linux/scripts/kernel-doc
Linus Torvalds 08cdc21579 iommufd for 6.2
iommufd is the user API to control the IOMMU subsystem as it relates to
 managing IO page tables that point at user space memory.
 
 It takes over from drivers/vfio/vfio_iommu_type1.c (aka the VFIO
 container) which is the VFIO specific interface for a similar idea.
 
 We see a broad need for extended features, some being highly IOMMU device
 specific:
  - Binding iommu_domain's to PASID/SSID
  - Userspace IO page tables, for ARM, x86 and S390
  - Kernel bypassed invalidation of user page tables
  - Re-use of the KVM page table in the IOMMU
  - Dirty page tracking in the IOMMU
  - Runtime Increase/Decrease of IOPTE size
  - PRI support with faults resolved in userspace
 
 Many of these HW features exist to support VM use cases - for instance the
 combination of PASID, PRI and Userspace IO Page Tables allows an
 implementation of DMA Shared Virtual Addressing (vSVA) within a
 guest. Dirty tracking enables VM live migration with SRIOV devices and
 PASID support allow creating "scalable IOV" devices, among other things.
 
 As these features are fundamental to a VM platform they need to be
 uniformly exposed to all the driver families that do DMA into VMs, which
 is currently VFIO and VDPA.
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Merge tag 'for-linus-iommufd' of git://git.kernel.org/pub/scm/linux/kernel/git/jgg/iommufd

Pull iommufd implementation from Jason Gunthorpe:
 "iommufd is the user API to control the IOMMU subsystem as it relates
  to managing IO page tables that point at user space memory.

  It takes over from drivers/vfio/vfio_iommu_type1.c (aka the VFIO
  container) which is the VFIO specific interface for a similar idea.

  We see a broad need for extended features, some being highly IOMMU
  device specific:
   - Binding iommu_domain's to PASID/SSID
   - Userspace IO page tables, for ARM, x86 and S390
   - Kernel bypassed invalidation of user page tables
   - Re-use of the KVM page table in the IOMMU
   - Dirty page tracking in the IOMMU
   - Runtime Increase/Decrease of IOPTE size
   - PRI support with faults resolved in userspace

  Many of these HW features exist to support VM use cases - for instance
  the combination of PASID, PRI and Userspace IO Page Tables allows an
  implementation of DMA Shared Virtual Addressing (vSVA) within a guest.
  Dirty tracking enables VM live migration with SRIOV devices and PASID
  support allow creating "scalable IOV" devices, among other things.

  As these features are fundamental to a VM platform they need to be
  uniformly exposed to all the driver families that do DMA into VMs,
  which is currently VFIO and VDPA"

For more background, see the extended explanations in Jason's pull request:

  https://lore.kernel.org/lkml/Y5dzTU8dlmXTbzoJ@nvidia.com/

* tag 'for-linus-iommufd' of git://git.kernel.org/pub/scm/linux/kernel/git/jgg/iommufd: (62 commits)
  iommufd: Change the order of MSI setup
  iommufd: Improve a few unclear bits of code
  iommufd: Fix comment typos
  vfio: Move vfio group specific code into group.c
  vfio: Refactor dma APIs for emulated devices
  vfio: Wrap vfio group module init/clean code into helpers
  vfio: Refactor vfio_device open and close
  vfio: Make vfio_device_open() truly device specific
  vfio: Swap order of vfio_device_container_register() and open_device()
  vfio: Set device->group in helper function
  vfio: Create wrappers for group register/unregister
  vfio: Move the sanity check of the group to vfio_create_group()
  vfio: Simplify vfio_create_group()
  iommufd: Allow iommufd to supply /dev/vfio/vfio
  vfio: Make vfio_container optionally compiled
  vfio: Move container related MODULE_ALIAS statements into container.c
  vfio-iommufd: Support iommufd for emulated VFIO devices
  vfio-iommufd: Support iommufd for physical VFIO devices
  vfio-iommufd: Allow iommufd to be used in place of a container fd
  vfio: Use IOMMU_CAP_ENFORCE_CACHE_COHERENCY for vfio_file_enforced_coherent()
  ...
2022-12-14 09:15:43 -08:00

2508 lines
66 KiB
Perl
Executable File

#!/usr/bin/env perl
# SPDX-License-Identifier: GPL-2.0
use warnings;
use strict;
## Copyright (c) 1998 Michael Zucchi, All Rights Reserved ##
## Copyright (C) 2000, 1 Tim Waugh <twaugh@redhat.com> ##
## Copyright (C) 2001 Simon Huggins ##
## Copyright (C) 2005-2012 Randy Dunlap ##
## Copyright (C) 2012 Dan Luedtke ##
## ##
## #define enhancements by Armin Kuster <akuster@mvista.com> ##
## Copyright (c) 2000 MontaVista Software, Inc. ##
#
# Copyright (C) 2022 Tomasz Warniełło (POD)
use Pod::Usage qw/pod2usage/;
=head1 NAME
kernel-doc - Print formatted kernel documentation to stdout
=head1 SYNOPSIS
kernel-doc [-h] [-v] [-Werror]
[ -man |
-rst [-sphinx-version VERSION] [-enable-lineno] |
-none
]
[
-export |
-internal |
[-function NAME] ... |
[-nosymbol NAME] ...
]
[-no-doc-sections]
[-export-file FILE] ...
FILE ...
Run `kernel-doc -h` for details.
=head1 DESCRIPTION
Read C language source or header FILEs, extract embedded documentation comments,
and print formatted documentation to standard output.
The documentation comments are identified by the "/**" opening comment mark.
See Documentation/doc-guide/kernel-doc.rst for the documentation comment syntax.
=cut
# more perldoc at the end of the file
## init lots of data
my $errors = 0;
my $warnings = 0;
my $anon_struct_union = 0;
# match expressions used to find embedded type information
my $type_constant = '\b``([^\`]+)``\b';
my $type_constant2 = '\%([-_\w]+)';
my $type_func = '(\w+)\(\)';
my $type_param = '\@(\w*((\.\w+)|(->\w+))*(\.\.\.)?)';
my $type_param_ref = '([\!]?)\@(\w*((\.\w+)|(->\w+))*(\.\.\.)?)';
my $type_fp_param = '\@(\w+)\(\)'; # Special RST handling for func ptr params
my $type_fp_param2 = '\@(\w+->\S+)\(\)'; # Special RST handling for structs with func ptr params
my $type_env = '(\$\w+)';
my $type_enum = '\&(enum\s*([_\w]+))';
my $type_struct = '\&(struct\s*([_\w]+))';
my $type_typedef = '\&(typedef\s*([_\w]+))';
my $type_union = '\&(union\s*([_\w]+))';
my $type_member = '\&([_\w]+)(\.|->)([_\w]+)';
my $type_fallback = '\&([_\w]+)';
my $type_member_func = $type_member . '\(\)';
# Output conversion substitutions.
# One for each output format
# these are pretty rough
my @highlights_man = (
[$type_constant, "\$1"],
[$type_constant2, "\$1"],
[$type_func, "\\\\fB\$1\\\\fP"],
[$type_enum, "\\\\fI\$1\\\\fP"],
[$type_struct, "\\\\fI\$1\\\\fP"],
[$type_typedef, "\\\\fI\$1\\\\fP"],
[$type_union, "\\\\fI\$1\\\\fP"],
[$type_param, "\\\\fI\$1\\\\fP"],
[$type_param_ref, "\\\\fI\$1\$2\\\\fP"],
[$type_member, "\\\\fI\$1\$2\$3\\\\fP"],
[$type_fallback, "\\\\fI\$1\\\\fP"]
);
my $blankline_man = "";
# rst-mode
my @highlights_rst = (
[$type_constant, "``\$1``"],
[$type_constant2, "``\$1``"],
# Note: need to escape () to avoid func matching later
[$type_member_func, "\\:c\\:type\\:`\$1\$2\$3\\\\(\\\\) <\$1>`"],
[$type_member, "\\:c\\:type\\:`\$1\$2\$3 <\$1>`"],
[$type_fp_param, "**\$1\\\\(\\\\)**"],
[$type_fp_param2, "**\$1\\\\(\\\\)**"],
[$type_func, "\$1()"],
[$type_enum, "\\:c\\:type\\:`\$1 <\$2>`"],
[$type_struct, "\\:c\\:type\\:`\$1 <\$2>`"],
[$type_typedef, "\\:c\\:type\\:`\$1 <\$2>`"],
[$type_union, "\\:c\\:type\\:`\$1 <\$2>`"],
# in rst this can refer to any type
[$type_fallback, "\\:c\\:type\\:`\$1`"],
[$type_param_ref, "**\$1\$2**"]
);
my $blankline_rst = "\n";
# read arguments
if ($#ARGV == -1) {
pod2usage(
-message => "No arguments!\n",
-exitval => 1,
-verbose => 99,
-sections => 'SYNOPSIS',
-output => \*STDERR,
);
}
my $kernelversion;
my ($sphinx_major, $sphinx_minor, $sphinx_patch);
my $dohighlight = "";
my $verbose = 0;
my $Werror = 0;
my $output_mode = "rst";
my $output_preformatted = 0;
my $no_doc_sections = 0;
my $enable_lineno = 0;
my @highlights = @highlights_rst;
my $blankline = $blankline_rst;
my $modulename = "Kernel API";
use constant {
OUTPUT_ALL => 0, # output all symbols and doc sections
OUTPUT_INCLUDE => 1, # output only specified symbols
OUTPUT_EXPORTED => 2, # output exported symbols
OUTPUT_INTERNAL => 3, # output non-exported symbols
};
my $output_selection = OUTPUT_ALL;
my $show_not_found = 0; # No longer used
my @export_file_list;
my @build_time;
if (defined($ENV{'KBUILD_BUILD_TIMESTAMP'}) &&
(my $seconds = `date -d"${ENV{'KBUILD_BUILD_TIMESTAMP'}}" +%s`) ne '') {
@build_time = gmtime($seconds);
} else {
@build_time = localtime;
}
my $man_date = ('January', 'February', 'March', 'April', 'May', 'June',
'July', 'August', 'September', 'October',
'November', 'December')[$build_time[4]] .
