8 files changed, 985 insertions, 70 deletions

diff --git a/Documentation/video4linux/CARDLIST.bttv b/Documentation/video4linux/CARDLIST.bttv
index f11c583295e..4739d568430 100644
--- a/Documentation/video4linux/CARDLIST.bttv
+++ b/Documentation/video4linux/CARDLIST.bttv
@@ -100,7 +100,7 @@
  99 -> AD-TVK503
 100 -> Hercules Smart TV Stereo
 101 -> Pace TV & Radio Card
-102 -> IVC-200                                             [0000:a155,0001:a155,0002:a155,0003:a155,0100:a155,0101:a155,0102:a155,0103:a155]
+102 -> IVC-200                                             [0000:a155,0001:a155,0002:a155,0003:a155,0100:a155,0101:a155,0102:a155,0103:a155,0800:a155,0801:a155,0802:a155,0803:a155]
 103 -> Grand X-Guard / Trust 814PCI                        [0304:0102]
 104 -> Nebula Electronics DigiTV                           [0071:0101]
 105 -> ProVideo PV143                                      [aa00:1430,aa00:1431,aa00:1432,aa00:1433,aa03:1433]
diff --git a/Documentation/video4linux/CARDLIST.cx88 b/Documentation/video4linux/CARDLIST.cx88
index 7ec3c4e4b60..f2510541373 100644
--- a/Documentation/video4linux/CARDLIST.cx88
+++ b/Documentation/video4linux/CARDLIST.cx88
@@ -82,3 +82,4 @@
  81 -> Leadtek WinFast DTV1800 Hybrid                      [107d:6654]
  82 -> WinFast DTV2000 H rev. J                            [107d:6f2b]
  83 -> Prof 7301 DVB-S/S2                                  [b034:3034]
+ 84 -> Samsung SMT 7020 DVB-S                              [18ac:dc00,18ac:dccd]
diff --git a/Documentation/video4linux/CARDLIST.em28xx b/Documentation/video4linux/CARDLIST.em28xx
index 0c166ff003a..3a623aaeae5 100644
--- a/Documentation/video4linux/CARDLIST.em28xx
+++ b/Documentation/video4linux/CARDLIST.em28xx
@@ -1,5 +1,5 @@
   0 -> Unknown EM2800 video grabber             (em2800)        [eb1a:2800]
-  1 -> Unknown EM2750/28xx video grabber        (em2820/em2840) [eb1a:2710,eb1a:2820,eb1a:2821,eb1a:2860,eb1a:2861,eb1a:2862,eb1a:2870,eb1a:2881,eb1a:2883,eb1a:2868]
+  1 -> Unknown EM2750/28xx video grabber        (em2820/em2840) [eb1a:2710,eb1a:2820,eb1a:2821,eb1a:2860,eb1a:2861,eb1a:2862,eb1a:2863,eb1a:2870,eb1a:2881,eb1a:2883,eb1a:2868]
   2 -> Terratec Cinergy 250 USB                 (em2820/em2840) [0ccd:0036]
