Terratec Cinergy Hybrid T USB XS FM

[andrea.annoe]

Ciao a tutti,
premessa: ho la versione senza la radio,
sono riuscito a farla funzionare sia sulla 7.04, sulla 8.04, sulla 8.10 ed ora va anche sulla 9.04.

Seguo sempre le guide on line (mercurial, divxlinux , eccc...) ma c'è una cosa che non sono mai riuscit a configurare.... il telecomando!!!  >:(  >:(  >:(

C'è qualcuno che riesce a dirmi che c'è riuscito e spiega come fa?

Se ho tempo domani vi posto i passi (dire mini-guide è esagerato) se qualcuno è interessato.

Per il 7.04, 8.04, 8.10 i passi sono simili, mentre per 9.04 ho dovuto estrarmi il driver dal file di windows... credo che con questa procedura potrò eseguirla anche con i futuri release di ubuntu ...ma il telecomando ..... :'(  :'(

Ciao e se qualcuno sa qualcosa di telecomandi Terratec Cinegry T USB XS si faccia avanti.

Ho installato lirc, ho scaricato il file di configurazione per Terratec (trovato on-line) ma forse è meglio che qualcuno se sappia guidarmi si faccia avanti...

Thanks a tutti Andrea.

[AL9000]

purtroppo io non sono nemmeno mai riuscito a far funzionare il tv-tuner (sia su kubuntu 8.10 che su varie release di opensuse), quindi non mi sono mai interessato del telecomando.

sarebbe interessante vedere come riesci a far funzionare la periferica, anche se temo che non mi possa essere d'aiuto perchè credo che la mia terratec, con la radio, abbia un chip diverso dalla tua.

Attendo info sulla procedura e spero tu possa risolvere anche per il telecomando.

Grazie, ciao

[ju]

Io ho la versione senza fm e senza radio, ma il telecomando funziona in automatico (solo tasti principali: volume canali numeri)

[superlex]

iscritto

[superlex]

i386/32bit:
http://mcentral.de/empia/20080804/empia ... latest.deb
http://mcentral.de/empia/20080804/empia ... latest.deb

amd64:
http://mcentral.de/empia/20080804/empia ... latest.deb

sapete dove io possa provare queli per jaunty?

[andrea.annoe]

come promesso ecco i passi che ho seguito per installare la scheda su ubuntu 9.04

1) from http://forum.ubuntu-it.org/viewtopic.ph ... msg2235209

seguendo questi passi mi va alla grande :
inizio con la creazione di una cartella dedicata (opzionale ma consigliato)

Codice: Seleziona tutto

 mkdir /home/andrea/scheda_cinergy 

2) poi entro nella cartella e passo alla creazione del codice per l'estrazione del firmware direttamente dal file per windows.

Codice: Seleziona tutto

 cd /home/andrea/scheda_cinergy

vi extract_xc3028.pl
###########################
#!/usr/bin/perl

# Copyright (c) Mauro Carvalho Chehab <mchehab[AT]infradead[DOT]org>
# Released under GPLv2
#
# In order to use, you need to:
#	1) Download the windows driver with something like:
#		wget http://www.steventoth.net/linux/xc5000/HVR-12x0-14x0-17x0_1_25_25271_WHQL.zip
#	2) Extract the file hcw85bda.sys from the zip into the current dir:
#		unzip -j HVR-12x0-14x0-17x0_1_25_25271_WHQL.zip Driver85/hcw85bda.sys
#	3) run the script:
#		./extract_xc3028.pl
#	4) copy the generated file:
#		cp xc3028-v27.fw /lib/firmware

#use strict;
use IO::Handle;

my $debug=0;

sub verify ($$)
{
	my ($filename, $hash) = @_;
	my ($testhash);

	if (system("which md5sum > /dev/null 2>&1")) {
		die "This firmware requires the md5sum command - see http://www.gnu.org/software/coreutils/\n";
	}

	open(CMD, "md5sum ".$filename."|");
	$testhash = <CMD>;
	$testhash =~ /([a-zA-Z0-9]*)/;
	$testhash = $1;
	close CMD;
		die "Hash of extracted file does not match (found $testhash, expected $hash!\n" if ($testhash ne $hash);
}

sub get_hunk ($$)
{
	my ($offset, $length) = @_;
	my ($chunklength, $buf, $rcount, $out);

	sysseek(INFILE, $offset, SEEK_SET);
	while ($length > 0) {
	# Calc chunk size
		$chunklength = 2048;
		$chunklength = $length if ($chunklength > $length);