" " . ($build_time[5]+1900);
# Essentially these are globals.
# They probably want to be tidied up, made more localised or something.
# CAVEAT EMPTOR! Some of the others I localised may not want to be, which
# could cause "use of undefined value" or other bugs.
my ($function, %function_table, %parametertypes, $declaration_purpose);
my %nosymbol_table = ();
my $declaration_start_line;
my ($type, $declaration_name, $return_type);
my ($newsection, $newcontents, $prototype, $brcount, %source_map);
if (defined($ENV{'KBUILD_VERBOSE'})) {
$verbose = "$ENV{'KBUILD_VERBOSE'}";
}
if (defined($ENV{'KCFLAGS'})) {
my $kcflags = "$ENV{'KCFLAGS'}";
if ($kcflags =~ /Werror/) {
$Werror = 1;
}
}
if (defined($ENV{'KDOC_WERROR'})) {
$Werror = "$ENV{'KDOC_WERROR'}";
}
# Generated docbook code is inserted in a template at a point where
# docbook v3.1 requires a non-zero sequence of RefEntry's; see:
# https://www.oasis-open.org/docbook/documentation/reference/html/refentry.html
# We keep track of number of generated entries and generate a dummy
# if needs be to ensure the expanded template can be postprocessed
# into html.
my $section_counter = 0;
my $lineprefix="";
# Parser states
use constant {
STATE_NORMAL => 0, # normal code
STATE_NAME => 1, # looking for function name
STATE_BODY_MAYBE => 2, # body - or maybe more description
STATE_BODY => 3, # the body of the comment
STATE_BODY_WITH_BLANK_LINE => 4, # the body, which has a blank line
STATE_PROTO => 5, # scanning prototype
STATE_DOCBLOCK => 6, # documentation block
STATE_INLINE => 7, # gathering doc outside main block
};
my $state;
my $in_doc_sect;
my $leading_space;
# Inline documentation state
use constant {
STATE_INLINE_NA => 0, # not applicable ($state != STATE_INLINE)
STATE_INLINE_NAME => 1, # looking for member name (@foo:)
STATE_INLINE_TEXT => 2, # looking for member documentation
STATE_INLINE_END => 3, # done
STATE_INLINE_ERROR => 4, # error - Comment without header was found.
# Spit a warning as it's not
# proper kernel-doc and ignore the rest.
};
my $inline_doc_state;
#declaration types: can be
# 'function', 'struct', 'union', 'enum', 'typedef'
my $decl_type;
# Name of the kernel-doc identifier for non-DOC markups
my $identifier;
my $doc_start = '^/\*\*\s*$'; # Allow whitespace at end of comment start.
my $doc_end = '\*/';
my $doc_com = '\s*\*\s*';
my $doc_com_body = '\s*\* ?';
my $doc_decl = $doc_com . '(\w+)';
# @params and a strictly limited set of supported section names
# Specifically:
# Match @word:
# @...:
# @{section-name}:
# while trying to not match literal block starts like "example::"
#
my $doc_sect = $doc_com .
'\s*(\@[.\w]+|\@\.\.\.|description|context|returns?|notes?|examples?)\s*:([^:].*)?$';
my $doc_content = $doc_com_body . '(.*)';
my $doc_block = $doc_com . 'DOC:\s*(.*)?';
my $doc_inline_start = '^\s*/\*\*\s*$';
my $doc_inline_sect = '\s*\*\s*(@\s*[\w][\w\.]*\s*):(.*)';
my $doc_inline_end = '^\s*\*/\s*$';
my $doc_inline_oneline = '^\s*/\*\*\s*(@[\w\s]+):\s*(.*)\s*\*/\s*$';
my $export_symbol = '^\s*EXPORT_SYMBOL(_GPL)?\s*\(\s*(\w+)\s*\)\s*;';
my $export_symbol_ns = '^\s*EXPORT_SYMBOL_NS(_GPL)?\s*\(\s*(\w+)\s*,\s*\w+\)\s*;';
my $function_pointer = qr{([^\(]*\(\*)\s*\)\s*\(([^\)]*)\)};
my $attribute = qr{__attribute__\s*\(\([a-z0-9,_\*\s\(\)]*\)\)}i;
my %parameterdescs;
my %parameterdesc_start_lines;
my @parameterlist;
my %sections;
my @sectionlist;
my %section_start_lines;
my $sectcheck;
my $struct_actual;
my $contents = "";
my $new_start_line = 0;
# the canonical section names. see also $doc_sect above.
my $section_default = "Description"; # default section
my $section_intro = "Introduction";
my $section = $section_default;
my $section_context = "Context";
my $section_return = "Return";
my $undescribed = "-- undescribed --";
reset_state();
while ($ARGV[0] =~ m/^--?(.*)/) {
my $cmd = $1;
shift @ARGV;
if ($cmd eq "man") {
$output_mode = "man";
@highlights = @highlights_man;
$blankline = $blankline_man;
} elsif ($cmd eq "rst") {
$output_mode = "rst";
@highlights = @highlights_rst;
$blankline = $blankline_rst;
} elsif ($cmd eq "none") {
$output_mode = "none";
} elsif ($cmd eq "module") { # not needed for XML, inherits from calling document
$modulename = shift @ARGV;
} elsif ($cmd eq "function") { # to only output specific functions
$output_selection = OUTPUT_INCLUDE;
$function = shift @ARGV;
$function_table{$function} = 1;
} elsif ($cmd eq "nosymbol") { # Exclude specific symbols
my $symbol = shift @ARGV;
$nosymbol_table{$symbol} = 1;
} elsif ($cmd eq "export") { # only exported symbols
$output_selection = OUTPUT_EXPORTED;
%function_table = ();
} elsif ($cmd eq "internal") { # only non-exported symbols
$output_selection = OUTPUT_INTERNAL;
%function_table = ();
} elsif ($cmd eq "export-file") {
my $file = shift @ARGV;
push(@export_file_list, $file);
} elsif ($cmd eq "v") {
$verbose = 1;
} elsif ($cmd eq "Werror") {
$Werror = 1;
} elsif (($cmd eq "h") || ($cmd eq "help")) {
pod2usage(-exitval => 0, -verbose => 2);
} elsif ($cmd eq 'no-doc-sections') {
$no_doc_sections = 1;
} elsif ($cmd eq 'enable-lineno') {
$enable_lineno = 1;
} elsif ($cmd eq 'show-not-found') {
$show_not_found = 1; # A no-op but don't fail
} elsif ($cmd eq "sphinx-version") {
my $ver_string = shift @ARGV;
if ($ver_string =~ m/^(\d+)(\.\d+)?(\.\d+)?/) {
$sphinx_major = $1;
if (defined($2)) {
$sphinx_minor = substr($2,1);
} else {
$sphinx_minor = 0;
}
if (defined($3)) {
$sphinx_patch = substr($3,1)
} else {
$sphinx_patch = 0;
}
} else {
die "Sphinx version should either major.minor or major.minor.patch format\n";
}
} else {
# Unknown argument
pod2usage(
-message => "Argument unknown!\n",
-exitval => 1,
-verbose => 99,
-sections => 'SYNOPSIS',
-output => \*STDERR,
);
}
if ($#ARGV < 0){
pod2usage(
-message => "FILE argument missing\n",
-exitval => 1,
-verbose => 99,
-sections => 'SYNOPSIS',
-output => \*STDERR,
);
}
}
# continue execution near EOF;
# The C domain dialect changed on Sphinx 3. So, we need to check the
# version in order to produce the right tags.
sub findprog($)
{
foreach(split(/:/, $ENV{PATH})) {
return "$_/$_[0]" if(-x "$_/$_[0]");
}
}
sub get_sphinx_version()
{
my $ver;
my $cmd = "sphinx-build";
if (!findprog($cmd)) {
my $cmd = "sphinx-build3";
if (!findprog($cmd)) {
$sphinx_major = 1;
$sphinx_minor = 2;
$sphinx_patch = 0;
printf STDERR "Warning: Sphinx version not found. Using default (Sphinx version %d.%d.%d)\n",
$sphinx_major, $sphinx_minor, $sphinx_patch;
return;
}
}
open IN, "$cmd --version 2>&1 |";
while (<IN>) {
if (m/^\s*sphinx-build\s+([\d]+)\.([\d\.]+)(\+\/[\da-f]+)?$/) {
$sphinx_major = $1;
$sphinx_minor = $2;
$sphinx_patch = $3;
last;
}
# Sphinx 1.2.x uses a different format
if (m/^\s*Sphinx.*\s+([\d]+)\.([\d\.]+)$/) {
$sphinx_major = $1;
$sphinx_minor = $2;
$sphinx_patch = $3;
last;
}
}
close IN;
}
# get kernel version from env
sub get_kernel_version() {
my $version = 'unknown kernel version';
if (defined($ENV{'KERNELVERSION'})) {
$version = $ENV{'KERNELVERSION'};
}
return $version;
}
#
sub print_lineno {
my $lineno = shift;
if ($enable_lineno && defined($lineno)) {
print ".. LINENO " . $lineno . "\n";
}
}
sub emit_warning {
my $location = shift;
my $msg = shift;
print STDERR "$location: warning: $msg";
++$warnings;
