#!/usr/bin/env perl # SPDX-License-Identifier: GPL-2.0 BEGIN { $Pod::Usage::Formatter = 'Pod::Text::Termcap'; } use strict; use warnings; use utf8; use Pod::Usage qw(pod2usage); use Getopt::Long; use File::Find; use IO::Handle; use Fcntl ':mode'; use Cwd 'abs_path'; use Data::Dumper; my $help = 0; my $hint = 0; my $man = 0; my $debug = 0; my $enable_lineno = 0; my $show_warnings = 1; my $prefix="Documentation/ABI"; my $sysfs_prefix="/sys"; my $search_string; # Debug options my $dbg_what_parsing = 1; my $dbg_what_open = 2; my $dbg_dump_abi_structs = 4; my $dbg_undefined = 8; $Data::Dumper::Indent = 1; $Data::Dumper::Terse = 1; # # If true, assumes that the description is formatted with ReST # my $description_is_rst = 1; GetOptions( "debug=i" => \$debug, "enable-lineno" => \$enable_lineno, "rst-source!" => \$description_is_rst, "dir=s" => \$prefix, 'help|?' => \$help, "show-hints" => \$hint, "search-string=s" => \$search_string, man => \$man ) or pod2usage(2); pod2usage(1) if $help; pod2usage(-exitstatus => 0, -noperldoc, -verbose => 2) if $man; pod2usage(2) if (scalar @ARGV < 1 || @ARGV > 2); my ($cmd, $arg) = @ARGV; pod2usage(2) if ($cmd ne "search" && $cmd ne "rest" && $cmd ne "validate" && $cmd ne "undefined"); pod2usage(2) if ($cmd eq "search" && !$arg); require Data::Dumper if ($debug & $dbg_dump_abi_structs); my %data; my %symbols; # # Displays an error message, printing file name and line # sub parse_error($$$$) { my ($file, $ln, $msg, $data) = @_; return if (!$show_warnings); $data =~ s/\s+$/\n/; print STDERR "Warning: file $file#$ln:\n\t$msg"; if ($data ne "") { print STDERR ". Line\n\t\t$data"; } else { print STDERR "\n"; } } # # Parse an ABI file, storing its contents at %data # sub parse_abi { my $file = $File::Find::name; my $mode = (stat($file))[2]; return if ($mode & S_IFDIR); return if ($file =~ m,/README,); return if ($file =~ m,/\.,); my $name = $file; $name =~ s,.*/,,; my $fn = $file; $fn =~ s,Documentation/ABI/,,; my $nametag = "File $fn"; $data{$nametag}->{what} = "File $name"; $data{$nametag}->{type} = "File"; $data{$nametag}->{file} = $name; $data{$nametag}->{filepath} = $file; $data{$nametag}->{is_file} = 1; $data{$nametag}->{line_no} = 1; my $type = $file; $type =~ s,.*/(.*)/.*,$1,; my $what; my $new_what; my $tag = ""; my $ln; my $xrefs; my $space; my @labels; my $label = ""; print STDERR "Opening $file\n" if ($debug & $dbg_what_open); open IN, $file; while(<IN>) { $ln++; if (m/^(\S+)(:\s*)(.*)/i) { my $new_tag = lc($1); my $sep = $2; my $content = $3; if (!($new_tag =~ m/(what|where|date|kernelversion|contact|description|users)/)) { if ($tag eq "description") { # New "tag" is actually part of # description. Don't consider it a tag $new_tag = ""; } elsif ($tag ne "") { parse_error($file, $ln, "tag '$tag' is invalid", $_); } } # Invalid, but it is a common mistake if ($new_tag eq "where") { parse_error($file, $ln, "tag 'Where' is invalid. Should be 'What:' instead", ""); $new_tag = "what"; } if ($new_tag =~ m/what/) { $space = ""; $content =~ s/[,.;]$//; push @{$symbols{$content}->{file}}, " $file:" . ($ln - 1); if ($tag =~ m/what/) { $what .= "\xac" . $content; } else { if ($what) { parse_error($file, $ln, "What '$what' doesn't have a description", "") if (!