   3 -> Pinnacle PCTV USB 2                      (em2820/em2840) [2304:0208]
   4 -> Hauppauge WinTV USB 2                    (em2820/em2840) [2040:4200,2040:4201]
@@ -27,6 +27,7 @@
  26 -> Hercules Smart TV USB 2.0                (em2820/em2840)
  27 -> Pinnacle PCTV USB 2 (Philips FM1216ME)   (em2820/em2840)
  28 -> Leadtek Winfast USB II Deluxe            (em2820/em2840)
+ 29 -> EM2860/TVP5150 Reference Design          (em2860)
  30 -> Videology 20K14XUSB USB2.0               (em2820/em2840)
  31 -> Usbgear VD204v9                          (em2821)
  32 -> Supercomp USB 2.0 TV                     (em2821)
@@ -70,3 +71,4 @@
  72 -> Gadmei UTV330+                           (em2861)
  73 -> Reddo DVB-C USB TV Box                   (em2870)
  74 -> Actionmaster/LinXcel/Digitus VC211A      (em2800)
+ 75 -> Dikom DK300                              (em2882)
diff --git a/Documentation/video4linux/CARDLIST.saa7134 b/Documentation/video4linux/CARDLIST.saa7134
index b4a767060ed..070f2576707 100644
--- a/Documentation/video4linux/CARDLIST.saa7134
+++ b/Documentation/video4linux/CARDLIST.saa7134
@@ -175,3 +175,6 @@
 174 -> Asus Europa Hybrid OEM                   [1043:4847]
 175 -> Leadtek Winfast DTV1000S                 [107d:6655]
 176 -> Beholder BeholdTV 505 RDS                [0000:5051]
+177 -> Hawell HW-404M7
+179 -> Beholder BeholdTV H7			[5ace:7190]
+180 -> Beholder BeholdTV A7			[5ace:7090]
diff --git a/Documentation/video4linux/extract_xc3028.pl b/Documentation/video4linux/extract_xc3028.pl
index 2cb816047fc..47877deae6d 100644
--- a/Documentation/video4linux/extract_xc3028.pl
+++ b/Documentation/video4linux/extract_xc3028.pl
@@ -5,12 +5,18 @@
 #
 # In order to use, you need to:
 #	1) Download the windows driver with something like:
+#	Version 2.4
+#		wget http://www.twinhan.com/files/AW/BDA T/20080303_V1.0.6.7.zip
+#		or wget http://www.stefanringel.de/pub/20080303_V1.0.6.7.zip
+#	Version 2.7
 #		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:
+#	2) Extract the files from the zip into the current dir:
+#		unzip -j 20080303_V1.0.6.7.zip 20080303_v1.0.6.7/UDXTTM6000.sys
 #		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:
+#	4) copy the generated files:
+#		cp xc3028-v24.fw /lib/firmware
 #		cp xc3028-v27.fw /lib/firmware
 