}
##
# dumps section contents to arrays/hashes intended for that purpose.
#
sub dump_section {
my $file = shift;
my $name = shift;
my $contents = join "\n", @_;
if ($name =~ m/$type_param/) {
$name = $1;
$parameterdescs{$name} = $contents;
$sectcheck = $sectcheck . $name . " ";
$parameterdesc_start_lines{$name} = $new_start_line;
$new_start_line = 0;
} elsif ($name eq "@\.\.\.") {
$name = "...";
$parameterdescs{$name} = $contents;
$sectcheck = $sectcheck . $name . " ";
$parameterdesc_start_lines{$name} = $new_start_line;
$new_start_line = 0;
} else {
if (defined($sections{$name}) && ($sections{$name} ne "")) {
# Only warn on user specified duplicate section names.
if ($name ne $section_default) {
emit_warning("${file}:$.", "duplicate section name '$name'\n");
}
$sections{$name} .= $contents;
} else {
$sections{$name} = $contents;
push @sectionlist, $name;
$section_start_lines{$name} = $new_start_line;
$new_start_line = 0;
}
}
}
##
# dump DOC: section after checking that it should go out
#
sub dump_doc_section {
my $file = shift;
my $name = shift;
my $contents = join "\n", @_;
if ($no_doc_sections) {
return;
}
return if (defined($nosymbol_table{$name}));
if (($output_selection == OUTPUT_ALL) ||
(($output_selection == OUTPUT_INCLUDE) &&
defined($function_table{$name})))
{
dump_section($file, $name, $contents);
output_blockhead({'sectionlist' => \@sectionlist,
'sections' => \%sections,
'module' => $modulename,
'content-only' => ($output_selection != OUTPUT_ALL), });
}
}
##
# output function
#
# parameterdescs, a hash.
# function => "function name"
# parameterlist => @list of parameters
# parameterdescs => %parameter descriptions
# sectionlist => @list of sections
# sections => %section descriptions
#
sub output_highlight {
my $contents = join "\n",@_;
my $line;
# DEBUG
# if (!defined $contents) {
# use Carp;
# confess "output_highlight got called with no args?\n";
# }
# print STDERR "contents b4:$contents\n";
eval $dohighlight;
die $@ if $@;
# print STDERR "contents af:$contents\n";
foreach $line (split "\n", $contents) {
if (! $output_preformatted) {
$line =~ s/^\s*//;
}
if ($line eq ""){
if (! $output_preformatted) {
print $lineprefix, $blankline;
}
} else {
if ($output_mode eq "man" && substr($line, 0, 1) eq ".") {
print "\\&$line";
} else {
print $lineprefix, $line;
}
}
print "\n";
}
}
##
# output function in man
sub output_function_man(%) {
my %args = %{$_[0]};
my ($parameter, $section);
my $count;
print ".TH \"$args{'function'}\" 9 \"$args{'function'}\" \"$man_date\" \"Kernel Hacker's Manual\" LINUX\n";
print ".SH NAME\n";
print $args{'function'} . " \\- " . $args{'purpose'} . "\n";
print ".SH SYNOPSIS\n";
if ($args{'functiontype'} ne "") {
print ".B \"" . $args{'functiontype'} . "\" " . $args{'function'} . "\n";
} else {
print ".B \"" . $args{'function'} . "\n";
}
$count = 0;
my $parenth = "(";
my $post = ",";
foreach my $parameter (@{$args{'parameterlist'}}) {
if ($count == $#{$args{'parameterlist'}}) {
$post = ");";
}
$type = $args{'parametertypes'}{$parameter};
if ($type =~ m/$function_pointer/) {
# pointer-to-function
print ".BI \"" . $parenth . $1 . "\" " . " \") (" . $2 . ")" . $post . "\"\n";
} else {
$type =~ s/([^\*])$/$1 /;
print ".BI \"" . $parenth . $type . "\" " . " \"" . $post . "\"\n";
}
$count++;
$parenth = "";
}
print ".SH ARGUMENTS\n";
foreach $parameter (@{$args{'parameterlist'}}) {
my $parameter_name = $parameter;
$parameter_name =~ s/\[.*//;
print ".IP \"" . $parameter . "\" 12\n";
output_highlight($args{'parameterdescs'}{$parameter_name});
}
foreach $section (@{$args{'sectionlist'}}) {
print ".SH \"", uc $section, "\"\n";
output_highlight($args{'sections'}{$section});
}
}
##
# output enum in man
sub output_enum_man(%) {
my %args = %{$_[0]};
my ($parameter, $section);
my $count;
print ".TH \"$args{'module'}\" 9 \"enum $args{'enum'}\" \"$man_date\" \"API Manual\" LINUX\n";
print ".SH NAME\n";
print "enum " . $args{'enum'} . " \\- " . $args{'purpose'} . "\n";
print ".SH SYNOPSIS\n";
print "enum " . $args{'enum'} . " {\n";
$count = 0;
foreach my $parameter (@{$args{'parameterlist'}}) {
print ".br\n.BI \" $parameter\"\n";
if ($count == $#{$args{'parameterlist'}}) {
print "\n};\n";
last;
}
else {
print ", \n.br\n";
}
$count++;
}
print ".SH Constants\n";
foreach $parameter (@{$args{'parameterlist'}}) {
my $parameter_name = $parameter;
$parameter_name =~ s/\[.*//;
print ".IP \"" . $parameter . "\" 12\n";
output_highlight($args{'parameterdescs'}{$parameter_name});
}
foreach $section (@{$args{'sectionlist'}}) {
print ".SH \"$section\"\n";
output_highlight($args{'sections'}{$section});
}
}
##
# output struct in man
sub output_struct_man(%) {
my %args = %{$_[0]};
my ($parameter, $section);
print ".TH \"$args{'module'}\" 9 \"" . $args{'type'} . " " . $args{'struct'} . "\" \"$man_date\" \"API Manual\" LINUX\n";
print ".SH NAME\n";
print $args{'type'} . " " . $args{'struct'} . " \\- " . $args{'purpose'} . "\n";
my $declaration = $args{'definition'};
$declaration =~ s/\t/ /g;
$declaration =~ s/\n/"\n.br\n.BI \"/g;
print ".SH SYNOPSIS\n";
print $args{'type'} . " " . $args{'struct'} . " {\n.br\n";
print ".BI \"$declaration\n};\n.br\n\n";
print ".SH Members\n";
foreach $parameter (@{$args{'parameterlist'}}) {
($parameter =~ /^#/) && next;
my $parameter_name = $parameter;
$parameter_name =~ s/\[.*//;
($args{'parameterdescs'}{$parameter_name} ne $undescribed) || next;
print ".IP \"" . $parameter . "\" 12\n";
output_highlight($args{'parameterdescs'}{$parameter_name});
}
foreach $section (@{$args{'sectionlist'}}) {
print ".SH \"$section\"\n";
output_highlight($args{'sections'}{$section});
}
}
##
# output typedef in man
sub output_typedef_man(%) {
my %args = %{$_[0]};
my ($parameter, $section);
print ".TH \"$args{'module'}\" 9 \"$args{'typedef'}\" \"$man_date\" \"API Manual\" LINUX\n";
print ".SH NAME\n";
print "typedef " . $args{'typedef'} . " \\- " . $args{'purpose'} . "\n";
foreach $section (@{$args{'sectionlist'}}) {
print ".SH \"$section\"\n";
output_highlight($args{'sections'}{$section});
}
}
sub output_blockhead_man(%) {
my %args = %{$_[0]};
my ($parameter, $section);
my $count;
print ".TH \"$args{'module'}\" 9 \"$args{'module'}\" \"$man_date\" \"API Manual\" LINUX\n";
foreach $section (@{$args{'sectionlist'}}) {
print ".SH \"$section\"\n";
output_highlight($args{'sections'}{$section});
}
}
##
# output in restructured text
#
#
# This could use some work; it's used to output the DOC: sections, and
# starts by putting out the name of the doc section itself, but that tends
# to duplicate a header already in the template file.
#
sub output_blockhead_rst(%) {
my %args = %{$_[0]};
my ($parameter, $section);
foreach $section (@{$args{'sectionlist'}}) {
next if (defined($nosymbol_table{$section}));
if ($output_selection != OUTPUT_INCLUDE) {
print ".. _$section:\n\n";
print "**$section**\n\n";
}
print_lineno($section_start_lines{$section});
output_highlight_rst($args{'sections'}{$section});
print "\n";
}
}
#
# Apply the RST highlights to a sub-block of text.
#
sub highlight_block($) {
# The dohighlight kludge requires the text be called $contents
my $contents = shift;
eval $dohighlight;
die $@ if $@;
return $contents;
}
#
# Regexes used only here.
#
my $sphinx_literal = '^[^.].*::$';
my $sphinx_cblock = '^\.\.\ +code-block::';
sub output_highlight_rst {
my $input = join "\n",@_;
my $output = "";
my $line;
my $in_literal = 0;
my $litprefix;
my $block = "";
