%{ /* * Advanced Linux Sound Architecture Control Program * Copyright (c) 1998 by Perex, APS, University of South Bohemia * * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software * Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA. * */ #include "alsactl.h" #include /* insgus_lexer.c */ int yylex( void ); extern char cfgfile[]; extern int linecount; extern FILE *yyin; /* local functions */ static void yyerror( char *, ... ); static void select_soundcard( char *name ); static void select_mixer( char *name ); static void select_pcm( char *name ); static void select_rawmidi( char *name ); static void select_mixer_channel( char *name ); static void set_mixer_channel( int left, int right ); static void set_mixer_channel_flags( unsigned int mask, unsigned int flags ); static void set_mixer_channel_end( void ); #define SWITCH_CONTROL 0 #define SWITCH_MIXER 1 #define SWITCH_PCM 2 #define SWITCH_RAWMIDI 3 static void select_control_switch( char *name ); static void select_mixer_switch( char *name ); static void select_pcm_playback_switch( char *name ); static void select_pcm_record_switch( char *name ); static void select_rawmidi_output_switch( char *name ); static void select_rawmidi_input_switch( char *name ); static void set_switch_boolean( int val ); static void set_switch_integer( int val ); static void set_switch_iec958ocs_begin( int end ); static void set_switch_iec958ocs( int idx, unsigned short val, unsigned short mask ); /* local variables */ static struct soundcard *Xsoundcard = NULL; static struct mixer *Xmixer = NULL; static struct pcm *Xpcm = NULL; static struct rawmidi *Xrawmidi = NULL; static struct mixer_channel *Xmixerchannel = NULL; static unsigned int Xmixerchannelflags = 0; static int Xswitchtype = SWITCH_CONTROL; static int *Xswitchchange = NULL; static void *Xswitch = NULL; static unsigned int Xswitchiec958ocs = 0; static unsigned short Xswitchiec958ocs1[16]; %} %start lines %union { int b_value; int i_value; char *s_value; unsigned char *a_value; }; %token L_TRUE L_FALSE %token L_INTEGER %token L_STRING %token L_BYTEARRAY /* types */ %token L_INTEGER L_STRING /* boolean */ %token L_FALSE L_TRUE /* misc */ %token L_DOUBLE1 /* other keywords */ %token L_SOUNDCARD L_MIXER L_CHANNEL L_STEREO L_MONO L_SWITCH L_RAWDATA %token L_CONTROL L_PCM L_RAWMIDI L_PLAYBACK L_RECORD L_OUTPUT L_INPUT %token L_IEC958OCS L_3D L_RESET L_USER L_VALID L_DATA L_PROTECT L_PRE2 %token L_FSLOCK L_TYPE L_GSTATUS L_ENABLE L_DISABLE L_MUTE L_SWOUT L_SWIN %type boolean %type integer %type string %type bytearray %% lines : line | lines line ; line : L_SOUNDCARD '(' string { select_soundcard( $3 ); } L_DOUBLE1 soundcards { select_soundcard( NULL ); } '}' | error { yyerror( "unknown keyword in top level" ); } ; soundcards : soundcard | soundcards soundcard ; soundcard : L_CONTROL '{' controls '}' | L_MIXER '(' string { select_mixer( $3 ); } L_DOUBLE1 mixers { select_mixer( NULL ); } '}' | L_PCM '(' string { select_pcm( $3 ); } L_DOUBLE1 pcms { select_pcm( NULL ); } '}' | L_RAWMIDI '(' string { select_rawmidi( $3 ); } L_DOUBLE1 rawmidis { select_rawmidi( NULL ); } '}' | error { yyerror( "unknown keyword in soundcard{} level" ); } ; controls : control | controls control ; control : L_SWITCH '(' string { select_control_switch( $3 ); } ',' switches ')' { select_control_switch( NULL ); } | error { yyerror( "unknown keyword in control{} level" ); } ; mixers : mixer | mixers mixer ; mixer : L_CHANNEL '(' string { select_mixer_channel( $3 ); } ',' mvalues ')' { set_mixer_channel_end(); select_mixer_channel( NULL ); } | L_SWITCH '(' string { select_mixer_switch( $3 ); } ',' switches ')' { select_mixer_switch( NULL ); } | error { yyerror( "unknown keyword in mixer{} level" ); } ; mvalues : mvalue | mvalues mvalue ; mvalue : L_STEREO '(' xmchls ',' xmchrs ')' | L_MONO '(' xmchs ')' | error { yyerror( "unknown keyword in mixer channel{} level" ); } ; xmchls : xmchl | xmchls xmchl ; xmchl : L_INTEGER { set_mixer_channel( $1, -1 ); } | L_MUTE { set_mixer_channel_flags( SND_MIXER_FLG_MUTE_LEFT, SND_MIXER_FLG_MUTE_LEFT ); } | L_RECORD { set_mixer_channel_flags( SND_MIXER_FLG_RECORD_LEFT, SND_MIXER_FLG_RECORD_LEFT ); } | L_SWOUT { set_mixer_channel_flags( SND_MIXER_FLG_LTOR_OUT, SND_MIXER_FLG_LTOR_OUT ); } | L_SWIN { set_mixer_channel_flags( SND_MIXER_FLG_LTOR_IN, SND_MIXER_FLG_LTOR_IN ); } | error { yyerror( "unknown keyword in left channel section..." ); } ; xmchrs : xmchr | xmchrs xmchr ; xmchr : L_INTEGER { set_mixer_channel( -1, $1 ); } | L_MUTE { set_mixer_channel_flags( SND_MIXER_FLG_MUTE_RIGHT, SND_MIXER_FLG_MUTE_RIGHT ); } | L_RECORD { set_mixer_channel_flags( SND_MIXER_FLG_RECORD_RIGHT, SND_MIXER_FLG_RECORD_RIGHT ); } | L_SWOUT { set_mixer_channel_flags( SND_MIXER_FLG_RTOL_OUT, SND_MIXER_FLG_RTOL_OUT ); } | L_SWIN { set_mixer_channel_flags( SND_MIXER_FLG_RTOL_IN, SND_MIXER_FLG_RTOL_IN ); } | error { yyerror( "unknown keyword in right channel section..." ); } ; xmchs : xmch | xmchs xmch ; xmch : L_INTEGER { set_mixer_channel( $1, $1 ); } | L_MUTE { set_mixer_channel_flags( SND_MIXER_FLG_MUTE, SND_MIXER_FLG_MUTE ); } | L_RECORD { set_mixer_channel_flags( SND_MIXER_FLG_RECORD, SND_MIXER_FLG_RECORD ); } | error { yyerror( "unknown keyword in mono channel section..." ); } ; pcms : pcm | pcms pcm ; pcm : L_PLAYBACK '{' playbacks '}' | L_RECORD '{' records '}' | error { yyerror( "unknown keyword in pcm{} section" ); } ; playbacks : playback | playbacks playback ; playback : L_SWITCH '(' string { select_pcm_playback_switch( $3 ); } ',' switches ')' { select_pcm_playback_switch( NULL ); } | error { yyerror( "unknown keyword in playback{} section" ); } ; records : record | records record ; record : L_SWITCH '(' string { select_pcm_record_switch( $3 ); } ',' switches ')' { select_pcm_record_switch( NULL ); } | error { yyerror( "unknown keyword in record{} section" ); } ; rawmidis : rawmidi | rawmidis rawmidi ; rawmidi : L_INPUT '{' inputs '}' | L_OUTPUT '{' outputs '}' ; inputs : input | inputs input ; input : L_SWITCH '(' string { select_rawmidi_input_switch( $3 ); } ',' switches ')' { select_rawmidi_input_switch( NULL ); } | error { yyerror( "unknown keyword in input{} section" ); } ; outputs : output | outputs output ; output : L_SWITCH '(' string { select_rawmidi_output_switch( $3 ); } ',' switches ')' { select_rawmidi_output_switch( NULL ); } | error { yyerror( "unknown keyword in output{} section" ); } ; switches : switch | switches switch ; switch : L_TRUE { set_switch_boolean( 1 ); } | L_FALSE { set_switch_boolean( 0 ); } | L_INTEGER { set_switch_integer( $1 ); } | L_IEC958OCS '(' { set_switch_iec958ocs_begin( 0 ); } iec958ocs { set_switch_iec958ocs_begin( 1 ); } ')' | error { yyerror( "unknown keyword in switch() data parameter" ); } ; iec958ocs : iec958ocs1 | iec958ocs iec958ocs1 ; iec958ocs1 : L_ENABLE { set_switch_iec958ocs( 0, 1, 0 ); } | L_DISABLE { set_switch_iec958ocs( 0, 0, 0 ); } | L_3D { set_switch_iec958ocs( 4, 0x2000, ~0x2000 ); } | L_RESET { set_switch_iec958ocs( 4, 0x0040, ~0x0040 ); } | L_USER { set_switch_iec958ocs( 4, 0x0020, ~0x0020 ); } | L_VALID { set_switch_iec958ocs( 4, 0x0010, ~0x0010 ); } | L_DATA { set_switch_iec958ocs( 5, 0x0002, ~0x0002 ); } | L_PROTECT { set_switch_iec958ocs( 5, 0x0004, ~0x0004 ); } | L_PRE2 { set_switch_iec958ocs( 5, 0x0008, ~0x0018 ); } | L_FSLOCK { set_switch_iec958ocs( 5, 0x0020, ~0x0020 ); } | L_TYPE '(' integer ')' { set_switch_iec958ocs( 5, ($3 & 0x7f) << 6, ~(0x7f<<6) ); } | L_GSTATUS { set_switch_iec958ocs( 5, 0x2000, ~0x2000 ); } | error { yyerror( "unknown keyword in iec958ocs1() arguments" ); } ; boolean : L_TRUE { $$ = 1; } | L_FALSE { $$ = 0; } | error { yyerror( "unknown boolean value" ); } ; integer : L_INTEGER { $$ = $1; } | error { yyerror( "unknown integer value" ); } ; string : L_STRING { $$ = $1; } | error { yyerror( "unknown string value" ); } ; bytearray : L_BYTEARRAY { $$ = $1; } | error { yyerror( "unknown byte array value" ); } ; %% static void yyerror( char *string, ... ) { char errstr[ 1024 ]; va_list vars; va_start( vars, string ); vsprintf( errstr, string, vars ); va_end( vars ); error( "Error in configuration file '%s' (line %i): %s", cfgfile, linecount + 1, errstr ); exit( 1 ); } static void select_soundcard( char *name ) { struct soundcard *soundcard; if ( !name ) { Xsoundcard = NULL; return; } for ( soundcard = soundcards; soundcard; soundcard = soundcard -> next ) if ( !strcmp( soundcard -> control.hwinfo.id, name ) ) { Xsoundcard = soundcard; free( name ); return; } yyerror( "Cannot find soundcard '%s'...", name ); free( name ); } static void select_mixer( char *name ) { struct mixer *mixer; if ( !name ) { Xmixer = NULL; return; } for ( mixer = Xsoundcard -> mixers; mixer; mixer = mixer -> next ) if ( !strcmp( mixer -> info.name, name ) ) { Xmixer = mixer; free( name ); return; } yyerror( "Cannot find mixer '%s' for soundcard '%s'...", name, Xsoundcard -> control.hwinfo.id ); free( name ); } static void select_pcm( char *name ) { struct pcm *pcm; if ( !name ) { Xpcm = NULL; return; } for ( pcm = Xsoundcard -> pcms; pcm; pcm = pcm -> next ) if ( !strcmp( pcm -> info.name, name ) ) { Xpcm = pcm; free( name ); return; } yyerror( "Cannot find pcm device '%s' for soundcard '%s'...", name, Xsoundcard -> control.hwinfo.id ); free( name ); } static void select_rawmidi( char *name ) { struct rawmidi *rawmidi; if ( !name ) { Xrawmidi = NULL; return; } for ( rawmidi = Xsoundcard -> rawmidis; rawmidi; rawmidi = rawmidi -> next ) if ( !strcmp( rawmidi -> info.name, name ) ) { Xrawmidi = rawmidi; free( name ); return; } yyerror( "Cannot find rawmidi device '%s' for soundcard '%s'...", name, Xsoundcard -> control.hwinfo.id ); free( name ); } static void select_mixer_channel( char *name ) { struct mixer_channel *channel; if ( !name ) { Xmixerchannel = NULL; return; } for ( channel = Xmixer -> channels; channel; channel = channel -> next ) if ( !strcmp( channel -> i.name, name ) ) { Xmixerchannel = channel; Xmixerchannelflags = Xmixerchannel -> c.flags & ~(SND_MIXER_FLG_RECORD | SND_MIXER_FLG_MUTE | SND_MIXER_FLG_SWITCH_OUT | SND_MIXER_FLG_SWITCH_IN | SND_MIXER_FLG_DECIBEL | SND_MIXER_FLG_FORCE); free( name ); return; } yyerror( "Cannot find mixer channel '%s'...", name ); free( name ); } static void set_mixer_channel( int left, int right ) { if ( left >= 0 ) { if ( Xmixerchannel -> i.min > left || Xmixerchannel -> i.max < left ) yyerror( "Value out of range (%i-%i)...", Xmixerchannel -> i.min, Xmixerchannel -> i.max ); if ( Xmixerchannel -> c.left != left ) Xmixerchannel -> change = 1; Xmixerchannel -> c.left = left; } if ( right >= 0 ) { if ( Xmixerchannel -> i.min > right || Xmixerchannel -> i.max < right ) yyerror( "Value out of range (%i-%i)...", Xmixerchannel -> i.min, Xmixerchannel -> i.max ); if ( Xmixerchannel -> c.right != right ) Xmixerchannel -> change = 1; Xmixerchannel -> c.right = right; } } static void set_mixer_channel_flags( unsigned int mask, unsigned int flags ) { Xmixerchannelflags &= ~mask; Xmixerchannelflags |= flags; } static void set_mixer_channel_end( void ) { if ( Xmixerchannel -> c.flags != Xmixerchannelflags ) { Xmixerchannel -> change = 1; } Xmixerchannel -> c.flags = Xmixerchannelflags; } #define FIND_SWITCH( xtype, first, name, err ) \ if ( !name ) { Xswitch = Xswitchchange = NULL; return; } \ for ( sw = first; sw; sw = sw -> next ) { \ if ( !strcmp( sw -> s.name, name ) ) { \ Xswitchtype = xtype; \ Xswitchchange = &sw -> change; \ Xswitch = (void *)&sw -> s; \ free( name ); \ return; \ } \ } \ yyerror( "Cannot find " err " switch '%s'...", name ); \ free( name ); static void select_control_switch( char *name ) { struct ctl_switch *sw; FIND_SWITCH( SWITCH_CONTROL, Xsoundcard -> control.switches, name, "control" ); } static void select_mixer_switch( char *name ) { struct mixer_switch *sw; FIND_SWITCH( SWITCH_MIXER, Xmixer -> switches, name, "mixer" ); } static void select_pcm_playback_switch( char *name ) { struct pcm_switch *sw; FIND_SWITCH( SWITCH_PCM, Xpcm -> pswitches, name, "pcm playback" ); } static void select_pcm_record_switch( char *name ) { struct pcm_switch *sw; FIND_SWITCH( SWITCH_PCM, Xpcm -> rswitches, name, "pcm record" ); } static void select_rawmidi_output_switch( char *name ) { struct rawmidi_switch *sw; FIND_SWITCH( SWITCH_RAWMIDI, Xrawmidi -> oswitches, name, "rawmidi output" ); } static void select_rawmidi_input_switch( char *name ) { struct rawmidi_switch *sw; FIND_SWITCH( SWITCH_RAWMIDI, Xrawmidi -> iswitches, name, "rawmidi input" ); } static void set_switch_boolean( int val ) { /* ok.. this is a little bit wrong, but at these times are all switches same */ snd_ctl_switch_t *sw = (snd_ctl_switch_t *)Xswitch; unsigned int xx; if ( sw -> type != SND_CTL_SW_TYPE_BOOLEAN ) yyerror( "Switch '%s' isn't boolean type...", sw -> name ); xx = val & 1; if ( memcmp( &sw -> value, &xx, sizeof(xx) ) ) *Xswitchchange = 1; memcpy( &sw -> value, &xx, sizeof(xx) ); } static void set_switch_integer( int val ) { /* ok.. this is a little bit wrong, but at these times are all switches same */ snd_ctl_switch_t *sw = (snd_ctl_switch_t *)Xswitch; unsigned int xx; if ( sw -> type != SND_CTL_SW_TYPE_BYTE || sw -> type != SND_CTL_SW_TYPE_WORD || sw -> type != SND_CTL_SW_TYPE_DWORD ) yyerror( "Switch '%s' isn't integer type...", sw -> name ); if ( val < sw -> low || val > sw -> high ) yyerror( "Value for switch '%s' out of range (%i-%i)...\n", sw -> name, sw -> low, sw -> high ); xx = val; if ( memcmp( &sw -> value, &xx, sizeof(xx) ) ) *Xswitchchange = 1; memcpy( &sw -> value, &xx, sizeof(xx) ); } static void set_switch_iec958ocs_begin( int end ) { /* ok.. this is a little bit wrong, but at these times are all switches same */ snd_ctl_switch_t *sw = (snd_ctl_switch_t *)Xswitch; if ( !end ) { if ( Xswitchiec958ocs != sw -> value.enable ) { sw -> value.enable = Xswitchiec958ocs; *Xswitchchange = 1; } if ( Xswitchiec958ocs1[4] != sw -> value.data16[4] ) { sw -> value.data16[4] = Xswitchiec958ocs1[4]; *Xswitchchange = 1; } if ( Xswitchiec958ocs1[5] != sw -> value.data16[5] ) { sw -> value.data16[5] = Xswitchiec958ocs1[5]; *Xswitchchange = 1; } return; } if ( Xswitchtype != SWITCH_MIXER || sw -> type != SND_MIXER_SW_TYPE_BOOLEAN || strcmp( sw -> name, SND_MIXER_SW_IEC958OUT ) ) yyerror( "Switch '%s' cannot store IEC958 information for Cirrus Logic chips...", sw -> name ); if ( sw -> value.data32[1] != (('C'<<8)|'S') ) yyerror( "Switch '%s' doesn't have Cirrus Logic signature!!!", sw -> name ); Xswitchiec958ocs = 0; Xswitchiec958ocs1[4] = 0x0000; Xswitchiec958ocs1[5] = 0x0000; } static void set_switch_iec958ocs( int idx, unsigned short val, unsigned short mask ) { if ( idx == 0 ) { Xswitchiec958ocs = val ? 1 : 0; return; } Xswitchiec958ocs1[ idx ] &= ~mask; Xswitchiec958ocs1[ idx ] |= val; }