow Kconfig._include_path
1864 # to be assigned directly to MenuNode.include_path without having to
1865 # copy it, sharing it wherever possible.
1866
1867 # Save include path and 'file' object (via its 'readline' function)
1868 # before entering the file
1869 self._filestack.append((self._include_path, self._readline))
1870
1871 # _include_path is a tuple, so this rebinds the variable instead of
1872 # doing in-place modification
1873 self._include_path += ((self._filename, self._linenr),)
1874
1875 # Check for recursive 'source'
1876 for name, _ in self._include_path:
1877 if name == rel_filename:
1878 raise KconfigError(
1879 "\n{}:{}: recursive 'source' of '{}' detected. Check that "
1880 "environment variables are set correctly.\n"
1881 "Include path:\n{}"
1882 .format(self._filename, self._linenr, rel_filename,
1883 "\n".join("{}:{}".format(name, linenr)
1884 for name, linenr in self._include_path)))
1885
1886 # Note: We already know that the file exists
1887
1888 try:
1889 self._readline = self._open(full_filename, "r").readline
1890 except IOError as e:
1891 raise _KconfigIOError(
1892 e, "{}:{}: Could not open '{}' ({}: {})"
1893 .format(self._filename, self._linenr, full_filename,
1894 errno.errorcode[e.errno], e.strerror))
1895
1896 self._filename = rel_filename
1897 self._linenr = 0
1898
1899 def _leave_file(self):
1900 # Returns from a Kconfig file to the file that sourced it. See
1901 # _enter_file().
1902
1903 # __self__ fetches the 'file' object for the method
1904 self._readline.__self__.close()
1905 # Restore location from parent Kconfig file
1906 self._filename, self._linenr = self._include_path[-1]
1907 # Restore include path and 'file' object
1908 self._include_path, self._readline = self._filestack.pop()
1909
1910 def _next_line(self):
1911 # Fetches and tokenizes the next line from the current Kconfig file.
1912 # Returns False at EOF and True otherwise.
1913
1914 # We might already have tokens from parsing a line and discovering that
1915 # it's part of a different construct
1916 if self._reuse_tokens:
1917 self._reuse_tokens = False
1918 # self._tokens_i is known to be 1 here, because _parse_properties()
1919 # leaves it like that when it can't recognize a line (or parses
1920 # a help text)
1921 return True
1922
1923 # Note: readline() returns '' over and over at EOF, which we rely on
1924 # for help texts at the end of files (see _line_after_help())
1925 line = self._readline()
1926 if not line:
1927 return False
1928 self._linenr += 1
1929
1930 # Handle line joining
1931 while line.endswith("\\\n"):
1932 line = line[:-2] + self._readline()
1933 self._linenr += 1
1934
1935 self._line = line # Used for error reporting
1936 self._tokens = self._tokenize(line)
1937 # Initialize to 1 instead of 0 to factor out code from _parse_block()
1938 # and _parse_properties(). They immediately fetch self._tokens[0].
1939 self._tokens_i = 1
1940
1941 return True
1942
1943 def _line_after_help(self, line):
1944 # Tokenizes a line after a help text. This case is special in that the
1945 # line has already been fetched (to discover that it isn't part of the
1946 # help text).
1947 #
1948 # An earlier version used a _saved_line variable instead that was
1949 # checked in _next_line(). This special-casing gets rid of it and makes
1950 # _reuse_tokens alone sufficient to handle unget.
1951
1952 # Handle line joining
1953 while line.endswith("\\\n"):
1954 line = line[:-2] + self._readline()
1955 self._linenr += 1
1956
1957 self._line = line
1958 self._tokens = self._tokenize(line)
1959 self._reuse_tokens = True
1960
1961
1962 #
1963 # Tokenization
1964 #
1965
1966 def _lookup_sym(self, name):
1967 # Fetches the symbol 'name' from the symbol table, creating and
1968 # registering it if it does not exist. If '_parsing_kconfigs' is False,
1969 # it means we're in eval_string(), and new symbols won't be registered.
1970
1971 if name in self.syms:
1972 return self.syms[name]
1973
1974 sym = Symbol()
1975 sym.kconfig = self
1976 sym.name = name
1977 sym.is_constant = False
1978 sym.rev_dep = sym.weak_rev_dep = sym.direct_dep = self.n
1979
1980 if self._parsing_kconfigs:
1981 self.syms[name] = sym
1982 else:
1983 self._warn("no symbol {} in configuration".format(name))
1984
1985 return sym
1986
1987 def _lookup_const_sym(self, name):
1988 # Like _lookup_sym(), for constant (quoted) symbols
1989
1990 if name in self.const_syms:
1991 return self.const_syms[name]
1992
1993 sym = Symbol()
1994 sym.kconfig = self
1995 sym.name = name
1996 sym.is_constant = True
1997 sym.rev_dep = sym.weak_rev_dep = sym.direct_dep = self.n
1998
1999 if self._parsing_kconfigs:
2000 self.const_syms[name] = sym
2001
2002 return sym
2003
2004 def _tokenize(self, s):
2005 # Parses 's', returning a None-terminated list of tokens. Registers any
2006 # new symbols encountered with _lookup(_const)_sym().
2007 #
2008 # Tries to be reasonably speedy by processing chunks of text via
2009 # regexes and string operations where possible. This is the biggest
2010 # hotspot during parsing.
2011 #
2012 # Note: It might be possible to rewrite this to 'yield' tokens instead,
2013 # working across multiple lines. The 'option env' lookback thing below
2014 # complicates things though.
2015
2016 # Initial token on the line
2017 match = _command_match(s)
2018 if not match:
2019 if s.isspace() or s.lstrip().startswith("#"):
2020 return (None,)
2021 self._parse_error("unknown token at start of line")
2022
2023 # Tricky implementation detail: While parsing a token, 'token' refers
2024 # to the previous token. See _STRING_LEX for why this is needed.
2025 token = _get_keyword(match.group(1))
2026 if not token:
2027 # Backwards compatibility with old versions of the C tools, which
2028 # (accidentally) accepted stuff like "--help--" and "-help---".
2029 # This was fixed in the C tools by commit c2264564 ("kconfig: warn
2030 # of unhandled characters in Kconfig commands"), committed in July
2031 # 2015, but it seems people still run Kconfiglib on older kernels.
2032 if s.strip(" \t\n-") == "help":
2033 return (_T_HELP, None)
2034
2035 # If the first token is not a keyword (and not a weird help token),
2036 # we have a preprocessor variable assignment (or a bare macro on a
2037 # line)
2038 self._parse_assignment(s)
2039 return (None,)
2040
2041 tokens = [token]
2042 # The current index in the string being tokenized
2043 i = match.end()
2044
2045 # Main tokenization loop (for tokens past the first one)
2046 while i < len(s):
2047 # Test for an identifier/keyword first. This is the most common
2048 # case.
2049 match = _id_keyword_match(s, i)
2050 if match:
2051 # We have an identifier or keyword
2052
2053 # Check what it is. lookup_sym() will take care of allocating
2054 # new symbols for us the first time we see them. Note that
2055 # 'token' still refers to the previous token.
2056
2057 name = match.group(1)
2058 keyword = _get_keyword(name)
2059 if keyword:
2060 # It's a keyword
2061 token = keyword
2062 # Jump past it
2063 i = match.end()
2064
2065 elif token not in _STRING_LEX:
2066 # It's a non-const symbol, except we translate n, m, and y
2067 # into the corresponding constant symbols, like the C
2068 # implementation
2069
2070 if "$" in name:
2071 # Macro expansion within symbol name
2072 name, s, i = self._expand_name(s, i)
2073 else:
2074 i = match.end()
2075
2076 token = self.const_syms[name] \
2077 if name in ("y", "m", "n") else \
2078 self._lookup_sym(name)
2079
2080 else:
2081 # It's a case of missing quotes. For example, the
2082 # following is accepted:
2083 #
2084 # menu unquoted_title
2085 #
2086 # config A
2087 # tristate unquoted_prompt
2088 #
2089 # endmenu
2090 #
2091 # Named choices ('choice FOO') also end up here.
2092
2093 if token is not _T_CHOICE:
2094 self._warn("style: quotes recommended around '{}' in '{}'"
2095 .format(name, self._line.strip()),
2096 self._filename, self._linenr)
2097
2098 token = name
2099 i = match.end()
2100
2101 else:
2102 # Neither a keyword nor a non-const symbol
2103
2104 # We always strip whitespace after tokens, so it is safe to
2105 # assume that s[i] is the start of a token here.
2106 c = s[i]
2107
2108 if c in "\"'":
2109 if "$" not in s and "\\" not in s:
2110 # Fast path for lines without $ and \. Find the
2111 # matching quote.
2112 end_i = s.find(c, i + 1) + 1
2113 if not end_i:
2114 self._parse_error("unterminated string")
2115 val = s[i + 1:end_i - 1]
2116 i = end_i
2117 else:
2118 # Slow path
2119 s, end_i = self._expand_str(s, i)
2120
2121 # os.path.expandvars() and the $UNAME_RELEASE replace()
2122 # is a backwards compatibility hack, which should be
2123 # reasonably safe as expandvars() leaves references to
2124 # undefined env. vars. as is.
2125 #
2126 # The preprocessor functionality changed how
2127 # environment variables are referenced, to $(FOO).
2128 val = expandvars(s[i + 1:end_i - 1]
2129 .replace("$UNAME_RELEASE",
2130 _UNAME_RELEASE))
2131
2132 i = end_i
2133
2134 # This is the only place where we don't survive with a
2135 # single token of lookback: 'option env="FOO"' does not
2136 # refer to a constant symbol named "FOO".
2137 token = \
2138 val if token in _STRING_LEX or tokens[0] is _T_OPTION \
2139 else self._lookup_const_sym(val)
2140
2141 elif s.startswith("&&", i):
2142 token = _T_AND
2143 i += 2
2144
2145 elif s.startswith("||", i):
2146 token = _T_OR
2147 i += 2
2148
2149 elif c == "=":
2150 token = _T_EQUAL
2151 i += 1
2152
2153 elif s.startswith("!=", i):
2154 token = _T_UNEQUAL
2155 i += 2
2156
2157 elif c == "!":
2158 token = _T_NOT
2159 i += 1
2160
2161 elif c == "(":
2162 token = _T_OPEN_PAREN
2163 i += 1
2164
2165 elif c == ")":
2166 token = _T_CLOSE_PAREN
2167 i += 1
2168
2169 elif c == "#":
2170 break
2171
2172
2173 # Very rare
2174
2175 elif s.startswith("<=", i):
2176 token = _T_LESS_EQUAL
2177 i += 2
2178
2179 elif c == "<":
2180 token = _T_LESS
2181 i += 1
2182
2183 elif s.startswith(">=", i):
2184 token = _T_GREATER_EQUAL
2185 i += 2
2186
2187 elif c == ">":
2188 token = _T_GREATER
2189 i += 1
2190
2191
2192 else:
2193 self._parse_error("unknown tokens in line")
2194
2195
2196 # Skip trailing whitespace
2197 while i < len(s) and s[i].isspace():
2198 i += 1
2199
2200
2201 # Add the token
2202 tokens.append(token)
2203
2204 # None-terminating the token list makes token fetching simpler/faster
2205 tokens.append(None)
2206
2207 return tokens
2208
2209 # Helpers for syntax checking and token fetching. See the
2210 # 'Intro to expressions' section for what a constant symbol is.
2211 #
2212 # More of these could be added, but the single-use cases are inlined as an
2213 # optimization.
2214
2215 def _expect_sym(self):
2216 token = self._tokens[self._tokens_i]
2217 self._tokens_i += 1
2218
2219 if token.__class__ is not Symbol:
2220 self._parse_error("expected symbol")
2221
2222 return token
2223
2224 def _expect_nonconst_sym(self):
2225 # Used for 'select' and 'imply' only. We know the token indices.
2226
2227 token = self._tokens[1]
2228 self._tokens_i = 2
2229
2230 if token.__class__ is not Symbol or token.is_constant:
2231 self._parse_error("expected nonconstant symbol")
2232
2233 return token
2234
2235 def _expect_str_and_eol(self):
2236 token = self._tokens[self._tokens_i]
2237 self._tokens_i += 1
2238
2239 if token.__class__ is not str:
2240 self._parse_error("expected string")
2241
2242 if self._tokens[self._tokens_i] is not None:
2243 self._trailing_tokens_error()
2244
2245 return token
2246
2247 def _expect_expr_and_eol(self):
2248 expr = self._parse_expr(True)
2249
2250 if self._tokens[self._tokens_i] is not None:
2251 self._trailing_tokens_error()
2252
2253 return expr
2254
2255 def _check_token(self, token):
2256 # If the next token is 'token', removes it and returns True
2257
2258 if self._tokens[self._tokens_i] is token:
2259 self._tokens_i += 1
2260 return True
2261 return False
2262
2263
2264 #
2265 # Preprocessor logic
2266 #
2267
2268 def _parse_assignment(self, s):
2269 # Parses a preprocessor variable assignment, registering the variable
2270 # if it doesn't already exist. Also takes care of bare macros on lines
2271 # (which are allowed, and can be useful for their side effects).
2272
2273 # Expand any macros in the left-hand side of the assignment (the
2274 # variable name)
2275 s = s.lstrip()
2276 i = 0
2277 while 1:
2278 i = _assignment_lhs_fragment_match(s, i).end()
2279 if s.startswith("$(", i):
2280 s, i = self._expand_macro(s, i, ())
2281 else:
2282 break
2283
2284 if s.isspace():
2285 # We also accept a bare macro on a line (e.g.
2286 # $(warning-if,$(foo),ops)), provided it expands to a blank string
2287 return
2288
2289 # Assigned variable
2290 name = s[:i]
2291
2292
2293 # Extract assignment operator (=, :=, or +=) and value
2294 rhs_match = _assignment_rhs_match(s, i)
2295 if not rhs_match:
2296 self._parse_error("syntax error")
2297
2298 op, val = rhs_match.groups()
2299
2300
2301 if name in self.variables:
2302 # Already seen variable
2303 var = self.variables[name]
2304 else:
2305 # New variable
2306 var = Variable()
2307 var.kconfig = self
2308 var.name = name
2309 var._n_expansions = 0
2310 self.variables[name] = var
2311
2312 # += acts like = on undefined variables (defines a recursive
2313 # variable)
2314 if op == "+=":
2315 op = "="
2316
2317 if op == "=":
2318 var.is_recursive = True
2319 var.value = val
2320 elif op == ":=":
2321 var.is_recursive = False
2322 var.value = self._expand_whole(val, ())
2323 else: # op == "+="
2324 # += does immediate expansion if the variable was last set
2325 # with :=
2326 var.value += " " + (val if var.is_recursive else
2327 self._expand_whole(val, ()))
2328
2329 def _expand_whole(self, s, args):
2330 # Expands preprocessor macros in all of 's'. Used whenever we don't
2331 # have to worry about delimiters. See _expand_macro() re. the 'args'
2332 # parameter.
2333 #
2334 # Returns the expanded string.
2335
2336 i = 0
2337 while 1:
2338 i = s.find("$(", i)
2339 if i == -1:
2340 break
2341 s, i = self._expand_macro(s, i, args)
2342 return s
2343
2344 def _expand_name(self, s, i):
2345 # Expands a symbol name starting at index 'i' in 's'.
2346 #
2347 # Returns the expanded name, the expanded 's' (including the part
2348 # before the name), and the index of the first character in the next
2349 # token after the name.
2350
2351 s, end_i = self._expand_name_iter(s, i)
2352 name = s[i:end_i]
2353 # isspace() is False for empty strings
2354 if not name.strip():
2355 # Avoid creating a Kconfig symbol with a blank name. It's almost
2356 # guaranteed to be an error.
2357 self._parse_error("macro expanded to blank string")
2358
2359 # Skip trailing whitespace
2360 while end_i < len(s) and s[end_i].isspace():
2361 end_i += 1
2362
2363 return name, s, end_i
2364
2365 def _expand_name_iter(self, s, i):
2366 # Expands a symbol name starting at index 'i' in 's'.
2367 #
2368 # Returns the expanded 's' (including the part before the name) and the
2369 # index of the first character after the expanded name in 's'.
2370
2371 while 1:
2372 match = _name_special_search(s, i)
2373
2374 if match.group() == "$(":
2375 s, i = self._expand_macro(s, match.start(), ())
2376 else:
2377 return (s, match.start())
2378
2379 def _expand_str(self, s, i):
2380 # Expands a quoted string starting at index 'i' in 's'. Handles both
2381 # backslash escapes and macro expansion.
2382 #
2383 # Returns the expanded 's' (including the part before the string) and
2384 # the index of the first character after the expanded string in 's'.
2385
2386 quote = s[i]
2387 i += 1 # Skip over initial "/'
2388 while 1:
2389 match = _string_special_search(s, i)
2390 if not match:
2391 self._parse_error("unterminated string")
2392
2393
2394 if match.group() == quote:
2395 # Found the end of the string
2396 return (s, match.end())
2397
2398 elif match.group() == "\\":
2399 # Replace '\x' with 'x'. 'i' ends up pointing to the character
2400 # after 'x', which allows macros to be canceled with '\$(foo)'.
2401 i = match.end()
2402 s = s[:match.start()] + s[i:]
2403
2404 elif match.group() == "$(":
2405 # A macro call within the string
2406 s, i = self._expand_macro(s, match.start(), ())
2407
2408 else:
2409 # A ' quote within " quotes or vice versa
2410 i += 1
2411
2412 def _expand_macro(self, s, i, args):
2413 # Expands a macro starting at index 'i' in 's'. If this macro resulted
2414 # from the expansion of another macro, 'args' holds the arguments
2415 # passed to that macro.
2416 #
2417 # Returns the expanded 's' (including the part before the macro) and
2418 # the index of the first character after the expanded macro in 's'.
2419
2420 start = i
2421 i += 2 # Skip over "$("
2422
2423 # Start of current macro argument
2424 arg_start = i
2425
2426 # Arguments of this macro call
2427 new_args = []
2428
2429 while 1:
2430 match = _macro_special_search(s, i)
2431 if not match:
2432 self._parse_error("missing end parenthesis in macro expansion")
2433
2434
2435 if match.group() == ")":
2436 # Found the end of the macro
2437
2438 new_args.append(s[arg_start:match.start()])
2439
2440 prefix = s[:start]
2441
2442 # $(1) is replaced by the first argument to the function, etc.,
2443 # provided at least that many arguments were passed
2444
2445 try:
2446 # Does the macro look like an integer, with a corresponding
2447 # argument? If so, expand it to the value of the argument.
2448 prefix += args[int(new_args[0])]
2449 except (ValueError, IndexError):
2450 # Regular variables are just functions without arguments,
2451 # and also go through the function value path
2452 prefix += self._fn_val(new_args)
2453
2454 return (prefix + s[match.end():],
2455 len(prefix))
2456
2457 elif match.group() == ",":
2458 # Found the end of a macro argument
2459 new_args.append(s[arg_start:match.start()])
2460 arg_start = i = match.end()
2461
2462 else: # match.group() == "$("
2463 # A nested macro call within the macro
2464 s, i = self._expand_macro(s, match.start(), args)
2465
2466 def _fn_val(self, args):
2467 # Returns the result of calling the function args[0] with the arguments
2468 # args[1..len(args)-1]. Plain variables are treated as functions
2469 # without arguments.
2470
2471 fn = args[0]
2472
2473 if fn in self.variables:
2474 var = self.variables[fn]
2475
2476 if len(args) == 1:
2477 # Plain variable
2478 if var._n_expansions:
2479 self._parse_error("Preprocessor variable {} recursively "
2480 "references itself".format(var.name))
2481 elif var._n_expansions > 100:
2482 # Allow functions to call themselves, but guess that functions
2483 # that are overly recursive are stuck
2484 self._parse_error("Preprocessor function {} seems stuck "
2485 "in infinite recursion".format(var.name))
2486
2487 var._n_expansions += 1
2488 res = self._expand_whole(self.variables[fn].value, args)
2489 var._n_expansions -= 1
2490 return res
2491
2492 if fn in self._functions:
2493 # Built-in or user-defined function
2494
2495 py_fn, min_arg, max_arg = self._functions[fn]
2496
2497 if len(args) - 1 < min_arg or \
2498 (max_arg is not None and len(args) - 1 > max_arg):
2499
2500 if min_arg == max_arg:
2501 expected_args = min_arg
2502 elif max_arg is None:
2503 expected_args = "{} or more".format(min_arg)
2504 else:
2505 expected_args = "{}-{}".format(min_arg, max_arg)
2506
2507 raise KconfigError("{}:{}: bad number of arguments in call "
2508 "to {}, expected {}, got {}"
2509 .format(self._filename, self._linenr, fn,
2510 expected_args, len(args) - 1))
2511
2512 return py_fn(self, *args)
2513
2514 # Environment variables are tried last
2515 if fn in os.environ:
2516 self.env_vars.add(fn)
2517 return os.environ[fn]
2518
2519 return ""
2520
2521
2522 #
2523 # Parsing
2524 #
2525
2526 def _make_and(self, e1, e2):
2527 # Constructs an AND (&&) expression. Performs trivial simplification.