foreach $line (split "\n",$input) {
#
# If we're in a literal block, see if we should drop out
# of it. Otherwise pass the line straight through unmunged.
#
if ($in_literal) {
if (! ($line =~ /^\s*$/)) {
#
# If this is the first non-blank line in a literal
# block we need to figure out what the proper indent is.
#
if ($litprefix eq "") {
$line =~ /^(\s*)/;
$litprefix = '^' . $1;
$output .= $line . "\n";
} elsif (! ($line =~ /$litprefix/)) {
$in_literal = 0;
} else {
$output .= $line . "\n";
}
} else {
$output .= $line . "\n";
}
}
#
# Not in a literal block (or just dropped out)
#
if (! $in_literal) {
$block .= $line . "\n";
if (($line =~ /$sphinx_literal/) || ($line =~ /$sphinx_cblock/)) {
$in_literal = 1;
$litprefix = "";
$output .= highlight_block($block);
$block = ""
}
}
}
if ($block) {
$output .= highlight_block($block);
}
foreach $line (split "\n", $output) {
print $lineprefix . $line . "\n";
}
}
sub output_function_rst(%) {
my %args = %{$_[0]};
my ($parameter, $section);
my $oldprefix = $lineprefix;
my $start = "";
my $is_macro = 0;
if ($sphinx_major < 3) {
if ($args{'typedef'}) {
print ".. c:type:: ". $args{'function'} . "\n\n";
print_lineno($declaration_start_line);
print " **Typedef**: ";
$lineprefix = "";
output_highlight_rst($args{'purpose'});
$start = "\n\n**Syntax**\n\n ``";
$is_macro = 1;
} else {
print ".. c:function:: ";
}
} else {
if ($args{'typedef'} || $args{'functiontype'} eq "") {
$is_macro = 1;
print ".. c:macro:: ". $args{'function'} . "\n\n";
} else {
print ".. c:function:: ";
}
if ($args{'typedef'}) {
print_lineno($declaration_start_line);
print " **Typedef**: ";
$lineprefix = "";
output_highlight_rst($args{'purpose'});
$start = "\n\n**Syntax**\n\n ``";
} else {
print "``" if ($is_macro);
}
}
if ($args{'functiontype'} ne "") {
$start .= $args{'functiontype'} . " " . $args{'function'} . " (";
} else {
$start .= $args{'function'} . " (";
}
print $start;
my $count = 0;
foreach my $parameter (@{$args{'parameterlist'}}) {
if ($count ne 0) {
print ", ";
}
$count++;
$type = $args{'parametertypes'}{$parameter};
if ($type =~ m/$function_pointer/) {
# pointer-to-function
print $1 . $parameter . ") (" . $2 . ")";
} else {
print $type;
}
}
if ($is_macro) {
print ")``\n\n";
} else {
print ")\n\n";
}
if (!$args{'typedef'}) {
print_lineno($declaration_start_line);
$lineprefix = " ";
output_highlight_rst($args{'purpose'});
print "\n";
}
#
# Put our descriptive text into a container (thus an HTML <div>) to help
# set the function prototypes apart.
#
print ".. container:: kernelindent\n\n";
$lineprefix = " ";
print $lineprefix . "**Parameters**\n\n";
foreach $parameter (@{$args{'parameterlist'}}) {
my $parameter_name = $parameter;
$parameter_name =~ s/\[.*//;
$type = $args{'parametertypes'}{$parameter};
if ($type ne "") {
print $lineprefix . "``$type``\n";
} else {
print $lineprefix . "``$parameter``\n";
}
print_lineno($parameterdesc_start_lines{$parameter_name});
$lineprefix = " ";
if (defined($args{'parameterdescs'}{$parameter_name}) &&
$args{'parameterdescs'}{$parameter_name} ne $undescribed) {
output_highlight_rst($args{'parameterdescs'}{$parameter_name});
} else {
print $lineprefix . "*undescribed*\n";
}
$lineprefix = " ";
print "\n";
}
output_section_rst(@_);
$lineprefix = $oldprefix;
}
sub output_section_rst(%) {
my %args = %{$_[0]};
my $section;
my $oldprefix = $lineprefix;
foreach $section (@{$args{'sectionlist'}}) {
print $lineprefix . "**$section**\n\n";
print_lineno($section_start_lines{$section});
output_highlight_rst($args{'sections'}{$section});
print "\n";
}
print "\n";
}
sub output_enum_rst(%) {
my %args = %{$_[0]};
my ($parameter);
my $oldprefix = $lineprefix;
my $count;
my $outer;
if ($sphinx_major < 3) {
my $name = "enum " . $args{'enum'};
print "\n\n.. c:type:: " . $name . "\n\n";
} else {
my $name = $args{'enum'};
print "\n\n.. c:enum:: " . $name . "\n\n";
}
print_lineno($declaration_start_line);
$lineprefix = " ";
output_highlight_rst($args{'purpose'});
print "\n";
print ".. container:: kernelindent\n\n";
$outer = $lineprefix . " ";
$lineprefix = $outer . " ";
print $outer . "**Constants**\n\n";
foreach $parameter (@{$args{'parameterlist'}}) {
print $outer . "``$parameter``\n";
if ($args{'parameterdescs'}{$parameter} ne $undescribed) {
output_highlight_rst($args{'parameterdescs'}{$parameter});
} else {
print $lineprefix . "*undescribed*\n";
}
print "\n";
}
print "\n";
$lineprefix = $oldprefix;
output_section_rst(@_);
}
sub output_typedef_rst(%) {
my %args = %{$_[0]};
my ($parameter);
my $oldprefix = $lineprefix;
my $name;
if ($sphinx_major < 3) {
$name = "typedef " . $args{'typedef'};
} else {
$name = $args{'typedef'};
}
print "\n\n.. c:type:: " . $name . "\n\n";
print_lineno($declaration_start_line);
$lineprefix = " ";
output_highlight_rst($args{'purpose'});
print "\n";
$lineprefix = $oldprefix;
output_section_rst(@_);
}
sub output_struct_rst(%) {
my %args = %{$_[0]};
my ($parameter);
my $oldprefix = $lineprefix;
if ($sphinx_major < 3) {
my $name = $args{'type'} . " " . $args{'struct'};
print "\n\n.. c:type:: " . $name . "\n\n";
} else {
my $name = $args{'struct'};
if ($args{'type'} eq 'union') {
print "\n\n.. c:union:: " . $name . "\n\n";
} else {
print "\n\n.. c:struct:: " . $name . "\n\n";
}
}
print_lineno($declaration_start_line);
$lineprefix = " ";
output_highlight_rst($args{'purpose'});
print "\n";
print ".. container:: kernelindent\n\n";
print $lineprefix . "**Definition**::\n\n";
my $declaration = $args{'definition'};
$lineprefix = $lineprefix . " ";
$declaration =~ s/\t/$lineprefix/g;
print $lineprefix . $args{'type'} . " " . $args{'struct'} . " {\n$declaration" . $lineprefix . "};\n\n";
$lineprefix = " ";
print $lineprefix . "**Members**\n\n";
foreach $parameter (@{$args{'parameterlist'}}) {
($parameter =~ /^#/) && next;
my $parameter_name = $parameter;
$parameter_name =~ s/\[.*//;
($args{'parameterdescs'}{$parameter_name} ne $undescribed) || next;
$type = $args{'parametertypes'}{$parameter};
print_lineno($parameterdesc_start_lines{$parameter_name});
print $lineprefix . "``" . $parameter . "``\n";
$lineprefix = " ";
output_highlight_rst($args{'parameterdescs'}{$parameter_name});
$lineprefix = " ";
print "\n";
}
print "\n";
$lineprefix = $oldprefix;
output_section_rst(@_);
}
## none mode output functions
sub output_function_none(%) {
}
sub output_enum_none(%) {
}
sub output_typedef_none(%) {
}
sub output_struct_none(%) {
}
sub output_blockhead_none(%) {
}
##
# generic output function for all types (function, struct/union, typedef, enum);
# calls the generated, variable output_ function name based on
# functype and output_mode
sub output_declaration {
no strict 'refs';
my $name = shift;
my $functype = shift;
my $func = "output_${functype}_$output_mode";
return if (defined($nosymbol_table{$name}));
if (($output_selection == OUTPUT_ALL) ||
(($output_selection == OUTPUT_INCLUDE ||
$output_selection == OUTPUT_EXPORTED) &&
defined($function_table{$name})) ||
($output_selection == OUTPUT_INTERNAL &&
!($functype eq "function" && defined($function_table{$name}))))
{
&$func(@_);
$section_counter++;
}
}
##
# generic output function - calls the right one based on current output mode.
sub output_blockhead {
no strict 'refs';
my $func = "output_blockhead_" . $output_mode;
&$func(@_);
$section_counter++;