		$rcount = sysread(INFILE, $buf, $chunklength);
		die "Ran out of data\n" if ($rcount != $chunklength);
		$out .= $buf;
		$length -= $rcount;
	}
	return $out;
}

sub write_le16($)
{
	my $val = shift;
	my $msb = ($val >> 8) &0xff;
	my $lsb = $val & 0xff;

	syswrite(OUTFILE, chr($lsb).chr($msb));
}

sub write_le32($)
{
	my $val = shift;
	my $l3 = ($val >> 24) & 0xff;
	my $l2 = ($val >> 16) & 0xff;
	my $l1 = ($val >> 8)  & 0xff;
	my $l0 = $val         & 0xff;

	syswrite(OUTFILE, chr($l0).chr($l1).chr($l2).chr($l3));
}

sub write_le64($$)
{
	my $msb_val = shift;
	my $lsb_val = shift;
	my $l7 = ($msb_val >> 24) & 0xff;
	my $l6 = ($msb_val >> 16) & 0xff;
	my $l5 = ($msb_val >> 8)  & 0xff;
	my $l4 = $msb_val         & 0xff;

	my $l3 = ($lsb_val >> 24) & 0xff;
	my $l2 = ($lsb_val >> 16) & 0xff;
	my $l1 = ($lsb_val >> 8)  & 0xff;
	my $l0 = $lsb_val         & 0xff;

	syswrite(OUTFILE,
		 chr($l0).chr($l1).chr($l2).chr($l3).
		 chr($l4).chr($l5).chr($l6).chr($l7));
}

sub write_hunk($$)
{
	my ($offset, $length) = @_;
	my $out = get_hunk($offset, $length);

	printf "(len %d) ",$length if ($debug);

	for (my $i=0;$i<$length;$i++) {
		printf "%02x ",ord(substr($out,$i,1)) if ($debug);
	}
	printf "\n" if ($debug);

	syswrite(OUTFILE, $out);
}

sub write_hunk_fix_endian($$)
{
	my ($offset, $length) = @_;
	my $out = get_hunk($offset, $length);

	printf "(len_fix %d) ",$length if ($debug);

	for (my $i=0;$i<$length;$i++) {
		printf "%02x ",ord(substr($out,$i,1)) if ($debug);
	}
	printf "\n" if ($debug);

	my $i=0;
	while ($i<$length) {
		my $size = ord(substr($out,$i,1))*256+ord(substr($out,$i+1,1));
		syswrite(OUTFILE, substr($out,$i+1,1));
		syswrite(OUTFILE, substr($out,$i,1));
		$i+=2;
		if ($size>0 && $size <0x8000) {
			for (my $j=0;$j<$size;$j++) {
				syswrite(OUTFILE, substr($out,$j+$i,1));
			}
			$i+=$size;
		}
	}
}

sub main_firmware($$$$)
{
	my $out;
	my $j=0;
	my $outfile = shift;
	my $name    = shift;
	my $version = shift;
	my $nr_desc = shift;

	for ($j = length($name); $j <32; $j++) {
		$name = $name.chr(0);
}

	open OUTFILE, ">$outfile";
	syswrite(OUTFILE, $name);
	write_le16($version);
	write_le16($nr_desc);

	#
	# Firmware 0, type: BASE FW   F8MHZ (0x00000003), id: (0000000000000000), size: 8718
	#

	write_le32(0x00000003);			# Type
	write_le64(0x00000000, 0x00000000);	# ID
	write_le32(8718);			# Size
	write_hunk_fix_endian(813432, 8718);

	#
	# Firmware 1, type: BASE FW   F8MHZ MTS (0x00000007), id: (0000000000000000), size: 8712
	#

	write_le32(0x00000007);			# Type
	write_le64(0x00000000, 0x00000000);	# ID
	write_le32(8712);			# Size
	write_hunk_fix_endian(822152, 8712);

	#
	# Firmware 2, type: BASE FW   FM (0x00000401), id: (0000000000000000), size: 8562
	#

	write_le32(0x00000401);			# Type
	write_le64(0x00000000, 0x00000000);	# ID
	write_le32(8562);			# Size
	write_hunk_fix_endian(830872, 8562);

	#
	# Firmware 3, type: BASE FW   FM INPUT1 (0x00000c01), id: (0000000000000000), size: 8576
	#

	write_le32(0x00000c01);			# Type
	write_le64(0x00000000, 0x00000000);	# ID
	write_le32(8576);			# Size
	write_hunk_fix_endian(839440, 8576);

	#
	# Firmware 4, type: BASE FW   (0x00000001), id: (0000000000000000), size: 8706
	#

	write_le32(0x00000001);			# Type
	write_le64(0x00000000, 0x00000000);	# ID
	write_le32(8706);			# Size
	write_hunk_fix_endian(848024, 8706);

	#
	# Firmware 5, type: BASE FW   MTS (0x00000005), id: (0000000000000000), size: 8682
	#

	write_le32(0x00000005);			# Type
	write_le64(0x00000000, 0x00000000);	# ID
	write_le32(8682);			# Size
	write_hunk_fix_endian(856736, 8682);

