xref: /linux/Documentation/driver-api/media/drivers/ccs/mk-ccs-regs (revision da1d9caf95def6f0320819cf941c9fd1069ba9e1)
1#!/usr/bin/perl -w
2# SPDX-License-Identifier: GPL-2.0-only OR BSD-3-Clause
3# Copyright (C) 2019--2020 Intel Corporation
4
5use Getopt::Long qw(:config no_ignore_case);
6use File::Basename;
7
8my $ccsregs = "ccs-regs.asc";
9my $header;
10my $regarray;
11my $limitc;
12my $limith;
13my $kernel;
14my $help;
15
16GetOptions("ccsregs|c=s" => \$ccsregs,
17	   "header|e=s" => \$header,
18	   "regarray|r=s" => \$regarray,
19	   "limitc|l=s" => \$limitc,
20	   "limith|L=s" => \$limith,
21	   "kernel|k" => \$kernel,
22	   "help|h" => \$help) or die "can't parse options";
23
24$help = 1 if ! defined $header || ! defined $limitc || ! defined $limith;
25
26if (defined $help) {
27	print <<EOH
28$0 - Create CCS register definitions for C
29
30usage: $0 -c ccs-regs.asc -e header -r regarray -l limit-c -L limit-header [-k]
31
32	-c ccs register file
33	-e header file name
34	-r register description array file name
35	-l limit and capability array file name
36	-L limit and capability header file name
37	-k generate files for kernel space consumption
38EOH
39	  ;
40	exit 0;
41}
42
43my $lh_hdr = ! defined $kernel
44	? '#include "ccs-os.h"' . "\n"
45	: "#include <linux/bits.h>\n#include <linux/types.h>\n";
46my $uint32_t = ! defined $kernel ? 'uint32_t' : 'u32';
47my $uint16_t = ! defined $kernel ? 'uint16_t' : 'u16';
48
49open(my $R, "< $ccsregs") or die "can't open $ccsregs";
50
51open(my $H, "> $header") or die "can't open $header";
52my $A;
53if (defined $regarray) {
54	open($A, "> $regarray") or die "can't open $regarray";
55}
56open(my $LC, "> $limitc") or die "can't open $limitc";
57open(my $LH, "> $limith") or die "can't open $limith";
58
59my %this;
60
61sub is_limit_reg($) {
62	my $addr = hex $_[0];
63
64	return 0 if $addr < 0x40; # weed out status registers
65	return 0 if $addr >= 0x100 && $addr < 0xfff; # weed out configuration registers
66
67	return 1;
68}
69
70my $uc_header = basename uc $header;
71$uc_header =~ s/[^A-Z0-9]/_/g;
72
73my $copyright = "/* Copyright (C) 2019--2020 Intel Corporation */\n";
74my $license = "SPDX-License-Identifier: GPL-2.0-only OR BSD-3-Clause";
75my $note = "/*\n * Generated by $0;\n * do not modify.\n */\n";
76
77for my $fh ($A, $LC) {
78	print $fh "// $license\n$copyright$note\n" if defined $fh;
79}
80
81for my $fh ($H, $LH) {
82	print $fh "/* $license */\n$copyright$note\n";
83}
84
85sub bit_def($) {
86	my $bit = shift @_;
87
88	return "BIT($bit)" if defined $kernel;
89	return "(1U << $bit)" if $bit =~ /^[a-zA-Z0-9_]+$/;
90	return "(1U << ($bit))";
91}
92
93print $H <<EOF
94#ifndef __${uc_header}__
95#define __${uc_header}__
96
97EOF
98  ;
99
100print $H "#include <linux/bits.h>\n\n" if defined $kernel;
101
102print $H <<EOF
103#define CCS_FL_BASE		16
104EOF
105  ;
106
107print $H "#define CCS_FL_16BIT		" . bit_def("CCS_FL_BASE") . "\n";
108print $H "#define CCS_FL_32BIT		" . bit_def("CCS_FL_BASE + 1") . "\n";
