Beta release of the rme96xx (driver for RME 96XX cards like the "Hammerfall" and the "Hammerfall light") Important: The driver module has to be installed on a freshly rebooted system, otherwise the driver might not be able to acquire its buffers. features: - OSS programming interface (i.e. runs with standard OSS soundsoftware) - OSS/Multichannel interface (OSS multichannel is done by just aquiring more than 2 channels). The driver does not use more than one device ( yet .. this feature may be implemented later ) - more than one RME card supported The driver uses a specific multichannel interface, which I will document when the driver gets stable. (take a look at the defines in rme96xx.h, which adds blocked multichannel formats i.e instead of lrlrlrlr --> llllrrrr etc. Use the "rmectrl" programm to look at the status of the card .. or use xrmectrl, a GUI interface for the ctrl program. What you can do with the rmectrl program is to set the stereo device for OSS emulation (e.g. if you use SPDIF out). You do: ./ctrl offset 24 24 which makes the stereo device use channels 25 and 26. Guenter Geiger copy the first part of the attached source code into rmectrl.c and the second part into xrmectrl (or get the program from http://gige.xdv.org/pages/soft/pages/rme) to compile: gcc -o rmectrl rmectrl.c ------------------------------ snip ------------------------------------ #include #include #include #include #include #include #include #include #include #include "rme96xx.h" /* remctrl.c (C) 2000 Guenter Geiger HP20020201 - Heiko Purnhagen */ /* # define DEVICE_NAME "/dev/mixer" */ # define DEVICE_NAME "/dev/mixer1" void usage(void) { fprintf(stderr,"usage: rmectrl [/dev/mixer] [command [options]]\n\n"); fprintf(stderr,"where command is one of:\n"); fprintf(stderr," help show this help\n"); fprintf(stderr," status show status bits\n"); fprintf(stderr," control show control bits\n"); fprintf(stderr," mix show mixer/offset status\n"); fprintf(stderr," master set sync master\n"); fprintf(stderr," pro set spdif out pro\n"); fprintf(stderr," emphasis set spdif out emphasis\n"); fprintf(stderr," dolby set spdif out no audio\n"); fprintf(stderr," optout set spdif out optical\n"); fprintf(stderr," wordclock set sync wordclock\n"); fprintf(stderr," spdifin set spdif in (0=optical,1=coax,2=intern)\n"); fprintf(stderr," syncref set sync source (0=ADAT1,1=ADAT2,2=ADAT3,3=SPDIF)\n"); fprintf(stderr," adat1cd set ADAT1 on internal CD\n"); fprintf(stderr," offset set dev (0..3) offset (0..25)\n"); exit(-1); } int main(int argc, char* argv[]) { int cards; int ret; int i; double ft; int fd, fdwr; int param,orig; rme_status_t stat; rme_ctrl_t ctrl; char *device; int argidx; if (argc < 2) usage(); if (*argv[1]=='/') { device = argv[1]; argidx = 2; } else { device = DEVICE_NAME; argidx = 1; } fprintf(stdout,"mixer device %s\n",device); if ((fd = open(device,O_RDONLY)) < 0) { fprintf(stdout,"opening device failed\n"); exit(-1); } if ((fdwr = open(device,O_WRONLY)) < 0) { fprintf(stdout,"opening device failed\n"); exit(-1); } if (argc < argidx+1) usage(); if (!strcmp(argv[argidx],"help")) usage(); if (!strcmp(argv[argidx],"-h")) usage(); if (!strcmp(argv[argidx],"--help")) usage(); if (!strcmp(argv[argidx],"status")) { ioctl(fd,SOUND_MIXER_PRIVATE2,&stat); fprintf(stdout,"stat.irq %d\n",stat.irq); fprintf(stdout,"stat.lockmask %d\n",stat.lockmask); fprintf(stdout,"stat.sr48 %d\n",stat.sr48); fprintf(stdout,"stat.wclock %d\n",stat.wclock); fprintf(stdout,"stat.bufpoint %d\n",stat.bufpoint); fprintf(stdout,"stat.syncmask %d\n",stat.syncmask); fprintf(stdout,"stat.doublespeed %d\n",stat.doublespeed); fprintf(stdout,"stat.tc_busy %d\n",stat.tc_busy); fprintf(stdout,"stat.tc_out %d\n",stat.tc_out); fprintf(stdout,"stat.crystalrate %d (0=64k 3=96k 4=88.2k 5=48k 6=44.1k 7=32k)\n",stat.crystalrate); fprintf(stdout,"stat.spdif_error %d\n",stat.spdif_error); fprintf(stdout,"stat.bufid %d\n",stat.bufid); fprintf(stdout,"stat.tc_valid %d\n",stat.tc_valid); exit (0); } if (!strcmp(argv[argidx],"control")) { ioctl(fd,SOUND_MIXER_PRIVATE3,&ctrl); fprintf(stdout,"ctrl.start %d\n",ctrl.start); fprintf(stdout,"ctrl.latency %d (0=64 .. 7=8192)\n",ctrl.latency); fprintf(stdout,"ctrl.master %d\n",ctrl.master); fprintf(stdout,"ctrl.ie %d\n",ctrl.ie); fprintf(stdout,"ctrl.sr48 %d\n",ctrl.sr48); fprintf(stdout,"ctrl.spare %d\n",ctrl.spare); fprintf(stdout,"ctrl.doublespeed %d\n",ctrl.doublespeed); fprintf(stdout,"ctrl.pro %d\n",ctrl.pro); fprintf(stdout,"ctrl.emphasis %d\n",ctrl.emphasis); fprintf(stdout,"ctrl.dolby %d\n",ctrl.dolby); fprintf(stdout,"ctrl.opt_out %d\n",ctrl.opt_out); fprintf(stdout,"ctrl.wordclock %d\n",ctrl.wordclock); fprintf(stdout,"ctrl.spdif_in %d (0=optical,1=coax,2=intern)\n",ctrl.spdif_in); fprintf(stdout,"ctrl.sync_ref %d (0=ADAT1,1=ADAT2,2=ADAT3,3=SPDIF)\n",ctrl.sync_ref); fprintf(stdout,"ctrl.spdif_reset %d\n",ctrl.spdif_reset); fprintf(stdout,"ctrl.spdif_select %d\n",ctrl.spdif_select); fprintf(stdout,"ctrl.spdif_clock %d\n",ctrl.spdif_clock); fprintf(stdout,"ctrl.spdif_write %d\n",ctrl.spdif_write); fprintf(stdout,"ctrl.adat1_cd %d\n",ctrl.adat1_cd); exit (0); } if (!strcmp(argv[argidx],"mix")) { rme_mixer mix; int i; for (i=0; i<4; i++) { mix.devnr = i; ioctl(fd,SOUND_MIXER_PRIVATE1,&mix); if (mix.devnr == i) { fprintf(stdout,"devnr %d\n",mix.devnr); fprintf(stdout,"mix.i_offset %2d (0-25)\n",mix.i_offset); fprintf(stdout,"mix.o_offset %2d (0-25)\n",mix.o_offset); } } exit (0); } /* the control flags */ if (argc < argidx+2) usage(); if (!strcmp(argv[argidx],"master")) { int val = atoi(argv[argidx+1]); ioctl(fd,SOUND_MIXER_PRIVATE3,&ctrl); printf("master = %d\n",val); ctrl.master = val; ioctl(fdwr,SOUND_MIXER_PRIVATE3,&ctrl); exit (0); } if (!strcmp(argv[argidx],"pro")) { int val = atoi(argv[argidx+1]); ioctl(fd,SOUND_MIXER_PRIVATE3,&ctrl); printf("pro = %d\n",val); ctrl.pro = val; ioctl(fdwr,SOUND_MIXER_PRIVATE3,&ctrl); exit (0); } if (!strcmp(argv[argidx],"emphasis")) { int val = atoi(argv[argidx+1]); ioctl(fd,SOUND_MIXER_PRIVATE3,&ctrl); printf("emphasis = %d\n",val); ctrl.emphasis = val; ioctl(fdwr,SOUND_MIXER_PRIVATE3,&ctrl); exit (0); } if (!strcmp(argv[argidx],"dolby")) { int val = atoi(argv[argidx+1]); ioctl(fd,SOUND_MIXER_PRIVATE3,&ctrl); printf("dolby = %d\n",val); ctrl.dolby = val; ioctl(fdwr,SOUND_MIXER_PRIVATE3,&ctrl); exit (0); } if (!strcmp(argv[argidx],"optout")) { int val = atoi(argv[argidx+1]); ioctl(fd,SOUND_MIXER_PRIVATE3,&ctrl); printf("optout = %d\n",val); ctrl.opt_out = val; ioctl(fdwr,SOUND_MIXER_PRIVATE3,&ctrl); exit (0); } if (!strcmp(argv[argidx],"wordclock")) { int val = atoi(argv[argidx+1]); ioctl(fd,SOUND_MIXER_PRIVATE3,&ctrl); printf("wordclock = %d\n",val); ctrl.wordclock = val; ioctl(fdwr,SOUND_MIXER_PRIVATE3,&ctrl); exit (0); } if (!strcmp(argv[argidx],"spdifin")) { int val = atoi(argv[argidx+1]); ioctl(fd,SOUND_MIXER_PRIVATE3,&ctrl); printf("spdifin = %d\n",val); ctrl.spdif_in = val; ioctl(fdwr,SOUND_MIXER_PRIVATE3,&ctrl); exit (0); } if (!strcmp(argv[argidx],"syncref")) { int val = atoi(argv[argidx+1]); ioctl(fd,SOUND_MIXER_PRIVATE3,&ctrl); printf("syncref = %d\n",val); ctrl.sync_ref = val; ioctl(fdwr,SOUND_MIXER_PRIVATE3,&ctrl); exit (0); } if (!strcmp(argv[argidx],"adat1cd")) { int val = atoi(argv[argidx+1]); ioctl(fd,SOUND_MIXER_PRIVATE3,&ctrl); printf("adat1cd = %d\n",val); ctrl.adat1_cd = val; ioctl(fdwr,SOUND_MIXER_PRIVATE3,&ctrl); exit (0); } /* setting offset */ if (argc < argidx+4) usage(); if (!strcmp(argv[argidx],"offset")) { rme_mixer mix; mix.devnr = atoi(argv[argidx+1]); mix.i_offset = atoi(argv[argidx+2]); mix.o_offset = atoi(argv[argidx+3]); ioctl(fdwr,SOUND_MIXER_PRIVATE1,&mix); fprintf(stdout,"devnr %d\n",mix.devnr); fprintf(stdout,"mix.i_offset to %d\n",mix.i_offset); fprintf(stdout,"mix.o_offset to %d\n",mix.o_offset); exit (0); } usage(); exit (0); /* to avoid warning */ } ---------------------------- -------------------------------- #!/usr/bin/wish # xrmectrl # (C) 2000 Guenter Geiger # HP20020201 - Heiko Purnhagen #set defaults "-relief ridged" set CTRLPROG "./rmectrl" if {$argc} { set CTRLPROG "$CTRLPROG $argv" } puts "CTRLPROG $CTRLPROG" frame .butts button .butts.exit -text "Exit" -command "exit" -relief ridge #button .butts.state -text "State" -command "get_all" pack .butts.exit -side left pack .butts -side bottom # # STATUS # frame .status # Sampling Rate frame .status.sr label .status.sr.text -text "Sampling Rate" -justify left radiobutton .status.sr.441 -selectcolor red -text "44.1 kHz" -width 10 -anchor nw -variable srate -value 44100 -font times radiobutton .status.sr.480 -selectcolor red -text "48 kHz" -width 10 -anchor nw -variable srate -value 48000 -font times radiobutton .status.sr.882 -selectcolor red -text "88.2 kHz" -width 10 -anchor nw -variable srate -value 88200 -font times radiobutton .status.sr.960 -selectcolor red -text "96 kHz" -width 10 -anchor nw -variable srate -value 96000 -font times pack .status.sr.text .status.sr.441 .status.sr.480 .status.sr.882 .status.sr.960 -side top -padx 3 # Lock frame .status.lock label .status.lock.text -text "Lock" -justify left checkbutton .status.lock.adat1 -selectcolor red -text "ADAT1" -anchor nw -width 10 -variable adatlock1 -font times checkbutton .status.lock.adat2 -selectcolor red -text "ADAT2" -anchor nw -width 10 -variable adatlock2 -font times checkbutton .status.lock.adat3 -selectcolor red -text "ADAT3" -anchor nw -width 10 -variable adatlock3 -font times pack .status.lock.text .status.lock.adat1 .status.lock.adat2 .status.lock.adat3 -side top -padx 3 # Sync frame .status.sync label .status.sync.text -text "Sync" -justify left checkbutton .status.sync.adat1 -selectcolor red -text "ADAT1" -anchor nw -width 10 -variable