}
##
# takes a declaration (struct, union, enum, typedef) and
# invokes the right handler. NOT called for functions.
sub dump_declaration($$) {
no strict 'refs';
my ($prototype, $file) = @_;
my $func = "dump_" . $decl_type;
&$func(@_);
}
sub dump_union($$) {
dump_struct(@_);
}
sub dump_struct($$) {
my $x = shift;
my $file = shift;
my $decl_type;
my $members;
my $type = qr{struct|union};
# For capturing struct/union definition body, i.e. "{members*}qualifiers*"
my $qualifiers = qr{$attribute|__packed|__aligned|____cacheline_aligned_in_smp|____cacheline_aligned};
my $definition_body = qr{\{(.*)\}\s*$qualifiers*};
my $struct_members = qr{($type)([^\{\};]+)\{([^\{\}]*)\}([^\{\}\;]*)\;};
if ($x =~ /($type)\s+(\w+)\s*$definition_body/) {
$decl_type = $1;
$declaration_name = $2;
$members = $3;
} elsif ($x =~ /typedef\s+($type)\s*$definition_body\s*(\w+)\s*;/) {
$decl_type = $1;
$declaration_name = $3;
$members = $2;
}
if ($members) {
if ($identifier ne $declaration_name) {
emit_warning("${file}:$.", "expecting prototype for $decl_type $identifier. Prototype was for $decl_type $declaration_name instead\n");
return;
}
# ignore members marked private:
$members =~ s/\/\*\s*private:.*?\/\*\s*public:.*?\*\///gosi;
$members =~ s/\/\*\s*private:.*//gosi;
# strip comments:
$members =~ s/\/\*.*?\*\///gos;
# strip attributes
$members =~ s/\s*$attribute/ /gi;
$members =~ s/\s*__aligned\s*\([^;]*\)/ /gos;
$members =~ s/\s*__packed\s*/ /gos;
$members =~ s/\s*CRYPTO_MINALIGN_ATTR/ /gos;
$members =~ s/\s*____cacheline_aligned_in_smp/ /gos;
$members =~ s/\s*____cacheline_aligned/ /gos;
# unwrap struct_group():
# - first eat non-declaration parameters and rewrite for final match
# - then remove macro, outer parens, and trailing semicolon
$members =~ s/\bstruct_group\s*\(([^,]*,)/STRUCT_GROUP(/gos;
$members =~ s/\bstruct_group_(attr|tagged)\s*\(([^,]*,){2}/STRUCT_GROUP(/gos;
$members =~ s/\b__struct_group\s*\(([^,]*,){3}/STRUCT_GROUP(/gos;
$members =~ s/\bSTRUCT_GROUP(\(((?:(?>[^)(]+)|(?1))*)\))[^;]*;/$2/gos;
my $args = qr{([^,)]+)};
# replace DECLARE_BITMAP
$members =~ s/__ETHTOOL_DECLARE_LINK_MODE_MASK\s*\(([^\)]+)\)/DECLARE_BITMAP($1, __ETHTOOL_LINK_MODE_MASK_NBITS)/gos;
$members =~ s/DECLARE_PHY_INTERFACE_MASK\s*\(([^\)]+)\)/DECLARE_BITMAP($1, PHY_INTERFACE_MODE_MAX)/gos;
$members =~ s/DECLARE_BITMAP\s*\($args,\s*$args\)/unsigned long $1\[BITS_TO_LONGS($2)\]/gos;
# replace DECLARE_HASHTABLE
$members =~ s/DECLARE_HASHTABLE\s*\($args,\s*$args\)/unsigned long $1\[1 << (($2) - 1)\]/gos;
# replace DECLARE_KFIFO
$members =~ s/DECLARE_KFIFO\s*\($args,\s*$args,\s*$args\)/$2 \*$1/gos;
# replace DECLARE_KFIFO_PTR
$members =~ s/DECLARE_KFIFO_PTR\s*\($args,\s*$args\)/$2 \*$1/gos;
# replace DECLARE_FLEX_ARRAY
$members =~ s/(?:__)?DECLARE_FLEX_ARRAY\s*\($args,\s*$args\)/$1 $2\[\]/gos;
my $declaration = $members;
# Split nested struct/union elements as newer ones
while ($members =~ m/$struct_members/) {
my $newmember;
my $maintype = $1;
my $ids = $4;
my $content = $3;
foreach my $id(split /,/, $ids) {
$newmember .= "$maintype $id; ";
$id =~ s/[:\[].*//;
$id =~ s/^\s*\**(\S+)\s*/$1/;
foreach my $arg (split /;/, $content) {
next if ($arg =~ m/^\s*$/);
if ($arg =~ m/^([^\(]+\(\*?\s*)([\w\.]*)(\s*\).*)/) {
# pointer-to-function
my $type = $1;
my $name = $2;
my $extra = $3;
next if (!$name);
if ($id =~ m/^\s*$/) {
# anonymous struct/union
$newmember .= "$type$name$extra; ";
} else {
$newmember .= "$type$id.$name$extra; ";
}
} else {
my $type;
my $names;
$arg =~ s/^\s+//;
$arg =~ s/\s+$//;
# Handle bitmaps
$arg =~ s/:\s*\d+\s*//g;
# Handle arrays
$arg =~ s/\[.*\]//g;
# The type may have multiple words,
# and multiple IDs can be defined, like:
# const struct foo, *bar, foobar
# So, we remove spaces when parsing the
# names, in order to match just names
# and commas for the names
$arg =~ s/\s*,\s*/,/g;
if ($arg =~ m/(.*)\s+([\S+,]+)/) {
$type = $1;
$names = $2;
} else {
$newmember .= "$arg; ";
next;
}
foreach my $name (split /,/, $names) {
$name =~ s/^\s*\**(\S+)\s*/$1/;
next if (($name =~ m/^\s*$/));
if ($id =~ m/^\s*$/) {
# anonymous struct/union
$newmember .= "$type $name; ";
} else {
$newmember .= "$type $id.$name; ";
}
}
}
}
}
$members =~ s/$struct_members/$newmember/;
}
# Ignore other nested elements, like enums
$members =~ s/(\{[^\{\}]*\})//g;
create_parameterlist($members, ';', $file, $declaration_name);
check_sections($file, $declaration_name, $decl_type, $sectcheck, $struct_actual);
# Adjust declaration for better display
$declaration =~ s/([\{;])/$1\n/g;
$declaration =~ s/\}\s+;/};/g;
# Better handle inlined enums
do {} while ($declaration =~ s/(enum\s+\{[^\}]+),([^\n])/$1,\n$2/);
my @def_args = split /\n/, $declaration;
my $level = 1;
$declaration = "";
foreach my $clause (@def_args) {
$clause =~ s/^\s+//;
$clause =~ s/\s+$//;
$clause =~ s/\s+/ /;
next if (!$clause);
$level-- if ($clause =~ m/(\})/ && $level > 1);
if (!($clause =~ m/^\s*#/)) {
$declaration .= "\t" x $level;
}
$declaration .= "\t" . $clause . "\n";
$level++ if ($clause =~ m/(\{)/ && !($clause =~m/\}/));
}
output_declaration($declaration_name,
'struct',
{'struct' => $declaration_name,
'module' => $modulename,
'definition' => $declaration,
'parameterlist' => \@parameterlist,
'parameterdescs' => \%parameterdescs,
'parametertypes' => \%parametertypes,
'sectionlist' => \@sectionlist,
'sections' => \%sections,
'purpose' => $declaration_purpose,
'type' => $decl_type
});
}
else {
print STDERR "${file}:$.: error: Cannot parse struct or union!\n";
++$errors;
}
}
sub show_warnings($$) {
my $functype = shift;
my $name = shift;
return 0 if (defined($nosymbol_table{$name}));
return 1 if ($output_selection == OUTPUT_ALL);
if ($output_selection == OUTPUT_EXPORTED) {
if (defined($function_table{$name})) {
return 1;
} else {
return 0;
}
}
if ($output_selection == OUTPUT_INTERNAL) {
if (!($functype eq "function" && defined($function_table{$name}))) {
return 1;
} else {
return 0;
}
}
if ($output_selection == OUTPUT_INCLUDE) {
if (defined($function_table{$name})) {
return 1;
} else {
return 0;
}
}
die("Please add the new output type at show_warnings()");
}
sub dump_enum($$) {
my $x = shift;
my $file = shift;
my $members;
$x =~ s@/\*.*?\*/@@gos; # strip comments.
# strip #define macros inside enums
$x =~ s@#\s*((define|ifdef)\s+|endif)[^;]*;@@gos;
if ($x =~ /typedef\s+enum\s*\{(.*)\}\s*(\w*)\s*;/) {
$declaration_name = $2;
$members = $1;
} elsif ($x =~ /enum\s+(\w*)\s*\{(.*)\}/) {
$declaration_name = $1;
$members = $2;
}
if ($members) {
if ($identifier ne $declaration_name) {
if ($identifier eq "") {
emit_warning("${file}:$.", "wrong kernel-doc identifier on line:\n");
} else {
emit_warning("${file}:$.", "expecting prototype for enum $identifier. Prototype was for enum $declaration_name instead\n");
}
return;
}
$declaration_name = "(anonymous)" if ($declaration_name eq "");
my %_members;
$members =~ s/\s+$//;
foreach my $arg (split ',', $members) {
$arg =~ s/^\s*(\w+).*/$1/;
push @parameterlist, $arg;
if (!$parameterdescs{$arg}) {
$parameterdescs{$arg} = $undescribed;
if (show_warnings("enum", $declaration_name)) {
emit_warning("${file}:$.", "Enum value '$arg' not described in enum '$declaration_name'\n");
}
}
$_members{$arg} = 1;
}
while (my ($k, $v) = each %parameterdescs) {
if (!exists($_members{$k})) {
if (show_warnings("enum", $declaration_name)) {
emit_warning("${file}:$.", "Excess enum value '$k' description in '$declaration_name'\n");
}
}
}
output_declaration($declaration_name,
'enum',
{'enum' => $declaration_name,
'module' => $modulename,
'parameterlist' => \@parameterlist,
'parameterdescs' => \%parameterdescs,
'sectionlist' => \@sectionlist,
'sections' => \%sections,
'purpose' => $declaration_purpose
});
} else {
print STDERR "${file}:$.: error: Cannot parse enum!\n";
++$errors;
}
}
my $typedef_type = qr { ((?:\s+[\w\*]+\b){1,8})\s* }x;
my $typedef_ident = qr { \*?\s*(\w\S+)\s* }x;
my $typedef_args = qr { \s*\((.*)\); }x;
my $typedef1 = qr { typedef$typedef_type\($typedef_ident\)$typedef_args }x;
my $typedef2 = qr { typedef$typedef_type$typedef_ident$typedef_args }x;
sub dump_typedef($$) {
my $x = shift;
my $file = shift;
$x =~ s@/\*.*?\*/@@gos; # strip comments.
# Parse function typedef prototypes
if ($x =~ $typedef1 || $x =~ $typedef2) {
$return_type = $1;
$declaration_name = $2;
my $args = $3;
$return_type =~ s/^\s+//;
if ($identifier ne $declaration_name) {
emit_warning("${file}:$.", "expecting prototype for typedef $identifier. Prototype was for typedef $declaration_name instead\n");
return;
}
create_parameterlist($args, ',', $file, $declaration_name);
output_declaration($declaration_name,
'function',
{'function' => $declaration_name,
'typedef' => 1,
'module' => $modulename,
'functiontype' => $return_type,
'parameterlist' => \@parameterlist,
'parameterdescs' => \%parameterdescs,
'parametertypes' => \%parametertypes,
'sectionlist' => \@sectionlist,
'sections' => \%sections,
'purpose' => $declaration_purpose
});
return;
}
while (($x =~ /\(*.\)\s*;$/) || ($x =~ /\[*.\]\s*;$/)) {
$x =~ s/\(*.\)\s*;$/;/;
$x =~ s/\[*.\]\s*;$/;/;
}
if ($x =~ /typedef.*\s+(\w+)\s*;/) {
$declaration_name = $1;
if ($identifier ne $declaration_name) {
emit_warning("${file}:$.", "expecting prototype for typedef $identifier. Prototype was for typedef $declaration_name instead\n");
return;
}
output_declaration($declaration_name,
'typedef',
{'typedef' => $declaration_name,
'module' => $modulename,
'sectionlist' => \@sectionlist,
'sections' => \%sections,
'purpose' => $declaration_purpose
});
}
else {
print STDERR "${file}:$.: error: Cannot parse typedef!\n";
++$errors;
}
}
sub save_struct_actual($) {
my $actual = shift;
# strip all spaces from the actual param so that it looks like one string item
$actual =~ s/\s*//g;
$struct_actual = $struct_actual . $actual . " ";
}
sub create_parameterlist($$$$) {
my $args = shift;
my $splitter = shift;
my $file = shift;
my $declaration_name = shift;
my $type;
my $param;
# temporarily replace commas inside function pointer definition
my $arg_expr = qr{\([^\),]+};
while ($args =~ /$arg_expr,/) {
$args =~ s/($arg_expr),/$1#/g;
}
foreach my $arg (split($splitter, $args)) {
# strip comments
$arg =~ s/\/\*.*\*\///;
# strip leading/trailing spaces
$arg =~ s/^\s*//;
$arg =~ s/\s*$//;
$arg =~ s/\s+/ /;