$data{$what}->{description}); foreach my $w(split /\xac/, $what) { $symbols{$w}->{xref} = $what; }; } $what = $content; $label = $content; $new_what = 1; } push @labels, [($content, $label)]; $tag = $new_tag; push @{$data{$nametag}->{symbols}}, $content if ($data{$nametag}->{what}); next; } if ($tag ne "" && $new_tag) { $tag = $new_tag; if ($new_what) { @{$data{$what}->{label_list}} = @labels if ($data{$nametag}->{what}); @labels = (); $label = ""; $new_what = 0; $data{$what}->{type} = $type; if (!defined($data{$what}->{file})) { $data{$what}->{file} = $name; $data{$what}->{filepath} = $file; } else { $data{$what}->{description} .= "\n\n" if (defined($data{$what}->{description})); if ($name ne $data{$what}->{file}) { $data{$what}->{file} .= " " . $name; $data{$what}->{filepath} .= " " . $file; } } print STDERR "\twhat: $what\n" if ($debug & $dbg_what_parsing); $data{$what}->{line_no} = $ln; } else { $data{$what}->{line_no} = $ln if (!defined($data{$what}->{line_no})); } if (!$what) { parse_error($file, $ln, "'What:' should come first:", $_); next; } if ($new_tag eq "description") { $sep =~ s,:, ,; $content = ' ' x length($new_tag) . $sep . $content; while ($content =~ s/\t+/' ' x (length($&) * 8 - length($`) % 8)/e) {} if ($content =~ m/^(\s*)(\S.*)$/) { # Preserve initial spaces for the first line $space = $1; $content = "$2\n"; $data{$what}->{$tag} .= $content; } else { undef($space); } } else { $data{$what}->{$tag} = $content; } next; } } # Store any contents before tags at the database if (!$tag && $data{$nametag}->{what}) { $data{$nametag}->{description} .= $_; next; } if ($tag eq "description") { my $content = $_; while ($content =~ s/\t+/' ' x (length($&) * 8 - length($`) % 8)/e) {} if (m/^\s*\n/) { $data{$what}->{$tag} .= "\n"; next; } if (!defined($space)) { # Preserve initial spaces for the first line if ($content =~ m/^(\s*)(\S.*)$/) { $space = $1; $content = "$2\n"; } } else { $space = "" if (!($content =~ s/^($space)//)); } $data{$what}->{$tag} .= $content; next; } if (m/^\s*(.*)/) { $data{$what}->{$tag} .= "\n$1"; $data{$what}->{$tag} =~ s/\n+$//; next; } # Everything else is error parse_error($file, $ln, "Unexpected content", $_); } $data{$nametag}->{description} =~ s/^\n+// if ($data{$nametag}->{description}); if ($what) { parse_error($file, $ln, "What '$what' doesn't have a description", "") if (!$data{$what}->{description}); foreach my $w(split /\xac/,$what) { $symbols{$w}->{xref} = $what; }; } close IN; } sub create_labels { my %labels; foreach my $what (keys %data) { next if ($data{$what}->{file} eq "File"); foreach my $p (@{$data{$what}->{label_list}}) { my ($content, $label) = @{$p}; $label = "abi_" . $label . " "; $label =~ tr/A-Z/a-z/; # Convert special chars to "_" $label =~s/([\x00-\x2f\x3a-\x40\x5b-\x60\x7b-\xff])/_/g; $label =~ s,_+,_,g; $label =~ s,_$,,; # Avoid duplicated labels while (defined($labels{$label})) { my @chars = ("A".."Z", "a".."z"); $label .= $chars[rand @chars]; } $labels{$label} = 1; $data{$what}->{label} = $label; # only one label is enough last; } } } # # Outputs the book on ReST format # # \b doesn't work well with paths. So, we need to define something else: # Boundaries are punct characters, spaces and end-of-line my $start = qr {(^|\s|\() }x; my $bondary = qr { ([,.:;\)\s]|\z) }x; my $xref_match = qr { $start(\/(sys|config|proc|dev|kvd)\/[^,.:;\)\s]+)$bondary }x; my $symbols = qr { ([\x01-\x08\x0e-\x1f\x21-\x2f\x3a-\x40\x7b-\xff]) }x; sub output_rest { create_labels(); my $part = ""; foreach my $what (sort { ($data{$a}->{type} eq "File") cmp ($data{$b}->{type} eq "File") || $a cmp $b } keys %data) { my $type = $data{$what}->{type}; my @file = split / /, $data{$what}->{file}; my @filepath = split / /, $data{$what}->{filepath}; if ($enable_lineno) { printf ".. LINENO %s%s#%s\n\n", $prefix, $file[0], $data{$what}->{line_no}; } my $w = $what; if ($type ne "File") { my $cur_part = $what; if ($what =~ '/') { if ($what =~ m#^(\/?