2528
2529 if e1 is self.y:
2530 return e2
2531
2532 if e2 is self.y:
2533 return e1
2534
2535 if e1 is self.n or e2 is self.n:
2536 return self.n
2537
2538 return (AND, e1, e2)
2539
2540 def _make_or(self, e1, e2):
2541 # Constructs an OR (||) expression. Performs trivial simplification.
2542
2543 if e1 is self.n:
2544 return e2
2545
2546 if e2 is self.n:
2547 return e1
2548
2549 if e1 is self.y or e2 is self.y:
2550 return self.y
2551
2552 return (OR, e1, e2)
2553
2554 def _parse_block(self, end_token, parent, prev):
2555 # Parses a block, which is the contents of either a file or an if,
2556 # menu, or choice statement.
2557 #
2558 # end_token:
2559 # The token that ends the block, e.g. _T_ENDIF ("endif") for ifs.
2560 # None for files.
2561 #
2562 # parent:
2563 # The parent menu node, corresponding to a menu, Choice, or 'if'.
2564 # 'if's are flattened after parsing.
2565 #
2566 # prev:
2567 # The previous menu node. New nodes will be added after this one (by
2568 # modifying their 'next' pointer).
2569 #
2570 # 'prev' is reused to parse a list of child menu nodes (for a menu or
2571 # Choice): After parsing the children, the 'next' pointer is assigned
2572 # to the 'list' pointer to "tilt up" the children above the node.
2573 #
2574 # Returns the final menu node in the block (or 'prev' if the block is
2575 # empty). This allows chaining.
2576
2577 while self._next_line():
2578 t0 = self._tokens[0]
2579
2580 if t0 is _T_CONFIG or t0 is _T_MENUCONFIG:
2581 # The tokenizer allocates Symbol objects for us
2582 sym = self._tokens[1]
2583
2584 if sym.__class__ is not Symbol or sym.is_constant:
2585 self._parse_error("missing or bad symbol name")
2586
2587 if self._tokens[2] is not None:
2588 self._trailing_tokens_error()
2589
2590 self.defined_syms.append(sym)
2591
2592 node = MenuNode()
2593 node.kconfig = self
2594 node.item = sym
2595 node.is_menuconfig = (t0 is _T_MENUCONFIG)
2596 node.prompt = node.help = node.list = None
2597 node.parent = parent
2598 node.filename = self._filename
2599 node.linenr = self._linenr
2600 node.include_path = self._include_path
2601
2602 sym.nodes.append(node)
2603
2604 self._parse_properties(node)
2605
2606 if node.is_menuconfig and not node.prompt:
2607 self._warn("the menuconfig symbol {} has no prompt"
2608 .format(_name_and_loc(sym)))
2609
2610 # Equivalent to
2611 #
2612 # prev.next = node
2613 # prev = node
2614 #
2615 # due to tricky Python semantics. The order matters.
2616 prev.next = prev = node
2617
2618 elif t0 is None:
2619 # Blank line
2620 continue
2621
2622 elif t0 in _SOURCE_TOKENS:
2623 pattern = self._expect_str_and_eol()
2624
2625 # Check if the pattern is absolute and avoid stripping srctree
2626 # from it below in that case. We must do the check before
2627 # join()'ing, as srctree might be an absolute path.
2628 pattern_is_abs = isabs(pattern)
2629
2630 if t0 in _REL_SOURCE_TOKENS:
2631 # Relative source
2632 pattern = join(dirname(self._filename), pattern)
2633
2634 # Sort the glob results to ensure a consistent ordering of
2635 # Kconfig symbols, which indirectly ensures a consistent
2636 # ordering in e.g. .config files
2637 filenames = sorted(iglob(join(self.srctree, pattern)))
2638
2639 if not filenames and t0 in _OBL_SOURCE_TOKENS:
2640 raise KconfigError(
2641 "{}:{}: '{}' not found (in '{}'). Check that "
2642 "environment variables are set correctly (e.g. "
2643 "$srctree, which is {}). Also note that unset "
2644 "environment variables expand to the empty string."
2645 .format(self._filename, self._linenr, pattern,
2646 self._line.strip(),
2647 "set to '{}'".format(self.srctree)
2648 if self.srctree else "unset or blank"))
2649
2650 for filename in filenames:
2651 self._enter_file(
2652 filename,
2653 # Unless an absolute path is passed to *source, strip
2654 # the $srctree prefix from the filename. That way it
2655 # appears without a $srctree prefix in
2656 # MenuNode.filename, which is nice e.g. when generating
2657 # documentation.
2658 filename if pattern_is_abs else
2659 relpath(filename, self.srctree))
2660
2661 prev = self._parse_block(None, parent, prev)
2662
2663 self._leave_file()
2664
2665 elif t0 is end_token:
2666 # We have reached the end of the block. Terminate the final
2667 # node and return it.
2668
2669 if self._tokens[1] is not None:
2670 self._trailing_tokens_error()
2671
2672 prev.next = None
2673 return prev
2674
2675 elif t0 is _T_IF:
2676 node = MenuNode()
2677 node.item = node.prompt = None
2678 node.parent = parent
2679 node.dep = self._expect_expr_and_eol()
2680
2681 self._parse_block(_T_ENDIF, node, node)
2682 node.list = node.next
2683
2684 prev.next = prev = node
2685
2686 elif t0 is _T_MENU:
2687 node = MenuNode()
2688 node.kconfig = self
2689 node.item = t0 # _T_MENU == MENU
2690 node.is_menuconfig = True
2691 node.prompt = (self._expect_str_and_eol(), self.y)
2692 node.visibility = self.y
2693 node.parent = parent
2694 node.filename = self._filename
2695 node.linenr = self._linenr
2696 node.include_path = self._include_path
2697
2698 self.menus.append(node)
2699
2700 self._parse_properties(node)
2701 self._parse_block(_T_ENDMENU, node, node)
2702 node.list = node.next
2703
2704 prev.next = prev = node
2705
2706 elif t0 is _T_COMMENT:
2707 node = MenuNode()
2708 node.kconfig = self
2709 node.item = t0 # _T_COMMENT == COMMENT
2710 node.is_menuconfig = False
2711 node.prompt = (self._expect_str_and_eol(), self.y)
2712 node.list = None
2713 node.parent = parent
2714 node.filename = self._filename
2715 node.linenr = self._linenr
2716 node.include_path = self._include_path
2717
2718 self.comments.append(node)
2719
2720 self._parse_properties(node)
2721
2722 prev.next = prev = node
2723
2724 elif t0 is _T_CHOICE:
2725 if self._tokens[1] is None:
2726 choice = Choice()
2727 choice.direct_dep = self.n
2728 else:
2729 # Named choice
2730 name = self._expect_str_and_eol()
2731 choice = self.named_choices.get(name)
2732 if not choice:
2733 choice = Choice()
2734 choice.name = name
2735 choice.direct_dep = self.n
2736 self.named_choices[name] = choice
2737
2738 self.choices.append(choice)
2739
2740 choice.kconfig = self
2741
2742 node = MenuNode()
2743 node.kconfig = self
2744 node.item = choice
2745 node.is_menuconfig = True
2746 node.prompt = node.help = None
2747 node.parent = parent
2748 node.filename = self._filename
2749 node.linenr = self._linenr
2750 node.include_path = self._include_path
2751
2752 choice.nodes.append(node)
2753
2754 self._parse_properties(node)
2755 self._parse_block(_T_ENDCHOICE, node, node)
2756 node.list = node.next
2757
2758 prev.next = prev = node
2759
2760 elif t0 is _T_MAINMENU:
2761 self.top_node.prompt = (self._expect_str_and_eol(), self.y)
2762 self.top_node.filename = self._filename
2763 self.top_node.linenr = self._linenr
2764
2765 else:
2766 # A valid endchoice/endif/endmenu is caught by the 'end_token'
2767 # check above
2768 self._parse_error(
2769 "no corresponding 'choice'" if t0 is _T_ENDCHOICE else
2770 "no corresponding 'if'" if t0 is _T_ENDIF else
2771 "no corresponding 'menu'" if t0 is _T_ENDMENU else
2772 "unrecognized construct")
2773
2774 # End of file reached. Terminate the final node and return it.
2775
2776 if end_token:
2777 raise KconfigError(
2778 "expected '{}' at end of '{}'"
2779 .format("endchoice" if end_token is _T_ENDCHOICE else
2780 "endif" if end_token is _T_ENDIF else
2781 "endmenu",
2782 self._filename))
2783
2784 prev.next = None
2785 return prev
2786
2787 def _parse_cond(self):
2788 # Parses an optional 'if <expr>' construct and returns the parsed
2789 # <expr>, or self.y if the next token is not _T_IF
2790
2791 expr = self._parse_expr(True) if self._check_token(_T_IF) else self.y
2792
2793 if self._tokens[self._tokens_i] is not None:
2794 self._trailing_tokens_error()
2795
2796 return expr
2797
2798 def _parse_properties(self, node):
2799 # Parses and adds properties to the MenuNode 'node' (type, 'prompt',
2800 # 'default's, etc.) Properties are later copied up to symbols and
2801 # choices in a separate pass after parsing, in e.g.
2802 # _add_props_to_sym().
2803 #
2804 # An older version of this code added properties directly to symbols
2805 # and choices instead of to their menu nodes (and handled dependency
2806 # propagation simultaneously), but that loses information on where a
2807 # property is added when a symbol or choice is defined in multiple
2808 # locations. Some Kconfig configuration systems rely heavily on such
2809 # symbols, and better docs can be generated by keeping track of where
2810 # properties are added.
2811 #
2812 # node:
2813 # The menu node we're parsing properties on
2814
2815 # Dependencies from 'depends on'. Will get propagated to the properties
2816 # below.
2817 node.dep = self.y
2818
2819 while self._next_line():
2820 t0 = self._tokens[0]
2821
2822 if t0 in _TYPE_TOKENS:
2823 # Relies on '_T_BOOL is BOOL', etc., to save a conversion
2824 self._set_type(node, t0)
2825 if self._tokens[1] is not None:
2826 self._parse_prompt(node)
2827
2828 elif t0 is _T_DEPENDS:
2829 if not self._check_token(_T_ON):
2830 self._parse_error("expected 'on' after 'depends'")
2831
2832 node.dep = self._make_and(node.dep,
2833 self._expect_expr_and_eol())
2834
2835 elif t0 is _T_HELP:
2836 self._parse_help(node)
2837
2838 elif t0 is _T_SELECT:
2839 if node.item.__class__ is not Symbol:
2840 self._parse_error("only symbols can select")
2841
2842 node.selects.append((self._expect_nonconst_sym(),
2843 self._parse_cond()))
2844
2845 elif t0 is None:
2846 # Blank line
2847 continue
2848
2849 elif t0 is _T_DEFAULT:
2850 node.defaults.append((self._parse_expr(False),
2851 self._parse_cond()))
2852
2853 elif t0 in _DEF_TOKEN_TO_TYPE:
2854 self._set_type(node, _DEF_TOKEN_TO_TYPE[t0])
2855 node.defaults.append((self._parse_expr(False),
2856 self._parse_cond()))
2857
2858 elif t0 is _T_PROMPT:
2859 self._parse_prompt(node)
2860
2861 elif t0 is _T_RANGE:
2862 node.ranges.append((self._expect_sym(), self._expect_sym(),
2863 self._parse_cond()))
2864
2865 elif t0 is _T_IMPLY:
2866 if node.item.__class__ is not Symbol:
2867 self._parse_error("only symbols can imply")
2868
2869 node.implies.append((self._expect_nonconst_sym(),
2870 self._parse_cond()))
2871
2872 elif t0 is _T_VISIBLE:
2873 if not self._check_token(_T_IF):
2874 self._parse_error("expected 'if' after 'visible'")
2875
2876 node.visibility = self._make_and(node.visibility,
2877 self._expect_expr_and_eol())
2878
2879 elif t0 is _T_OPTION:
2880 if self._check_token(_T_ENV):
2881 if not self._check_token(_T_EQUAL):
2882 self._parse_error("expected '=' after 'env'")
2883
2884 env_var = self._expect_str_and_eol()
2885 node.item.env_var = env_var
2886
2887 if env_var in os.environ:
2888 node.defaults.append(
2889 (self._lookup_const_sym(os.environ[env_var]),
2890 self.y))
2891 else:
2892 self._warn("{1} has 'option env=\"{0}\"', "
2893 "but the environment variable {0} is not "
2894 "set".format(node.item.name, env_var),
2895 self._filename, self._linenr)
2896
2897 if env_var != node.item.name:
2898 self._warn("Kconfiglib expands environment variables "
2899 "in strings directly, meaning you do not "
2900 "need 'option env=...' \"bounce\" symbols. "
2901 "For compatibility with the C tools, "
2902 "rename {} to {} (so that the symbol name "
2903 "matches the environment variable name)."
2904 .format(node.item.name, env_var),
2905 self._filename, self._linenr)
2906
2907 elif self._check_token(_T_DEFCONFIG_LIST):
2908 if not self.defconfig_list:
2909 self.defconfig_list = node.item
2910 else:
2911 self._warn("'option defconfig_list' set on multiple "
2912 "symbols ({0} and {1}). Only {0} will be "
2913 "used.".format(self.defconfig_list.name,
2914 node.item.name),
2915 self._filename, self._linenr)
2916
2917 elif self._check_token(_T_MODULES):
2918 # To reduce warning spam, only warn if 'option modules' is
2919 # set on some symbol that isn't MODULES, which should be
2920 # safe. I haven't run into any projects that make use
2921 # modules besides the kernel yet, and there it's likely to
2922 # keep being called "MODULES".
2923 if node.item is not self.modules:
2924 self._warn("the 'modules' option is not supported. "
2925 "Let me know if this is a problem for you, "
2926 "as it wouldn't be that hard to implement. "
2927 "Note that modules are supported -- "
2928 "Kconfiglib just assumes the symbol name "
2929 "MODULES, like older versions of the C "
2930 "implementation did when 'option modules' "
2931 "wasn't used.",
2932 self._filename, self._linenr)
2933
2934 elif self._check_token(_T_ALLNOCONFIG_Y):
2935 if node.item.__class__ is not Symbol:
2936 self._parse_error("the 'allnoconfig_y' option is only "
2937 "valid for symbols")
2938
2939 node.item.is_allnoconfig_y = True
2940
2941 else:
2942 self._parse_error("unrecognized option")
2943
2944 elif t0 is _T_OPTIONAL:
2945 if node.item.__class__ is not Choice:
2946 self._parse_error('"optional" is only valid for choices')
2947
2948 node.item.is_optional = True
2949
2950 else:
2951 # Reuse the tokens for the non-property line later
2952 self._reuse_tokens = True
2953 return
2954
2955 def _set_type(self, node, new_type):
2956 # Note: UNKNOWN == 0, which is falsy
2957 if node.item.orig_type and node.item.orig_type is not new_type:
2958 self._warn("{} defined with multiple types, {} will be used"
2959 .format(_name_and_loc(node.item),
2960 TYPE_TO_STR[new_type]))
2961
2962 node.item.orig_type = new_type
2963
2964 def _parse_prompt(self, node):
2965 # 'prompt' properties override each other within a single definition of
2966 # a symbol, but additional prompts can be added by defining the symbol
2967 # multiple times
2968
2969 if node.prompt:
2970 self._warn(_name_and_loc(node.item) +
2971 " defined with multiple prompts in single location")
2972
2973 prompt = self._tokens[1]
2974 self._tokens_i = 2
2975
2976 if prompt.__class__ is not str:
2977 self._parse_error("expected prompt string")
2978
2979 if prompt != prompt.strip():
2980 self._warn(_name_and_loc(node.item) +
2981 " has leading or trailing whitespace in its prompt")
2982
2983 # This avoid issues for e.g. reStructuredText documentation, where
2984 # '*prompt *' is invalid
2985 prompt = prompt.strip()
2986
2987 node.prompt = (prompt, self._parse_cond())
2988
2989 def _parse_help(self, node):
2990 if node.help is not None:
2991 self._warn(_name_and_loc(node.item) + " defined with more than "
2992 "one help text -- only the last one will be used")
2993
2994 # Micro-optimization. This code is pretty hot.
2995 readline = self._readline
2996
2997 # Find first non-blank (not all-space) line and get its
2998 # indentation
2999
3000 while 1:
3001 line = readline()
3002 self._linenr += 1
3003 if not line:
3004 self._empty_help(node, line)
3005 return
3006 if not line.isspace():
3007 break
3008
3009 len_ = len # Micro-optimization
3010
3011 # Use a separate 'expline' variable here and below to avoid stomping on
3012 # any tabs people might've put deliberately into the first line after
3013 # the help text
3014 expline = line.expandtabs()
3015 indent = len_(expline) - len_(expline.lstrip())
3016 if not indent:
3017 self._empty_help(node, line)
3018 return
3019
3020 # The help text goes on till the first non-blank line with less indent
3021 # than the first line
3022
3023 # Add the first line
3024 lines = [expline[indent:]]
3025 add_line = lines.append # Micro-optimization
3026
3027 while 1:
3028 line = readline()
3029 if line.isspace():
3030 # No need to preserve the exact whitespace in these
3031 add_line("\n")
3032 elif not line:
3033 # End of file
3034 break
3035 else:
3036 expline = line.expandtabs()
3037 if len_(expline) - len_(expline.lstrip()) < indent:
3038 break
3039 add_line(expline[indent:])
3040
3041 self._linenr += len_(lines)
3042 node.help = "".join(lines).rstrip()
3043 if line:
3044 self._line_after_help(line)
3045
3046 def _empty_help(self, node, line):
3047 self._warn(_name_and_loc(node.item) +
3048 " has 'help' but empty help text")
3049 node.help = ""
3050 if line:
3051 self._line_after_help(line)
3052
3053 def _parse_expr(self, transform_m):
3054 # Parses an expression from the tokens in Kconfig._tokens using a
3055 # simple top-down approach. See the module docstring for the expression
3056 # format.
3057 #
3058 # transform_m:
3059 # True if m should be rewritten to m && MODULES. See the
3060 # Kconfig.eval_string() documentation.
3061
3062 # Grammar:
3063 #
3064 # expr: and_expr ['||' expr]
3065 # and_expr: factor ['&&' and_expr]
3066 # factor: <symbol> ['='/'!='/'<'/... <symbol>]
3067 # '!' factor
3068 # '(' expr ')'
3069 #
3070 # It helps to think of the 'expr: and_expr' case as a single-operand OR
3071 # (no ||), and of the 'and_expr: factor' case as a single-operand AND
3072 # (no &&). Parsing code is always a bit tricky.
3073
3074 # Mind dump: parse_factor() and two nested loops for OR and AND would
3075 # work as well. The straightforward implementation there gives a
3076 # (op, (op, (op, A, B), C), D) parse for A op B op C op D. Representing
3077 # expressions as (op, [list of operands]) instead goes nicely with that
3078 # version, but is wasteful for short expressions and complicates
3079 # expression evaluation and other code that works on expressions (more
3080 # complicated code likely offsets any performance gain from less
3081 # recursion too). If we also try to optimize the list representation by
3082 # merging lists when possible (e.g. when ANDing two AND expressions),
3083 # we end up allocating a ton of lists instead of reusing expressions,
3084 # which is bad.
3085
3086 and_expr = self._parse_and_expr(transform_m)
3087
3088 # Return 'and_expr' directly if we have a "single-operand" OR.
3089 # Otherwise, parse the expression on the right and make an OR node.
3090 # This turns A || B || C || D into (OR, A, (OR, B, (OR, C, D))).
3091 return and_expr \
3092 if not self._check_token(_T_OR) else \
3093 (OR, and_expr, self._parse_expr(transform_m))
3094
3095 def _parse_and_expr(self, transform_m):
3096 factor = self._parse_factor(transform_m)
3097
3098 # Return 'factor' directly if we have a "single-operand" AND.
3099 # Otherwise, parse the right operand and make an AND node. This turns
3100 # A && B && C && D into (AND, A, (AND, B, (AND, C, D))).