	#
	# Firmware 6, type: STD FW    (0x00000000), id: PAL/BG A2/A (0000000100000007), size: 161
	#

	write_le32(0x00000000);			# Type
	write_le64(0x00000001, 0x00000007);	# ID
	write_le32(161);			# Size
	write_hunk_fix_endian(865424, 161);

	#
	# Firmware 7, type: STD FW    MTS (0x00000004), id: PAL/BG A2/A (0000000100000007), size: 169
	#

	write_le32(0x00000004);			# Type
	write_le64(0x00000001, 0x00000007);	# ID
	write_le32(169);			# Size
	write_hunk_fix_endian(865592, 169);

	#
	# Firmware 8, type: STD FW    (0x00000000), id: PAL/BG A2/B (0000000200000007), size: 161
	#

	write_le32(0x00000000);			# Type
	write_le64(0x00000002, 0x00000007);	# ID
	write_le32(161);			# Size
	write_hunk_fix_endian(865424, 161);

	#
	# Firmware 9, type: STD FW    MTS (0x00000004), id: PAL/BG A2/B (0000000200000007), size: 169
	#

	write_le32(0x00000004);			# Type
	write_le64(0x00000002, 0x00000007);	# ID
	write_le32(169);			# Size
	write_hunk_fix_endian(865592, 169);

	#
	# Firmware 10, type: STD FW    (0x00000000), id: PAL/BG NICAM/A (0000000400000007), size: 161
	#

	write_le32(0x00000000);			# Type
	write_le64(0x00000004, 0x00000007);	# ID
	write_le32(161);			# Size
	write_hunk_fix_endian(866112, 161);

	#
	# Firmware 11, type: STD FW    MTS (0x00000004), id: PAL/BG NICAM/A (0000000400000007), size: 169
	#

	write_le32(0x00000004);			# Type
	write_le64(0x00000004, 0x00000007);	# ID
	write_le32(169);			# Size
	write_hunk_fix_endian(866280, 169);

	#
	# Firmware 12, type: STD FW    (0x00000000), id: PAL/BG NICAM/B (0000000800000007), size: 161
	#

	write_le32(0x00000000);			# Type
	write_le64(0x00000008, 0x00000007);	# ID
	write_le32(161);			# Size
	write_hunk_fix_endian(866112, 161);

	#
	# Firmware 13, type: STD FW    MTS (0x00000004), id: PAL/BG NICAM/B (0000000800000007), size: 169
	#

	write_le32(0x00000004);			# Type
	write_le64(0x00000008, 0x00000007);	# ID
	write_le32(169);			# Size
	write_hunk_fix_endian(866280, 169);

	#
	# Firmware 14, type: STD FW    (0x00000000), id: PAL/DK A2 (00000003000000e0), size: 161
	#

	write_le32(0x00000000);			# Type
	write_le64(0x00000003, 0x000000e0);	# ID
	write_le32(161);			# Size
	write_hunk_fix_endian(866800, 161);

	#
	# Firmware 15, type: STD FW    MTS (0x00000004), id: PAL/DK A2 (00000003000000e0), size: 169
	#

	write_le32(0x00000004);			# Type
	write_le64(0x00000003, 0x000000e0);	# ID
	write_le32(169);			# Size
	write_hunk_fix_endian(866968, 169);

	#
	# Firmware 16, type: STD FW    (0x00000000), id: PAL/DK NICAM (0000000c000000e0), size: 161
	#

	write_le32(0x00000000);			# Type
	write_le64(0x0000000c, 0x000000e0);	# ID
	write_le32(161);			# Size
	write_hunk_fix_endian(867144, 161);

	#
	# Firmware 17, type: STD FW    MTS (0x00000004), id: PAL/DK NICAM (0000000c000000e0), size: 169
	#

	write_le32(0x00000004);			# Type
	write_le64(0x0000000c, 0x000000e0);	# ID
	write_le32(169);			# Size
	write_hunk_fix_endian(867312, 169);

	#
	# Firmware 18, type: STD FW    (0x00000000), id: SECAM/K1 (0000000000200000), size: 161
	#

	write_le32(0x00000000);			# Type
	write_le64(0x00000000, 0x00200000);	# ID
	write_le32(161);			# Size
	write_hunk_fix_endian(867488, 161);

	#
	# Firmware 19, type: STD FW    MTS (0x00000004), id: SECAM/K1 (0000000000200000), size: 169
	#

	write_le32(0x00000004);			# Type
	write_le64(0x00000000, 0x00200000);	# ID
	write_le32(169);			# Size
	write_hunk_fix_endian(867656, 169);