(?:[\w\-]+\/?){1,2})#) { $cur_part = "Symbols under $1"; $cur_part =~ s,/$,,; } } if ($cur_part ne "" && $part ne $cur_part) { $part = $cur_part; my $bar = $part; $bar =~ s/./-/g; print "$part\n$bar\n\n"; } printf ".. _%s:\n\n", $data{$what}->{label}; my @names = split /\xac/,$w; my $len = 0; foreach my $name (@names) { $name =~ s/$symbols/\\$1/g; $name = "**$name**"; $len = length($name) if (length($name) > $len); } print "+-" . "-" x $len . "-+\n"; foreach my $name (@names) { printf "| %s", $name . " " x ($len - length($name)) . " |\n"; print "+-" . "-" x $len . "-+\n"; } print "\n"; } for (my $i = 0; $i < scalar(@filepath); $i++) { my $path = $filepath[$i]; my $f = $file[$i]; $path =~ s,.*/(.*/.*),$1,;; $path =~ s,[/\-],_,g;; my $fileref = "abi_file_".$path; if ($type eq "File") { print ".. _$fileref:\n\n"; } else { print "Defined on file :ref:`$f <$fileref>`\n\n"; } } if ($type eq "File") { my $bar = $w; $bar =~ s/./-/g; print "$w\n$bar\n\n"; } my $desc = ""; $desc = $data{$what}->{description} if (defined($data{$what}->{description})); $desc =~ s/\s+$/\n/; if (!($desc =~ /^\s*$/)) { if ($description_is_rst) { # Remove title markups from the description # Having titles inside ABI files will only work if extra # care would be taken in order to strictly follow the same # level order for each markup. $desc =~ s/\n[\-\*\=\^\~]+\n/\n\n/g; # Enrich text by creating cross-references my $new_desc = ""; my $init_indent = -1; my $literal_indent = -1; open(my $fh, "+<", \$desc); while (my $d = <$fh>) { my $indent = $d =~ m/^(\s+)/; my $spaces = length($indent); $init_indent = $indent if ($init_indent < 0); if ($literal_indent >= 0) { if ($spaces > $literal_indent) { $new_desc .= $d; next; } else { $literal_indent = -1; } } else { if ($d =~ /()::$/ && !($d =~ /^\s*\.\./)) { $literal_indent = $spaces; } } $d =~ s,Documentation/(?!devicetree)(\S+)\.rst,:doc:`/$1`,g; my @matches = $d =~ m,Documentation/ABI/([\w\/\-]+),g; foreach my $f (@matches) { my $xref = $f; my $path = $f; $path =~ s,.*/(.*/.*),$1,;; $path =~ s,[/\-],_,g;; $xref .= " <abi_file_" . $path . ">"; $d =~ s,\bDocumentation/ABI/$f\b,:ref:`$xref`,g; } # Seek for cross reference symbols like /sys/... @matches = $d =~ m/$xref_match/g; foreach my $s (@matches) { next if (!($s =~ m,/,)); if (defined($data{$s}) && defined($data{$s}->{label})) { my $xref = $s; $xref =~ s/$symbols/\\$1/g; $xref = ":ref:`$xref <" . $data{$s}->{label} . ">`"; $d =~ s,$start$s$bondary,$1$xref$2,g; } } $new_desc .= $d; } close $fh; print "$new_desc\n\n"; } else { $desc =~ s/^\s+//; # Remove title markups from the description, as they won't work $desc =~ s/\n[\-\*\=\^\~]+\n/\n\n/g; if ($desc =~ m/\:\n/ || $desc =~ m/\n[\t ]+/ || $desc =~ m/[\x00-\x08\x0b-\x1f\x7b-\xff]/) { # put everything inside a code block $desc =~ s/\n/\n /g; print "::\n\n"; print " $desc\n\n"; } else { # Escape any special chars from description $desc =~s/([\x00-\x08\x0b-\x1f\x21-\x2a\x2d\x2f\x3c-\x40\x5c\x5e-\x60\x7b-\xff])/\\$1/g; print "$desc\n\n"; } } } else { print "DESCRIPTION MISSING for $what\n\n" if (!