 #use strict;
@@ -135,7 +141,7 @@ sub write_hunk_fix_endian($$)
 	}
 }
 
-sub main_firmware($$$$)
+sub main_firmware_24($$$$)
 {
 	my $out;
 	my $j=0;
@@ -146,8 +152,774 @@ sub main_firmware($$$$)
 
 	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: 6635
+	#
+
+	write_le32(0x00000003);			# Type
+	write_le64(0x00000000, 0x00000000);	# ID
+	write_le32(6635);			# Size
+	write_hunk_fix_endian(257752, 6635);
+
+	#
+	# Firmware 1, type: BASE FW   F8MHZ MTS (0x00000007), id: (0000000000000000), size: 6635
+	#
+
+	write_le32(0x00000007);			# Type
+	write_le64(0x00000000, 0x00000000);	# ID
+	write_le32(6635);			# Size
+	write_hunk_fix_endian(264392, 6635);
+
+	#
+	# Firmware 2, type: BASE FW   FM (0x00000401), id: (0000000000000000), size: 6525
+	#
+
+	write_le32(0x00000401);			# Type
+	write_le64(0x00000000, 0x00000000);	# ID
+	write_le32(6525);			# Size
+	write_hunk_fix_endian(271040, 6525);
+
+	#
+	# Firmware 3, type: BASE FW   FM INPUT1 (0x00000c01), id: (0000000000000000), size: 6539
+	#
+
+	write_le32(0x00000c01);			# Type
+	write_le64(0x00000000, 0x00000000);	# ID
+	write_le32(6539);			# Size
+	write_hunk_fix_endian(277568, 6539);
+
+	#
+	# Firmware 4, type: BASE FW   (0x00000001), id: (0000000000000000), size: 6633
+	#
+
+	write_le32(0x00000001);			# Type
+	write_le64(0x00000000, 0x00000000);	# ID
+	write_le32(6633);			# Size
+	write_hunk_fix_endian(284120, 6633);
+
+	#
+	# Firmware 5, type: BASE FW   MTS (0x00000005), id: (0000000000000000), size: 6617
+	#
+
+	write_le32(0x00000005);			# Type
+	write_le64(0x00000000, 0x00000000);	# ID
+	write_le32(6617);			# Size
+	write_hunk_fix_endian(290760, 6617);
+
+	#
+	# 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(297384, 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(297552, 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(297728, 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(297896, 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(298072, 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(298240, 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(298416, 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(298584, 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(298760, 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(298928, 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(299104, 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(299272, 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(299448, 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(299616, 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(299792, 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(299960, 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(300136, 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(300296, 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(300448, 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(300608, 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(300760, 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(300920, 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(301072, 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(301232, 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(301384, 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(301554, 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(301688, 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(301856, 169);
+
+	#
+	# Firmware 34, type: STD FW    (0x00000000), id: SECAM/L AM (0000001000400000), size: 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(302032, 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(302200, 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(302368, 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(302536, 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(302704, 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(302872, 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(303048, 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(303216, 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(303384, 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(303552, 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(303720, 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(303896, 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(304072, 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(309048, 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(304440, 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(309432, 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(309624, 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(306936, 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(309240, 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(307128, 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(308856, 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(305208, 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(309816, 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(304824, 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(305016, 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(304440, 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(308664, 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(307704, 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(307896, 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(304248, 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(306744, 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(305592, 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(305784, 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(307512, 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(305576, 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(306552, 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(305400, 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(308472, 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(306360, 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(308280, 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(304632, 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(306168, 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(308088, 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(307320, 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(308088, 192);
 }
 
+sub main_firmware_27($$$$)
+{
+	my $out;
+	my $j=0;
+	my $outfile = shift;
+	my $name    = shift;
+	my $version = shift;
+	my $nr_desc = shift;
+
+	for ($j = length($name); $j <32; $j++) {
+		$name = $name.chr(0);
+	}
+
 	open OUTFILE, ">$outfile";
 	syswrite(OUTFILE, $name);
 	write_le16($version);
@@ -906,20 +1678,39 @@ sub main_firmware($$$$)
 	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 $sourcefile_24 = "UDXTTM6000.sys";
+	my $hash_24 = "cb9deb5508a5e150af2880f5b0066d78";
+	my $outfile_24 = "xc3028-v24.fw";
+	my $name_24 = "xc2028 firmware";
+	my $version_24 = 516;
+	my $nr_desc_24 = 77;
+	my $out;
+
+	my $sourcefile_27 = "hcw85bda.sys";
+	my $hash_27 = "0e44dbf63bb0169d57446aec21881ff2";
+	my $outfile_27 = "xc3028-v27.fw";
+	my $name_27 = "xc2028 firmware";
+	my $version_27 = 519;
+	my $nr_desc_27 = 80;
 	my $out;
 
-	verify($sourcefile, $hash);
+	if (-e $sourcefile_24) {
+		verify($sourcefile_24, $hash_24);
+
+		open INFILE, "<$sourcefile_24";
+		main_firmware_24($outfile_24, $name_24, $version_24, $nr_desc_24);
+		close INFILE;
+	}
 
-	open INFILE, "<$sourcefile";
-	main_firmware($outfile, $name, $version, $nr_desc);
-	close INFILE;
+	if (-e $sourcefile_27) {
+		verify($sourcefile_27, $hash_27);
+
+		open INFILE, "<$sourcefile_27";
+		main_firmware_27($outfile_27, $name_27, $version_27, $nr_desc_27);
+		close INFILE;
+	}
 }
 