if ($arg =~ /^#/) {
# Treat preprocessor directive as a typeless variable just to fill
# corresponding data structures "correctly". Catch it later in
# output_* subs.
push_parameter($arg, "", "", $file);
} elsif ($arg =~ m/\(.+\)\s*\(/) {
# pointer-to-function
$arg =~ tr/#/,/;
$arg =~ m/[^\(]+\(\*?\s*([\w\[\]\.]*)\s*\)/;
$param = $1;
$type = $arg;
$type =~ s/([^\(]+\(\*?)\s*$param/$1/;
save_struct_actual($param);
push_parameter($param, $type, $arg, $file, $declaration_name);
} elsif ($arg) {
$arg =~ s/\s*:\s*/:/g;
$arg =~ s/\s*\[/\[/g;
my @args = split('\s*,\s*', $arg);
if ($args[0] =~ m/\*/) {
$args[0] =~ s/(\*+)\s*/ $1/;
}
my @first_arg;
if ($args[0] =~ /^(.*\s+)(.*?\[.*\].*)$/) {
shift @args;
push(@first_arg, split('\s+', $1));
push(@first_arg, $2);
} else {
@first_arg = split('\s+', shift @args);
}
unshift(@args, pop @first_arg);
$type = join " ", @first_arg;
foreach $param (@args) {
if ($param =~ m/^(\*+)\s*(.*)/) {
save_struct_actual($2);
push_parameter($2, "$type $1", $arg, $file, $declaration_name);
}
elsif ($param =~ m/(.*?):(\d+)/) {
if ($type ne "") { # skip unnamed bit-fields
save_struct_actual($1);
push_parameter($1, "$type:$2", $arg, $file, $declaration_name)
}
}
else {
save_struct_actual($param);
push_parameter($param, $type, $arg, $file, $declaration_name);
}
}
}
}
}
sub push_parameter($$$$$) {
my $param = shift;
my $type = shift;
my $org_arg = shift;
my $file = shift;
my $declaration_name = shift;
if (($anon_struct_union == 1) && ($type eq "") &&
($param eq "}")) {
return; # ignore the ending }; from anon. struct/union
}
$anon_struct_union = 0;
$param =~ s/[\[\)].*//;
if ($type eq "" && $param =~ /\.\.\.$/)
{
if (!$param =~ /\w\.\.\.$/) {
# handles unnamed variable parameters
$param = "...";
}
elsif ($param =~ /\w\.\.\.$/) {
# for named variable parameters of the form `x...`, remove the dots
$param =~ s/\.\.\.$//;
}
if (!defined $parameterdescs{$param} || $parameterdescs{$param} eq "") {
$parameterdescs{$param} = "variable arguments";
}
}
elsif ($type eq "" && ($param eq "" or $param eq "void"))
{
$param="void";
$parameterdescs{void} = "no arguments";
}
elsif ($type eq "" && ($param eq "struct" or $param eq "union"))
# handle unnamed (anonymous) union or struct:
{
$type = $param;
$param = "{unnamed_" . $param . "}";
$parameterdescs{$param} = "anonymous\n";
$anon_struct_union = 1;
}
# warn if parameter has no description
# (but ignore ones starting with # as these are not parameters
# but inline preprocessor statements);
# Note: It will also ignore void params and unnamed structs/unions
if (!defined $parameterdescs{$param} && $param !~ /^#/) {
$parameterdescs{$param} = $undescribed;
if (show_warnings($type, $declaration_name) && $param !~ /\./) {
emit_warning("${file}:$.", "Function parameter or member '$param' not described in '$declaration_name'\n");
}
}
# strip spaces from $param so that it is one continuous string
# on @parameterlist;
# this fixes a problem where check_sections() cannot find
# a parameter like "addr[6 + 2]" because it actually appears
# as "addr[6", "+", "2]" on the parameter list;
# but it's better to maintain the param string unchanged for output,
# so just weaken the string compare in check_sections() to ignore
# "[blah" in a parameter string;
###$param =~ s/\s*//g;
push @parameterlist, $param;
$org_arg =~ s/\s\s+/ /g;
$parametertypes{$param} = $org_arg;
}
sub check_sections($$$$$) {
my ($file, $decl_name, $decl_type, $sectcheck, $prmscheck) = @_;
my @sects = split ' ', $sectcheck;
my @prms = split ' ', $prmscheck;
my $err;
my ($px, $sx);
my $prm_clean; # strip trailing "[array size]" and/or beginning "*"
foreach $sx (0 .. $#sects) {
$err = 1;
foreach $px (0 .. $#prms) {
$prm_clean = $prms[$px];
$prm_clean =~ s/\[.*\]//;
$prm_clean =~ s/$attribute//i;
# ignore array size in a parameter string;
# however, the original param string may contain
# spaces, e.g.: addr[6 + 2]
# and this appears in @prms as "addr[6" since the
# parameter list is split at spaces;
# hence just ignore "[..." for the sections check;
$prm_clean =~ s/\[.*//;
##$prm_clean =~ s/^\**//;
if ($prm_clean eq $sects[$sx]) {
$err = 0;
last;
}
}
if ($err) {
if ($decl_type eq "function") {
emit_warning("${file}:$.",
"Excess function parameter " .
"'$sects[$sx]' " .
"description in '$decl_name'\n");
}
}
}
}
##
# Checks the section describing the return value of a function.
sub check_return_section {
my $file = shift;
my $declaration_name = shift;
my $return_type = shift;
# Ignore an empty return type (It's a macro)
# Ignore functions with a "void" return type. (But don't ignore "void *")
if (($return_type eq "") || ($return_type =~ /void\s*\w*\s*$/)) {
return;
}
if (!defined($sections{$section_return}) ||
$sections{$section_return} eq "") {
emit_warning("${file}:$.",
"No description found for return value of " .
"'$declaration_name'\n");
}
}
##
# takes a function prototype and the name of the current file being
# processed and spits out all the details stored in the global
# arrays/hashes.
sub dump_function($$) {
my $prototype = shift;
my $file = shift;
my $noret = 0;
print_lineno($new_start_line);
$prototype =~ s/^static +//;
$prototype =~ s/^extern +//;
$prototype =~ s/^asmlinkage +//;
$prototype =~ s/^inline +//;
$prototype =~ s/^__inline__ +//;
$prototype =~ s/^__inline +//;
$prototype =~ s/^__always_inline +//;
$prototype =~ s/^noinline +//;
$prototype =~ s/__init +//;
$prototype =~ s/__init_or_module +//;
$prototype =~ s/__deprecated +//;
$prototype =~ s/__flatten +//;
$prototype =~ s/__meminit +//;
$prototype =~ s/__must_check +//;
$prototype =~ s/__weak +//;
$prototype =~ s/__sched +//;
$prototype =~ s/__printf\s*\(\s*\d*\s*,\s*\d*\s*\) +//;
$prototype =~ s/__alloc_size\s*\(\s*\d+\s*(?:,\s*\d+\s*)?\) +//;
my $define = $prototype =~ s/^#\s*define\s+//; #ak added
$prototype =~ s/__attribute_const__ +//;
$prototype =~ s/__attribute__\s*\(\(
(?:
[\w\s]++ # attribute name
(?:\([^)]*+\))? # attribute arguments
\s*+,? # optional comma at the end
)+
\)\)\s+//x;
# Yes, this truly is vile. We are looking for:
# 1. Return type (may be nothing if we're looking at a macro)
# 2. Function name
# 3. Function parameters.
#
# All the while we have to watch out for function pointer parameters
# (which IIRC is what the two sections are for), C types (these
# regexps don't even start to express all the possibilities), and
# so on.
#
# If you mess with these regexps, it's a good idea to check that
# the following functions' documentation still comes out right:
# - parport_register_device (function pointer parameters)
# - atomic_set (macro)
# - pci_match_device, __copy_to_user (long return type)
my $name = qr{[a-zA-Z0-9_~:]+};
my $prototype_end1 = qr{[^\(]*};
my $prototype_end2 = qr{[^\{]*};
my $prototype_end = qr{\(($prototype_end1|$prototype_end2)\)};
my $type1 = qr{[\w\s]+};
my $type2 = qr{$type1\*+};
if ($define && $prototype =~ m/^()($name)\s+/) {
# This is an object-like macro, it has no return type and no parameter
# list.
# Function-like macros are not allowed to have spaces between
# declaration_name and opening parenthesis (notice the \s+).
$return_type = $1;
$declaration_name = $2;
$noret = 1;
} elsif ($prototype =~ m/^()($name)\s*$prototype_end/ ||
$prototype =~ m/^($type1)\s+($name)\s*$prototype_end/ ||
$prototype =~ m/^($type2+)\s*($name)\s*$prototype_end/) {
$return_type = $1;
$declaration_name = $2;
my $args = $3;
create_parameterlist($args, ',', $file, $declaration_name);
} else {
emit_warning("${file}:$.", "cannot understand function prototype: '$prototype'\n");
return;
}
if ($identifier ne $declaration_name) {
emit_warning("${file}:$.", "expecting prototype for $identifier(). Prototype was for $declaration_name() instead\n");
return;
}
my $prms = join " ", @parameterlist;
check_sections($file, $declaration_name, "function", $sectcheck, $prms);