$data{$what}->{is_file}); } if ($data{$what}->{symbols}) { printf "Has the following ABI:\n\n"; foreach my $content(@{$data{$what}->{symbols}}) { my $label = $data{$symbols{$content}->{xref}}->{label}; # Escape special chars from content $content =~s/([\x00-\x1f\x21-\x2f\x3a-\x40\x7b-\xff])/\\$1/g; print "- :ref:`$content <$label>`\n\n"; } } if (defined($data{$what}->{users})) { my $users = $data{$what}->{users}; $users =~ s/\n/\n\t/g; printf "Users:\n\t%s\n\n", $users if ($users ne ""); } } } # # Searches for ABI symbols # sub search_symbols { foreach my $what (sort keys %data) { next if (!($what =~ m/($arg)/)); my $type = $data{$what}->{type}; next if ($type eq "File"); my $file = $data{$what}->{filepath}; $what =~ s/\xac/, /g; my $bar = $what; $bar =~ s/./-/g; print "\n$what\n$bar\n\n"; my $kernelversion = $data{$what}->{kernelversion} if (defined($data{$what}->{kernelversion})); my $contact = $data{$what}->{contact} if (defined($data{$what}->{contact})); my $users = $data{$what}->{users} if (defined($data{$what}->{users})); my $date = $data{$what}->{date} if (defined($data{$what}->{date})); my $desc = $data{$what}->{description} if (defined($data{$what}->{description})); $kernelversion =~ s/^\s+// if ($kernelversion); $contact =~ s/^\s+// if ($contact); if ($users) { $users =~ s/^\s+//; $users =~ s/\n//g; } $date =~ s/^\s+// if ($date); $desc =~ s/^\s+// if ($desc); printf "Kernel version:\t\t%s\n", $kernelversion if ($kernelversion); printf "Date:\t\t\t%s\n", $date if ($date); printf "Contact:\t\t%s\n", $contact if ($contact); printf "Users:\t\t\t%s\n", $users if ($users); print "Defined on file(s):\t$file\n\n"; print "Description:\n\n$desc"; } } # Exclude /sys/kernel/debug and /sys/kernel/tracing from the search path sub dont_parse_special_attributes { if (($File::Find::dir =~ m,^/sys/kernel,)) { return grep {!/(debug|tracing)/ } @_; } if (($File::Find::dir =~ m,^/sys/fs,)) { return grep {!/(pstore|bpf|fuse)/ } @_; } return @_ } my %leaf; my %aliases; my @files; my %root; sub graph_add_file { my $file = shift; my $type = shift; my $dir = $file; $dir =~ s,^(.*/).*,$1,; $file =~ s,.*/,,; my $name; my $file_ref = \%root; foreach my $edge(split "/", $dir) { $name .= "$edge/"; if (!defined ${$file_ref}{$edge}) { ${$file_ref}{$edge} = { }; } $file_ref = \%{$$file_ref{$edge}}; ${$file_ref}{"__name"} = [ $name ]; } $name .= "$file"; ${$file_ref}{$file} = { "__name" => [ $name ] }; return \%{$$file_ref{$file}}; } sub graph_add_link { my $file = shift; my $link = shift; # Traverse graph to find the reference my $file_ref = \%root; foreach my $edge(split "/", $file) { $file_ref = \%{$$file_ref{$edge}} || die "Missing node!"; } # do a BFS my @queue; my %seen; my $st; push @queue, $file_ref; $seen{$start}++; while (@queue) { my $v = shift @queue; my @child = keys(%{$v}); foreach my $c(@child) { next if $seen{$$v{$c}}; next if ($c eq "__name"); if (!defined($$v{$c}{"__name"})) { printf STDERR "Error: Couldn't find a non-empty name on a children of $file/.