	#
	# Firmware 20, type: STD FW    (0x00000000), id: SECAM/K3 (0000000004000000), size: 161
	#

	write_le32(0x00000000);			# Type
	write_le64(0x00000000, 0x04000000);	# ID
	write_le32(161);			# Size
	write_hunk_fix_endian(867832, 161);

	#
	# Firmware 21, type: STD FW    MTS (0x00000004), id: SECAM/K3 (0000000004000000), size: 169
	#

	write_le32(0x00000004);			# Type
	write_le64(0x00000000, 0x04000000);	# ID
	write_le32(169);			# Size
	write_hunk_fix_endian(868000, 169);

	#
	# Firmware 22, type: STD FW    D2633 DTV6 ATSC (0x00010030), id: (0000000000000000), size: 149
	#

	write_le32(0x00010030);			# Type
	write_le64(0x00000000, 0x00000000);	# ID
	write_le32(149);			# Size
	write_hunk_fix_endian(868176, 149);

	#
	# Firmware 23, type: STD FW    D2620 DTV6 QAM (0x00000068), id: (0000000000000000), size: 149
	#

	write_le32(0x00000068);			# Type
	write_le64(0x00000000, 0x00000000);	# ID
	write_le32(149);			# Size
	write_hunk_fix_endian(868336, 149);

	#
	# Firmware 24, type: STD FW    D2633 DTV6 QAM (0x00000070), id: (0000000000000000), size: 149
	#

	write_le32(0x00000070);			# Type
	write_le64(0x00000000, 0x00000000);	# ID
	write_le32(149);			# Size
	write_hunk_fix_endian(868488, 149);

	#
	# Firmware 25, type: STD FW    D2620 DTV7 (0x00000088), id: (0000000000000000), size: 149
	#

	write_le32(0x00000088);			# Type
	write_le64(0x00000000, 0x00000000);	# ID
	write_le32(149);			# Size
	write_hunk_fix_endian(868648, 149);

	#
	# Firmware 26, type: STD FW    D2633 DTV7 (0x00000090), id: (0000000000000000), size: 149
	#

	write_le32(0x00000090);			# Type
	write_le64(0x00000000, 0x00000000);	# ID
	write_le32(149);			# Size
	write_hunk_fix_endian(868800, 149);

	#
	# Firmware 27, type: STD FW    D2620 DTV78 (0x00000108), id: (0000000000000000), size: 149
	#

	write_le32(0x00000108);			# Type
	write_le64(0x00000000, 0x00000000);	# ID
	write_le32(149);			# Size
	write_hunk_fix_endian(868960, 149);

	#
	# Firmware 28, type: STD FW    D2633 DTV78 (0x00000110), id: (0000000000000000), size: 149
	#

	write_le32(0x00000110);			# Type
	write_le64(0x00000000, 0x00000000);	# ID
	write_le32(149);			# Size
	write_hunk_fix_endian(869112, 149);

	#
	# Firmware 29, type: STD FW    D2620 DTV8 (0x00000208), id: (0000000000000000), size: 149
	#

	write_le32(0x00000208);			# Type
	write_le64(0x00000000, 0x00000000);	# ID
	write_le32(149);			# Size
	write_hunk_fix_endian(868648, 149);

	#
	# Firmware 30, type: STD FW    D2633 DTV8 (0x00000210), id: (0000000000000000), size: 149
	#

	write_le32(0x00000210);			# Type
	write_le64(0x00000000, 0x00000000);	# ID
	write_le32(149);			# Size
	write_hunk_fix_endian(868800, 149);

	#
	# Firmware 31, type: STD FW    FM (0x00000400), id: (0000000000000000), size: 135
	#

	write_le32(0x00000400);			# Type
	write_le64(0x00000000, 0x00000000);	# ID
	write_le32(135);			# Size
	write_hunk_fix_endian(869584, 135);

	#
	# Firmware 32, type: STD FW    (0x00000000), id: PAL/I (0000000000000010), size: 161
	#

	write_le32(0x00000000);			# Type
	write_le64(0x00000000, 0x00000010);	# ID
	write_le32(161);			# Size
	write_hunk_fix_endian(869728, 161);

	#
	# Firmware 33, type: STD FW    MTS (0x00000004), id: PAL/I (0000000000000010), size: 169
	#

	write_le32(0x00000004);			# Type
	write_le64(0x00000000, 0x00000010);	# ID
	write_le32(169);			# Size
	write_hunk_fix_endian(869896, 169);

	#
	# Firmware 34, type: STD FW    (0x00000000), id: SECAM/L AM (0000001000400000), size: 169
	#

	write_le32(0x00000000);			# Type
	write_le64(0x00000010, 0x00400000);	# ID
	write_le32(169);			# Size
	write_hunk_fix_endian(870072, 169);