# This check emits a lot of warnings at the moment, because many
# functions don't have a 'Return' doc section. So until the number
# of warnings goes sufficiently down, the check is only performed in
# verbose mode.
# TODO: always perform the check.
if ($verbose && !$noret) {
check_return_section($file, $declaration_name, $return_type);
}
# The function parser can be called with a typedef parameter.
# Handle it.
if ($return_type =~ /typedef/) {
output_declaration($declaration_name,
'function',
{'function' => $declaration_name,
'typedef' => 1,
'module' => $modulename,
'functiontype' => $return_type,
'parameterlist' => \@parameterlist,
'parameterdescs' => \%parameterdescs,
'parametertypes' => \%parametertypes,
'sectionlist' => \@sectionlist,
'sections' => \%sections,
'purpose' => $declaration_purpose
});
} else {
output_declaration($declaration_name,
'function',
{'function' => $declaration_name,
'module' => $modulename,
'functiontype' => $return_type,
'parameterlist' => \@parameterlist,
'parameterdescs' => \%parameterdescs,
'parametertypes' => \%parametertypes,
'sectionlist' => \@sectionlist,
'sections' => \%sections,
'purpose' => $declaration_purpose
});
}
}
sub reset_state {
$function = "";
%parameterdescs = ();
%parametertypes = ();
@parameterlist = ();
%sections = ();
@sectionlist = ();
$sectcheck = "";
$struct_actual = "";
$prototype = "";
$state = STATE_NORMAL;
$inline_doc_state = STATE_INLINE_NA;
}
sub tracepoint_munge($) {
my $file = shift;
my $tracepointname = 0;
my $tracepointargs = 0;
if ($prototype =~ m/TRACE_EVENT\((.*?),/) {
$tracepointname = $1;
}
if ($prototype =~ m/DEFINE_SINGLE_EVENT\((.*?),/) {
$tracepointname = $1;
}
if ($prototype =~ m/DEFINE_EVENT\((.*?),(.*?),/) {
$tracepointname = $2;
}
$tracepointname =~ s/^\s+//; #strip leading whitespace
if ($prototype =~ m/TP_PROTO\((.*?)\)/) {
$tracepointargs = $1;
}
if (($tracepointname eq 0) || ($tracepointargs eq 0)) {
emit_warning("${file}:$.", "Unrecognized tracepoint format: \n".
"$prototype\n");
} else {
$prototype = "static inline void trace_$tracepointname($tracepointargs)";
$identifier = "trace_$identifier";
}
}
sub syscall_munge() {
my $void = 0;
$prototype =~ s@[\r\n]+@ @gos; # strip newlines/CR's
## if ($prototype =~ m/SYSCALL_DEFINE0\s*\(\s*(a-zA-Z0-9_)*\s*\)/) {
if ($prototype =~ m/SYSCALL_DEFINE0/) {
$void = 1;
## $prototype = "long sys_$1(void)";
}
$prototype =~ s/SYSCALL_DEFINE.*\(/long sys_/; # fix return type & func name
if ($prototype =~ m/long (sys_.*?),/) {
$prototype =~ s/,/\(/;
} elsif ($void) {
$prototype =~ s/\)/\(void\)/;
}
# now delete all of the odd-number commas in $prototype
# so that arg types & arg names don't have a comma between them
my $count = 0;
my $len = length($prototype);
if ($void) {
$len = 0; # skip the for-loop
}
for (my $ix = 0; $ix < $len; $ix++) {
if (substr($prototype, $ix, 1) eq ',') {
$count++;
if ($count % 2 == 1) {
substr($prototype, $ix, 1) = ' ';
}
}
}
}
sub process_proto_function($$) {
my $x = shift;
my $file = shift;
$x =~ s@\/\/.*$@@gos; # strip C99-style comments to end of line
if ($x =~ m#\s*/\*\s+MACDOC\s*#io || ($x =~ /^#/ && $x !~ /^#\s*define/)) {
# do nothing
}
elsif ($x =~ /([^\{]*)/) {
$prototype .= $1;
}
if (($x =~ /\{/) || ($x =~ /\#\s*define/) || ($x =~ /;/)) {
$prototype =~ s@/\*.*?\*/@@gos; # strip comments.
$prototype =~ s@[\r\n]+@ @gos; # strip newlines/cr's.
$prototype =~ s@^\s+@@gos; # strip leading spaces
# Handle prototypes for function pointers like:
# int (*pcs_config)(struct foo)
$prototype =~ s@^(\S+\s+)\(\s*\*(\S+)\)@$1$2@gos;
if ($prototype =~ /SYSCALL_DEFINE/) {
syscall_munge();
}
if ($prototype =~ /TRACE_EVENT/ || $prototype =~ /DEFINE_EVENT/ ||
$prototype =~ /DEFINE_SINGLE_EVENT/)
{
tracepoint_munge($file);
}
dump_function($prototype, $file);
reset_state();
}
}
sub process_proto_type($$) {
my $x = shift;
my $file = shift;
$x =~ s@[\r\n]+@ @gos; # strip newlines/cr's.
$x =~ s@^\s+@@gos; # strip leading spaces
$x =~ s@\s+$@@gos; # strip trailing spaces
$x =~ s@\/\/.*$@@gos; # strip C99-style comments to end of line
if ($x =~ /^#/) {
# To distinguish preprocessor directive from regular declaration later.
$x .= ";";
}
while (1) {
if ( $x =~ /([^\{\};]*)([\{\};])(.*)/ ) {
if( length $prototype ) {
$prototype .= " "
}
$prototype .= $1 . $2;
($2 eq '{') && $brcount++;
($2 eq '}') && $brcount--;
if (($2 eq ';') && ($brcount == 0)) {
dump_declaration($prototype, $file);
reset_state();
last;
}
$x = $3;
} else {
$prototype .= $x;
last;
}
}
}
sub map_filename($) {
my $file;
my ($orig_file) = @_;
if (defined($ENV{'SRCTREE'})) {
$file = "$ENV{'SRCTREE'}" . "/" . $orig_file;
} else {
$file = $orig_file;
}
if (defined($source_map{$file})) {
$file = $source_map{$file};
}
return $file;
}
sub process_export_file($) {
my ($orig_file) = @_;
my $file = map_filename($orig_file);
if (!open(IN,"<$file")) {
print STDERR "Error: Cannot open file $file\n";
++$errors;
return;
}
while (<IN>) {
if (/$export_symbol/) {
next if (defined($nosymbol_table{$2}));
$function_table{$2} = 1;
}
if (/$export_symbol_ns/) {
next if (defined($nosymbol_table{$2}));
$function_table{$2} = 1;
}
}
close(IN);
}
#
# Parsers for the various processing states.
#
# STATE_NORMAL: looking for the /** to begin everything.
#
sub process_normal() {
if (/$doc_start/o) {
$state = STATE_NAME; # next line is always the function name
$in_doc_sect = 0;
$declaration_start_line = $. + 1;
}
}
#
# STATE_NAME: Looking for the "name - description" line
#
sub process_name($$) {
my $file = shift;
my $descr;
if (/$doc_block/o) {
$state = STATE_DOCBLOCK;
$contents = "";
$new_start_line = $.;
if ( $1 eq "" ) {
$section = $section_intro;
} else {
$section = $1;
}
} elsif (/$doc_decl/o) {
$identifier = $1;
my $is_kernel_comment = 0;
my $decl_start = qr{$doc_com};
# test for pointer declaration type, foo * bar() - desc
my $fn_type = qr{\w+\s*\*\s*};
my $parenthesis = qr{\(\w*\)};
my $decl_end = qr{[-:].*};
if (/^$decl_start([\w\s]+?)$parenthesis?\s*$decl_end?$/) {
$identifier = $1;
}
if ($identifier =~ m/^(struct|union|enum|typedef)\b\s*(\S*)/) {
$decl_type = $1;
$identifier = $2;
$is_kernel_comment = 1;
}
# Look for foo() or static void foo() - description; or misspelt
# identifier
elsif (/^$decl_start$fn_type?(\w+)\s*$parenthesis?\s*$decl_end?$/ ||
/^$decl_start$fn_type?(\w+.*)$parenthesis?\s*$decl_end$/) {
$identifier = $1;
$decl_type = 'function';
$identifier =~ s/^define\s+//;
$is_kernel_comment = 1;
}
$identifier =~ s/\s+$//;
$state = STATE_BODY;
# if there's no @param blocks need to set up default section
# here
$contents = "";
$section = $section_default;
$new_start_line = $. + 1;
if (/[-:](.*)/) {
# strip leading/trailing/multiple spaces
$descr= $1;
$descr =~ s/^\s*//;
$descr =~ s/\s*$//;
$descr =~ s/\s+/ /g;
$declaration_purpose = $descr;
$state = STATE_BODY_MAYBE;
} else {
$declaration_purpose = "";
}
if (!$is_kernel_comment) {
emit_warning("${file}:$.", "This comment starts with '/**', but isn't a kernel-doc comment. Refer Documentation/doc-guide/kernel-doc.rst\n$_");
$state = STATE_NORMAL;
}
if (($declaration_purpose eq "") && $verbose) {
emit_warning("${file}:$.", "missing initial short description on line:\n$_");
}
if ($identifier eq "" && $decl_type ne "enum") {
emit_warning("${file}:$.", "wrong kernel-doc identifier on line:\n$_");
$state = STATE_NORMAL;
}
if ($verbose) {
print STDERR "${file}:$.: info: Scanning doc for $decl_type $identifier\n";
}
} else {
emit_warning("${file}:$.", "Cannot understand $_ on line $. - I thought it was a doc line\n");
$state = STATE_NORMAL;