3101 return factor \
3102 if not self._check_token(_T_AND) else \
3103 (AND, factor, self._parse_and_expr(transform_m))
3104
3105 def _parse_factor(self, transform_m):
3106 token = self._tokens[self._tokens_i]
3107 self._tokens_i += 1
3108
3109 if token.__class__ is Symbol:
3110 # Plain symbol or relation
3111
3112 if self._tokens[self._tokens_i] not in _RELATIONS:
3113 # Plain symbol
3114
3115 # For conditional expressions ('depends on <expr>',
3116 # '... if <expr>', etc.), m is rewritten to m && MODULES.
3117 if transform_m and token is self.m:
3118 return (AND, self.m, self.modules)
3119
3120 return token
3121
3122 # Relation
3123 #
3124 # _T_EQUAL, _T_UNEQUAL, etc., deliberately have the same values as
3125 # EQUAL, UNEQUAL, etc., so we can just use the token directly
3126 self._tokens_i += 1
3127 return (self._tokens[self._tokens_i - 1], token,
3128 self._expect_sym())
3129
3130 if token is _T_NOT:
3131 # token == _T_NOT == NOT
3132 return (token, self._parse_factor(transform_m))
3133
3134 if token is _T_OPEN_PAREN:
3135 expr_parse = self._parse_expr(transform_m)
3136 if self._check_token(_T_CLOSE_PAREN):
3137 return expr_parse
3138
3139 self._parse_error("malformed expression")
3140
3141 #
3142 # Caching and invalidation
3143 #
3144
3145 def _build_dep(self):
3146 # Populates the Symbol/Choice._dependents sets, which contain all other
3147 # items (symbols and choices) that immediately depend on the item in
3148 # the sense that changing the value of the item might affect the value
3149 # of the dependent items. This is used for caching/invalidation.
3150 #
3151 # The calculated sets might be larger than necessary as we don't do any
3152 # complex analysis of the expressions.
3153
3154 make_depend_on = _make_depend_on # Micro-optimization
3155
3156 # Only calculate _dependents for defined symbols. Constant and
3157 # undefined symbols could theoretically be selected/implied, but it
3158 # wouldn't change their value, so it's not a true dependency.
3159 for sym in self.unique_defined_syms:
3160 # Symbols depend on the following:
3161
3162 # The prompt conditions
3163 for node in sym.nodes:
3164 if node.prompt:
3165 make_depend_on(sym, node.prompt[1])
3166
3167 # The default values and their conditions
3168 for value, cond in sym.defaults:
3169 make_depend_on(sym, value)
3170 make_depend_on(sym, cond)
3171
3172 # The reverse and weak reverse dependencies
3173 make_depend_on(sym, sym.rev_dep)
3174 make_depend_on(sym, sym.weak_rev_dep)
3175
3176 # The ranges along with their conditions
3177 for low, high, cond in sym.ranges:
3178 make_depend_on(sym, low)
3179 make_depend_on(sym, high)
3180 make_depend_on(sym, cond)
3181
3182 # The direct dependencies. This is usually redundant, as the direct
3183 # dependencies get propagated to properties, but it's needed to get
3184 # invalidation solid for 'imply', which only checks the direct
3185 # dependencies (even if there are no properties to propagate it
3186 # to).
3187 make_depend_on(sym, sym.direct_dep)
3188
3189 # In addition to the above, choice symbols depend on the choice
3190 # they're in, but that's handled automatically since the Choice is
3191 # propagated to the conditions of the properties before
3192 # _build_dep() runs.
3193
3194 for choice in self.unique_choices:
3195 # Choices depend on the following:
3196
3197 # The prompt conditions
3198 for node in choice.nodes:
3199 if node.prompt:
3200 make_depend_on(choice, node.prompt[1])
3201
3202 # The default symbol conditions
3203 for _, cond in choice.defaults:
3204 make_depend_on(choice, cond)
3205
3206 def _add_choice_deps(self):
3207 # Choices also depend on the choice symbols themselves, because the
3208 # y-mode selection of the choice might change if a choice symbol's
3209 # visibility changes.
3210 #
3211 # We add these dependencies separately after dependency loop detection.
3212 # The invalidation algorithm can handle the resulting
3213 # <choice symbol> <-> <choice> dependency loops, but they make loop
3214 # detection awkward.
3215
3216 for choice in self.unique_choices:
3217 for sym in choice.syms:
3218 sym._dependents.add(choice)
3219
3220 def _invalidate_all(self):
3221 # Undefined symbols never change value and don't need to be
3222 # invalidated, so we can just iterate over defined symbols.
3223 # Invalidating constant symbols would break things horribly.
3224 for sym in self.unique_defined_syms:
3225 sym._invalidate()
3226
3227 for choice in self.unique_choices:
3228 choice._invalidate()
3229
3230
3231 #
3232 # Post-parsing menu tree processing, including dependency propagation and
3233 # implicit submenu creation
3234 #
3235
3236 def _finalize_tree(self, node, visible_if):
3237 # Propagates properties and dependencies, creates implicit menus (see
3238 # kconfig-language.txt), removes 'if' nodes, and finalizes choices.
3239 # This pretty closely mirrors menu_finalize() from the C
3240 # implementation, with some minor tweaks (MenuNode holds lists of
3241 # properties instead of each property having a MenuNode pointer, for
3242 # example).
3243 #
3244 # node:
3245 # The current "parent" menu node, from which we propagate
3246 # dependencies
3247 #
3248 # visible_if:
3249 # Dependencies from 'visible if' on parent menus. These are added to
3250 # the prompts of symbols and choices.
3251
3252 if node.list:
3253 # The menu node is a choice, menu, or if. Finalize each child in
3254 # it.
3255
3256 if node.item is MENU:
3257 visible_if = self._make_and(visible_if, node.visibility)
3258
3259 # Propagate the menu node's dependencies to each child menu node.
3260 #
3261 # The recursive _finalize_tree() calls assume that the current
3262 # "level" in the tree has already had dependencies propagated. This
3263 # makes e.g. implicit submenu creation easier, because it needs to
3264 # look ahead.
3265 self._propagate_deps(node, visible_if)
3266
3267 # Finalize the children
3268 cur = node.list
3269 while cur:
3270 self._finalize_tree(cur, visible_if)
3271 cur = cur.next
3272
3273 elif node.item.__class__ is Symbol:
3274 # Add the node's non-node-specific properties (defaults, ranges,
3275 # etc.) to the Symbol
3276 self._add_props_to_sym(node)
3277
3278 # See if we can create an implicit menu rooted at the Symbol and
3279 # finalize each child menu node in that menu if so, like for the
3280 # choice/menu/if case above
3281 cur = node
3282 while cur.next and _auto_menu_dep(node, cur.next):
3283 # This also makes implicit submenu creation work recursively,
3284 # with implicit menus inside implicit menus
3285 self._finalize_tree(cur.next, visible_if)
3286 cur = cur.next
3287 cur.parent = node
3288
3289 if cur is not node:
3290 # Found symbols that should go in an implicit submenu. Tilt
3291 # them up above us.
3292 node.list = node.next
3293 node.next = cur.next
3294 cur.next = None
3295
3296
3297 if node.list:
3298 # We have a parent node with individually finalized child nodes. Do
3299 # final steps to finalize this "level" in the menu tree.
3300 _flatten(node.list)
3301 _remove_ifs(node)
3302
3303 # Empty choices (node.list None) are possible, so this needs to go
3304 # outside
3305 if node.item.__class__ is Choice:
3306 # Add the node's non-node-specific properties to the choice, like
3307 # _add_props_to_sym() does
3308 choice = node.item
3309 choice.direct_dep = self._make_or(choice.direct_dep, node.dep)
3310 choice.defaults += node.defaults
3311
3312 _finalize_choice(node)
3313
3314 def _propagate_deps(self, node, visible_if):
3315 # Propagates 'node's dependencies to its child menu nodes
3316
3317 # If the parent node holds a Choice, we use the Choice itself as the
3318 # parent dependency. This makes sense as the value (mode) of the choice
3319 # limits the visibility of the contained choice symbols. The C
3320 # implementation works the same way.
3321 #
3322 # Due to the similar interface, Choice works as a drop-in replacement
3323 # for Symbol here.
3324 basedep = node.item if node.item.__class__ is Choice else node.dep
3325
3326 cur = node.list
3327 while cur:
3328 cur.dep = dep = self._make_and(cur.dep, basedep)
3329
3330 # Propagate dependencies to prompt
3331 if cur.prompt:
3332 cur.prompt = (cur.prompt[0],
3333 self._make_and(cur.prompt[1], dep))
3334
3335 if cur.item.__class__ in _SYMBOL_CHOICE:
3336 # Propagate 'visible if' dependencies to the prompt
3337 if cur.prompt:
3338 cur.prompt = (cur.prompt[0],
3339 self._make_and(cur.prompt[1], visible_if))
3340
3341 # Propagate dependencies to defaults
3342 if cur.defaults:
3343 cur.defaults = [(default, self._make_and(cond, dep))
3344 for default, cond in cur.defaults]
3345
3346 # Propagate dependencies to ranges
3347 if cur.ranges:
3348 cur.ranges = [(low, high, self._make_and(cond, dep))
3349 for low, high, cond in cur.ranges]
3350
3351 # Propagate dependencies to selects
3352 if cur.selects:
3353 cur.selects = [(target, self._make_and(cond, dep))
3354 for target, cond in cur.selects]
3355
3356 # Propagate dependencies to implies
3357 if cur.implies:
3358 cur.implies = [(target, self._make_and(cond, dep))
3359 for target, cond in cur.implies]
3360
3361
3362 cur = cur.next
3363
3364 def _add_props_to_sym(self, node):
3365 # Copies properties from the menu node 'node' up to its contained
3366 # symbol, and adds (weak) reverse dependencies to selected/implied
3367 # symbols.
3368 #
3369 # This can't be rolled into _propagate_deps(), because that function
3370 # traverses the menu tree roughly breadth-first, meaning properties on
3371 # symbols defined in multiple locations could end up in the wrong
3372 # order.
3373
3374 sym = node.item
3375
3376 # See the Symbol class docstring
3377 sym.direct_dep = self._make_or(sym.direct_dep, node.dep)
3378
3379 sym.defaults += node.defaults
3380 sym.ranges += node.ranges
3381 sym.selects += node.selects
3382 sym.implies += node.implies
3383
3384 # Modify the reverse dependencies of the selected symbol
3385 for target, cond in node.selects:
3386 target.rev_dep = self._make_or(
3387 target.rev_dep,
3388 self._make_and(sym, cond))
3389
3390 # Modify the weak reverse dependencies of the implied
3391 # symbol
3392 for target, cond in node.implies:
3393 target.weak_rev_dep = self._make_or(
3394 target.weak_rev_dep,
3395 self._make_and(sym, cond))
3396
3397
3398 #
3399 # Misc.
3400 #
3401
3402 def _check_sym_sanity(self):
3403 # Checks various symbol properties that are handiest to check after
3404 # parsing. Only generates errors and warnings.
3405
3406 def num_ok(sym, type_):
3407 # Returns True if the (possibly constant) symbol 'sym' is valid as a value
3408 # for a symbol of type type_ (INT or HEX)
3409
3410 # 'not sym.nodes' implies a constant or undefined symbol, e.g. a plain
3411 # "123"
3412 if not sym.nodes:
3413 return _is_base_n(sym.name, _TYPE_TO_BASE[type_])
3414
3415 return sym.orig_type is type_
3416
3417 for sym in self.unique_defined_syms:
3418 if sym.orig_type in _BOOL_TRISTATE:
3419 # A helper function could be factored out here, but keep it
3420 # speedy/straightforward
3421
3422 for target_sym, _ in sym.selects:
3423 if target_sym.orig_type not in _BOOL_TRISTATE_UNKNOWN:
3424 self._warn("{} selects the {} symbol {}, which is not "
3425 "bool or tristate"
3426 .format(_name_and_loc(sym),
3427 TYPE_TO_STR[target_sym.orig_type],
3428 _name_and_loc(target_sym)))
3429
3430 for target_sym, _ in sym.implies:
3431 if target_sym.orig_type not in _BOOL_TRISTATE_UNKNOWN:
3432 self._warn("{} implies the {} symbol {}, which is not "
3433 "bool or tristate"
3434 .format(_name_and_loc(sym),
3435 TYPE_TO_STR[target_sym.orig_type],
3436 _name_and_loc(target_sym)))
3437
3438 elif sym.orig_type in _STRING_INT_HEX:
3439 for default, _ in sym.defaults:
3440 if default.__class__ is not Symbol:
3441 raise KconfigError(
3442 "the {} symbol {} has a malformed default {} -- expected "
3443 "a single symbol"
3444 .format(TYPE_TO_STR[sym.orig_type], _name_and_loc(sym),
3445 expr_str(default)))
3446
3447 if sym.orig_type is STRING:
3448 if not default.is_constant and not default.nodes and \
3449 not default.name.isupper():
3450 # 'default foo' on a string symbol could be either a symbol
3451 # reference or someone leaving out the quotes. Guess that
3452 # the quotes were left out if 'foo' isn't all-uppercase
3453 # (and no symbol named 'foo' exists).
3454 self._warn("style: quotes recommended around "
3455 "default value for string symbol "
3456 + _name_and_loc(sym))
3457
3458 elif not num_ok(default, sym.orig_type): # INT/HEX
3459 self._warn("the {0} symbol {1} has a non-{0} default {2}"
3460 .format(TYPE_TO_STR[sym.orig_type],
3461 _name_and_loc(sym),
3462 _name_and_loc(default)))
3463
3464 if sym.selects or sym.implies:
3465 self._warn("the {} symbol {} has selects or implies"
3466 .format(TYPE_TO_STR[sym.orig_type],
3467 _name_and_loc(sym)))
3468
3469 else: # UNKNOWN
3470 self._warn("{} defined without a type"
3471 .format(_name_and_loc(sym)))
3472
3473
3474 if sym.ranges:
3475 if sym.orig_type not in _INT_HEX:
3476 self._warn(
3477 "the {} symbol {} has ranges, but is not int or hex"
3478 .format(TYPE_TO_STR[sym.orig_type],
3479 _name_and_loc(sym)))
3480 else:
3481 for low, high, _ in sym.ranges:
3482 if not num_ok(low, sym.orig_type) or \
3483 not num_ok(high, sym.orig_type):
3484
3485 self._warn("the {0} symbol {1} has a non-{0} "
3486 "range [{2}, {3}]"
3487 .format(TYPE_TO_STR[sym.orig_type],
3488 _name_and_loc(sym),
3489 _name_and_loc(low),
3490 _name_and_loc(high)))
3491
3492 def _check_choice_sanity(self):
3493 # Checks various choice properties that are handiest to check after
3494 # parsing. Only generates errors and warnings.
3495
3496 def warn_select_imply(sym, expr, expr_type):
3497 msg = "the choice symbol {} is {} by the following symbols, but " \
3498 "select/imply has no effect on choice symbols" \
3499 .format(_name_and_loc(sym), expr_type)
3500
3501 # si = select/imply
3502 for si in split_expr(expr, OR):
3503 msg += "\n - " + _name_and_loc(split_expr(si, AND)[0])
3504
3505 self._warn(msg)
3506
3507 for choice in self.unique_choices:
3508 if choice.orig_type not in _BOOL_TRISTATE:
3509 self._warn("{} defined with type {}"
3510 .format(_name_and_loc(choice),
3511 TYPE_TO_STR[choice.orig_type]))
3512
3513 for node in choice.nodes:
3514 if node.prompt:
3515 break
3516 else:
3517 self._warn(_name_and_loc(choice) + " defined without a prompt")
3518
3519 for default, _ in choice.defaults:
3520 if default.__class__ is not Symbol:
3521 raise KconfigError(
3522 "{} has a malformed default {}"
3523 .format(_name_and_loc(choice), expr_str(default)))
3524
3525 if default.choice is not choice:
3526 self._warn("the default selection {} of {} is not "
3527 "contained in the choice"
3528 .format(_name_and_loc(default),
3529 _name_and_loc(choice)))
3530
3531 for sym in choice.syms:
3532 if sym.defaults:
3533 self._warn("default on the choice symbol {} will have "
3534 "no effect, as defaults do not affect choice "
3535 "symbols".format(_name_and_loc(sym)))
3536
3537 if sym.rev_dep is not sym.kconfig.n:
3538 warn_select_imply(sym, sym.rev_dep, "selected")
3539
3540 if sym.weak_rev_dep is not sym.kconfig.n:
3541 warn_select_imply(sym, sym.weak_rev_dep, "implied")
3542
3543 for node in sym.nodes:
3544 if node.parent.item is choice:
3545 if not node.prompt:
3546 self._warn("the choice symbol {} has no prompt"
3547 .format(_name_and_loc(sym)))
3548
3549 elif node.prompt:
3550 self._warn("the choice symbol {} is defined with a "
3551 "prompt outside the choice"
3552 .format(_name_and_loc(sym)))
3553
3554 def _parse_error(self, msg):
3555 raise KconfigError("{}couldn't parse '{}': {}".format(
3556 "" if self._filename is None else
3557 "{}:{}: ".format(self._filename, self._linenr),
3558 self._line.strip(), msg))
3559
3560 def _trailing_tokens_error(self):
3561 self._parse_error("extra tokens at end of line")
3562
3563 def _open(self, filename, mode):
3564 # open() wrapper:
3565 #
3566 # - Enable universal newlines mode on Python 2 to ease
3567 # interoperability between Linux and Windows. It's already the
3568 # default on Python 3.
3569 #
3570 # The "U" flag would currently work for both Python 2 and 3, but it's
3571 # deprecated on Python 3, so play it future-safe.
3572 #
3573 # A simpler solution would be to use io.open(), which defaults to
3574 # universal newlines on both Python 2 and 3 (and is an alias for
3575 # open() on Python 3), but it's appreciably slower on Python 2:
3576 #
3577 # Parsing x86 Kconfigs on Python 2
3578 #
3579 # with open(..., "rU"):
3580 #
3581 # real 0m0.930s
3582 # user 0m0.905s
3583 # sys 0m0.025s
3584 #
3585 # with io.open():
3586 #
3587 # real 0m1.069s
3588 # user 0m1.040s
3589 # sys 0m0.029s
3590 #
3591 # There's no appreciable performance difference between "r" and
3592 # "rU" for parsing performance on Python 2.
3593 #
3594 # - For Python 3, force the encoding. Forcing the encoding on Python 2
3595 # turns strings into Unicode strings, which gets messy. Python 2
3596 # doesn't decode regular strings anyway.
3597 return open(filename, "rU" if mode == "r" else mode) if _IS_PY2 else \
3598 open(filename, mode, encoding=self._encoding)
3599
3600 def _check_undef_syms(self):
3601 # Prints warnings for all references to undefined symbols within the
3602 # Kconfig files
3603
3604 def is_num(s):
3605 # Returns True if the string 's' looks like a number.
3606 #
3607 # Internally, all operands in Kconfig are symbols, only undefined symbols
3608 # (which numbers usually are) get their name as their value.
3609 #
3610 # Only hex numbers that start with 0x/0X are classified as numbers.
3611 # Otherwise, symbols whose names happen to contain only the letters A-F
3612 # would trigger false positives.
3613
3614 try:
3615 int(s)
3616 except ValueError:
3617 if not s.startswith(("0x", "0X")):
3618 return False
3619
3620 try:
3621 int(s, 16)
3622 except ValueError:
3623 return False
3624
3625 return True
3626
3627 for sym in (self.syms.viewvalues if _IS_PY2 else self.syms.values)():
3628 # - sym.nodes empty means the symbol is undefined (has no
3629 # definition locations)
3630 #
3631 # - Due to Kconfig internals, numbers show up as undefined Kconfig
3632 # symbols, but shouldn't be flagged
3633 #
3634 # - The MODULES symbol always exists
3635 if not sym.nodes and not is_num(sym.name) and \
3636 sym.name != "MODULES":
3637
3638 msg = "undefined symbol {}:".format(sym.name)
3639
3640 for node in self.node_iter():
3641 if sym in node.referenced:
3642 msg += "\n\n- Referenced at {}:{}:\n\n{}" \
3643 .format(node.filename, node.linenr, node)
3644
3645 self._warn(msg)
3646
3647 def _warn(self, msg, filename=None, linenr=None):
3648 # For printing general warnings
3649
3650 if self._warnings_enabled:
3651 msg = "warning: " + msg
3652 if filename is not None:
3653 msg = "{}:{}: {}".format(filename, linenr, msg)
3654
3655 self.warnings.append(msg)
3656 if self._warn_to_stderr:
3657 sys.stderr.write(msg + "\n")
3658
3659 def _warn_override(self, msg, filename, linenr):
3660 # See the class documentation
3661
3662 if self._warn_for_override:
3663 self._warn(msg, filename, linenr)
3664
3665 def _warn_redun_assign(self, msg, filename, linenr):
3666 # See the class documentation
3667
3668 if self._warn_for_redun_assign:
3669 self._warn(msg, filename, linenr)
3670
3671
3672class Symbol(object):
3673 """
3674 Represents a configuration symbol:
3675
3676 (menu)config FOO
3677 ...