	#
	# Firmware 35, type: STD FW    (0x00000000), id: SECAM/L NICAM (0000000c00400000), size: 161
	#

	write_le32(0x00000000);			# Type
	write_le64(0x0000000c, 0x00400000);	# ID
	write_le32(161);			# Size
	write_hunk_fix_endian(870248, 161);

	#
	# Firmware 36, type: STD FW    (0x00000000), id: SECAM/Lc (0000000000800000), size: 161
	#

	write_le32(0x00000000);			# Type
	write_le64(0x00000000, 0x00800000);	# ID
	write_le32(161);			# Size
	write_hunk_fix_endian(870416, 161);

	#
	# Firmware 37, type: STD FW    (0x00000000), id: NTSC/M Kr (0000000000008000), size: 161
	#

	write_le32(0x00000000);			# Type
	write_le64(0x00000000, 0x00008000);	# ID
	write_le32(161);			# Size
	write_hunk_fix_endian(870584, 161);

	#
	# Firmware 38, type: STD FW    LCD (0x00001000), id: NTSC/M Kr (0000000000008000), size: 161
	#

	write_le32(0x00001000);			# Type
	write_le64(0x00000000, 0x00008000);	# ID
	write_le32(161);			# Size
	write_hunk_fix_endian(870752, 161);

	#
	# Firmware 39, type: STD FW    LCD NOGD (0x00003000), id: NTSC/M Kr (0000000000008000), size: 161
	#

	write_le32(0x00003000);			# Type
	write_le64(0x00000000, 0x00008000);	# ID
	write_le32(161);			# Size
	write_hunk_fix_endian(870920, 161);

	#
	# Firmware 40, type: STD FW    MTS (0x00000004), id: NTSC/M Kr (0000000000008000), size: 169
	#

	write_le32(0x00000004);			# Type
	write_le64(0x00000000, 0x00008000);	# ID
	write_le32(169);			# Size
	write_hunk_fix_endian(871088, 169);

	#
	# Firmware 41, type: STD FW    (0x00000000), id: NTSC PAL/M PAL/N (000000000000b700), size: 161
	#

	write_le32(0x00000000);			# Type
	write_le64(0x00000000, 0x0000b700);	# ID
	write_le32(161);			# Size
	write_hunk_fix_endian(871264, 161);

	#
	# Firmware 42, type: STD FW    LCD (0x00001000), id: NTSC PAL/M PAL/N (000000000000b700), size: 161
	#

	write_le32(0x00001000);			# Type
	write_le64(0x00000000, 0x0000b700);	# ID
	write_le32(161);			# Size
	write_hunk_fix_endian(871432, 161);

	#
	# Firmware 43, type: STD FW    LCD NOGD (0x00003000), id: NTSC PAL/M PAL/N (000000000000b700), size: 161
	#

	write_le32(0x00003000);			# Type
	write_le64(0x00000000, 0x0000b700);	# ID
	write_le32(161);			# Size
	write_hunk_fix_endian(871600, 161);

	#
	# Firmware 44, type: STD FW    (0x00000000), id: NTSC/M Jp (0000000000002000), size: 161
	#

	write_le32(0x00000000);			# Type
	write_le64(0x00000000, 0x00002000);	# ID
	write_le32(161);			# Size
	write_hunk_fix_endian(871264, 161);

	#
	# Firmware 45, type: STD FW    MTS (0x00000004), id: NTSC PAL/M PAL/N (000000000000b700), size: 169
	#

	write_le32(0x00000004);			# Type
	write_le64(0x00000000, 0x0000b700);	# ID
	write_le32(169);			# Size
	write_hunk_fix_endian(871936, 169);

	#
	# Firmware 46, type: STD FW    MTS LCD (0x00001004), id: NTSC PAL/M PAL/N (000000000000b700), size: 169
	#

	write_le32(0x00001004);			# Type
	write_le64(0x00000000, 0x0000b700);	# ID
	write_le32(169);			# Size
	write_hunk_fix_endian(872112, 169);

	#
	# Firmware 47, type: STD FW    MTS LCD NOGD (0x00003004), id: NTSC PAL/M PAL/N (000000000000b700), size: 169
	#

	write_le32(0x00003004);			# Type
	write_le64(0x00000000, 0x0000b700);	# ID
	write_le32(169);			# Size
	write_hunk_fix_endian(872288, 169);

	#
	# Firmware 48, type: SCODE FW  HAS IF (0x60000000), IF = 3.28 MHz id: (0000000000000000), size: 192
	#

	write_le32(0x60000000);			# Type
	write_le64(0x00000000, 0x00000000);	# ID
	write_le16(3280);			# IF
	write_le32(192);			# Size
	write_hunk(811896, 192);