}
}
#
# STATE_BODY and STATE_BODY_MAYBE: the bulk of a kerneldoc comment.
#
sub process_body($$) {
my $file = shift;
# Until all named variable macro parameters are
# documented using the bare name (`x`) rather than with
# dots (`x...`), strip the dots:
if ($section =~ /\w\.\.\.$/) {
$section =~ s/\.\.\.$//;
if ($verbose) {
emit_warning("${file}:$.", "Variable macro arguments should be documented without dots\n");
}
}
if ($state == STATE_BODY_WITH_BLANK_LINE && /^\s*\*\s?\S/) {
dump_section($file, $section, $contents);
$section = $section_default;
$new_start_line = $.;
$contents = "";
}
if (/$doc_sect/i) { # case insensitive for supported section names
$newsection = $1;
$newcontents = $2;
# map the supported section names to the canonical names
if ($newsection =~ m/^description$/i) {
$newsection = $section_default;
} elsif ($newsection =~ m/^context$/i) {
$newsection = $section_context;
} elsif ($newsection =~ m/^returns?$/i) {
$newsection = $section_return;
} elsif ($newsection =~ m/^\@return$/) {
# special: @return is a section, not a param description
$newsection = $section_return;
}
if (($contents ne "") && ($contents ne "\n")) {
if (!$in_doc_sect && $verbose) {
emit_warning("${file}:$.", "contents before sections\n");
}
dump_section($file, $section, $contents);
$section = $section_default;
}
$in_doc_sect = 1;
$state = STATE_BODY;
$contents = $newcontents;
$new_start_line = $.;
while (substr($contents, 0, 1) eq " ") {
$contents = substr($contents, 1);
}
if ($contents ne "") {
$contents .= "\n";
}
$section = $newsection;
$leading_space = undef;
} elsif (/$doc_end/) {
if (($contents ne "") && ($contents ne "\n")) {
dump_section($file, $section, $contents);
$section = $section_default;
$contents = "";
}
# look for doc_com + <text> + doc_end:
if ($_ =~ m'\s*\*\s*[a-zA-Z_0-9:\.]+\*/') {
emit_warning("${file}:$.", "suspicious ending line: $_");
}
$prototype = "";
$state = STATE_PROTO;
$brcount = 0;
$new_start_line = $. + 1;
} elsif (/$doc_content/) {
if ($1 eq "") {
if ($section eq $section_context) {
dump_section($file, $section, $contents);
$section = $section_default;
$contents = "";
$new_start_line = $.;
$state = STATE_BODY;
} else {
if ($section ne $section_default) {
$state = STATE_BODY_WITH_BLANK_LINE;
} else {
$state = STATE_BODY;
}
$contents .= "\n";
}
} elsif ($state == STATE_BODY_MAYBE) {
# Continued declaration purpose
chomp($declaration_purpose);
$declaration_purpose .= " " . $1;
$declaration_purpose =~ s/\s+/ /g;
} else {
my $cont = $1;
if ($section =~ m/^@/ || $section eq $section_context) {
if (!defined $leading_space) {
if ($cont =~ m/^(\s+)/) {
$leading_space = $1;
} else {
$leading_space = "";
}
}
$cont =~ s/^$leading_space//;
}
$contents .= $cont . "\n";
}
} else {
# i dont know - bad line? ignore.
emit_warning("${file}:$.", "bad line: $_");
}
}
#
# STATE_PROTO: reading a function/whatever prototype.
#
sub process_proto($$) {
my $file = shift;
if (/$doc_inline_oneline/) {
$section = $1;
$contents = $2;
if ($contents ne "") {
$contents .= "\n";
dump_section($file, $section, $contents);
$section = $section_default;
$contents = "";
}
} elsif (/$doc_inline_start/) {
$state = STATE_INLINE;
$inline_doc_state = STATE_INLINE_NAME;
} elsif ($decl_type eq 'function') {
process_proto_function($_, $file);
} else {
process_proto_type($_, $file);
}
}
#
# STATE_DOCBLOCK: within a DOC: block.
#
sub process_docblock($$) {
my $file = shift;
if (/$doc_end/) {
dump_doc_section($file, $section, $contents);
$section = $section_default;
$contents = "";
$function = "";
%parameterdescs = ();
%parametertypes = ();
@parameterlist = ();
%sections = ();
@sectionlist = ();
$prototype = "";
$state = STATE_NORMAL;
} elsif (/$doc_content/) {
if ( $1 eq "" ) {
$contents .= $blankline;
} else {
$contents .= $1 . "\n";
}
}
}
#
# STATE_INLINE: docbook comments within a prototype.
#
sub process_inline($$) {
my $file = shift;
# First line (state 1) needs to be a @parameter
if ($inline_doc_state == STATE_INLINE_NAME && /$doc_inline_sect/o) {
$section = $1;
$contents = $2;
$new_start_line = $.;
if ($contents ne "") {
while (substr($contents, 0, 1) eq " ") {
$contents = substr($contents, 1);
}
$contents .= "\n";
}
$inline_doc_state = STATE_INLINE_TEXT;
# Documentation block end */
} elsif (/$doc_inline_end/) {
if (($contents ne "") && ($contents ne "\n")) {
dump_section($file, $section, $contents);
$section = $section_default;
$contents = "";
}
$state = STATE_PROTO;
$inline_doc_state = STATE_INLINE_NA;
# Regular text
} elsif (/$doc_content/) {
if ($inline_doc_state == STATE_INLINE_TEXT) {
$contents .= $1 . "\n";
# nuke leading blank lines
if ($contents =~ /^\s*$/) {
$contents = "";
}
} elsif ($inline_doc_state == STATE_INLINE_NAME) {
$inline_doc_state = STATE_INLINE_ERROR;
emit_warning("${file}:$.", "Incorrect use of kernel-doc format: $_");
}
}
}
sub process_file($) {
my $file;
my $initial_section_counter = $section_counter;
my ($orig_file) = @_;
$file = map_filename($orig_file);
if (!open(IN_FILE,"<$file")) {
print STDERR "Error: Cannot open file $file\n";
++$errors;
return;
}
$. = 1;
$section_counter = 0;
while (<IN_FILE>) {
while (s/\\\s*$//) {
$_ .= <IN_FILE>;
}
# Replace tabs by spaces
while ($_ =~ s/\t+/' ' x (length($&) * 8 - length($`) % 8)/e) {};
# Hand this line to the appropriate state handler
if ($state == STATE_NORMAL) {
process_normal();
} elsif ($state == STATE_NAME) {
process_name($file, $_);
} elsif ($state == STATE_BODY || $state == STATE_BODY_MAYBE ||
$state == STATE_BODY_WITH_BLANK_LINE) {
process_body($file, $_);
} elsif ($state == STATE_INLINE) { # scanning for inline parameters
process_inline($file, $_);
} elsif ($state == STATE_PROTO) {
process_proto($file, $_);
} elsif ($state == STATE_DOCBLOCK) {
process_docblock($file, $_);
}
}
# Make sure we got something interesting.
if ($initial_section_counter == $section_counter && $
output_mode ne "none") {
if ($output_selection == OUTPUT_INCLUDE) {
emit_warning("${file}:1", "'$_' not found\n")
for keys %function_table;
}
else {
emit_warning("${file}:1", "no structured comments found\n");
}
}
close IN_FILE;
}
if ($output_mode eq "rst") {
get_sphinx_version() if (!$sphinx_major);
}
$kernelversion = get_kernel_version();
# generate a sequence of code that will splice in highlighting information
# using the s// operator.
for (my $k = 0; $k < @highlights; $k++) {
my $pattern = $highlights[$k][0];
my $result = $highlights[$k][1];
# print STDERR "scanning pattern:$pattern, highlight:($result)\n";
$dohighlight .= "\$contents =~ s:$pattern:$result:gs;\n";
}
# Read the file that maps relative names to absolute names for
# separate source and object directories and for shadow trees.
if (open(SOURCE_MAP, "<.tmp_filelist.txt")) {
my ($relname, $absname);
while(<SOURCE_MAP>) {
chop();
($relname, $absname) = (split())[0..1];
$relname =~ s:^/+::;
$source_map{$relname} = $absname;
}
close(SOURCE_MAP);
}
if ($output_selection == OUTPUT_EXPORTED ||
$output_selection == OUTPUT_INTERNAL) {
push(@export_file_list, @ARGV);
foreach (@export_file_list) {
chomp;
process_export_file($_);
}
}
foreach (@ARGV) {
chomp;
process_file($_);
}
if ($verbose && $errors) {
print STDERR "$errors errors\n";
}
if ($verbose && $warnings) {
print STDERR "$warnings warnings\n";
}
if ($Werror && $warnings) {
print STDERR "$warnings warnings as Errors\n";
exit($warnings);
} else {
exit($output_mode eq "none" ? 0 : $errors)
}
__END__
=head1 OPTIONS
=head2 Output format selection (mutually exclusive):
=over 8
=item -man
Output troff manual page format.
=item -rst
Output reStructuredText format. This is the default.
=item -none
Do not output documentation, only warnings.
=back
=head2 Output format modifiers
=head3 reStructuredText only
=over 8
=item -sphinx-version VERSION
Use the ReST C domain dialect compatible with a specific Sphinx Version.
If not specified, kernel-doc will auto-detect using the sphinx-build version
found on PATH.
=back
=head2 Output selection (mutually exclusive):
=over 8
=item -export
Only output documentation for the symbols that have been exported using
EXPORT_SYMBOL() and related macros in any input FILE or -export-file FILE.
=item -internal
Only output documentation for the symbols that have NOT been exported using
EXPORT_SYMBOL() and related macros in any input FILE or -export-file FILE.
=item -function NAME
Only output documentation for the given function or DOC: section title.
All other functions and DOC: sections are ignored.
May be specified multiple times.
=item -nosymbol NAME
Exclude the specified symbol from the output documentation.
May be specified multiple times.
=back
=head2 Output selection modifiers:
=over 8
=item -no-doc-sections
Do not output DOC: sections.
=item -export-file FILE
Specify an additional FILE in which to look for EXPORT_SYMBOL information.
To be used with -export or -internal.
May be specified multiple times.
=back
=head3 reStructuredText only
=over 8
=item -enable-lineno
Enable output of .. LINENO lines.
=back
=head2 Other parameters:
=over 8
=item -h, -help
Print this help.
=item -v
Verbose output, more warnings and other information.
=item -Werror
Treat warnings as errors.
=back
=cut