3678
3679 The following attributes are available. They should be viewed as read-only,
3680 and some are implemented through @property magic (but are still efficient
3681 to access due to internal caching).
3682
3683 Note: Prompts, help texts, and locations are stored in the Symbol's
3684 MenuNode(s) rather than in the Symbol itself. Check the MenuNode class and
3685 the Symbol.nodes attribute. This organization matches the C tools.
3686
3687 name:
3688 The name of the symbol, e.g. "FOO" for 'config FOO'.
3689
3690 type:
3691 The type of the symbol. One of BOOL, TRISTATE, STRING, INT, HEX, UNKNOWN.
3692 UNKNOWN is for undefined symbols, (non-special) constant symbols, and
3693 symbols defined without a type.
3694
3695 When running without modules (MODULES having the value n), TRISTATE
3696 symbols magically change type to BOOL. This also happens for symbols
3697 within choices in "y" mode. This matches the C tools, and makes sense for
3698 menuconfig-like functionality.
3699
3700 orig_type:
3701 The type as given in the Kconfig file, without any magic applied. Used
3702 when printing the symbol.
3703
3704 str_value:
3705 The value of the symbol as a string. Gives the value for string/int/hex
3706 symbols. For bool/tristate symbols, gives "n", "m", or "y".
3707
3708 This is the symbol value that's used in relational expressions
3709 (A = B, A != B, etc.)
3710
3711 Gotcha: For int/hex symbols, the exact format of the value must often be
3712 preserved (e.g., when writing a .config file), hence why you can't get it
3713 directly as an int. Do int(int_sym.str_value) or
3714 int(hex_sym.str_value, 16) to get the integer value.
3715
3716 tri_value:
3717 The tristate value of the symbol as an integer. One of 0, 1, 2,
3718 representing n, m, y. Always 0 (n) for non-bool/tristate symbols.
3719
3720 This is the symbol value that's used outside of relation expressions
3721 (A, !A, A && B, A || B).
3722
3723 assignable:
3724 A tuple containing the tristate user values that can currently be
3725 assigned to the symbol (that would be respected), ordered from lowest (0,
3726 representing n) to highest (2, representing y). This corresponds to the
3727 selections available in the menuconfig interface. The set of assignable
3728 values is calculated from the symbol's visibility and selects/implies.
3729
3730 Returns the empty set for non-bool/tristate symbols and for symbols with
3731 visibility n. The other possible values are (0, 2), (0, 1, 2), (1, 2),
3732 (1,), and (2,). A (1,) or (2,) result means the symbol is visible but
3733 "locked" to m or y through a select, perhaps in combination with the
3734 visibility. menuconfig represents this as -M- and -*-, respectively.
3735
3736 For string/hex/int symbols, check if Symbol.visibility is non-0 (non-n)
3737 instead to determine if the value can be changed.
3738
3739 Some handy 'assignable' idioms:
3740
3741 # Is 'sym' an assignable (visible) bool/tristate symbol?
3742 if sym.assignable:
3743 # What's the highest value it can be assigned? [-1] in Python
3744 # gives the last element.
3745 sym_high = sym.assignable[-1]
3746
3747 # The lowest?
3748 sym_low = sym.assignable[0]
3749
3750 # Can the symbol be set to at least m?
3751 if sym.assignable[-1] >= 1:
3752 ...
3753
3754 # Can the symbol be set to m?
3755 if 1 in sym.assignable:
3756 ...
3757
3758 visibility:
3759 The visibility of the symbol. One of 0, 1, 2, representing n, m, y. See
3760 the module documentation for an overview of symbol values and visibility.
3761
3762 user_value:
3763 The user value of the symbol. None if no user value has been assigned
3764 (via Kconfig.load_config() or Symbol.set_value()).
3765
3766 Holds 0, 1, or 2 for bool/tristate symbols, and a string for the other
3767 symbol types.
3768
3769 WARNING: Do not assign directly to this. It will break things. Use
3770 Symbol.set_value().
3771
3772 config_string:
3773 The .config assignment string that would get written out for the symbol
3774 by Kconfig.write_config(). Returns the empty string if no .config
3775 assignment would get written out.
3776
3777 In general, visible symbols, symbols with (active) defaults, and selected
3778 symbols get written out. This includes all non-n-valued bool/tristate
3779 symbols, and all visible string/int/hex symbols.
3780
3781 Symbols with the (no longer needed) 'option env=...' option generate no
3782 configuration output, and neither does the special
3783 'option defconfig_list' symbol.
3784
3785 Tip: This field is useful when generating custom configuration output,
3786 even for non-.config-like formats. To write just the symbols that would
3787 get written out to .config files, do this:
3788
3789 if sym.config_string:
3790 *Write symbol, e.g. by looking sym.str_value*
3791
3792 This is a superset of the symbols written out by write_autoconf().
3793 That function skips all n-valued symbols.
3794
3795 There usually won't be any great harm in just writing all symbols either,
3796 though you might get some special symbols and possibly some "redundant"
3797 n-valued symbol entries in there.
3798
3799 nodes:
3800 A list of MenuNodes for this symbol. Will contain a single MenuNode for
3801 most symbols. Undefined and constant symbols have an empty nodes list.
3802 Symbols defined in multiple locations get one node for each location.
3803
3804 choice:
3805 Holds the parent Choice for choice symbols, and None for non-choice
3806 symbols. Doubles as a flag for whether a symbol is a choice symbol.
3807
3808 defaults:
3809 List of (default, cond) tuples for the symbol's 'default' properties. For
3810 example, 'default A && B if C || D' is represented as
3811 ((AND, A, B), (OR, C, D)). If no condition was given, 'cond' is
3812 self.kconfig.y.
3813
3814 Note that 'depends on' and parent dependencies are propagated to
3815 'default' conditions.
3816
3817 selects:
3818 List of (symbol, cond) tuples for the symbol's 'select' properties. For
3819 example, 'select A if B && C' is represented as (A, (AND, B, C)). If no
3820 condition was given, 'cond' is self.kconfig.y.
3821
3822 Note that 'depends on' and parent dependencies are propagated to 'select'
3823 conditions.
3824
3825 implies:
3826 Like 'selects', for imply.
3827
3828 ranges:
3829 List of (low, high, cond) tuples for the symbol's 'range' properties. For
3830 example, 'range 1 2 if A' is represented as (1, 2, A). If there is no
3831 condition, 'cond' is self.config.y.
3832
3833 Note that 'depends on' and parent dependencies are propagated to 'range'
3834 conditions.
3835
3836 Gotcha: 1 and 2 above will be represented as (undefined) Symbols rather
3837 than plain integers. Undefined symbols get their name as their string
3838 value, so this works out. The C tools work the same way.
3839
3840 rev_dep:
3841 Reverse dependency expression from other symbols selecting this symbol.
3842 Multiple selections get ORed together. A condition on a select is ANDed
3843 with the selecting symbol.
3844
3845 For example, if A has 'select FOO' and B has 'select FOO if C', then
3846 FOO's rev_dep will be (OR, A, (AND, B, C)).
3847
3848 weak_rev_dep:
3849 Like rev_dep, for imply.
3850
3851 direct_dep:
3852 The 'depends on' dependencies. If a symbol is defined in multiple
3853 locations, the dependencies at each location are ORed together.
3854
3855 Internally, this is used to implement 'imply', which only applies if the
3856 implied symbol has expr_value(self.direct_dep) != 0. 'depends on' and
3857 parent dependencies are automatically propagated to the conditions of
3858 properties, so normally it's redundant to check the direct dependencies.
3859
3860 referenced:
3861 A set() with all symbols and choices referenced in the properties and
3862 property conditions of the symbol.
3863
3864 Also includes dependencies inherited from surrounding menus and if's.
3865 Choices appear in the dependencies of choice symbols.
3866
3867 env_var:
3868 If the Symbol has an 'option env="FOO"' option, this contains the name
3869 ("FOO") of the environment variable. None for symbols without no
3870 'option env'.
3871
3872 'option env="FOO"' acts like a 'default' property whose value is the
3873 value of $FOO.
3874
3875 Symbols with 'option env' are never written out to .config files, even if
3876 they are visible. env_var corresponds to a flag called SYMBOL_AUTO in the
3877 C implementation.
3878
3879 is_allnoconfig_y:
3880 True if the symbol has 'option allnoconfig_y' set on it. This has no
3881 effect internally (except when printing symbols), but can be checked by
3882 scripts.
3883
3884 is_constant:
3885 True if the symbol is a constant (quoted) symbol.
3886
3887 kconfig:
3888 The Kconfig instance this symbol is from.
3889 """
3890 __slots__ = (
3891 "_cached_assignable",
3892 "_cached_str_val",
3893 "_cached_tri_val",
3894 "_cached_vis",
3895 "_dependents",
3896 "_old_val",
3897 "_visited",
3898 "_was_set",
3899 "_write_to_conf",
3900 "choice",
3901 "defaults",
3902 "direct_dep",
3903 "env_var",
3904 "implies",
3905 "is_allnoconfig_y",
3906 "is_constant",
3907 "kconfig",
3908 "name",
3909 "nodes",
3910 "orig_type",
3911 "ranges",
3912 "rev_dep",
3913 "selects",
3914 "user_value",
3915 "weak_rev_dep",
3916 )
3917
3918 #
3919 # Public interface
3920 #
3921
3922 @property
3923 def type(self):
3924 """
3925 See the class documentation.
3926 """
3927 if self.orig_type is TRISTATE and \
3928 ((self.choice and self.choice.tri_value == 2) or
3929 not self.kconfig.modules.tri_value):
3930
3931 return BOOL
3932
3933 return self.orig_type
3934
3935 @property
3936 def str_value(self):
3937 """
3938 See the class documentation.
3939 """
3940 if self._cached_str_val is not None:
3941 return self._cached_str_val
3942
3943 if self.orig_type in _BOOL_TRISTATE:
3944 # Also calculates the visibility, so invalidation safe
3945 self._cached_str_val = TRI_TO_STR[self.tri_value]
3946 return self._cached_str_val
3947
3948 # As a quirk of Kconfig, undefined symbols get their name as their
3949 # string value. This is why things like "FOO = bar" work for seeing if
3950 # FOO has the value "bar".
3951 if not self.orig_type: # UNKNOWN
3952 self._cached_str_val = self.name
3953 return self.name
3954
3955 val = ""
3956 # Warning: See Symbol._rec_invalidate(), and note that this is a hidden
3957 # function call (property magic)
3958 vis = self.visibility
3959
3960 self._write_to_conf = (vis != 0)
3961
3962 if self.orig_type in _INT_HEX:
3963 # The C implementation checks the user value against the range in a
3964 # separate code path (post-processing after loading a .config).
3965 # Checking all values here instead makes more sense for us. It
3966 # requires that we check for a range first.
3967
3968 base = _TYPE_TO_BASE[self.orig_type]
3969
3970 # Check if a range is in effect
3971 for low_expr, high_expr, cond in self.ranges:
3972 if expr_value(cond):
3973 has_active_range = True
3974
3975 # The zeros are from the C implementation running strtoll()
3976 # on empty strings
3977 low = int(low_expr.str_value, base) if \
3978 _is_base_n(low_expr.str_value, base) else 0
3979 high = int(high_expr.str_value, base) if \
3980 _is_base_n(high_expr.str_value, base) else 0
3981
3982 break
3983 else:
3984 has_active_range = False
3985
3986 # Defaults are used if the symbol is invisible, lacks a user value,
3987 # or has an out-of-range user value
3988 use_defaults = True
3989
3990 if vis and self.user_value:
3991 user_val = int(self.user_value, base)
3992 if has_active_range and not low <= user_val <= high:
3993 num2str = str if base == 10 else hex
3994 self.kconfig._warn(
3995 "user value {} on the {} symbol {} ignored due to "
3996 "being outside the active range ([{}, {}]) -- falling "
3997 "back on defaults"
3998 .format(num2str(user_val), TYPE_TO_STR[self.orig_type],
3999 _name_and_loc(self),
4000 num2str(low), num2str(high)))
4001 else:
4002 # If the user value is well-formed and satisfies range
4003 # contraints, it is stored in exactly the same form as
4004 # specified in the assignment (with or without "0x", etc.)
4005 val = self.user_value
4006 use_defaults = False
4007
4008 if use_defaults:
4009 # No user value or invalid user value. Look at defaults.
4010
4011 # Used to implement the warning below
4012 has_default = False
4013
4014 for sym, cond in self.defaults:
4015 if expr_value(cond):
4016 has_default = self._write_to_conf = True
4017
4018 val = sym.str_value
4019
4020 if _is_base_n(val, base):
4021 val_num = int(val, base)
4022 else:
4023 val_num = 0 # strtoll() on empty string
4024
4025 break
4026 else:
4027 val_num = 0 # strtoll() on empty string
4028
4029 # This clamping procedure runs even if there's no default
4030 if has_active_range:
4031 clamp = None
4032 if val_num < low:
4033 clamp = low
4034 elif val_num > high:
4035 clamp = high
4036
4037 if clamp is not None:
4038 # The value is rewritten to a standard form if it is
4039 # clamped
4040 val = str(clamp) \
4041 if self.orig_type is INT else \
4042 hex(clamp)
4043
4044 if has_default:
4045 num2str = str if base == 10 else hex
4046 self.kconfig._warn(
4047 "default value {} on {} clamped to {} due to "
4048 "being outside the active range ([{}, {}])"
4049 .format(val_num, _name_and_loc(self),
4050 num2str(clamp), num2str(low),
4051 num2str(high)))
4052
4053 elif self.orig_type is STRING:
4054 if vis and self.user_value is not None:
4055 # If the symbol is visible and has a user value, use that
4056 val = self.user_value
4057 else:
4058 # Otherwise, look at defaults
4059 for sym, cond in self.defaults:
4060 if expr_value(cond):
4061 val = sym.str_value
4062 self._write_to_conf = True
4063 break
4064
4065 # env_var corresponds to SYMBOL_AUTO in the C implementation, and is
4066 # also set on the defconfig_list symbol there. Test for the
4067 # defconfig_list symbol explicitly instead here, to avoid a nonsensical
4068 # env_var setting and the defconfig_list symbol being printed
4069 # incorrectly. This code is pretty cold anyway.
4070 if self.env_var is not None or self is self.kconfig.defconfig_list:
4071 self._write_to_conf = False
4072
4073 self._cached_str_val = val
4074 return val
4075
4076 @property
4077 def tri_value(self):
4078 """
4079 See the class documentation.
4080 """
4081 if self._cached_tri_val is not None:
4082 return self._cached_tri_val
4083
4084 if self.orig_type not in _BOOL_TRISTATE:
4085 if self.orig_type: # != UNKNOWN
4086 # Would take some work to give the location here
4087 self.kconfig._warn(
4088 "The {} symbol {} is being evaluated in a logical context "
4089 "somewhere. It will always evaluate to n."
4090 .format(TYPE_TO_STR[self.orig_type], _name_and_loc(self)))
4091
4092 self._cached_tri_val = 0
4093 return 0
4094
4095 # Warning: See Symbol._rec_invalidate(), and note that this is a hidden
4096 # function call (property magic)
4097 vis = self.visibility
4098 self._write_to_conf = (vis != 0)
4099
4100 val = 0
4101
4102 if not self.choice:
4103 # Non-choice symbol
4104
4105 if vis and self.user_value is not None:
4106 # If the symbol is visible and has a user value, use that
4107 val = min(self.user_value, vis)
4108
4109 else:
4110 # Otherwise, look at defaults and weak reverse dependencies
4111 # (implies)
4112
4113 for default, cond in self.defaults:
4114 dep_val = expr_value(cond)
4115 if dep_val:
4116 val = min(expr_value(default), dep_val)
4117 if val:
4118 self._write_to_conf = True
4119 break
4120
4121 # Weak reverse dependencies are only considered if our
4122 # direct dependencies are met
4123 dep_val = expr_value(self.weak_rev_dep)
4124 if dep_val and expr_value(self.direct_dep):
4125 val = max(dep_val, val)
4126 self._write_to_conf = True
4127
4128 # Reverse (select-related) dependencies take precedence
4129 dep_val = expr_value(self.rev_dep)
4130 if dep_val:
4131 if expr_value(self.direct_dep) < dep_val:
4132 self._warn_select_unsatisfied_deps()
4133
4134 val = max(dep_val, val)
4135 self._write_to_conf = True
4136
4137 # m is promoted to y for (1) bool symbols and (2) symbols with a
4138 # weak_rev_dep (from imply) of y
4139 if val == 1 and \
4140 (self.type is BOOL or expr_value(self.weak_rev_dep) == 2):
4141 val = 2
4142
4143 elif vis == 2:
4144 # Visible choice symbol in y-mode choice. The choice mode limits
4145 # the visibility of choice symbols, so it's sufficient to just
4146 # check the visibility of the choice symbols themselves.
4147 val = 2 if self.choice.selection is self else 0
4148
4149 elif vis and self.user_value:
4150 # Visible choice symbol in m-mode choice, with set non-0 user value
4151 val = 1
4152
4153 self._cached_tri_val = val
4154 return val
4155
4156 @property
4157 def assignable(self):
4158 """
4159 See the class documentation.
4160 """
4161 if self._cached_assignable is None:
4162 self._cached_assignable = self._assignable()
4163
4164 return self._cached_assignable
4165
4166 @property
4167 def visibility(self):
4168 """
4169 See the class documentation.
4170 """
4171 if self._cached_vis is None:
4172 self._cached_vis = _visibility(self)
4173
4174 return self._cached_vis
4175
4176 @property
4177 def config_string(self):
4178 """
4179 See the class documentation.
4180 """
4181 # Note: _write_to_conf is determined when the value is calculated. This
4182 # is a hidden function call due to property magic.
4183 val = self.str_value
4184 if not self._write_to_conf:
4185 return ""
4186
4187 if self.orig_type in _BOOL_TRISTATE:
4188 return "{}{}={}\n" \
4189 .format(self.kconfig.config_prefix, self.name, val) \
4190 if val != "n" else \
4191 "# {}{} is not set\n" \
4192 .format(self.kconfig.config_prefix, self.name)
4193
4194 if self.orig_type in _INT_HEX:
4195 return "{}{}={}\n" \
4196 .format(self.kconfig.config_prefix, self.name, val)
4197
4198 # sym.orig_type is STRING
4199 return '{}{}="{}"\n' \
4200 .format(self.kconfig.config_prefix, self.name, escape(val))
4201
4202 def set_value(self, value):
4203 """
4204 Sets the user value of the symbol.
4205
4206 Equal in effect to assigning the value to the symbol within a .config
4207 file. For bool and tristate symbols, use the 'assignable' attribute to
4208 check which values can currently be assigned. Setting values outside
4209 'assignable' will cause Symbol.user_value to differ from
4210 Symbol.str/tri_value (be truncated down or up).
4211
4212 Setting a choice symbol to 2 (y) sets Choice.user_selection to the
4213 choice symbol in addition to setting Symbol.user_value.
4214 Choice.user_selection is considered when the choice is in y mode (the
4215 "normal" mode).
4216
4217 Other symbols that depend (possibly indirectly) on this symbol are
4218 automatically recalculated to reflect the assigned value.
4219
4220 value:
4221 The user value to give to the symbol. For bool and tristate symbols,
4222 n/m/y can be specified either as 0/1/2 (the usual format for tristate
4223 values in Kconfiglib) or as one of the strings "n"/"m"/"y". For other
4224 symbol types, pass a string.
4225
4226 Values that are invalid for the type (such as "foo" or 1 (m) for a
4227 BOOL or "0x123" for an INT) are ignored and won't be stored in
4228 Symbol.user_value. Kconfiglib will print a warning by default for
4229 invalid assignments, and set_value() will return False.
4230
4231 Returns True if the value is valid for the type of the symbol, and
4232 False otherwise. This only looks at the form of the value. For BOOL and
4233 TRISTATE symbols, check the Symbol.assignable attribute to see what
4234 values are currently in range and would actually be reflected in the
4235 value of the symbol. For other symbol types, check whether the
4236 visibility is non-n.
4237 """
4238 # If the new user value matches the old, nothing changes, and we can
4239 # save some work.
4240 #
4241 # This optimization is skipped for choice symbols: Setting a choice
4242 # symbol's user value to y might change the state of the choice, so it
4243 # wouldn't be safe (symbol user values always match the values set in a
4244 # .config file or via set_value(), and are never implicitly updated).