	#
	# Firmware 49, type: SCODE FW  HAS IF (0x60000000), IF = 3.30 MHz id: (0000000000000000), size: 192
	#

	write_le32(0x60000000);			# Type
	write_le64(0x00000000, 0x00000000);	# ID
	write_le16(3300);			# IF
	write_le32(192);			# Size
	write_hunk(813048, 192);

	#
	# Firmware 50, type: SCODE FW  HAS IF (0x60000000), IF = 3.44 MHz id: (0000000000000000), size: 192
	#

	write_le32(0x60000000);			# Type
	write_le64(0x00000000, 0x00000000);	# ID
	write_le16(3440);			# IF
	write_le32(192);			# Size
	write_hunk(812280, 192);

	#
	# Firmware 51, type: SCODE FW  HAS IF (0x60000000), IF = 3.46 MHz id: (0000000000000000), size: 192
	#

	write_le32(0x60000000);			# Type
	write_le64(0x00000000, 0x00000000);	# ID
	write_le16(3460);			# IF
	write_le32(192);			# Size
	write_hunk(812472, 192);

	#
	# Firmware 52, type: SCODE FW  DTV6 ATSC OREN36 HAS IF (0x60210020), IF = 3.80 MHz id: (0000000000000000), size: 192
	#

	write_le32(0x60210020);			# Type
	write_le64(0x00000000, 0x00000000);	# ID
	write_le16(3800);			# IF
	write_le32(192);			# Size
	write_hunk(809784, 192);

	#
	# Firmware 53, type: SCODE FW  HAS IF (0x60000000), IF = 4.00 MHz id: (0000000000000000), size: 192
	#

	write_le32(0x60000000);			# Type
	write_le64(0x00000000, 0x00000000);	# ID
	write_le16(4000);			# IF
	write_le32(192);			# Size
	write_hunk(812088, 192);

	#
	# Firmware 54, type: SCODE FW  DTV6 ATSC TOYOTA388 HAS IF (0x60410020), IF = 4.08 MHz id: (0000000000000000), size: 192
	#

	write_le32(0x60410020);			# Type
	write_le64(0x00000000, 0x00000000);	# ID
	write_le16(4080);			# IF
	write_le32(192);			# Size
	write_hunk(809976, 192);

	#
	# Firmware 55, type: SCODE FW  HAS IF (0x60000000), IF = 4.20 MHz id: (0000000000000000), size: 192
	#

	write_le32(0x60000000);			# Type
	write_le64(0x00000000, 0x00000000);	# ID
	write_le16(4200);			# IF
	write_le32(192);			# Size
	write_hunk(811704, 192);

	#
	# Firmware 56, type: SCODE FW  MONO HAS IF (0x60008000), IF = 4.32 MHz id: NTSC/M Kr (0000000000008000), size: 192
	#

	write_le32(0x60008000);			# Type
	write_le64(0x00000000, 0x00008000);	# ID
	write_le16(4320);			# IF
	write_le32(192);			# Size
	write_hunk(808056, 192);

	#
	# Firmware 57, type: SCODE FW  HAS IF (0x60000000), IF = 4.45 MHz id: (0000000000000000), size: 192
	#

	write_le32(0x60000000);			# Type
	write_le64(0x00000000, 0x00000000);	# ID
	write_le16(4450);			# IF
	write_le32(192);			# Size
	write_hunk(812664, 192);

	#
	# Firmware 58, type: SCODE FW  MTS LCD NOGD MONO IF HAS IF (0x6002b004), IF = 4.50 MHz id: NTSC PAL/M PAL/N (000000000000b700), size: 192
	#

	write_le32(0x6002b004);			# Type
	write_le64(0x00000000, 0x0000b700);	# ID
	write_le16(4500);			# IF
	write_le32(192);			# Size
	write_hunk(807672, 192);

	#
	# Firmware 59, type: SCODE FW  LCD NOGD IF HAS IF (0x60023000), IF = 4.60 MHz id: NTSC/M Kr (0000000000008000), size: 192
	#

	write_le32(0x60023000);			# Type
	write_le64(0x00000000, 0x00008000);	# ID
	write_le16(4600);			# IF
	write_le32(192);			# Size
	write_hunk(807864, 192);

	#
	# Firmware 60, type: SCODE FW  DTV6 QAM DTV7 DTV78 DTV8 ZARLINK456 HAS IF (0x620003e0), IF = 4.76 MHz id: (0000000000000000), size: 192
	#

	write_le32(0x620003e0);			# Type
	write_le64(0x00000000, 0x00000000);	# ID
	write_le16(4760);			# IF
	write_le32(192);			# Size
	write_hunk(807288, 192);

	#
	# Firmware 61, type: SCODE FW  HAS IF (0x60000000), IF = 4.94 MHz id: (0000000000000000), size: 192
	#

	write_le32(0x60000000);			# Type
	write_le64(0x00000000, 0x00000000);	# ID
	write_le16(4940);			# IF
	write_le32(192);			# Size
	write_hunk(811512, 192);