*: "; print STDERR Dumper(%{$v}); exit; } # Add new name my $name = @{$$v{$c}{"__name"}}[0]; if ($name =~ s#^$file/#$link/#) { push @{$$v{$c}{"__name"}}, $name; } # Add child to the queue and mark as seen push @queue, $$v{$c}; $seen{$c}++; } } } my $escape_symbols = qr { ([\x01-\x08\x0e-\x1f\x21-\x29\x2b-\x2d\x3a-\x40\x7b-\xfe]) }x; sub parse_existing_sysfs { my $file = $File::Find::name; my $mode = (lstat($file))[2]; my $abs_file = abs_path($file); my @tmp; push @tmp, $file; push @tmp, $abs_file if ($abs_file ne $file); foreach my $f(@tmp) { # Ignore cgroup, as this is big and has zero docs under ABI return if ($f =~ m#^/sys/fs/cgroup/#); # Ignore firmware as it is documented elsewhere # Either ACPI or under Documentation/devicetree/bindings/ return if ($f =~ m#^/sys/firmware/#); # Ignore some sysfs nodes that aren't actually part of ABI return if ($f =~ m#/sections|notes/#); # Would need to check at # Documentation/admin-guide/kernel-parameters.txt, but this # is not easily parseable. return if ($f =~ m#/parameters/#); } if (S_ISLNK($mode)) { $aliases{$file} = $abs_file; return; } return if (S_ISDIR($mode)); # Trivial: file is defined exactly the same way at ABI What: return if (defined($data{$file})); return if (defined($data{$abs_file})); push @files, graph_add_file($abs_file, "file"); } sub get_leave($) { my $what = shift; my $leave; my $l = $what; my $stop = 1; $leave = $l; $leave =~ s,/$,,; $leave =~ s,.*/,,; $leave =~ s/[\(\)]//g; # $leave is used to improve search performance at # check_undefined_symbols, as the algorithm there can seek # for a small number of "what". It also allows giving a # hint about a leave with the same name somewhere else. # However, there are a few occurences where the leave is # either a wildcard or a number. Just group such cases # altogether. if ($leave =~ m/\.\*/ || $leave eq "" || $leave =~ /\\d/) { $leave = "others"; } return $leave; } my @not_found; sub check_file($$) { my $file_ref = shift; my $names_ref = shift; my @names = @{$names_ref}; my $file = $names[0]; my $found_string; my $leave = get_leave($file); if (!defined($leaf{$leave})) { $leave = "others"; } my @expr = @{$leaf{$leave}->{expr}}; die ("\rmissing rules for $leave") if (!defined($leaf{$leave})); my $path = $file; $path =~ s,(.*/).*,$1,; if ($search_string) { return if (!($file =~ m#$search_string#)); $found_string = 1; } for (my $i = 0; $i < @names; $i++) { if ($found_string && $hint) { if (!$i) { print STDERR "--> $names[$i]\n"; } else { print STDERR " $names[$i]\n"; } } foreach my $re (@expr) { print STDERR "$names[$i] =~ /^$re\$/\n" if ($debug && $dbg_undefined); if ($names[$i] =~ $re) { return; } } } if ($leave ne "others") { my @expr = @{$leaf{"others"}->{expr}}; for (my $i = 0; $i < @names; $i++) { foreach my $re (@expr) { print STDERR "$names[$i] =~ /^$re\$/\n" if ($debug && $dbg_undefined); if ($names[$i] =~ $re) { return; } } } } push @not_found, $file if (!$search_string || $found_string); if ($hint && (!$search_string || $found_string)) { my $what = $leaf{$leave}->{what}; $what =~ s/\xac/\n\t/g; if ($leave ne "others") { print STDERR "\r more likely regexes:\n\t$what\n"; } else { print STDERR "\r tested regexes:\n\t$what\n"; } } } sub check_undefined_symbols { my $num_files = scalar @files; my $next_i = 0; my $start_time = times; @files = sort @files; my $last_time = $start_time; # When either debug or hint is enabled, there's no sense showing # progress, as the progress will be overriden. if ($hint || ($debug && $dbg_undefined)) { $next_i = $num_files; } my $is_console; $is_console = 1 if (-t STDERR); for (my $i = 0; $i < $num_files; $i++) { my $file_ref = $files[$i]; my @names = @{$$file_ref{"__name"}}; check_file($file_ref, \@names); my $cur_time = times; if ($i == $next_i || $cur_time > $last_time + 1) { my $percent = $i * 100 / $num_files; my $tm = $cur_time - $start_time; my $time = sprintf "%d:%02d", int($tm), 60 * ($tm - int($tm)); printf STDERR "\33[2K\r", if ($is_console); printf STDERR "%s: processing sysfs files... %i%%: $names[0]", $time, $percent; printf STDERR "\n", if (!