4245 if value == self.user_value and not self.choice:
4246 self._was_set = True
4247 return True
4248
4249 # Check if the value is valid for our type
4250 if not (self.orig_type is BOOL and value in (2, 0, "y", "n") or
4251 self.orig_type is TRISTATE and value in (2, 1, 0, "y", "m", "n") or
4252 (value.__class__ is str and
4253 (self.orig_type is STRING or
4254 self.orig_type is INT and _is_base_n(value, 10) or
4255 self.orig_type is HEX and _is_base_n(value, 16)
4256 and int(value, 16) >= 0))):
4257
4258 # Display tristate values as n, m, y in the warning
4259 self.kconfig._warn(
4260 "the value {} is invalid for {}, which has type {} -- "
4261 "assignment ignored"
4262 .format(TRI_TO_STR[value] if value in (0, 1, 2) else
4263 "'{}'".format(value),
4264 _name_and_loc(self), TYPE_TO_STR[self.orig_type]))
4265
4266 return False
4267
4268 if self.orig_type in _BOOL_TRISTATE and value in ("y", "m", "n"):
4269 value = STR_TO_TRI[value]
4270
4271 self.user_value = value
4272 self._was_set = True
4273
4274 if self.choice and value == 2:
4275 # Setting a choice symbol to y makes it the user selection of the
4276 # choice. Like for symbol user values, the user selection is not
4277 # guaranteed to match the actual selection of the choice, as
4278 # dependencies come into play.
4279 self.choice.user_selection = self
4280 self.choice._was_set = True
4281 self.choice._rec_invalidate()
4282 else:
4283 self._rec_invalidate_if_has_prompt()
4284
4285 return True
4286
4287 def unset_value(self):
4288 """
4289 Resets the user value of the symbol, as if the symbol had never gotten
4290 a user value via Kconfig.load_config() or Symbol.set_value().
4291 """
4292 if self.user_value is not None:
4293 self.user_value = None
4294 self._rec_invalidate_if_has_prompt()
4295
4296 @property
4297 def referenced(self):
4298 """
4299 See the class documentation.
4300 """
4301 return {item for node in self.nodes for item in node.referenced}
4302
4303 def __repr__(self):
4304 """
4305 Returns a string with information about the symbol (including its name,
4306 value, visibility, and location(s)) when it is evaluated on e.g. the
4307 interactive Python prompt.
4308 """
4309 fields = ["symbol " + self.name, TYPE_TO_STR[self.type]]
4310
4311 for node in self.nodes:
4312 if node.prompt:
4313 fields.append('"{}"'.format(node.prompt[0]))
4314
4315 # Only add quotes for non-bool/tristate symbols
4316 fields.append("value " +
4317 (self.str_value
4318 if self.orig_type in _BOOL_TRISTATE else
4319 '"{}"'.format(self.str_value)))
4320
4321 if not self.is_constant:
4322 # These aren't helpful to show for constant symbols
4323
4324 if self.user_value is not None:
4325 # Only add quotes for non-bool/tristate symbols
4326 fields.append("user value " +
4327 (TRI_TO_STR[self.user_value]
4328 if self.orig_type in _BOOL_TRISTATE else
4329 '"{}"'.format(self.user_value)))
4330
4331 fields.append("visibility " + TRI_TO_STR[self.visibility])
4332
4333 if self.choice:
4334 fields.append("choice symbol")
4335
4336 if self.is_allnoconfig_y:
4337 fields.append("allnoconfig_y")
4338
4339 if self is self.kconfig.defconfig_list:
4340 fields.append("is the defconfig_list symbol")
4341
4342 if self.env_var is not None:
4343 fields.append("from environment variable " + self.env_var)
4344
4345 if self is self.kconfig.modules:
4346 fields.append("is the modules symbol")
4347
4348 fields.append("direct deps " +
4349 TRI_TO_STR[expr_value(self.direct_dep)])
4350
4351 if self.nodes:
4352 for node in self.nodes:
4353 fields.append("{}:{}".format(node.filename, node.linenr))
4354 else:
4355 fields.append("constant" if self.is_constant else "undefined")
4356
4357 return "<{}>".format(", ".join(fields))
4358
4359 def __str__(self):
4360 """
4361 Returns a string representation of the symbol when it is printed,
4362 matching the Kconfig format, with parent dependencies propagated.
4363
4364 The string is constructed by joining the strings returned by
4365 MenuNode.__str__() for each of the symbol's menu nodes, so symbols
4366 defined in multiple locations will return a string with all
4367 definitions.
4368
4369 The returned string does not end in a newline. An empty string is
4370 returned for undefined and constant symbols.
4371 """
4372 return self.custom_str(standard_sc_expr_str)
4373
4374 def custom_str(self, sc_expr_str_fn):
4375 """
4376 Works like Symbol.__str__(), but allows a custom format to be used for
4377 all symbol/choice references. See expr_str().
4378 """
4379 return "\n\n".join(node.custom_str(sc_expr_str_fn)
4380 for node in self.nodes)
4381
4382 #
4383 # Private methods
4384 #
4385
4386 def __init__(self):
4387 """
4388 Symbol constructor -- not intended to be called directly by Kconfiglib
4389 clients.
4390 """
4391 # These attributes are always set on the instance from outside and
4392 # don't need defaults:
4393 # kconfig
4394 # direct_dep
4395 # is_constant
4396 # name
4397 # rev_dep
4398 # weak_rev_dep
4399
4400 self.orig_type = UNKNOWN
4401 self.defaults = []
4402 self.selects = []
4403 self.implies = []
4404 self.ranges = []
4405
4406 self.nodes = []
4407
4408 self.user_value = \
4409 self.choice = \
4410 self.env_var = \
4411 self._cached_str_val = self._cached_tri_val = self._cached_vis = \
4412 self._cached_assignable = None
4413
4414 # _write_to_conf is calculated along with the value. If True, the
4415 # Symbol gets a .config entry.
4416
4417 self.is_allnoconfig_y = \
4418 self._was_set = \
4419 self._write_to_conf = False
4420
4421 # See Kconfig._build_dep()
4422 self._dependents = set()
4423
4424 # Used during dependency loop detection and (independently) in
4425 # node_iter()
4426 self._visited = 0
4427
4428 def _assignable(self):
4429 # Worker function for the 'assignable' attribute
4430
4431 if self.orig_type not in _BOOL_TRISTATE:
4432 return ()
4433
4434 # Warning: See Symbol._rec_invalidate(), and note that this is a hidden
4435 # function call (property magic)
4436 vis = self.visibility
4437 if not vis:
4438 return ()
4439
4440 rev_dep_val = expr_value(self.rev_dep)
4441
4442 if vis == 2:
4443 if self.choice:
4444 return (2,)
4445
4446 if not rev_dep_val:
4447 if self.type is BOOL or expr_value(self.weak_rev_dep) == 2:
4448 return (0, 2)
4449 return (0, 1, 2)
4450
4451 if rev_dep_val == 2:
4452 return (2,)
4453
4454 # rev_dep_val == 1
4455
4456 if self.type is BOOL or expr_value(self.weak_rev_dep) == 2:
4457 return (2,)
4458 return (1, 2)
4459
4460 # vis == 1
4461
4462 # Must be a tristate here, because bool m visibility gets promoted to y
4463
4464 if not rev_dep_val:
4465 return (0, 1) if expr_value(self.weak_rev_dep) != 2 else (0, 2)
4466
4467 if rev_dep_val == 2:
4468 return (2,)
4469
4470 # vis == rev_dep_val == 1
4471
4472 return (1,)
4473
4474 def _invalidate(self):
4475 # Marks the symbol as needing to be recalculated
4476
4477 self._cached_str_val = self._cached_tri_val = self._cached_vis = \
4478 self._cached_assignable = None
4479
4480 def _rec_invalidate(self):
4481 # Invalidates the symbol and all items that (possibly) depend on it
4482
4483 if self is self.kconfig.modules:
4484 # Invalidating MODULES has wide-ranging effects
4485 self.kconfig._invalidate_all()
4486 else:
4487 self._invalidate()
4488
4489 for item in self._dependents:
4490 # _cached_vis doubles as a flag that tells us whether 'item'
4491 # has cached values, because it's calculated as a side effect
4492 # of calculating all other (non-constant) cached values.
4493 #
4494 # If item._cached_vis is None, it means there can't be cached
4495 # values on other items that depend on 'item', because if there
4496 # were, some value on 'item' would have been calculated and
4497 # item._cached_vis set as a side effect. It's therefore safe to
4498 # stop the invalidation at symbols with _cached_vis None.
4499 #
4500 # This approach massively speeds up scripts that set a lot of
4501 # values, vs simply invalidating all possibly dependent symbols
4502 # (even when you already have a list of all the dependent
4503 # symbols, because some symbols get huge dependency trees).
4504 #
4505 # This gracefully handles dependency loops too, which is nice
4506 # for choices, where the choice depends on the choice symbols
4507 # and vice versa.
4508 if item._cached_vis is not None:
4509 item._rec_invalidate()
4510
4511 def _rec_invalidate_if_has_prompt(self):
4512 # Invalidates the symbol and its dependent symbols, but only if the
4513 # symbol has a prompt. User values never have an effect on promptless
4514 # symbols, so we skip invalidation for them as an optimization.
4515 #
4516 # This also prevents constant (quoted) symbols from being invalidated
4517 # if set_value() is called on them, which would cause them to lose
4518 # their value and break things.
4519 #
4520 # Prints a warning if the symbol has no prompt. In some contexts (e.g.
4521 # when loading a .config files) assignments to promptless symbols are
4522 # normal and expected, so the warning can be disabled.
4523
4524 for node in self.nodes:
4525 if node.prompt:
4526 self._rec_invalidate()
4527 return
4528
4529 if self.kconfig._warn_for_no_prompt:
4530 self.kconfig._warn(_name_and_loc(self) + " has no prompt, meaning "
4531 "user values have no effect on it")
4532
4533 def _str_default(self):
4534 # write_min_config() helper function. Returns the value the symbol
4535 # would get from defaults if it didn't have a user value. Uses exactly
4536 # the same algorithm as the C implementation (though a bit cleaned up),
4537 # for compatibility.
4538
4539 if self.orig_type in _BOOL_TRISTATE:
4540 val = 0
4541
4542 # Defaults, selects, and implies do not affect choice symbols
4543 if not self.choice:
4544 for default, cond in self.defaults:
4545 cond_val = expr_value(cond)
4546 if cond_val:
4547 val = min(expr_value(default), cond_val)
4548 break
4549
4550 val = max(expr_value(self.rev_dep),
4551 expr_value(self.weak_rev_dep),
4552 val)
4553
4554 # Transpose mod to yes if type is bool (possibly due to modules
4555 # being disabled)
4556 if val == 1 and self.type is BOOL:
4557 val = 2
4558
4559 return TRI_TO_STR[val]
4560
4561 if self.orig_type in _STRING_INT_HEX:
4562 for default, cond in self.defaults:
4563 if expr_value(cond):
4564 return default.str_value
4565
4566 return ""
4567
4568 def _warn_select_unsatisfied_deps(self):
4569 # Helper for printing an informative warning when a symbol with
4570 # unsatisfied direct dependencies (dependencies from 'depends on', ifs,
4571 # and menus) is selected by some other symbol. Also warn if a symbol
4572 # whose direct dependencies evaluate to m is selected to y.
4573
4574 msg = "{} has direct dependencies {} with value {}, but is " \
4575 "currently being {}-selected by the following symbols:" \
4576 .format(_name_and_loc(self), expr_str(self.direct_dep),
4577 TRI_TO_STR[expr_value(self.direct_dep)],
4578 TRI_TO_STR[expr_value(self.rev_dep)])
4579
4580 # The reverse dependencies from each select are ORed together
4581 for select in split_expr(self.rev_dep, OR):
4582 if expr_value(select) <= expr_value(self.direct_dep):
4583 # Only include selects that exceed the direct dependencies
4584 continue
4585
4586 # - 'select A if B' turns into A && B
4587 # - 'select A' just turns into A
4588 #
4589 # In both cases, we can split on AND and pick the first operand
4590 selecting_sym = split_expr(select, AND)[0]
4591
4592 msg += "\n - {}, with value {}, direct dependencies {} " \
4593 "(value: {})" \
4594 .format(_name_and_loc(selecting_sym),
4595 selecting_sym.str_value,
4596 expr_str(selecting_sym.direct_dep),
4597 TRI_TO_STR[expr_value(selecting_sym.direct_dep)])
4598
4599 if select.__class__ is tuple:
4600 msg += ", and select condition {} (value: {})" \
4601 .format(expr_str(select[2]),
4602 TRI_TO_STR[expr_value(select[2])])
4603
4604 self.kconfig._warn(msg)
4605
4606
4607class Choice(object):
4608 """
4609 Represents a choice statement:
4610
4611 choice
4612 ...
4613 endchoice
4614
4615 The following attributes are available on Choice instances. They should be
4616 treated as read-only, and some are implemented through @property magic (but
4617 are still efficient to access due to internal caching).
4618
4619 Note: Prompts, help texts, and locations are stored in the Choice's
4620 MenuNode(s) rather than in the Choice itself. Check the MenuNode class and
4621 the Choice.nodes attribute. This organization matches the C tools.
4622
4623 name:
4624 The name of the choice, e.g. "FOO" for 'choice FOO', or None if the
4625 Choice has no name.
4626
4627 type:
4628 The type of the choice. One of BOOL, TRISTATE, UNKNOWN. UNKNOWN is for
4629 choices defined without a type where none of the contained symbols have a
4630 type either (otherwise the choice inherits the type of the first symbol
4631 defined with a type).
4632
4633 When running without modules (CONFIG_MODULES=n), TRISTATE choices
4634 magically change type to BOOL. This matches the C tools, and makes sense
4635 for menuconfig-like functionality.
4636
4637 orig_type:
4638 The type as given in the Kconfig file, without any magic applied. Used
4639 when printing the choice.
4640
4641 tri_value:
4642 The tristate value (mode) of the choice. A choice can be in one of three
4643 modes:
4644
4645 0 (n) - The choice is disabled and no symbols can be selected. For
4646 visible choices, this mode is only possible for choices with
4647 the 'optional' flag set (see kconfig-language.txt).
4648
4649 1 (m) - Any number of choice symbols can be set to m, the rest will
4650 be n.
4651
4652 2 (y) - One symbol will be y, the rest n.
4653
4654 Only tristate choices can be in m mode. The visibility of the choice is
4655 an upper bound on the mode, and the mode in turn is an upper bound on the
4656 visibility of the choice symbols.
4657
4658 To change the mode, use Choice.set_value().
4659
4660 Implementation note:
4661 The C tools internally represent choices as a type of symbol, with
4662 special-casing in many code paths. This is why there is a lot of
4663 similarity to Symbol. The value (mode) of a choice is really just a
4664 normal symbol value, and an implicit reverse dependency forces its
4665 lower bound to m for visible non-optional choices (the reverse
4666 dependency is 'm && <visibility>').
4667
4668 Symbols within choices get the choice propagated as a dependency to
4669 their properties. This turns the mode of the choice into an upper bound
4670 on e.g. the visibility of choice symbols, and explains the gotcha
4671 related to printing choice symbols mentioned in the module docstring.
4672
4673 Kconfiglib uses a separate Choice class only because it makes the code
4674 and interface less confusing (especially in a user-facing interface).
4675 Corresponding attributes have the same name in the Symbol and Choice
4676 classes, for consistency and compatibility.
4677
4678 assignable:
4679 See the symbol class documentation. Gives the assignable values (modes).
4680
4681 visibility:
4682 See the Symbol class documentation. Acts on the value (mode).
4683
4684 selection:
4685 The Symbol instance of the currently selected symbol. None if the Choice
4686 is not in y mode or has no selected symbol (due to unsatisfied
4687 dependencies on choice symbols).
4688
4689 WARNING: Do not assign directly to this. It will break things. Call
4690 sym.set_value(2) on the choice symbol you want to select instead.
4691
4692 user_value:
4693 The value (mode) selected by the user through Choice.set_value(). Either
4694 0, 1, or 2, or None if the user hasn't selected a mode. See
4695 Symbol.user_value.
4696
4697 WARNING: Do not assign directly to this. It will break things. Use
4698 Choice.set_value() instead.
4699
4700 user_selection:
4701 The symbol selected by the user (by setting it to y). Ignored if the
4702 choice is not in y mode, but still remembered so that the choice "snaps
4703 back" to the user selection if the mode is changed back to y. This might
4704 differ from 'selection' due to unsatisfied dependencies.
4705
4706 WARNING: Do not assign directly to this. It will break things. Call
4707 sym.set_value(2) on the choice symbol to be selected instead.
4708
4709 syms:
4710 List of symbols contained in the choice.
4711
4712 Obscure gotcha: If a symbol depends on the previous symbol within a
4713 choice so that an implicit menu is created, it won't be a choice symbol,
4714 and won't be included in 'syms'.
4715
4716 nodes:
4717 A list of MenuNodes for this choice. In practice, the list will probably
4718 always contain a single MenuNode, but it is possible to give a choice a
4719 name and define it in multiple locations.
4720
4721 defaults:
4722 List of (symbol, cond) tuples for the choice's 'defaults' properties. For
4723 example, 'default A if B && C' is represented as (A, (AND, B, C)). If
4724 there is no condition, 'cond' is self.config.y.
4725
4726 Note that 'depends on' and parent dependencies are propagated to
4727 'default' conditions.
4728
4729 direct_dep:
4730 See Symbol.direct_dep.
4731
4732 referenced:
4733 A set() with all symbols referenced in the properties and property
4734 conditions of the choice.
4735
4736 Also includes dependencies inherited from surrounding menus and if's.
4737
4738 is_optional:
4739 True if the choice has the 'optional' flag set on it and can be in
4740 n mode.
4741
4742 kconfig:
4743 The Kconfig instance this choice is from.
4744 """
4745 __slots__ = (
4746 "_cached_assignable",
4747 "_cached_selection",
4748 "_cached_vis",
4749 "_dependents",
4750 "_visited",
4751 "_was_set",
4752 "defaults",
4753 "direct_dep",
4754 "is_constant",
4755 "is_optional",
4756 "kconfig",
4757 "name",
4758 "nodes",
4759 "orig_type",
4760 "syms",
4761 "user_selection",
4762 "user_value",
4763 )
4764
4765 #
4766 # Public interface
4767 #
4768
4769 @property
4770 def type(self):
4771 """
4772 Returns the type of the choice. See Symbol.type.
4773 """
4774 if self.orig_type is TRISTATE and not self.kconfig.modules.tri_value:
4775 return BOOL
4776
4777 return self.orig_type
4778
4779 @property
4780 def str_value(self):
4781 """
4782 See the class documentation.
4783 """
4784 return TRI_TO_STR[self.tri_value]
4785
4786 @property
4787 def tri_value(self):
4788 """
4789 See the class documentation.
4790 """
4791 # This emulates a reverse dependency of 'm && visibility' for
4792 # non-optional choices, which is how the C implementation does it
4793
4794 val = 0 if self.is_optional else 1
4795
4796 if self.user_value is not None:
4797 val = max(val, self.user_value)
4798
4799 # Warning: See Symbol._rec_invalidate(), and note that this is a hidden
4800 # function call (property magic)
4801 val = min(val, self.visibility)
4802
4803 # Promote m to y for boolean choices
4804 return 2 if val == 1 and self.type is BOOL else val
4805
4806 @property
4807 def assignable(self):
4808 """
4809 See the class documentation.
4810 """
4811 if self._cached_assignable is None:
4812 self._cached_assignable = self._assignable()
4813
4814 return self._cached_assignable
4815
4816 @property
4817 def visibility(self):
4818 """
4819 See the class documentation.
4820 """
4821 if self._cached_vis is None:
4822 self._cached_vis = _visibility(self)
4823
4824 return self._cached_vis
4825
4826 @property
4827 def selection(self):
4828 """
4829 See the class documentation.
4830 """
4831 if self._cached_selection is _NO_CACHED_SELECTION:
4832 self._cached_selection = self._selection()
4833
4834 return self._cached_selection
4835
4836 def set_value(self, value):
4837 """
4838 Sets the user value (mode) of the choice. Like for Symbol.set_value(),
4839 the visibility might truncate the value. Choices without the 'optional'
4840 attribute (is_optional) can never be in n mode, but 0/"n" is still
4841 accepted since it's not a malformed value (though it will have no
4842 effect).
4843
4844 Returns True if the value is valid for the type of the choice, and
4845 False otherwise. This only looks at the form of the value. Check the
4846 Choice.assignable attribute to see what values are currently in range
4847 and would actually be reflected in the mode of the choice.