 extract_firmware;
diff --git a/Documentation/video4linux/gspca.txt b/Documentation/video4linux/gspca.txt
index 181b9e6fd98..8f3f5d33327 100644
--- a/Documentation/video4linux/gspca.txt
+++ b/Documentation/video4linux/gspca.txt
@@ -50,6 +50,8 @@ zc3xx		0458:700f	Genius VideoCam Web V2
 sonixj		0458:7025	Genius Eye 311Q
 sn9c20x		0458:7029	Genius Look 320s
 sonixj		0458:702e	Genius Slim 310 NB
+sn9c20x		0458:704a	Genius Slim 1320
+sn9c20x		0458:704c	Genius i-Look 1321
 sn9c20x		045e:00f4	LifeCam VX-6000 (SN9C20x + OV9650)
 sonixj		045e:00f5	MicroSoft VX3000
 sonixj		045e:00f7	MicroSoft VX1000
@@ -305,12 +307,14 @@ sonixj		0c45:6138	Sn9c120 Mo4000
 sonixj		0c45:613a	Microdia Sonix PC Camera
 sonixj		0c45:613b	Surfer SN-206
 sonixj		0c45:613c	Sonix Pccam168
+sonixj		0c45:6142	Hama PC-Webcam AC-150
 sonixj		0c45:6143	Sonix Pccam168
 sonixj		0c45:6148	Digitus DA-70811/ZSMC USB PC Camera ZS211/Microdia
 sonixj		0c45:614a	Frontech E-Ccam (JIL-2225)
 sn9c20x		0c45:6240	PC Camera (SN9C201 + MT9M001)
 sn9c20x		0c45:6242	PC Camera (SN9C201 + MT9M111)
 sn9c20x		0c45:6248	PC Camera (SN9C201 + OV9655)
+sn9c20x		0c45:624c	PC Camera (SN9C201 + MT9M112)
 sn9c20x		0c45:624e	PC Camera (SN9C201 + SOI968)
 sn9c20x		0c45:624f	PC Camera (SN9C201 + OV9650)
 sn9c20x		0c45:6251	PC Camera (SN9C201 + OV9650)
@@ -323,6 +327,7 @@ sn9c20x		0c45:627f	PC Camera (SN9C201 + OV9650)
 sn9c20x		0c45:6280	PC Camera (SN9C202 + MT9M001)
 sn9c20x		0c45:6282	PC Camera (SN9C202 + MT9M111)
 sn9c20x		0c45:6288	PC Camera (SN9C202 + OV9655)
+sn9c20x		0c45:628c	PC Camera (SN9C201 + MT9M112)
 sn9c20x		0c45:628e	PC Camera (SN9C202 + SOI968)
 sn9c20x		0c45:628f	PC Camera (SN9C202 + OV9650)
 sn9c20x		0c45:62a0	PC Camera (SN9C202 + OV7670)
diff --git a/Documentation/video4linux/sh_mobile_ceu_camera.txt b/Documentation/video4linux/sh_mobile_ceu_camera.txt
index 2ae16349a78..cb47e723af7 100644
--- a/Documentation/video4linux/sh_mobile_ceu_camera.txt
+++ b/Documentation/video4linux/sh_mobile_ceu_camera.txt
@@ -17,18 +17,18 @@ Generic scaling / cropping scheme
 -2-- -\
 |      --\
 |         --\
-+-5-- -\     -- -3--
-|       ---\
-|           --- -4-- -\
-|                      -\
-|                        - -6--
++-5-- .      -- -3-- -\
+|      `...            -\
+|          `... -4-- .   - -7..
+|                     `.
+|                       `. .6--
 |
-|                        - -6'-
-|                      -/
-|           --- -4'- -/
-|       ---/
-+-5'- -/
-|            -- -3'-
+|                        . .6'-
+|                      .´
+|           ... -4'- .´
+|       ...´             - -7'.
++-5'- .´               -/
+|            -- -3'- -/
 |         --/
 |      --/
 -2'- -/
@@ -36,7 +36,11 @@ Generic scaling / cropping scheme
 |
 -1'-
 