$is_console); STDERR->flush(); $next_i = int (($percent + 1) * $num_files / 100); $last_time = $cur_time; } } my $cur_time = times; my $tm = $cur_time - $start_time; my $time = sprintf "%d:%02d", int($tm), 60 * ($tm - int($tm)); printf STDERR "\33[2K\r", if ($is_console); printf STDERR "%s: processing sysfs files... done\n", $time; foreach my $file (@not_found) { print "$file not found.\n"; } } sub undefined_symbols { print STDERR "Reading $sysfs_prefix directory contents..."; find({ wanted =>\&parse_existing_sysfs, preprocess =>\&dont_parse_special_attributes, no_chdir => 1 }, $sysfs_prefix); print STDERR "done.\n"; $leaf{"others"}->{what} = ""; print STDERR "Converting ABI What fields into regexes..."; foreach my $w (sort keys %data) { foreach my $what (split /\xac/,$w) { next if (!($what =~ m/^$sysfs_prefix/)); # Convert what into regular expressions # Escape dot characters $what =~ s/\./\xf6/g; # Temporarily change [0-9]+ type of patterns $what =~ s/\[0\-9\]\+/\xff/g; # Temporarily change [\d+-\d+] type of patterns $what =~ s/\[0\-\d+\]/\xff/g; $what =~ s/\[(\d+)\]/\xf4$1\xf5/g; # Temporarily change [0-9] type of patterns $what =~ s/\[(\d)\-(\d)\]/\xf4$1-$2\xf5/g; # Handle multiple option patterns $what =~ s/[\{\<\[]([\w_]+)(?:[,|]+([\w_]+)){1,}[\}\>\]]/($1|$2)/g; # Handle wildcards $what =~ s,\*,.*,g; $what =~ s,/\xf6..,/.*,g; $what =~ s/\<[^\>]+\>/.*/g; $what =~ s/\{[^\}]+\}/.*/g; $what =~ s/\[[^\]]+\]/.*/g; $what =~ s/[XYZ]/.*/g; # Recover [0-9] type of patterns $what =~ s/\xf4/[/g; $what =~ s/\xf5/]/g; # Remove duplicated spaces $what =~ s/\s+/ /g; # Special case: this ABI has a parenthesis on it $what =~ s/sqrt\(x^2\+y^2\+z^2\)/sqrt\(x^2\+y^2\+z^2\)/; # Special case: drop comparition as in: # What: foo = <something> # (this happens on a few IIO definitions) $what =~ s,\s*\=.*$,,; # Escape all other symbols $what =~ s/$escape_symbols/\\$1/g; $what =~ s/\\\\/\\/g; $what =~ s/\\([\[\]\(\)\|])/$1/g; $what =~ s/(\d+)\\(-\d+)/$1$2/g; $what =~ s/\xff/\\d+/g; # Special case: IIO ABI which a parenthesis. $what =~ s/sqrt(.*)/sqrt\(.*\)/; # Simplify regexes with multiple .* $what =~ s#(?:\.\*){2,}##g; # $what =~ s#\.\*/\.\*#.*#g; # Recover dot characters $what =~ s/\xf6/\./g; my $leave = get_leave($what); my $added = 0; foreach my $l (split /\|/, $leave) { if (defined($leaf{$l})) { next if ($leaf{$l}->{what} =~ m/\b$what\b/); $leaf{$l}->{what} .= "\xac" . $what; $added = 1; } else { $leaf{$l}->{what} = $what; $added = 1; } } if ($search_string && $added) { print STDERR "What: $what\n" if ($what =~ m#$search_string#); } } } # Compile regexes foreach my $l (sort keys %leaf) { my @expr; foreach my $w(sort split /\xac/, $leaf{$l}->{what}) { push @expr, qr /^$w$/; } $leaf{$l}->{expr} = \@expr; } # Take links into account foreach my $link (sort keys %aliases) { my $abs_file = $aliases{$link}; graph_add_link($abs_file, $link); } print STDERR "done.