4848 """
4849 if value == self.user_value:
4850 # We know the value must be valid if it was successfully set
4851 # previously
4852 self._was_set = True
4853 return True
4854
4855 if not ((self.orig_type is BOOL and value in (2, 0, "y", "n") ) or
4856 (self.orig_type is TRISTATE and value in (2, 1, 0, "y", "m", "n"))):
4857
4858 # Display tristate values as n, m, y in the warning
4859 self.kconfig._warn(
4860 "the value {} is invalid for {}, which has type {} -- "
4861 "assignment ignored"
4862 .format(TRI_TO_STR[value] if value in (0, 1, 2) else
4863 "'{}'".format(value),
4864 _name_and_loc(self),
4865 TYPE_TO_STR[self.orig_type]))
4866
4867 return False
4868
4869 if value in ("y", "m", "n"):
4870 value = STR_TO_TRI[value]
4871
4872 self.user_value = value
4873 self._was_set = True
4874 self._rec_invalidate()
4875
4876 return True
4877
4878 def unset_value(self):
4879 """
4880 Resets the user value (mode) and user selection of the Choice, as if
4881 the user had never touched the mode or any of the choice symbols.
4882 """
4883 if self.user_value is not None or self.user_selection:
4884 self.user_value = self.user_selection = None
4885 self._rec_invalidate()
4886
4887 @property
4888 def referenced(self):
4889 """
4890 See the class documentation.
4891 """
4892 return {item for node in self.nodes for item in node.referenced}
4893
4894 def __repr__(self):
4895 """
4896 Returns a string with information about the choice when it is evaluated
4897 on e.g. the interactive Python prompt.
4898 """
4899 fields = ["choice " + self.name if self.name else "choice",
4900 TYPE_TO_STR[self.type]]
4901
4902 for node in self.nodes:
4903 if node.prompt:
4904 fields.append('"{}"'.format(node.prompt[0]))
4905
4906 fields.append("mode " + self.str_value)
4907
4908 if self.user_value is not None:
4909 fields.append('user mode {}'.format(TRI_TO_STR[self.user_value]))
4910
4911 if self.selection:
4912 fields.append("{} selected".format(self.selection.name))
4913
4914 if self.user_selection:
4915 user_sel_str = "{} selected by user" \
4916 .format(self.user_selection.name)
4917
4918 if self.selection is not self.user_selection:
4919 user_sel_str += " (overridden)"
4920
4921 fields.append(user_sel_str)
4922
4923 fields.append("visibility " + TRI_TO_STR[self.visibility])
4924
4925 if self.is_optional:
4926 fields.append("optional")
4927
4928 for node in self.nodes:
4929 fields.append("{}:{}".format(node.filename, node.linenr))
4930
4931 return "<{}>".format(", ".join(fields))
4932
4933 def __str__(self):
4934 """
4935 Returns a string representation of the choice when it is printed,
4936 matching the Kconfig format (though without the contained choice
4937 symbols).
4938
4939 The returned string does not end in a newline.
4940
4941 See Symbol.__str__() as well.
4942 """
4943 return self.custom_str(standard_sc_expr_str)
4944
4945 def custom_str(self, sc_expr_str_fn):
4946 """
4947 Works like Choice.__str__(), but allows a custom format to be used for
4948 all symbol/choice references. See expr_str().
4949 """
4950 return "\n\n".join(node.custom_str(sc_expr_str_fn)
4951 for node in self.nodes)
4952
4953 #
4954 # Private methods
4955 #
4956
4957 def __init__(self):
4958 """
4959 Choice constructor -- not intended to be called directly by Kconfiglib
4960 clients.
4961 """
4962 # These attributes are always set on the instance from outside and
4963 # don't need defaults:
4964 # direct_dep
4965 # kconfig
4966
4967 self.orig_type = UNKNOWN
4968 self.syms = []
4969 self.defaults = []
4970
4971 self.nodes = []
4972
4973 self.name = \
4974 self.user_value = self.user_selection = \
4975 self._cached_vis = self._cached_assignable = None
4976
4977 self._cached_selection = _NO_CACHED_SELECTION
4978
4979 # is_constant is checked by _make_depend_on(). Just set it to avoid
4980 # having to special-case choices.
4981 self.is_constant = self.is_optional = False
4982
4983 # See Kconfig._build_dep()
4984 self._dependents = set()
4985
4986 # Used during dependency loop detection
4987 self._visited = 0
4988
4989 def _assignable(self):
4990 # Worker function for the 'assignable' attribute
4991
4992 # Warning: See Symbol._rec_invalidate(), and note that this is a hidden
4993 # function call (property magic)
4994 vis = self.visibility
4995
4996 if not vis:
4997 return ()
4998
4999 if vis == 2:
5000 if not self.is_optional:
5001 return (2,) if self.type is BOOL else (1, 2)
5002 return (0, 2) if self.type is BOOL else (0, 1, 2)
5003
5004 # vis == 1
5005
5006 return (0, 1) if self.is_optional else (1,)
5007
5008 def _selection(self):
5009 # Worker function for the 'selection' attribute
5010
5011 # Warning: See Symbol._rec_invalidate(), and note that this is a hidden
5012 # function call (property magic)
5013 if self.tri_value != 2:
5014 # Not in y mode, so no selection
5015 return None
5016
5017 # Use the user selection if it's visible
5018 if self.user_selection and self.user_selection.visibility:
5019 return self.user_selection
5020
5021 # Otherwise, check if we have a default
5022 return self._get_selection_from_defaults()
5023
5024 def _get_selection_from_defaults(self):
5025 # Check if we have a default
5026 for sym, cond in self.defaults:
5027 # The default symbol must be visible too
5028 if expr_value(cond) and sym.visibility:
5029 return sym
5030
5031 # Otherwise, pick the first visible symbol, if any
5032 for sym in self.syms:
5033 if sym.visibility:
5034 return sym
5035
5036 # Couldn't find a selection
5037 return None
5038
5039 def _invalidate(self):
5040 self._cached_vis = self._cached_assignable = None
5041 self._cached_selection = _NO_CACHED_SELECTION
5042
5043 def _rec_invalidate(self):
5044 # See Symbol._rec_invalidate()
5045
5046 self._invalidate()
5047
5048 for item in self._dependents:
5049 if item._cached_vis is not None:
5050 item._rec_invalidate()
5051
5052
5053class MenuNode(object):
5054 """
5055 Represents a menu node in the configuration. This corresponds to an entry
5056 in e.g. the 'make menuconfig' interface, though non-visible choices, menus,
5057 and comments also get menu nodes. If a symbol or choice is defined in
5058 multiple locations, it gets one menu node for each location.
5059
5060 The top-level menu node, corresponding to the implicit top-level menu, is
5061 available in Kconfig.top_node.
5062
5063 The menu nodes for a Symbol or Choice can be found in the
5064 Symbol/Choice.nodes attribute. Menus and comments are represented as plain
5065 menu nodes, with their text stored in the prompt attribute (prompt[0]).
5066 This mirrors the C implementation.
5067
5068 The following attributes are available on MenuNode instances. They should
5069 be viewed as read-only.
5070
5071 item:
5072 Either a Symbol, a Choice, or one of the constants MENU and COMMENT.
5073 Menus and comments are represented as plain menu nodes. Ifs are collapsed
5074 (matching the C implementation) and do not appear in the final menu tree.
5075
5076 next:
5077 The following menu node. None if there is no following node.
5078
5079 list:
5080 The first child menu node. None if there are no children.
5081
5082 Choices and menus naturally have children, but Symbols can also have
5083 children because of menus created automatically from dependencies (see
5084 kconfig-language.txt).
5085
5086 parent:
5087 The parent menu node. None if there is no parent.
5088
5089 prompt:
5090 A (string, cond) tuple with the prompt for the menu node and its
5091 conditional expression (which is self.kconfig.y if there is no
5092 condition). None if there is no prompt.
5093
5094 For symbols and choices, the prompt is stored in the MenuNode rather than
5095 the Symbol or Choice instance. For menus and comments, the prompt holds
5096 the text.
5097
5098 defaults:
5099 The 'default' properties for this particular menu node. See
5100 symbol.defaults.
5101
5102 When evaluating defaults, you should use Symbol/Choice.defaults instead,
5103 as it include properties from all menu nodes (a symbol/choice can have
5104 multiple definition locations/menu nodes). MenuNode.defaults is meant for
5105 documentation generation.
5106
5107 selects:
5108 Like MenuNode.defaults, for selects.
5109
5110 implies:
5111 Like MenuNode.defaults, for implies.
5112
5113 ranges:
5114 Like MenuNode.defaults, for ranges.
5115
5116 help:
5117 The help text for the menu node for Symbols and Choices. None if there is
5118 no help text. Always stored in the node rather than the Symbol or Choice.
5119 It is possible to have a separate help text at each location if a symbol
5120 is defined in multiple locations.
5121
5122 Trailing whitespace (including a final newline) is stripped from the help
5123 text. This was not the case before Kconfiglib 10.21.0, where the format
5124 was undocumented.
5125
5126 dep:
5127 The 'depends on' dependencies for the menu node, or self.kconfig.y if
5128 there are no dependencies. Parent dependencies are propagated to this
5129 attribute, and this attribute is then in turn propagated to the
5130 properties of symbols and choices.
5131
5132 If a symbol or choice is defined in multiple locations, only the
5133 properties defined at a particular location get the corresponding
5134 MenuNode.dep dependencies propagated to them.
5135
5136 visibility:
5137 The 'visible if' dependencies for the menu node (which must represent a
5138 menu), or self.kconfig.y if there are no 'visible if' dependencies.
5139 'visible if' dependencies are recursively propagated to the prompts of
5140 symbols and choices within the menu.
5141
5142 referenced:
5143 A set() with all symbols and choices referenced in the properties and
5144 property conditions of the menu node.
5145
5146 Also includes dependencies inherited from surrounding menus and if's.
5147 Choices appear in the dependencies of choice symbols.
5148
5149 is_menuconfig:
5150 Set to True if the children of the menu node should be displayed in a
5151 separate menu. This is the case for the following items:
5152
5153 - Menus (node.item == MENU)
5154
5155 - Choices
5156
5157 - Symbols defined with the 'menuconfig' keyword. The children come from
5158 implicitly created submenus, and should be displayed in a separate
5159 menu rather than being indented.
5160
5161 'is_menuconfig' is just a hint on how to display the menu node. It's
5162 ignored internally by Kconfiglib, except when printing symbols.
5163
5164 filename/linenr:
5165 The location where the menu node appears. The filename is relative to
5166 $srctree (or to the current directory if $srctree isn't set), except
5167 absolute paths passed to 'source' and Kconfig.__init__() are preserved.
5168
5169 include_path:
5170 A tuple of (filename, linenr) tuples, giving the locations of the
5171 'source' statements via which the Kconfig file containing this menu node
5172 was included. The first element is the location of the 'source' statement
5173 in the top-level Kconfig file passed to Kconfig.__init__(), etc.
5174
5175 Note that the Kconfig file of the menu node itself isn't included. Check
5176 'filename' and 'linenr' for that.
5177
5178 kconfig:
5179 The Kconfig instance the menu node is from.
5180 """
5181 __slots__ = (
5182 "dep",
5183 "filename",
5184 "help",
5185 "include_path",
5186 "is_menuconfig",
5187 "item",
5188 "kconfig",
5189 "linenr",
5190 "list",
5191 "next",
5192 "parent",
5193 "prompt",
5194 "visibility",
5195
5196 # Properties
5197 "defaults",
5198 "selects",
5199 "implies",
5200 "ranges",
5201 )
5202
5203 def __init__(self):
5204 # Properties defined on this particular menu node. A local 'depends on'
5205 # only applies to these, in case a symbol is defined in multiple
5206 # locations.
5207 self.defaults = []
5208 self.selects = []
5209 self.implies = []
5210 self.ranges = []
5211
5212 @property
5213 def referenced(self):
5214 """
5215 See the class documentation.
5216 """
5217 # self.dep is included to catch dependencies from a lone 'depends on'
5218 # when there are no properties to propagate it to
5219 res = expr_items(self.dep)
5220
5221 if self.prompt:
5222 res |= expr_items(self.prompt[1])
5223
5224 if self.item is MENU:
5225 res |= expr_items(self.visibility)
5226
5227 for value, cond in self.defaults:
5228 res |= expr_items(value)
5229 res |= expr_items(cond)
5230
5231 for value, cond in self.selects:
5232 res.add(value)
5233 res |= expr_items(cond)
5234
5235 for value, cond in self.implies:
5236 res.add(value)
5237 res |= expr_items(cond)
5238
5239 for low, high, cond in self.ranges:
5240 res.add(low)
5241 res.add(high)
5242 res |= expr_items(cond)
5243
5244 return res
5245
5246 def __repr__(self):
5247 """
5248 Returns a string with information about the menu node when it is
5249 evaluated on e.g. the interactive Python prompt.
5250 """
5251 fields = []
5252
5253 if self.item.__class__ is Symbol:
5254 fields.append("menu node for symbol " + self.item.name)
5255
5256 elif self.item.__class__ is Choice:
5257 s = "menu node for choice"
5258 if self.item.name is not None:
5259 s += " " + self.item.name
5260 fields.append(s)
5261
5262 elif self.item is MENU:
5263 fields.append("menu node for menu")
5264
5265 else: # self.item is COMMENT
5266 fields.append("menu node for comment")
5267
5268 if self.prompt:
5269 fields.append('prompt "{}" (visibility {})'
5270 .format(self.prompt[0],
5271 TRI_TO_STR[expr_value(self.prompt[1])]))
5272
5273 if self.item.__class__ is Symbol and self.is_menuconfig:
5274 fields.append("is menuconfig")
5275
5276 fields.append("deps " + TRI_TO_STR[expr_value(self.dep)])
5277
5278 if self.item is MENU:
5279 fields.append("'visible if' deps " +
5280 TRI_TO_STR[expr_value(self.visibility)])
5281
5282 if self.item.__class__ in _SYMBOL_CHOICE and self.help is not None:
5283 fields.append("has help")
5284
5285 if self.list:
5286 fields.append("has child")
5287
5288 if self.next:
5289 fields.append("has next")
5290
5291 fields.append("{}:{}".format(self.filename, self.linenr))
5292
5293 return "<{}>".format(", ".join(fields))
5294
5295 def __str__(self):
5296 """
5297 Returns a string representation of the menu node, matching the Kconfig
5298 format.
5299
5300 The output could (almost) be fed back into a Kconfig parser to redefine
5301 the object associated with the menu node. See the module documentation
5302 for a gotcha related to choice symbols.
5303
5304 For symbols and choices with multiple menu nodes (multiple definition
5305 locations), properties that aren't associated with a particular menu
5306 node are shown on all menu nodes ('option env=...', 'optional' for
5307 choices, etc.).
5308
5309 The returned string does not end in a newline.
5310 """
5311 return self.custom_str(standard_sc_expr_str)
5312
5313 def custom_str(self, sc_expr_str_fn):
5314 """
5315 Works like MenuNode.__str__(), but allows a custom format to be used
5316 for all symbol/choice references. See expr_str().
5317 """
5318 return self._menu_comment_node_str(sc_expr_str_fn) \
5319 if self.item in _MENU_COMMENT else \
5320 self._sym_choice_node_str(sc_expr_str_fn)
5321
5322 def _menu_comment_node_str(self, sc_expr_str_fn):
5323 s = '{} "{}"'.format("menu" if self.item is MENU else "comment",
5324 self.prompt[0])
5325
5326 if self.dep is not self.kconfig.y:
5327 s += "\n\tdepends on {}".format(expr_str(self.dep, sc_expr_str_fn))
5328
5329 if self.item is MENU and self.visibility is not self.kconfig.y:
5330 s += "\n\tvisible if {}".format(expr_str(self.visibility,
5331 sc_expr_str_fn))
5332
5333 return s
5334
5335 def _sym_choice_node_str(self, sc_expr_str_fn):
5336 def indent_add(s):
5337 lines.append("\t" + s)
5338
5339 def indent_add_cond(s, cond):
5340 if cond is not self.kconfig.y:
5341 s += " if " + expr_str(cond, sc_expr_str_fn)
5342 indent_add(s)
5343
5344 sc = self.item
5345
5346 if sc.__class__ is Symbol:
5347 lines = [("menuconfig " if self.is_menuconfig else "config ")
5348 + sc.name]
5349 else:
5350 lines = ["choice " + sc.name if sc.name else "choice"]
5351
5352 if sc.orig_type: # != UNKNOWN
5353 indent_add(TYPE_TO_STR[sc.orig_type])
5354
5355 if self.prompt:
5356 indent_add_cond(
5357 'prompt "{}"'.format(escape(self.prompt[0])),
5358 self.prompt[1])
5359
5360 if sc.__class__ is Symbol:
5361 if sc.is_allnoconfig_y:
5362 indent_add("option allnoconfig_y")
5363
5364 if sc is sc.kconfig.defconfig_list:
5365 indent_add("option defconfig_list")
5366
5367 if sc.env_var is not None:
5368 indent_add('option env="{}"'.format(sc.env_var))
5369
5370 if sc is sc.kconfig.modules:
5371 indent_add("option modules")
5372
5373 for low, high, cond in self.ranges:
5374 indent_add_cond(
5375 "range {} {}".format(sc_expr_str_fn(low),
5376 sc_expr_str_fn(high)),
5377 cond)
5378
5379 for default, cond in self.defaults:
5380 indent_add_cond("default " + expr_str(default, sc_expr_str_fn),
5381 cond)
5382
5383 if sc.__class__ is Choice and sc.is_optional:
5384 indent_add("optional")
5385
5386 if sc.__class__ is Symbol:
5387 for select, cond in self.selects:
5388 indent_add_cond("select " + sc_expr_str_fn(select), cond)
5389
5390 for imply, cond in self.implies:
5391 indent_add_cond("imply " + sc_expr_str_fn(imply), cond)
5392
5393 if self.dep is not sc.kconfig.y:
5394 indent_add("depends on " + expr_str(self.dep, sc_expr_str_fn))
5395
5396 if self.help is not None:
5397 indent_add("help")
5398 for line in self.help.splitlines():
5399 indent_add(" " + line)
5400
5401 return "\n".join(lines)
5402
5403
5404class Variable(object):
5405 """
5406 Represents a preprocessor variable/function.
5407
5408 The following attributes are available:
5409
5410 name:
5411 The name of the variable.
5412
5413 value:
5414 The unexpanded value of the variable.
5415
5416 expanded_value:
5417 The expanded value of the variable. For simple variables (those defined
5418 with :=), this will equal 'value'. Accessing this property will raise a
5419 KconfigError if the expansion seems to be stuck in a loop.
5420
5421 Note: Accessing this field is the same as calling expanded_value_w_args()
5422 with no arguments. I hadn't considered function arguments when adding it.
5423 It is retained for backwards compatibility though.
5424
5425 is_recursive:
5426 True if the variable is recursive (defined with =).
5427 """
5428 __slots__ = (
5429 "_n_expansions",
5430 "is_recursive",
5431 "kconfig",
5432 "name",
5433 "value",
5434 )
5435
5436 @property
5437 def expanded_value(self):
5438 """
5439 See the class documentation.
5440 """
5441 return self.expanded_value_w_args()
5442
5443 def expanded_value_w_args(self, *args):
5444 """
5445 Returns the expanded value of the variable/function. Any arguments
5446 passed will be substituted for $(1), $(2), etc.
5447
5448 Raises a KconfigError if the expansion seems to be stuck in a loop.
5449 """
5450 return self.kconfig._fn_val((self.name,) + args)
5451
5452 def __repr__(self):
5453 return "<variable {}, {}, value '{}'>" \
5454 .format(self.name,
5455 "recursive" if self.is_recursive else "immediate",
5456 self.value)
5457
5458
5459class KconfigError(Exception):
5460 "Exception raised for Kconfig-related errors"
5461
5462KconfigSyntaxError = KconfigError # Backwards compatibility
5463
5464
5465class InternalError(Exception):
5466 "Never raised. Kept around for backwards compatibility."
5467
5468
5469# Workaround:
5470#
5471# If 'errno' and 'strerror' are set on IOError, then __str__() always returns
5472# "[Errno <errno>] <strerror>", ignoring any custom message passed to the
5473# constructor. By defining our own subclass, we can use a custom message while
5474# also providing 'errno', 'strerror', and 'filename' to scripts.
5475class _KconfigIOError(IOError):
5476 def __init__(self, ioerror, msg):
5477 self.msg = msg
5478 super(_KconfigIOError, self).__init__(
5479 ioerror.errno, ioerror.strerror, ioerror.filename)
5480
5481 def __str__(self):
5482 return self.msg
5483
5484
5485#
5486# Public functions
5487#
5488
5489
5490def expr_value(expr):
5491 """
5492 Evaluates the expression 'expr' to a tristate value. Returns 0 (n), 1 (m),
5493 or 2 (y).