109print $H "#define CCS_FL_FLOAT_IREAL	" . bit_def("CCS_FL_BASE + 2") . "\n";
110print $H "#define CCS_FL_IREAL		" . bit_def("CCS_FL_BASE + 3") . "\n";
111
112print $H <<EOF
113#define CCS_R_ADDR(r)		((r) & 0xffff)
114
115EOF
116  ;
117
118print $A <<EOF
119#include <stdint.h>
120#include <stdio.h>
121#include "ccs-extra.h"
122#include "ccs-regs.h"
123
124EOF
125	if defined $A;
126
127my $uc_limith = basename uc $limith;
128$uc_limith =~ s/[^A-Z0-9]/_/g;
129
130print $LH <<EOF
131#ifndef __${uc_limith}__
132#define __${uc_limith}__
133
134$lh_hdr
135struct ccs_limit {
136	$uint32_t reg;
137	$uint16_t size;
138	$uint16_t flags;
139	const char *name;
140};
141
142EOF
143  ;
144print $LH "#define CCS_L_FL_SAME_REG	" . bit_def(0) . "\n\n";
145
146print $LH <<EOF
147extern const struct ccs_limit ccs_limits[];
148
149EOF
150  ;
151
152print $LC <<EOF
153#include "ccs-limits.h"
154#include "ccs-regs.h"
155
156const struct ccs_limit ccs_limits[] = {
157EOF
158  ;
159
160my $limitcount = 0;
161my $argdescs;
162my $reglist = "const struct ccs_reg_desc ccs_reg_desc[] = {\n";
163
164sub name_split($$) {
165	my ($name, $addr) = @_;
166	my $args;
167
168	$name =~ /([^\(]+?)(\(.*)/;
169	($name, $args) = ($1, $2);
170	$args = [split /,\s*/, $args];
171	foreach my $t (@$args) {
172		$t =~ s/[\(\)]//g;
173		$t =~ s/\//\\\//g;
174	}
175
176	return ($name, $addr, $args);
177}
178
179sub tabconv($) {
180	$_ = shift;
181
182	my @l = split "\n", $_;
183
184	map {
185		s/ {8,8}/\t/g;
186		s/\t\K +//;
187	} @l;
188
189	return (join "\n", @l) . "\n";
190}
191
192sub elem_size(@) {
193	my @flags = @_;
194
195	return 2 if grep /^16$/, @flags;
196	return 4 if grep /^32$/, @flags;
197	return 1;
198}
199
200sub arr_size($) {
201	my $this = $_[0];
202	my $size = $this->{elsize};
203	my $h = $this->{argparams};
204
205	foreach my $arg (@{$this->{args}}) {
206		my $apref = $h->{$arg};
207
208		$size *= $apref->{max} - $apref->{min} + 1;
209	}
210
211	return $size;
212}
213
214sub print_args($$$) {
215	my ($this, $postfix, $is_same_reg) = @_;
216	my ($args, $argparams, $name) =
217	  ($this->{args}, $this->{argparams}, $this->{name});
218	my $varname = "ccs_reg_arg_" . (lc $name) . $postfix;
219	my @mins;
220	my @sorted_args = @{$this->{sorted_args}};
221	my $lim_arg;
222	my $size = arr_size($this);
223
224	$argdescs .= "static const struct ccs_reg_arg " . $varname . "[] = {\n";
225
226	foreach my $sorted_arg (@sorted_args) {
227		push @mins, $argparams->{$sorted_arg}->{min};
228	}
229
230	foreach my $sorted_arg (@sorted_args) {
231		my $h = $argparams->{$sorted_arg};
232
233		$argdescs .= "\t{ \"$sorted_arg\", $h->{min}, $h->{max}, $h->{elsize} },\n";
234
235		$lim_arg .= defined $lim_arg ? ", $h->{min}" : "$h->{min}";
236	}
237
238	$argdescs .= "};\n\n";
239
240	$reglist .= "\t{ CCS_R_" . (uc $name) . "(" . (join ",", (@mins)) .
241	  "), $size, sizeof($varname) / sizeof(*$varname)," .
242	    " \"" . (lc $name) . "\", $varname },\n";
243
244	print $LC tabconv sprintf "\t{ CCS_R_" . (uc $name) . "($lim_arg), " .