\n"; check_undefined_symbols; } # Ensure that the prefix will always end with a slash # While this is not needed for find, it makes the patch nicer # with --enable-lineno $prefix =~ s,/?$,/,; if ($cmd eq "undefined" || $cmd eq "search") { $show_warnings = 0; } # # Parses all ABI files located at $prefix dir # find({wanted =>\&parse_abi, no_chdir => 1}, $prefix); print STDERR Data::Dumper->Dump([\%data], [qw(*data)]) if ($debug & $dbg_dump_abi_structs); # # Handles the command # if ($cmd eq "undefined") { undefined_symbols; } elsif ($cmd eq "search") { search_symbols; } else { if ($cmd eq "rest") { output_rest; } # Warn about duplicated ABI entries foreach my $what(sort keys %symbols) { my @files = @{$symbols{$what}->{file}}; next if (scalar(@files) == 1); printf STDERR "Warning: $what is defined %d times: @files\n", scalar(@files); } } __END__ =head1 NAME get_abi.pl - parse the Linux ABI files and produce a ReST book. =head1 SYNOPSIS B<get_abi.pl> [--debug <level>] [--enable-lineno] [--man] [--help] [--(no-)rst-source] [--dir=<dir>] [--show-hints] [--search-string <regex>] <COMMAND> [<ARGUMENT>] Where B<COMMAND> can be: =over 8 B<search> I<SEARCH_REGEX> - search for I<SEARCH_REGEX> inside ABI B<rest> - output the ABI in ReST markup language B<validate> - validate the ABI contents B<undefined> - existing symbols at the system that aren't defined at Documentation/ABI =back =head1 OPTIONS =over 8 =item B<--dir> Changes the location of the ABI search. By default, it uses the Documentation/ABI directory. =item B<--rst-source> and B<--no-rst-source> The input file may be using ReST syntax or not. Those two options allow selecting between a rst-compliant source ABI (B<--rst-source>), or a plain text that may be violating ReST spec, so it requres some escaping logic (B<--no-rst-source>). =item B<--enable-lineno> Enable output of .. LINENO lines. =item B<--debug> I<debug level> Print debug information according with the level, which is given by the following bitmask: - 1: Debug parsing What entries from ABI files; - 2: Shows what files are opened from ABI files; - 4: Dump the structs used to store the contents of the ABI files. =item B<--show-hints> Show hints about possible definitions for the missing ABI symbols. Used only when B<undefined>. =item B<--search-string> I<regex string> Show only occurences that match a search string. Used only when B<undefined>. =item B<--help> Prints a brief help message and exits. =item B<--man> Prints the manual page and exits. =back =head1 DESCRIPTION Parse the Linux ABI files from ABI DIR (usually located at Documentation/ABI), allowing to search for ABI symbols or to produce a ReST book containing the Linux ABI documentation. =head1 EXAMPLES Search for all stable symbols with the word "usb": =over 8 $ scripts/get_abi.pl search usb --dir Documentation/ABI/stable =back Search for all symbols that match the regex expression "usb.*cap": =over 8 $ scripts/get_abi.pl search usb.*cap =back Output all obsoleted symbols in ReST format =over 8 $ scripts/get_abi.pl rest --dir Documentation/ABI/obsolete =back =head1 BUGS Report bugs to Mauro Carvalho Chehab <mchehab+huawei@kernel.org> =head1 COPYRIGHT Copyright (c) 2016-2021 by Mauro Carvalho Chehab <mchehab+huawei@kernel.org>. License GPLv2: GNU GPL version 2 <http://gnu.org/licenses/gpl.html>. This is free software: you are free to change and redistribute it. There is NO WARRANTY, to the extent permitted by law. =cut