adatsync1 -font times checkbutton .status.sync.adat2 -selectcolor red -text "ADAT2" -anchor nw -width 10 -variable adatsync2 -font times checkbutton .status.sync.adat3 -selectcolor red -text "ADAT3" -anchor nw -width 10 -variable adatsync3 -font times pack .status.sync.text .status.sync.adat1 .status.sync.adat2 .status.sync.adat3 -side top -padx 3 # Timecode frame .status.tc label .status.tc.text -text "Timecode" -justify left checkbutton .status.tc.busy -selectcolor red -text "busy" -anchor nw -width 10 -variable tcbusy -font times checkbutton .status.tc.out -selectcolor red -text "out" -anchor nw -width 10 -variable tcout -font times checkbutton .status.tc.valid -selectcolor red -text "valid" -anchor nw -width 10 -variable tcvalid -font times pack .status.tc.text .status.tc.busy .status.tc.out .status.tc.valid -side top -padx 3 # SPDIF In frame .status.spdif label .status.spdif.text -text "SPDIF In" -justify left label .status.spdif.sr -text "--.- kHz" -anchor n -width 10 -font times checkbutton .status.spdif.error -selectcolor red -text "Input Lock" -anchor nw -width 10 -variable spdiferr -font times pack .status.spdif.text .status.spdif.sr .status.spdif.error -side top -padx 3 pack .status.sr .status.lock .status.sync .status.tc .status.spdif -side left -fill x -anchor n -expand 1 # # CONTROL # proc setprof {} { global CTRLPROG global spprof exec $CTRLPROG pro $spprof } proc setemph {} { global CTRLPROG global spemph exec $CTRLPROG emphasis $spemph } proc setnoaud {} { global CTRLPROG global spnoaud exec $CTRLPROG dolby $spnoaud } proc setoptical {} { global CTRLPROG global spoptical exec $CTRLPROG optout $spoptical } proc setspdifin {} { global CTRLPROG global spdifin exec $CTRLPROG spdifin [expr $spdifin - 1] } proc setsyncsource {} { global CTRLPROG global syncsource exec $CTRLPROG syncref [expr $syncsource -1] } proc setmaster {} { global CTRLPROG global master exec $CTRLPROG master $master } proc setwordclock {} { global CTRLPROG global wordclock exec $CTRLPROG wordclock $wordclock } proc setadat1cd {} { global CTRLPROG global adat1cd exec $CTRLPROG adat1cd $adat1cd } frame .control # SPDIF In & SPDIF Out frame .control.spdif frame .control.spdif.in label .control.spdif.in.text -text "SPDIF In" -justify left radiobutton .control.spdif.in.input1 -text "Optical" -anchor nw -width 13 -variable spdifin -value 1 -command setspdifin -selectcolor blue -font times radiobutton .control.spdif.in.input2 -text "Coaxial" -anchor nw -width 13 -variable spdifin -value 2 -command setspdifin -selectcolor blue -font times radiobutton .control.spdif.in.input3 -text "Intern " -anchor nw -width 13 -variable spdifin -command setspdifin -value 3 -selectcolor blue -font times checkbutton .control.spdif.in.adat1cd -text "ADAT1 Intern" -anchor nw -width 13 -variable adat1cd -command setadat1cd -selectcolor blue -font times pack .control.spdif.in.text .control.spdif.in.input1 .control.spdif.in.input2 .control.spdif.in.input3 .control.spdif.in.adat1cd label .control.spdif.space frame .control.spdif.out label .control.spdif.out.text -text "SPDIF Out" -justify left checkbutton .control.spdif.out.pro -text "Professional" -anchor nw -width 13 -variable spprof -command setprof -selectcolor blue -font times checkbutton .control.spdif.out.emphasis -text "Emphasis" -anchor nw -width 13 -variable spemph -command setemph -selectcolor blue -font times checkbutton .control.spdif.out.dolby -text "NoAudio" -anchor nw -width 13 -variable spnoaud -command setnoaud -selectcolor blue -font times checkbutton .control.spdif.out.optout -text "Optical Out" -anchor nw -width 13 -variable spoptical -command setoptical -selectcolor blue -font times pack .control.spdif.out.optout .control.spdif.out.dolby .control.spdif.out.emphasis .control.spdif.out.pro .control.spdif.out.text -side bottom pack .control.spdif.in .control.spdif.space .control.spdif.out -side top -fill y -padx 3 -expand 1 # Sync Mode & Sync Source frame .control.sync frame .control.sync.mode label .control.sync.mode.text -text "Sync Mode" -justify left checkbutton .control.sync.mode.master -text "Master" -anchor nw -width 13 -variable master -command setmaster -selectcolor blue -font times checkbutton .control.sync.mode.wc -text "Wordclock" -anchor nw -width 13 -variable wordclock -command setwordclock -selectcolor blue -font times pack .control.sync.mode.text .control.sync.mode.master .control.sync.mode.wc label .control.sync.space frame .control.sync.src label .control.sync.src.text -text "Sync Source" -justify left radiobutton .control.sync.src.input1 -text "ADAT1" -anchor nw -width 13 -variable syncsource -value 1 -command setsyncsource -selectcolor blue -font times radiobutton .control.sync.src.input2 -text "ADAT2" -anchor nw -width 13 -variable syncsource -value 2 -command setsyncsource -selectcolor blue -font times radiobutton .control.sync.src.input3 -text "ADAT3" -anchor nw -width 13 -variable syncsource -command setsyncsource -value 3 -selectcolor blue -font times radiobutton .control.sync.src.input4 -text "SPDIF" -anchor nw -width 13 -variable syncsource -command setsyncsource -value 4 -selectcolor blue -font times pack .control.sync.src.input4 .control.sync.src.input3 .control.sync.src.input2 .control.sync.src.input1 .control.sync.src.text -side bottom pack .control.sync.mode .control.sync.space .control.sync.src -side top -fill y -padx 3 -expand 1 label .control.space -text "" -width 10 # Buffer Size frame .control.buf label .control.buf.text -text "Buffer Size (Latency)" -justify left radiobutton .control.buf.b1 -selectcolor red -text "64 (1.5 ms)" -width 13 -anchor nw -variable ssrate -value 1 -font times radiobutton .control.buf.b2 -selectcolor red -text "128 (3 ms)" -width 13 -anchor nw -variable ssrate -value 2 -font times radiobutton .control.buf.b3 -selectcolor red -text "256 (6 ms)" -width 13 -anchor nw -variable ssrate -value 3 -font times radiobutton .control.buf.b4 -selectcolor red -text "512 (12 ms)" -width 13 -anchor nw -variable ssrate -value 4 -font times radiobutton .control.buf.b5 -selectcolor red -text "1024 (23 ms)" -width 13 -anchor nw -variable ssrate -value 5 -font times radiobutton .control.buf.b6 -selectcolor red -text "2048 (46 ms)" -width 13 -anchor nw -variable ssrate -value 6 -font times radiobutton .control.buf.b7 -selectcolor red -text "4096 (93 ms)" -width 13 -anchor nw -variable ssrate -value 7 -font times radiobutton .control.buf.b8 -selectcolor red -text "8192 (186 ms)" -width 