245	  $size . ", " . ($is_same_reg ? "CCS_L_FL_SAME_REG" : "0") .
246	    ", \"$name" . (defined $this->{discontig} ? " $lim_arg" : "") . "\" },\n"
247	      if is_limit_reg $this->{base_addr};
248}
249
250my $hdr_data;
251
252while (<$R>) {
253	chop;
254	s/^\s*//;
255	next if /^[#;]/ || /^$/;
256	if (s/^-\s*//) {
257		if (s/^b\s*//) {
258			my ($bit, $addr) = split /\t+/;
259			$bit = uc $bit;
260			$hdr_data .= sprintf "#define %-62s %s", "CCS_" . (uc ${this{name}}) ."_$bit", bit_def($addr) . "\n";
261		} elsif (s/^f\s*//) {
262			s/[,\.-]/_/g;
263			my @a = split /\s+/;
264			my ($msb, $lsb, $this_field) = reverse @a;
265		        @a = ( { "name" => "SHIFT", "addr" => $lsb, "fmt" => "%uU", },
266			       { "name" => "MASK", "addr" => (1 << ($msb + 1)) - 1 - ((1 << $lsb) - 1), "fmt" => "0x%" . join(".", ($this{"elsize"} >> 2) x 2) . "x" } );
267			$this{"field"} = $this_field;
268			foreach my $ar (@a) {
269				#print $ar->{fmt}."\n";
270				$hdr_data .= sprintf "#define %-62s " . $ar->{"fmt"} . "\n", "CCS_" . (uc $this{"name"}) . (defined $this_field ? "_" . uc $this_field : "") . "_" . $ar->{"name"}, $ar->{"addr"} . "\n";
271			}
272		} elsif (s/^e\s*//) {
273			s/[,\.-]/_/g;
274			my ($enum, $addr) = split /\s+/;
275			$enum = uc $enum;
276			$hdr_data .= sprintf "#define %-62s %s", "CCS_" . (uc ${this{name}}) . (defined $this{"field"} ? "_" . uc $this{"field"} : "") ."_$enum", $addr . ($addr =~ /0x/i ? "" : "U") . "\n";
277		} elsif (s/^l\s*//) {
278			my ($arg, $min, $max, $elsize, @discontig) = split /\s+/;
279			my $size;
280
281			foreach my $num ($min, $max) {
282				$num = hex $num if $num =~ /0x/i;
283			}
284
285			$hdr_data .= sprintf "#define %-62s %s", "CCS_LIM_" . (uc ${this{name}} . "_MIN_$arg"), $min . ($min =~ /0x/i ? "" : "U") . "\n";
286			$hdr_data .= sprintf "#define %-62s %s", "CCS_LIM_" . (uc ${this{name}} . "_MAX_$arg"), $max . ($max =~ /0x/i ? "" : "U") . "\n";
287
288			my $h = $this{argparams};
289
290			$h->{$arg} = { "min" => $min,
291				       "max" => $max,
292				       "elsize" => $elsize =~ /^0x/ ? hex $elsize : $elsize,
293				       "discontig" => \@discontig };
294
295			$this{discontig} = $arg if @discontig;
296
297			next if $#{$this{args}} + 1 != scalar keys %{$this{argparams}};
298
299			my $reg_formula = "($this{addr}";
300			my $lim_formula;
301
302			foreach my $arg (@{$this{args}}) {
303				my $d = $h->{$arg}->{discontig};
304				my $times = $h->{$arg}->{elsize} != 1 ?
305				  " * " . $h->{$arg}->{elsize} : "";
306
307				if (@$d) {
308					my ($lim, $offset) = split /,/, $d->[0];
309
310					$reg_formula .= " + (($arg) < $lim ? ($arg)$times : $offset + (($arg) - $lim)$times)";
311				} else {
312					$reg_formula .= " + ($arg)$times";
313				}
314
315				$lim_formula .= (defined $lim_formula ? " + " : "") . "($arg)$times";
316			}
317
318			$reg_formula .= ")\n";
319			$lim_formula =~ s/^\(([a-z0-9]+)\)$/$1/i;
320
321			print $H tabconv sprintf("#define %-62s %s", "CCS_R_" . (uc $this{name}) .