	#
	# Firmware 62, type: SCODE FW  HAS IF (0x60000000), IF = 5.26 MHz id: (0000000000000000), size: 192
	#

	write_le32(0x60000000);			# Type
	write_le64(0x00000000, 0x00000000);	# ID
	write_le16(5260);			# IF
	write_le32(192);			# Size
	write_hunk(810552, 192);

	#
	# Firmware 63, type: SCODE FW  MONO HAS IF (0x60008000), IF = 5.32 MHz id: PAL/BG A2 NICAM (0000000f00000007), size: 192
	#

	write_le32(0x60008000);			# Type
	write_le64(0x0000000f, 0x00000007);	# ID
	write_le16(5320);			# IF
	write_le32(192);			# Size
	write_hunk(810744, 192);

	#
	# Firmware 64, type: SCODE FW  DTV7 DTV78 DTV8 DIBCOM52 CHINA HAS IF (0x65000380), IF = 5.40 MHz id: (0000000000000000), size: 192
	#

	write_le32(0x65000380);			# Type
	write_le64(0x00000000, 0x00000000);	# ID
	write_le16(5400);			# IF
	write_le32(192);			# Size
	write_hunk(807096, 192);

	#
	# Firmware 65, type: SCODE FW  DTV6 ATSC OREN538 HAS IF (0x60110020), IF = 5.58 MHz id: (0000000000000000), size: 192
	#

	write_le32(0x60110020);			# Type
	write_le64(0x00000000, 0x00000000);	# ID
	write_le16(5580);			# IF
	write_le32(192);			# Size
	write_hunk(809592, 192);

	#
	# Firmware 66, type: SCODE FW  HAS IF (0x60000000), IF = 5.64 MHz id: PAL/BG A2 (0000000300000007), size: 192
	#

	write_le32(0x60000000);			# Type
	write_le64(0x00000003, 0x00000007);	# ID
	write_le16(5640);			# IF
	write_le32(192);			# Size
	write_hunk(808440, 192);

	#
	# Firmware 67, type: SCODE FW  HAS IF (0x60000000), IF = 5.74 MHz id: PAL/BG NICAM (0000000c00000007), size: 192
	#

	write_le32(0x60000000);			# Type
	write_le64(0x0000000c, 0x00000007);	# ID
	write_le16(5740);			# IF
	write_le32(192);			# Size
	write_hunk(808632, 192);

	#
	# Firmware 68, type: SCODE FW  HAS IF (0x60000000), IF = 5.90 MHz id: (0000000000000000), size: 192
	#

	write_le32(0x60000000);			# Type
	write_le64(0x00000000, 0x00000000);	# ID
	write_le16(5900);			# IF
	write_le32(192);			# Size
	write_hunk(810360, 192);

	#
	# Firmware 69, type: SCODE FW  MONO HAS IF (0x60008000), IF = 6.00 MHz id: PAL/DK PAL/I SECAM/K3 SECAM/L SECAM/Lc NICAM (0000000c04c000f0), size: 192
	#

	write_le32(0x60008000);			# Type
	write_le64(0x0000000c, 0x04c000f0);	# ID
	write_le16(6000);			# IF
	write_le32(192);			# Size
	write_hunk(808824, 192);

	#
	# Firmware 70, type: SCODE FW  DTV6 QAM ATSC LG60 F6MHZ HAS IF (0x68050060), IF = 6.20 MHz id: (0000000000000000), size: 192
	#

	write_le32(0x68050060);			# Type
	write_le64(0x00000000, 0x00000000);	# ID
	write_le16(6200);			# IF
	write_le32(192);			# Size
	write_hunk(809400, 192);

	#
	# Firmware 71, type: SCODE FW  HAS IF (0x60000000), IF = 6.24 MHz id: PAL/I (0000000000000010), size: 192
	#

	write_le32(0x60000000);			# Type
	write_le64(0x00000000, 0x00000010);	# ID
	write_le16(6240);			# IF
	write_le32(192);			# Size
	write_hunk(808248, 192);

	#
	# Firmware 72, type: SCODE FW  MONO HAS IF (0x60008000), IF = 6.32 MHz id: SECAM/K1 (0000000000200000), size: 192
	#

	write_le32(0x60008000);			# Type
	write_le64(0x00000000, 0x00200000);	# ID
	write_le16(6320);			# IF
	write_le32(192);			# Size
	write_hunk(811320, 192);

	#
	# Firmware 73, type: SCODE FW  HAS IF (0x60000000), IF = 6.34 MHz id: SECAM/K1 (0000000000200000), size: 192
	#

	write_le32(0x60000000);			# Type
	write_le64(0x00000000, 0x00200000);	# ID
	write_le16(6340);			# IF
	write_le32(192);			# Size
	write_hunk(809208, 192);