5494
5495 'expr' must be an already-parsed expression from a Symbol, Choice, or
5496 MenuNode property. To evaluate an expression represented as a string, use
5497 Kconfig.eval_string().
5498
5499 Passing subexpressions of expressions to this function works as expected.
5500 """
5501 if expr.__class__ is not tuple:
5502 return expr.tri_value
5503
5504 if expr[0] is AND:
5505 v1 = expr_value(expr[1])
5506 # Short-circuit the n case as an optimization (~5% faster
5507 # allnoconfig.py and allyesconfig.py, as of writing)
5508 return 0 if not v1 else min(v1, expr_value(expr[2]))
5509
5510 if expr[0] is OR:
5511 v1 = expr_value(expr[1])
5512 # Short-circuit the y case as an optimization
5513 return 2 if v1 == 2 else max(v1, expr_value(expr[2]))
5514
5515 if expr[0] is NOT:
5516 return 2 - expr_value(expr[1])
5517
5518 # Relation
5519 #
5520 # Implements <, <=, >, >= comparisons as well. These were added to
5521 # kconfig in 31847b67 (kconfig: allow use of relations other than
5522 # (in)equality).
5523
5524 rel, v1, v2 = expr
5525
5526 # If both operands are strings...
5527 if v1.orig_type is STRING and v2.orig_type is STRING:
5528 # ...then compare them lexicographically
5529 comp = _strcmp(v1.str_value, v2.str_value)
5530 else:
5531 # Otherwise, try to compare them as numbers
5532 try:
5533 comp = _sym_to_num(v1) - _sym_to_num(v2)
5534 except ValueError:
5535 # Fall back on a lexicographic comparison if the operands don't
5536 # parse as numbers
5537 comp = _strcmp(v1.str_value, v2.str_value)
5538
5539 if rel is EQUAL: return 2*(comp == 0)
5540 if rel is UNEQUAL: return 2*(comp != 0)
5541 if rel is LESS: return 2*(comp < 0)
5542 if rel is LESS_EQUAL: return 2*(comp <= 0)
5543 if rel is GREATER: return 2*(comp > 0)
5544 return 2*(comp >= 0) # rel is GREATER_EQUAL
5545
5546
5547def standard_sc_expr_str(sc):
5548 """
5549 Standard symbol/choice printing function. Uses plain Kconfig syntax, and
5550 displays choices as <choice> (or <choice NAME>, for named choices).
5551
5552 See expr_str().
5553 """
5554 if sc.__class__ is Symbol:
5555 return '"{}"'.format(escape(sc.name)) if sc.is_constant else sc.name
5556
5557 # Choice
5558 return "<choice {}>".format(sc.name) if sc.name else "<choice>"
5559
5560
5561def expr_str(expr, sc_expr_str_fn=standard_sc_expr_str):
5562 """
5563 Returns the string representation of the expression 'expr', as in a Kconfig
5564 file.
5565
5566 Passing subexpressions of expressions to this function works as expected.
5567
5568 sc_expr_str_fn (default: standard_sc_expr_str):
5569 This function is called for every symbol/choice (hence "sc") appearing in
5570 the expression, with the symbol/choice as the argument. It is expected to
5571 return a string to be used for the symbol/choice.
5572
5573 This can be used e.g. to turn symbols/choices into links when generating
5574 documentation, or for printing the value of each symbol/choice after it.
5575
5576 Note that quoted values are represented as constants symbols
5577 (Symbol.is_constant == True).
5578 """
5579 if expr.__class__ is not tuple:
5580 return sc_expr_str_fn(expr)
5581
5582 if expr[0] is AND:
5583 return "{} && {}".format(_parenthesize(expr[1], OR, sc_expr_str_fn),
5584 _parenthesize(expr[2], OR, sc_expr_str_fn))
5585
5586 if expr[0] is OR:
5587 # This turns A && B || C && D into "(A && B) || (C && D)", which is
5588 # redundant, but more readable
5589 return "{} || {}".format(_parenthesize(expr[1], AND, sc_expr_str_fn),
5590 _parenthesize(expr[2], AND, sc_expr_str_fn))
5591
5592 if expr[0] is NOT:
5593 if expr[1].__class__ is tuple:
5594 return "!({})".format(expr_str(expr[1], sc_expr_str_fn))
5595 return "!" + sc_expr_str_fn(expr[1]) # Symbol
5596
5597 # Relation
5598 #
5599 # Relation operands are always symbols (quoted strings are constant
5600 # symbols)
5601 return "{} {} {}".format(sc_expr_str_fn(expr[1]), _REL_TO_STR[expr[0]],
5602 sc_expr_str_fn(expr[2]))
5603
5604
5605def expr_items(expr):
5606 """
5607 Returns a set() of all items (symbols and choices) that appear in the
5608 expression 'expr'.
5609 """
5610
5611 res = set()
5612
5613 def rec(subexpr):
5614 if subexpr.__class__ is tuple:
5615 # AND, OR, NOT, or relation
5616
5617 rec(subexpr[1])
5618
5619 # NOTs only have a single operand
5620 if subexpr[0] is not NOT:
5621 rec(subexpr[2])
5622
5623 else:
5624 # Symbol or choice
5625 res.add(subexpr)
5626
5627 rec(expr)
5628 return res
5629
5630
5631def split_expr(expr, op):
5632 """
5633 Returns a list containing the top-level AND or OR operands in the
5634 expression 'expr', in the same (left-to-right) order as they appear in
5635 the expression.
5636
5637 This can be handy e.g. for splitting (weak) reverse dependencies
5638 from 'select' and 'imply' into individual selects/implies.
5639
5640 op:
5641 Either AND to get AND operands, or OR to get OR operands.
5642
5643 (Having this as an operand might be more future-safe than having two
5644 hardcoded functions.)
5645
5646
5647 Pseudo-code examples:
5648
5649 split_expr( A , OR ) -> [A]
5650 split_expr( A && B , OR ) -> [A && B]
5651 split_expr( A || B , OR ) -> [A, B]
5652 split_expr( A || B , AND ) -> [A || B]
5653 split_expr( A || B || (C && D) , OR ) -> [A, B, C && D]
5654
5655 # Second || is not at the top level
5656 split_expr( A || (B && (C || D)) , OR ) -> [A, B && (C || D)]
5657
5658 # Parentheses don't matter as long as we stay at the top level (don't
5659 # encounter any non-'op' nodes)
5660 split_expr( (A || B) || C , OR ) -> [A, B, C]
5661 split_expr( A || (B || C) , OR ) -> [A, B, C]
5662 """
5663 res = []
5664
5665 def rec(subexpr):
5666 if subexpr.__class__ is tuple and subexpr[0] is op:
5667 rec(subexpr[1])
5668 rec(subexpr[2])
5669 else:
5670 res.append(subexpr)
5671
5672 rec(expr)
5673 return res
5674
5675
5676def escape(s):
5677 r"""
5678 Escapes the string 's' in the same fashion as is done for display in
5679 Kconfig format and when writing strings to a .config file. " and \ are
5680 replaced by \" and \\, respectively.
5681 """
5682 # \ must be escaped before " to avoid double escaping
5683 return s.replace("\\", r"\\").replace('"', r'\"')
5684
5685
5686def unescape(s):
5687 r"""
5688 Unescapes the string 's'. \ followed by any character is replaced with just
5689 that character. Used internally when reading .config files.
5690 """
5691 return _unescape_sub(r"\1", s)
5692
5693# unescape() helper
5694_unescape_sub = re.compile(r"\\(.)").sub
5695
5696
5697def standard_kconfig():
5698 """
5699 Helper for tools. Loads the top-level Kconfig specified as the first
5700 command-line argument, or "Kconfig" if there are no command-line arguments.
5701 Returns the Kconfig instance.
5702
5703 Exits with sys.exit() (which raises a SystemExit exception) and prints a
5704 usage note to stderr if more than one command-line argument is passed.
5705 """
5706 if len(sys.argv) > 2:
5707 sys.exit("usage: {} [Kconfig]".format(sys.argv[0]))
5708
5709 # Only show backtraces for unexpected exceptions
5710 try:
5711 return Kconfig("Kconfig" if len(sys.argv) < 2 else sys.argv[1])
5712 except (IOError, KconfigError) as e:
5713 # Some long exception messages have extra newlines for better
5714 # formatting when reported as an unhandled exception. Strip them here.
5715 sys.exit(str(e).strip())
5716
5717
5718def standard_config_filename():
5719 """
5720 Helper for tools. Returns the value of KCONFIG_CONFIG (which specifies the
5721 .config file to load/save) if it is set, and ".config" otherwise.
5722
5723 Note: Calling load_config() with filename=None might give the behavior you
5724 want, without having to use this function.
5725 """
5726 return os.environ.get("KCONFIG_CONFIG", ".config")
5727
5728
5729def load_allconfig(kconf, filename):
5730 """
5731 Helper for all*config. Loads (merges) the configuration file specified by
5732 KCONFIG_ALLCONFIG, if any. See Documentation/kbuild/kconfig.txt in the
5733 Linux kernel.
5734
5735 Disables warnings for duplicated assignments within configuration files for
5736 the duration of the call (disable_override_warnings() +
5737 disable_redun_warnings()), and enables them at the end. The
5738 KCONFIG_ALLCONFIG configuration file is expected to override symbols.
5739
5740 Exits with sys.exit() (which raises a SystemExit exception) and prints an
5741 error to stderr if KCONFIG_ALLCONFIG is set but the configuration file
5742 can't be opened.
5743
5744 kconf:
5745 Kconfig instance to load the configuration in.
5746
5747 filename:
5748 Command-specific configuration filename - "allyes.config",
5749 "allno.config", etc.
5750 """
5751 def std_msg(e):
5752 # "Upcasts" a _KconfigIOError to an IOError, removing the custom
5753 # __str__() message. The standard message is better here.
5754 return IOError(e.errno, e.strerror, e.filename)
5755
5756 kconf.disable_override_warnings()
5757 kconf.disable_redun_warnings()
5758
5759 allconfig = os.environ.get("KCONFIG_ALLCONFIG")
5760 if allconfig is not None:
5761 if allconfig in ("", "1"):
5762 try:
5763 kconf.load_config(filename, False)
5764 except IOError as e1:
5765 try:
5766 kconf.load_config("all.config", False)
5767 except IOError as e2:
5768 sys.exit("error: KCONFIG_ALLCONFIG is set, but neither {} "
5769 "nor all.config could be opened: {}, {}"
5770 .format(filename, std_msg(e1), std_msg(e2)))
5771 else:
5772 try:
5773 kconf.load_config(allconfig, False)
5774 except IOError as e:
5775 sys.exit("error: KCONFIG_ALLCONFIG is set to '{}', which "
5776 "could not be opened: {}"
5777 .format(allconfig, std_msg(e)))
5778
5779 # API wart: It would be nice if there was a way to query and/or push/pop
5780 # warning settings
5781 kconf.enable_override_warnings()
5782 kconf.enable_redun_warnings()
5783
5784
5785#
5786# Internal functions
5787#
5788
5789
5790def _visibility(sc):
5791 # Symbols and Choices have a "visibility" that acts as an upper bound on
5792 # the values a user can set for them, corresponding to the visibility in
5793 # e.g. 'make menuconfig'. This function calculates the visibility for the
5794 # Symbol or Choice 'sc' -- the logic is nearly identical.
5795
5796 vis = 0
5797
5798 for node in sc.nodes:
5799 if node.prompt:
5800 vis = max(vis, expr_value(node.prompt[1]))
5801
5802 if sc.__class__ is Symbol and sc.choice:
5803 if sc.choice.orig_type is TRISTATE and \
5804 sc.orig_type is not TRISTATE and sc.choice.tri_value != 2:
5805 # Non-tristate choice symbols are only visible in y mode
5806 return 0
5807
5808 if sc.orig_type is TRISTATE and vis == 1 and sc.choice.tri_value == 2:
5809 # Choice symbols with m visibility are not visible in y mode
5810 return 0
5811
5812 # Promote m to y if we're dealing with a non-tristate (possibly due to
5813 # modules being disabled)
5814 if vis == 1 and sc.type is not TRISTATE:
5815 return 2
5816
5817 return vis
5818
5819
5820def _make_depend_on(sc, expr):
5821 # Adds 'sc' (symbol or choice) as a "dependee" to all symbols in 'expr'.
5822 # Constant symbols in 'expr' are skipped as they can never change value
5823 # anyway.
5824
5825 if expr.__class__ is tuple:
5826 # AND, OR, NOT, or relation
5827
5828 _make_depend_on(sc, expr[1])
5829
5830 # NOTs only have a single operand
5831 if expr[0] is not NOT:
5832 _make_depend_on(sc, expr[2])
5833
5834 elif not expr.is_constant:
5835 # Non-constant symbol, or choice
5836 expr._dependents.add(sc)
5837
5838
5839def _parenthesize(expr, type_, sc_expr_str_fn):
5840 # expr_str() helper. Adds parentheses around expressions of type 'type_'.
5841
5842 if expr.__class__ is tuple and expr[0] is type_:
5843 return "({})".format(expr_str(expr, sc_expr_str_fn))
5844 return expr_str(expr, sc_expr_str_fn)
5845
5846
5847def _ordered_unique(lst):
5848 # Returns 'lst' with any duplicates removed, preserving order. This hacky
5849 # version seems to be a common idiom. It relies on short-circuit evaluation
5850 # and set.add() returning None, which is falsy.
5851
5852 seen = set()
5853 seen_add = seen.add
5854 return [x for x in lst if x not in seen and not seen_add(x)]
5855
5856
5857def _is_base_n(s, n):
5858 try:
5859 int(s, n)
5860 return True
5861 except ValueError:
5862 return False
5863
5864
5865def _strcmp(s1, s2):
5866 # strcmp()-alike that returns -1, 0, or 1
5867
5868 return (s1 > s2) - (s1 < s2)
5869
5870
5871def _sym_to_num(sym):
5872 # expr_value() helper for converting a symbol to a number. Raises
5873 # ValueError for symbols that can't be converted.
5874
5875 # For BOOL and TRISTATE, n/m/y count as 0/1/2. This mirrors 9059a3493ef
5876 # ("kconfig: fix relational operators for bool and tristate symbols") in
5877 # the C implementation.
5878 return sym.tri_value if sym.orig_type in _BOOL_TRISTATE else \
5879 int(sym.str_value, _TYPE_TO_BASE[sym.orig_type])
5880
5881
5882def _touch_dep_file(sym_name):
5883 # If sym_name is MY_SYM_NAME, touches my/sym/name.h. See the sync_deps()
5884 # docstring.
5885
5886 sym_path = sym_name.lower().replace("_", os.sep) + ".h"
5887 sym_path_dir = dirname(sym_path)
5888 if sym_path_dir and not exists(sym_path_dir):
5889 os.makedirs(sym_path_dir, 0o755)
5890
5891 # A kind of truncating touch, mirroring the C tools
5892 os.close(os.open(
5893 sym_path, os.O_WRONLY | os.O_CREAT | os.O_TRUNC, 0o644))
5894
5895
5896def _save_old(path):
5897 # See write_config()
5898
5899 dirname, basename = split(path)
5900 backup = join(dirname,
5901 basename + ".old" if basename.startswith(".")
5902 else "." + basename + ".old")
5903
5904 # os.replace() would be nice here, but it's Python 3 (3.3+) only
5905 try:
5906 # Use copyfile() if 'path' is a symlink. The intention is probably to
5907 # overwrite the target in that case.
5908 if os.name == "posix" and not islink(path):
5909 # Will remove .<filename>.old if it already exists on POSIX
5910 # systems
5911 os.rename(path, backup)
5912 else:
5913 # Only import as needed, to save some startup time
5914 import shutil
5915 shutil.copyfile(path, backup)
5916 except:
5917 # Ignore errors from 'filename' missing as well as other errors. The
5918 # backup file is more of a nice-to-have, and not worth erroring out
5919 # over e.g. if .<filename>.old happens to be a directory.
5920 pass
5921
5922
5923def _decoding_error(e, filename, macro_linenr=None):
5924 # Gives the filename and context for UnicodeDecodeError's, which are a pain
5925 # to debug otherwise. 'e' is the UnicodeDecodeError object.
5926 #
5927 # If the decoding error is for the output of a $(shell,...) command,
5928 # macro_linenr holds the line number where it was run (the exact line
5929 # number isn't available for decoding errors in files).
5930
5931 raise KconfigError(
5932 "\n"
5933 "Malformed {} in {}\n"
5934 "Context: {}\n"
5935 "Problematic data: {}\n"
5936 "Reason: {}".format(
5937 e.encoding,
5938 "'{}'".format(filename) if macro_linenr is None else
5939 "output from macro at {}:{}".format(filename, macro_linenr),
5940 e.object[max(e.start - 40, 0):e.end + 40],
5941 e.object[e.start:e.end],
5942 e.reason))
5943
5944
5945def _name_and_loc(sc):
5946 # Helper for giving the symbol/choice name and location(s) in e.g. warnings
5947
5948 # Reuse the expression format. That way choices show up as
5949 # '<choice (name, if any)>'
5950 name = standard_sc_expr_str(sc)
5951
5952 if not sc.nodes:
5953 return name + " (undefined)"
5954
5955 return "{} (defined at {})".format(
5956 name,
5957 ", ".join("{}:{}".format(node.filename, node.linenr)
5958 for node in sc.nodes))
5959
5960
5961# Menu manipulation
5962
5963
5964def _expr_depends_on(expr, sym):
5965 # Reimplementation of expr_depends_symbol() from mconf.c. Used to determine
5966 # if a submenu should be implicitly created. This also influences which
5967 # items inside choice statements are considered choice items.
5968
5969 if expr.__class__ is not tuple:
5970 return expr is sym
5971
5972 if expr[0] in _EQUAL_UNEQUAL:
5973 # Check for one of the following:
5974 # sym = m/y, m/y = sym, sym != n, n != sym
5975
5976 left, right = expr[1:]
5977
5978 if right is sym:
5979 left, right = right, left
5980 elif left is not sym:
5981 return False
5982
5983 return (expr[0] is EQUAL and right is sym.kconfig.m or
5984 right is sym.kconfig.y) or \
5985 (expr[0] is UNEQUAL and right is sym.kconfig.n)
5986
5987 return expr[0] is AND and \
5988 (_expr_depends_on(expr[1], sym) or
5989 _expr_depends_on(expr[2], sym))
5990
5991
5992def _auto_menu_dep(node1, node2):
5993 # Returns True if node2 has an "automatic menu dependency" on node1. If
5994 # node2 has a prompt, we check its condition. Otherwise, we look directly
5995 # at node2.dep.
5996
5997 # If node2 has no prompt, use its menu node dependencies instead
5998 return _expr_depends_on(node2.prompt[1] if node2.prompt else node2.dep,
5999 node1.item)
6000
6001
6002def _flatten(node):
6003 # "Flattens" menu nodes without prompts (e.g. 'if' nodes and non-visible
6004 # symbols with children from automatic menu creation) so that their
6005 # children appear after them instead. This gives a clean menu structure
6006 # with no unexpected "jumps" in the indentation.
6007 #
6008 # Do not flatten promptless choices (which can appear "legitimately" if a
6009 # named choice is defined in multiple locations to add on symbols). It
6010 # looks confusing, and the menuconfig already shows all choice symbols if
6011 # you enter the choice at some location with a prompt.
6012
6013 while node:
6014 if node.list and not node.prompt and \
6015 node.item.__class__ is not Choice:
6016
6017 last_node = node.list
6018 while 1:
6019 last_node.parent = node.parent
6020 if not last_node.next:
6021 break
6022 last_node = last_node.next
6023
6024 last_node.next = node.next
6025 node.next = node.list
6026 node.list = None
6027
6028 node = node.next
6029
6030
6031def _remove_ifs(node):
6032 # Removes 'if' nodes (which can be recognized by MenuNode.item being None),
6033 # which are assumed to already have been flattened. The C implementation
6034 # doesn't bother to do this, but we expose the menu tree directly, and it
6035 # makes it nicer to work with.
6036
6037 cur = node.list
6038 while cur and not cur.item:
6039 cur = cur.next
6040
6041 node.list = cur
6042
6043 while cur:
6044 next = cur.next
6045 while next and not next.item:
6046 next = next.next
6047
6048 # Equivalent to
6049 #
6050 # cur.next = next
6051 # cur = next
6052 #
6053 # due to tricky Python semantics. The order matters.
6054 cur.next = cur = next
6055
6056
6057def _finalize_choice(node):
6058 # Finalizes a choice, marking each symbol whose menu node has the choice as
6059 # the parent as a choice symbol, and automatically determining types if not
6060 # specified.