322			  $this{arglist}, $reg_formula);
323
324			print $H tabconv $hdr_data;
325			undef $hdr_data;
326
327			# Sort arguments in descending order by size
328			@{$this{sorted_args}} = sort {
329				$h->{$a}->{elsize} <= $h->{$b}->{elsize}
330			} @{$this{args}};
331
332			if (defined $this{discontig}) {
333				my $da = $this{argparams}->{$this{discontig}};
334				my ($first_discontig) = split /,/, $da->{discontig}->[0];
335				my $max = $da->{max};
336
337				$da->{max} = $first_discontig - 1;
338				print_args(\%this, "", 0);
339
340				$da->{min} = $da->{max} + 1;
341				$da->{max} = $max;
342				print_args(\%this, $first_discontig, 1);
343			} else {
344				print_args(\%this, "", 0);
345			}
346
347			next unless is_limit_reg $this{base_addr};
348
349			print $LH tabconv sprintf "#define %-63s%s\n",
350			  "CCS_L_" . (uc $this{name}) . "_OFFSET(" .
351			    (join ", ", @{$this{args}}) . ")", "($lim_formula)";
352		}
353
354		if (! @{$this{args}}) {
355			print $H tabconv($hdr_data);
356			undef $hdr_data;
357		}
358
359		next;
360	}
361
362	my ($name, $addr, @flags) = split /\t+/, $_;
363	my $args = [];
364
365	my $sp;
366
367	($name, $addr, $args) = name_split($name, $addr) if /\(.*\)/;
368
369	$name =~ s/[,\.-]/_/g;
370
371	my $flagstring = "";
372	my $size = elem_size(@flags);
373	$flagstring .= "| CCS_FL_16BIT " if $size eq "2";
374	$flagstring .= "| CCS_FL_32BIT " if $size eq "4";
375	$flagstring .= "| CCS_FL_FLOAT_IREAL " if grep /^float_ireal$/, @flags;
376	$flagstring .= "| CCS_FL_IREAL " if grep /^ireal$/, @flags;
377	$flagstring =~ s/^\| //;
378	$flagstring =~ s/ $//;
379	$flagstring = "($flagstring)" if $flagstring =~ /\|/;
380	my $base_addr = $addr;
381	$addr = "($addr | $flagstring)" if $flagstring ne "";
382
383	my $arglist = @$args ? "(" . (join ", ", @$args) . ")" : "";
384	$hdr_data .= sprintf "#define %-62s %s\n", "CCS_R_" . (uc $name), $addr
385	  if !@$args;
386
387	$name =~ s/\(.*//;
388
389	%this = ( name => $name,
390		  addr => $addr,
391		  base_addr => $base_addr,
392		  argparams => {},
393		  args => $args,
394		  arglist => $arglist,
395		  elsize => $size,
396		);
397
398	if (!@$args) {
399		$reglist .= "\t{ CCS_R_" . (uc $name) . ", 1,  0, \"" . (lc $name) . "\", NULL },\n";
400		print $H tabconv $hdr_data;
401		undef $hdr_data;
402
403		print $LC tabconv sprintf "\t{ CCS_R_" . (uc $name) . ", " .
404		  $this{elsize} . ", 0, \"$name\" },\n"
405		    if is_limit_reg $this{base_addr};
406	}
407
408	print $LH tabconv sprintf "#define %-63s%s\n",
409	  "CCS_L_" . (uc $this{name}), $limitcount++
410	    if is_limit_reg $this{base_addr};
411}
412
413if (defined $A) {
414	print $A $argdescs, $reglist;
415
416	print $A "\t{ 0 }\n";
417
418	print $A "};\n";
419}
420
421print $H "\n#endif /* __${uc_header}__ */\n";
422
423print $LH tabconv sprintf "#define %-63s%s\n", "CCS_L_LAST", $limitcount;
424
425print $LH "\n#endif /* __${uc_limith}__ */\n";
426
427print $LC "\t{ 0 } /* Guardian */\n";
428print $LC "};\n";
429
430close($R);
431close($H);
432close($A) if defined $A;
433close($LC);
434close($LH);
435