13 -anchor nw -variable ssrate -value 8 -font times pack .control.buf.text .control.buf.b1 .control.buf.b2 .control.buf.b3 .control.buf.b4 .control.buf.b5 .control.buf.b6 .control.buf.b7 .control.buf.b8 -side top -padx 3 # Offset frame .control.offset frame .control.offset.in label .control.offset.in.text -text "Offset In" -justify left label .control.offset.in.off0 -text "dev\#0: -" -anchor nw -width 10 -font times label .control.offset.in.off1 -text "dev\#1: -" -anchor nw -width 10 -font times label .control.offset.in.off2 -text "dev\#2: -" -anchor nw -width 10 -font times label .control.offset.in.off3 -text "dev\#3: -" -anchor nw -width 10 -font times pack .control.offset.in.text .control.offset.in.off0 .control.offset.in.off1 .control.offset.in.off2 .control.offset.in.off3 label .control.offset.space frame .control.offset.out label .control.offset.out.text -text "Offset Out" -justify left label .control.offset.out.off0 -text "dev\#0: -" -anchor nw -width 10 -font times label .control.offset.out.off1 -text "dev\#1: -" -anchor nw -width 10 -font times label .control.offset.out.off2 -text "dev\#2: -" -anchor nw -width 10 -font times label .control.offset.out.off3 -text "dev\#3: -" -anchor nw -width 10 -font times pack .control.offset.out.off3 .control.offset.out.off2 .control.offset.out.off1 .control.offset.out.off0 .control.offset.out.text -side bottom pack .control.offset.in .control.offset.space .control.offset.out -side top -fill y -padx 3 -expand 1 pack .control.spdif .control.sync .control.space .control.buf .control.offset -side left -fill both -anchor n -expand 1 label .statustext -text Status -justify center -relief ridge label .controltext -text Control -justify center -relief ridge label .statusspace label .controlspace pack .statustext .status .statusspace .controltext .control .controlspace -side top -anchor nw -fill both -expand 1 proc get_bit {output sstr} { set idx1 [string last [concat $sstr 1] $output] set idx1 [expr $idx1 != -1] return $idx1 } proc get_val {output sstr} { set val [string wordend $output [string last $sstr $output]] set val [string range $output $val [expr $val+1]] return $val } proc get_val2 {output sstr} { set val [string wordend $output [string first $sstr $output]] set val [string range $output $val [expr $val+2]] return $val } proc get_control {} { global spprof global spemph global spnoaud global spoptical global spdifin global ssrate global master global wordclock global syncsource global CTRLPROG set f [open "| $CTRLPROG control" r+] set ooo [read $f 1000] close $f # puts $ooo set spprof [ get_bit $ooo "pro"] set spemph [ get_bit $ooo "emphasis"] set spnoaud [ get_bit $ooo "dolby"] set spoptical [ get_bit $ooo "opt_out"] set spdifin [ expr [ get_val $ooo "spdif_in"] + 1] set ssrate [ expr [ get_val $ooo "latency"] + 1] set master [ expr [ get_val $ooo "master"]] set wordclock [ expr [ get_val $ooo "wordclock"]] set syncsource [ expr [ get_val $ooo "sync_ref"] + 1] } proc get_status {} { global srate global ctrlcom global adatlock1 global adatlock2 global adatlock3 global adatsync1 global adatsync2 global adatsync3 global tcbusy global tcout global tcvalid global spdiferr global crystal global .status.spdif.text global CTRLPROG