6061
6062 choice = node.item
6063
6064 cur = node.list
6065 while cur:
6066 if cur.item.__class__ is Symbol:
6067 cur.item.choice = choice
6068 choice.syms.append(cur.item)
6069 cur = cur.next
6070
6071 # If no type is specified for the choice, its type is that of
6072 # the first choice item with a specified type
6073 if not choice.orig_type:
6074 for item in choice.syms:
6075 if item.orig_type:
6076 choice.orig_type = item.orig_type
6077 break
6078
6079 # Each choice item of UNKNOWN type gets the type of the choice
6080 for sym in choice.syms:
6081 if not sym.orig_type:
6082 sym.orig_type = choice.orig_type
6083
6084
6085def _check_dep_loop_sym(sym, ignore_choice):
6086 # Detects dependency loops using depth-first search on the dependency graph
6087 # (which is calculated earlier in Kconfig._build_dep()).
6088 #
6089 # Algorithm:
6090 #
6091 # 1. Symbols/choices start out with _visited = 0, meaning unvisited.
6092 #
6093 # 2. When a symbol/choice is first visited, _visited is set to 1, meaning
6094 # "visited, potentially part of a dependency loop". The recursive
6095 # search then continues from the symbol/choice.
6096 #
6097 # 3. If we run into a symbol/choice X with _visited already set to 1,
6098 # there's a dependency loop. The loop is found on the call stack by
6099 # recording symbols while returning ("on the way back") until X is seen
6100 # again.
6101 #
6102 # 4. Once a symbol/choice and all its dependencies (or dependents in this
6103 # case) have been checked recursively without detecting any loops, its
6104 # _visited is set to 2, meaning "visited, not part of a dependency
6105 # loop".
6106 #
6107 # This saves work if we run into the symbol/choice again in later calls
6108 # to _check_dep_loop_sym(). We just return immediately.
6109 #
6110 # Choices complicate things, as every choice symbol depends on every other
6111 # choice symbol in a sense. When a choice is "entered" via a choice symbol
6112 # X, we visit all choice symbols from the choice except X, and prevent
6113 # immediately revisiting the choice with a flag (ignore_choice).
6114 #
6115 # Maybe there's a better way to handle this (different flags or the
6116 # like...)
6117
6118 if not sym._visited:
6119 # sym._visited == 0, unvisited
6120
6121 sym._visited = 1
6122
6123 for dep in sym._dependents:
6124 # Choices show up in Symbol._dependents when the choice has the
6125 # symbol in a 'prompt' or 'default' condition (e.g.
6126 # 'default ... if SYM').
6127 #
6128 # Since we aren't entering the choice via a choice symbol, all
6129 # choice symbols need to be checked, hence the None.
6130 loop = _check_dep_loop_choice(dep, None) \
6131 if dep.__class__ is Choice \
6132 else _check_dep_loop_sym(dep, False)
6133
6134 if loop:
6135 # Dependency loop found
6136 return _found_dep_loop(loop, sym)
6137
6138 if sym.choice and not ignore_choice:
6139 loop = _check_dep_loop_choice(sym.choice, sym)
6140 if loop:
6141 # Dependency loop found
6142 return _found_dep_loop(loop, sym)
6143
6144 # The symbol is not part of a dependency loop
6145 sym._visited = 2
6146
6147 # No dependency loop found
6148 return None
6149
6150 if sym._visited == 2:
6151 # The symbol was checked earlier and is already known to not be part of
6152 # a dependency loop
6153 return None
6154
6155 # sym._visited == 1, found a dependency loop. Return the symbol as the
6156 # first element in it.
6157 return (sym,)
6158
6159
6160def _check_dep_loop_choice(choice, skip):
6161 if not choice._visited:
6162 # choice._visited == 0, unvisited
6163
6164 choice._visited = 1
6165
6166 # Check for loops involving choice symbols. If we came here via a
6167 # choice symbol, skip that one, as we'd get a false positive
6168 # '<sym FOO> -> <choice> -> <sym FOO>' loop otherwise.
6169 for sym in choice.syms:
6170 if sym is not skip:
6171 # Prevent the choice from being immediately re-entered via the
6172 # "is a choice symbol" path by passing True
6173 loop = _check_dep_loop_sym(sym, True)
6174 if loop:
6175 # Dependency loop found
6176 return _found_dep_loop(loop, choice)
6177
6178 # The choice is not part of a dependency loop
6179 choice._visited = 2
6180
6181 # No dependency loop found
6182 return None
6183
6184 if choice._visited == 2:
6185 # The choice was checked earlier and is already known to not be part of
6186 # a dependency loop
6187 return None
6188
6189 # choice._visited == 1, found a dependency loop. Return the choice as the
6190 # first element in it.
6191 return (choice,)
6192
6193
6194def _found_dep_loop(loop, cur):
6195 # Called "on the way back" when we know we have a loop
6196
6197 # Is the symbol/choice 'cur' where the loop started?
6198 if cur is not loop[0]:
6199 # Nope, it's just a part of the loop
6200 return loop + (cur,)
6201
6202 # Yep, we have the entire loop. Throw an exception that shows it.
6203
6204 msg = "\nDependency loop\n" \
6205 "===============\n\n"
6206
6207 for item in loop:
6208 if item is not loop[0]:
6209 msg += "...depends on "
6210 if item.__class__ is Symbol and item.choice:
6211 msg += "the choice symbol "
6212
6213 msg += "{}, with definition...\n\n{}\n\n" \
6214 .format(_name_and_loc(item), item)
6215
6216 # Small wart: Since we reuse the already calculated
6217 # Symbol/Choice._dependents sets for recursive dependency detection, we
6218 # lose information on whether a dependency came from a 'select'/'imply'
6219 # condition or e.g. a 'depends on'.
6220 #
6221 # This might cause selecting symbols to "disappear". For example,
6222 # a symbol B having 'select A if C' gives a direct dependency from A to
6223 # C, since it corresponds to a reverse dependency of B && C.
6224 #
6225 # Always print reverse dependencies for symbols that have them to make
6226 # sure information isn't lost. I wonder if there's some neat way to
6227 # improve this.
6228
6229 if item.__class__ is Symbol:
6230 if item.rev_dep is not item.kconfig.n:
6231 msg += "(select-related dependencies: {})\n\n" \
6232 .format(expr_str(item.rev_dep))
6233
6234 if item.weak_rev_dep is not item.kconfig.n:
6235 msg += "(imply-related dependencies: {})\n\n" \
6236 .format(expr_str(item.rev_dep))
6237
6238 msg += "...depends again on {}".format(_name_and_loc(loop[0]))
6239
6240 raise KconfigError(msg)
6241
6242
6243# Predefined preprocessor functions
6244
6245
6246def _filename_fn(kconf, _):
6247 return kconf._filename
6248
6249
6250def _lineno_fn(kconf, _):
6251 return str(kconf._linenr)
6252
6253
6254def _info_fn(kconf, _, msg):
6255 print("{}:{}: {}".format(kconf._filename, kconf._linenr, msg))
6256
6257 return ""
6258
6259
6260def _warning_if_fn(kconf, _, cond, msg):
6261 if cond == "y":
6262 kconf._warn(msg, kconf._filename, kconf._linenr)
6263
6264 return ""
6265
6266
6267def _error_if_fn(kconf, _, cond, msg):
6268 if cond == "y":
6269 raise KconfigError("{}:{}: {}".format(
6270 kconf._filename, kconf._linenr, msg))
6271
6272 return ""
6273
6274
6275def _shell_fn(kconf, _, command):
6276 # Only import as needed, to save some startup time
6277 import subprocess
6278
6279 stdout, stderr = subprocess.Popen(
6280 command, shell=True, stdout=subprocess.PIPE, stderr=subprocess.PIPE
6281 ).communicate()
6282
6283 if not _IS_PY2:
6284 try:
6285 stdout = stdout.decode(kconf._encoding)
6286 stderr = stderr.decode(kconf._encoding)
6287 except UnicodeDecodeError as e:
6288 _decoding_error(e, kconf._filename, kconf._linenr)
6289
6290 if stderr:
6291 kconf._warn("'{}' wrote to stderr: {}".format(
6292 command, "\n".join(stderr.splitlines())),
6293 kconf._filename, kconf._linenr)
6294
6295 # Universal newlines with splitlines() (to prevent e.g. stray \r's in
6296 # command output on Windows), trailing newline removal, and
6297 # newline-to-space conversion.
6298 #
6299 # On Python 3 versions before 3.6, it's not possible to specify the
6300 # encoding when passing universal_newlines=True to Popen() (the 'encoding'
6301 # parameter was added in 3.6), so we do this manual version instead.
6302 return "\n".join(stdout.splitlines()).rstrip("\n").replace("\n", " ")
6303
6304#
6305# Global constants
6306#
6307
6308TRI_TO_STR = {
6309 0: "n",
6310 1: "m",
6311 2: "y",
6312}
6313
6314STR_TO_TRI = {
6315 "n": 0,
6316 "m": 1,
6317 "y": 2,
6318}
6319
6320# Constant representing that there's no cached choice selection. This is
6321# distinct from a cached None (no selection). Any object that's not None or a
6322# Symbol will do. We test this with 'is'.
6323_NO_CACHED_SELECTION = 0
6324
6325# Are we running on Python 2?
6326_IS_PY2 = sys.version_info[0] < 3
6327
6328try:
6329 _UNAME_RELEASE = os.uname()[2]
6330except AttributeError:
6331 # Only import as needed, to save some startup time
6332 import platform
6333 _UNAME_RELEASE = platform.uname()[2]
6334
6335# Note: The token and type constants below are safe to test with 'is', which is
6336# a bit faster (~30% faster on my machine, and a few % faster for total parsing
6337# time), even without assuming Python's small integer optimization (which
6338# caches small integer objects). The constants end up pointing to unique
6339# integer objects, and since we consistently refer to them via the names below,
6340# we always get the same object.
6341#
6342# Client code should use == though.
6343
6344# Tokens, with values 1, 2, ... . Avoiding 0 simplifies some checks by making
6345# all tokens except empty strings truthy.
6346(
6347 _T_ALLNOCONFIG_Y,
6348 _T_AND,
6349 _T_BOOL,
6350 _T_CHOICE,
6351 _T_CLOSE_PAREN,
6352 _T_COMMENT,
6353 _T_CONFIG,
6354 _T_DEFAULT,
6355 _T_DEFCONFIG_LIST,
6356 _T_DEF_BOOL,
6357 _T_DEF_HEX,
6358 _T_DEF_INT,
6359 _T_DEF_STRING,
6360 _T_DEF_TRISTATE,
6361 _T_DEPENDS,
6362 _T_ENDCHOICE,
6363 _T_ENDIF,
6364 _T_ENDMENU,
6365 _T_ENV,
6366 _T_EQUAL,
6367 _T_GREATER,
6368 _T_GREATER_EQUAL,
6369 _T_HELP,
6370 _T_HEX,
6371 _T_IF,
6372 _T_IMPLY,
6373 _T_INT,
6374 _T_LESS,
6375 _T_LESS_EQUAL,
6376 _T_MAINMENU,
6377 _T_MENU,
6378 _T_MENUCONFIG,
6379 _T_MODULES,
6380 _T_NOT,
6381 _T_ON,
6382 _T_OPEN_PAREN,
6383 _T_OPTION,
6384 _T_OPTIONAL,
6385 _T_OR,
6386 _T_ORSOURCE,
6387 _T_OSOURCE,
6388 _T_PROMPT,
6389 _T_RANGE,
6390 _T_RSOURCE,
6391 _T_SELECT,
6392 _T_SOURCE,
6393 _T_STRING,
6394 _T_TRISTATE,
6395 _T_UNEQUAL,
6396 _T_VISIBLE,
6397) = range(1, 51)
6398
6399# Keyword to token map, with the get() method assigned directly as a small
6400# optimization
6401_get_keyword = {
6402 "---help---": _T_HELP,
6403 "allnoconfig_y": _T_ALLNOCONFIG_Y,
6404 "bool": _T_BOOL,
6405 "boolean": _T_BOOL,
6406 "choice": _T_CHOICE,
6407 "comment": _T_COMMENT,
6408 "config": _T_CONFIG,
6409 "def_bool": _T_DEF_BOOL,
6410 "def_hex": _T_DEF_HEX,
6411 "def_int": _T_DEF_INT,
6412 "def_string": _T_DEF_STRING,
6413 "def_tristate": _T_DEF_TRISTATE,
6414 "default": _T_DEFAULT,
6415 "defconfig_list": _T_DEFCONFIG_LIST,
6416 "depends": _T_DEPENDS,
6417 "endchoice": _T_ENDCHOICE,
6418 "endif": _T_ENDIF,
6419 "endmenu": _T_ENDMENU,
6420 "env": _T_ENV,
6421 "grsource": _T_ORSOURCE, # Backwards compatibility
6422 "gsource": _T_OSOURCE, # Backwards compatibility
6423 "help": _T_HELP,
6424 "hex": _T_HEX,
6425 "if": _T_IF,
6426 "imply": _T_IMPLY,
6427 "int": _T_INT,
6428 "mainmenu": _T_MAINMENU,
6429 "menu": _T_MENU,
6430 "menuconfig": _T_MENUCONFIG,
6431 "modules": _T_MODULES,
6432 "on": _T_ON,
6433 "option": _T_OPTION,
6434 "optional": _T_OPTIONAL,
6435 "orsource": _T_ORSOURCE,
6436 "osource": _T_OSOURCE,
6437 "prompt": _T_PROMPT,
6438 "range": _T_RANGE,
6439 "rsource": _T_RSOURCE,
6440 "select": _T_SELECT,
6441 "source": _T_SOURCE,
6442 "string": _T_STRING,
6443 "tristate": _T_TRISTATE,
6444 "visible": _T_VISIBLE,
6445}.get
6446
6447# The constants below match the value of the corresponding tokens to remove the
6448# need for conversion
6449
6450# Node types
6451MENU = _T_MENU
6452COMMENT = _T_COMMENT
6453
6454# Expression types
6455AND = _T_AND
6456OR = _T_OR
6457NOT = _T_NOT
6458EQUAL = _T_EQUAL
6459UNEQUAL = _T_UNEQUAL
6460LESS = _T_LESS
6461LESS_EQUAL = _T_LESS_EQUAL
6462GREATER = _T_GREATER
6463GREATER_EQUAL = _T_GREATER_EQUAL
6464
6465_REL_TO_STR = {
6466 EQUAL: "=",
6467 UNEQUAL: "!=",
6468 LESS: "<",
6469 LESS_EQUAL: "<=",
6470 GREATER: ">",
6471 GREATER_EQUAL: ">=",
6472}
6473
6474# Symbol/choice types. UNKNOWN is 0 (falsy) to simplify some checks.
6475# Client code shouldn't rely on it though, as it was non-zero in
6476# older versions.
6477UNKNOWN = 0
6478BOOL = _T_BOOL
6479TRISTATE = _T_TRISTATE
6480STRING = _T_STRING
6481INT = _T_INT
6482HEX = _T_HEX
6483
6484TYPE_TO_STR = {
6485 UNKNOWN: "unknown",
6486 BOOL: "bool",
6487 TRISTATE: "tristate",
6488 STRING: "string",
6489 INT: "int",
6490 HEX: "hex",
6491}
6492
6493# Used in comparisons. 0 means the base is inferred from the format of the
6494# string.
6495_TYPE_TO_BASE = {
6496 HEX: 16,
6497 INT: 10,
6498 STRING: 0,
6499 UNKNOWN: 0,
6500}
6501
6502# def_bool -> BOOL, etc.
6503_DEF_TOKEN_TO_TYPE = {
6504 _T_DEF_BOOL: BOOL,
6505 _T_DEF_HEX: HEX,
6506 _T_DEF_INT: INT,
6507 _T_DEF_STRING: STRING,
6508 _T_DEF_TRISTATE: TRISTATE,
6509}
6510
6511# Tokens after which strings are expected. This is used to tell strings from
6512# constant symbol references during tokenization, both of which are enclosed in
6513# quotes.
6514#
6515# Identifier-like lexemes ("missing quotes") are also treated as strings after
6516# these tokens. _T_CHOICE is included to avoid symbols being registered for
6517# named choices.
6518_STRING_LEX = frozenset((
6519 _T_BOOL,
6520 _T_CHOICE,
6521 _T_COMMENT,
6522 _T_HEX,
6523 _T_INT,
6524 _T_MAINMENU,
6525 _T_MENU,
6526 _T_ORSOURCE,
6527 _T_OSOURCE,
6528 _T_PROMPT,
6529 _T_RSOURCE,
6530 _T_SOURCE,
6531 _T_STRING,
6532 _T_TRISTATE,
6533))
6534
6535# Various sets for quick membership tests. Gives a single global lookup and
6536# avoids creating temporary dicts/tuples.
6537
6538_TYPE_TOKENS = frozenset((
6539 _T_BOOL,
6540 _T_TRISTATE,
6541 _T_INT,
6542 _T_HEX,
6543 _T_STRING,
6544))
6545
6546_SOURCE_TOKENS = frozenset((
6547 _T_SOURCE,
6548 _T_RSOURCE,
6549 _T_OSOURCE,
6550 _T_ORSOURCE,
6551))
6552
6553_REL_SOURCE_TOKENS = frozenset((
6554 _T_RSOURCE,
6555 _T_ORSOURCE,
6556))
6557
6558# Obligatory (non-optional) sources
6559_OBL_SOURCE_TOKENS = frozenset((
6560 _T_SOURCE,
6561 _T_RSOURCE,
6562))
6563
6564_BOOL_TRISTATE = frozenset((
6565 BOOL,
6566 TRISTATE,
6567))
6568
6569_BOOL_TRISTATE_UNKNOWN = frozenset((
6570 BOOL,
6571 TRISTATE,
6572 UNKNOWN,
6573))
6574
6575_INT_HEX = frozenset((
6576 INT,
6577 HEX,
6578))
6579
6580_STRING_INT_HEX = frozenset((
6581 STRING,
6582 INT,
6583 HEX,
6584))
6585
6586_SYMBOL_CHOICE = frozenset((
6587 Symbol,
6588 Choice,
6589))
6590
6591_MENU_COMMENT = frozenset((
6592 MENU,
6593 COMMENT,
6594))
6595
6596_EQUAL_UNEQUAL = frozenset((
6597 EQUAL,
6598 UNEQUAL,
6599))
6600
6601_RELATIONS = frozenset((
6602 EQUAL,
6603 UNEQUAL,
6604 LESS,
6605 LESS_EQUAL,
6606 GREATER,
6607 GREATER_EQUAL,
6608))
6609
6610# Helper functions for getting compiled regular expressions, with the needed
6611# matching function returned directly as a small optimization.
6612#
6613# Use ASCII regex matching on Python 3. It's already the default on Python 2.
6614
6615
6616def _re_match(regex):
6617 return re.compile(regex, 0 if _IS_PY2 else re.ASCII).match
6618
6619
6620def _re_search(regex):
6621 return re.compile(regex, 0 if _IS_PY2 else re.ASCII).search
6622
6623
6624# Various regular expressions used during parsing
6625
6626# The initial token on a line. Also eats leading and trailing whitespace, so
6627# that we can jump straight to the next token (or to the end of the line if
6628# there is only one token).
6629#
6630# This regex will also fail to match for empty lines and comment lines.
6631#
6632# '$' is included to detect preprocessor variable assignments with macro
6633# expansions in the left-hand side.
6634_command_match = _re_match(r"\s*([$A-Za-z0-9_-]+)\s*")
6635
6636# An identifier/keyword after the first token. Also eats trailing whitespace.
6637# '$' is included to detect identifiers containing macro expansions.
6638_id_keyword_match = _re_match(r"([$A-Za-z0-9_/.-]+)\s*")
6639
6640# A fragment in the left-hand side of a preprocessor variable assignment. These
6641# are the portions between macro expansions ($(foo)). Macros are supported in
6642# the LHS (variable name).
6643_assignment_lhs_fragment_match = _re_match("[A-Za-z0-9_-]*")
6644
6645# The assignment operator and value (right-hand side) in a preprocessor
6646# variable assignment
6647_assignment_rhs_match = _re_match(r"\s*(=|:=|\+=)\s*(.*)")
6648
6649# Special characters/strings while expanding a macro (')', ',', and '$(')
6650_macro_special_search = _re_search(r"\)|,|\$\(")
6651
6652# Special characters/strings while expanding a string (quotes, '\', and '$(')
6653_string_special_search = _re_search(r'"|\'|\\|\$\(')
6654
6655# Special characters/strings while expanding a symbol name. Also includes
6656# end-of-line, in case the macro is the last thing on the line.
6657_name_special_search = _re_search(r'[^$A-Za-z0-9_/.-]|\$\(|$')
6658
6659# A valid right-hand side for an assignment to a string symbol in a .config
6660# file, including escaped characters. Extracts the contents.
6661_conf_string_match = _re_match(r'"((?:[^\\"]|\\.)*)"')
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