	#
	# Firmware 74, type: SCODE FW  MONO HAS IF (0x60008000), IF = 6.50 MHz id: PAL/DK SECAM/K3 SECAM/L NICAM (0000000c044000e0), size: 192
	#

	write_le32(0x60008000);			# Type
	write_le64(0x0000000c, 0x044000e0);	# ID
	write_le16(6500);			# IF
	write_le32(192);			# Size
	write_hunk(811128, 192);

	#
	# Firmware 75, type: SCODE FW  DTV6 ATSC ATI638 HAS IF (0x60090020), IF = 6.58 MHz id: (0000000000000000), size: 192
	#

	write_le32(0x60090020);			# Type
	write_le64(0x00000000, 0x00000000);	# ID
	write_le16(6580);			# IF
	write_le32(192);			# Size
	write_hunk(807480, 192);

	#
	# Firmware 76, type: SCODE FW  HAS IF (0x60000000), IF = 6.60 MHz id: PAL/DK A2 (00000003000000e0), size: 192
	#

	write_le32(0x60000000);			# Type
	write_le64(0x00000003, 0x000000e0);	# ID
	write_le16(6600);			# IF
	write_le32(192);			# Size
	write_hunk(809016, 192);

	#
	# Firmware 77, type: SCODE FW  MONO HAS IF (0x60008000), IF = 6.68 MHz id: PAL/DK A2 (00000003000000e0), size: 192
	#

	write_le32(0x60008000);			# Type
	write_le64(0x00000003, 0x000000e0);	# ID
	write_le16(6680);			# IF
	write_le32(192);			# Size
	write_hunk(810936, 192);

	#
	# Firmware 78, type: SCODE FW  DTV6 ATSC TOYOTA794 HAS IF (0x60810020), IF = 8.14 MHz id: (0000000000000000), size: 192
	#

	write_le32(0x60810020);			# Type
	write_le64(0x00000000, 0x00000000);	# ID
	write_le16(8140);			# IF
	write_le32(192);			# Size
	write_hunk(810168, 192);

	#
	# Firmware 79, type: SCODE FW  HAS IF (0x60000000), IF = 8.20 MHz id: (0000000000000000), size: 192
	#

	write_le32(0x60000000);			# Type
	write_le64(0x00000000, 0x00000000);	# ID
	write_le16(8200);			# IF
	write_le32(192);			# Size
	write_hunk(812856, 192);
}

sub extract_firmware {
	my $sourcefile = "hcw85bda.sys";
	my $hash = "0e44dbf63bb0169d57446aec21881ff2";
	my $outfile = "xc3028-v27.fw";
	my $name = "xc2028 firmware";
	my $version = 519;
	my $nr_desc = 80;
	my $out;

	verify($sourcefile, $hash);

	open INFILE, "<$sourcefile";
	main_firmware($outfile, $name, $version, $nr_desc);
	close INFILE;
}

extract_firmware;
printf "Firmwares generated.\n";
###################################################################

3) quindi passo alla vera e propria creazione del file firmware per la versione di ubuntu mettendolo nel percorso corretto.

Codice: Seleziona tutto

 sudo chmod 740 extract_xc3028.pl

wget http://www.steventoth.net/linux/xc5000/HVR-12x0-14x0-17x0_1_25_25271_WHQL.zip

unzip -j HVR-12x0-14x0-17x0_1_25_25271_WHQL.zip Driver85/hcw85bda.sys

sudo ./extract_xc3028.pl

sudo cp xc3028-v27.fw /lib/firmware/

Spero che questi passi possono aiutare qualcuno a venirne a capo...

Ciao e a presto

[AL9000]

intanto grazie per la disponibilità.

appena ho un pò di tempo proverò anche così.

ciao

[Xwang]

Qualcuno ha provato i nuovi driver del kernel al posto di quello non mpiù sviluppato da Markus?
Vorrei comprare questa scheda, ma vorrei sapere se funziona con i driver inclusi nel kernel.
Per provare l'ultima versione bisogna scaricarla e compilarla come spiegato qui:
http://www.linuxtv.org/wiki/index.php/H ... ce_Drivers
I vantaggi di tali driver (se funzionano) rispetto a quelli di Markus sono:
1) continuano ad essere sviluppati e mantenuti
2) verrano inclusi nei prossimi kernel (per cui non sarà più necessario installarli a mano e bastera attaccare il device per farlo funzionare (a meno del firmware ma li si tratta di copiare un file)
Se mi confermate, gentilmente, che funziona con questi driver, la compro.
Grazie,
Xwang

[efa]

per il telecomando vedi thread:
http://forum.ubuntu-it.org/viewtopic.php?t=239545