set f [open "| $CTRLPROG status" r+] set ooo [read $f 1000] close $f # puts $ooo # samplerate set idx1 [string last "sr48 1" $ooo] set idx2 [string last "doublespeed 1" $ooo] if {$idx1 >= 0} { set fact1 48000 } else { set fact1 44100 } if {$idx2 >= 0} { set fact2 2 } else { set fact2 1 } set srate [expr $fact1 * $fact2] # ADAT lock set val [get_val $ooo lockmask] set adatlock1 0 set adatlock2 0 set adatlock3 0 if {[expr $val & 1]} { set adatlock3 1 } if {[expr $val & 2]} { set adatlock2 1 } if {[expr $val & 4]} { set adatlock1 1 } # ADAT sync set val [get_val $ooo syncmask] set adatsync1 0 set adatsync2 0 set adatsync3 0 if {[expr $val & 1]} { set adatsync3 1 } if {[expr $val & 2]} { set adatsync2 1 } if {[expr $val & 4]} { set adatsync1 1 } # TC busy set tcbusy [get_bit $ooo "busy"] set tcout [get_bit $ooo "out"] set tcvalid [get_bit $ooo "valid"] set spdiferr [expr [get_bit $ooo "spdif_error"] == 0] # 000=64kHz, 100=88.2kHz, 011=96kHz # 111=32kHz, 110=44.1kHz, 101=48kHz set val [get_val $ooo crystalrate] set crystal "--.- kHz" if {$val == 0} { set crystal "64 kHz" } if {$val == 4} { set crystal "88.2 kHz" } if {$val == 3} { set crystal "96 kHz" } if {$val == 7} { set crystal "32 kHz" } if {$val == 6} { set crystal "44.1 kHz" } if {$val == 5} { set crystal "48 kHz" } .status.spdif.sr configure -text $crystal } proc get_offset {} { global inoffset global outoffset global CTRLPROG set f [open "| $CTRLPROG mix" r+] set ooo [read $f 1000] close $f # puts $ooo if { [string match "*devnr*" $ooo] } { set ooo [string range $ooo [string wordend $ooo [string first devnr $ooo]] end] set val [get_val2 $ooo i_offset] .control.offset.in.off0 configure -text "dev\#0: $val" set val [get_val2 $ooo o_offset] .control.offset.out.off0 configure -text "dev\#0: $val" } else { .control.offset.in.off0 configure -text "dev\#0: -" .control.offset.out.off0 configure -text "dev\#0: -" } if { [string match "*devnr*" $ooo] } { set ooo [string range $ooo [string wordend $ooo [string first devnr $ooo]] end] set val [get_val2 $ooo i_offset] .control.offset.in.off1 configure -text "dev\#1: $val" set val [get_val2 $ooo o_offset] .control.offset.out.off1 configure -text "dev\#1: $val" } else { .control.offset.in.off1 configure -text "dev\#1: -" .control.offset.out.off1 configure -text "dev\#1: -" } if { [string match "*devnr*" $ooo] } { set ooo [string range $ooo [string wordend $ooo [string first devnr $ooo]] end] set val [get_val2 $ooo i_offset] .control.offset.in.off2 configure -text "dev\#2: $val" set val [get_val2 $ooo o_offset] .control.offset.out.off2 configure -text "dev\#2: $val" } else { .control.offset.in.off2 configure -text "dev\#2: -" .control.offset.out.off2 configure -text "dev\#2: -" } if { [string match "*devnr*" $ooo] } { set ooo [string range $ooo [string wordend $ooo [string first devnr $ooo]] end] set val [get_val2 $ooo i_offset] .control.offset.in.off3 configure -text "dev\#3: $val" set val [get_val2 $ooo o_offset] .control.offset.out.off3 configure -text "dev\#3: $val" } else { .control.offset.in.off3 configure -text "dev\#3: -" .control.offset.out.off3 configure -text "dev\#3: -" } } proc get_all {} { get_status get_control get_offset } # main while {1} { after 200 get_all update }