-Produced by user requests:
+In the above chart minuses and slashes represent "real" data amounts, points and
+accents represent "useful" data, basically, CEU scaled amd cropped output,
+mapped back onto the client's source plane.
+
+Such a configuration can be produced by user requests:
 
 S_CROP(left / top = (5) - (1), width / height = (5') - (5))
 S_FMT(width / height = (6') - (6))
@@ -106,52 +110,30 @@ window:
 S_CROP
 ------
 
-If old scale applied to new crop is invalid produce nearest new scale possible
-
-1. Calculate current combined scales.
-
-	scale_comb = (((4') - (4)) / ((6') - (6))) * (((2') - (2)) / ((3') - (3)))
-
-2. Apply iterative sensor S_CROP for new input window.
-
-3. If old combined scales applied to new crop produce an impossible user window,
-adjust scales to produce nearest possible window.
-
-	width_u_out = ((5') - (5)) / scale_comb
+The API at http://v4l2spec.bytesex.org/spec/x1904.htm says:
 
-	if (width_u_out > max)
-		scale_comb = ((5') - (5)) / max;
-	else if (width_u_out < min)
-		scale_comb = ((5') - (5)) / min;
+"...specification does not define an origin or units. However by convention
+drivers should horizontally count unscaled samples relative to 0H."
 
-4. Issue G_CROP to retrieve actual input window.
+We choose to follow the advise and interpret cropping units as client input
+pixels.
 
-5. Using actual input window and calculated combined scales calculate sensor
-target output window.
-
-	width_s_out = ((3') - (3)) = ((2') - (2)) / scale_comb
-
-6. Apply iterative S_FMT for new sensor target output window.
-
-7. Issue G_FMT to retrieve the actual sensor output window.
-
-8. Calculate sensor scales.
-
-	scale_s = ((3') - (3)) / ((2') - (2))
+Cropping is performed in the following 6 steps:
 
-9. Calculate sensor output subwindow to be cropped on CEU by applying sensor
-scales to the requested window.
+1. Request exactly user rectangle from the sensor.
 
-	width_ceu = ((5') - (5)) / scale_s
+2. If smaller - iterate until a larger one is obtained. Result: sensor cropped
+   to 2 : 2', target crop 5 : 5', current output format 6' - 6.
 
-10. Use CEU cropping for above calculated window.
+3. In the previous step the sensor has tried to preserve its output frame as
+   good as possible, but it could have changed. Retrieve it again.
 
-11. Calculate CEU scales from sensor scales from results of (10) and user window
-from (3)
+4. Sensor scaled to 3 : 3'. Sensor's scale is (2' - 2) / (3' - 3). Calculate
+   intermediate window: 4' - 4 = (5' - 5) * (3' - 3) / (2' - 2)
 
-	scale_ceu = calc_scale(((5') - (5)), &width_u_out)
+5. Calculate and apply host scale = (6' - 6) / (4' - 4)
 
-12. Apply CEU scales.
+6. Calculate and apply host crop: 6 - 7 = (5 - 2) * (6' - 6) / (5' - 5)
 
 --
 Author: Guennadi Liakhovetski <g.liakhovetski@gmx.de>
diff --git a/Documentation/video4linux/v4l2-framework.txt b/Documentation/video4linux/v4l2-framework.txt
index 5155700c206..e831aaca66f 100644
--- a/Documentation/video4linux/v4l2-framework.txt
+++ b/Documentation/video4linux/v4l2-framework.txt
@@ -545,12 +545,11 @@ unregister them:
 This will remove the device nodes from sysfs (causing udev to remove them
 from /dev).
 
-After video_unregister_device() returns no new opens can be done.
-
-However, in the case of USB devices some application might still have one
-of these device nodes open. You should block all new accesses to read,
-write, poll, etc. except possibly for certain ioctl operations like
-queueing buffers.
+After video_unregister_device() returns no new opens can be done. However,
+in the case of USB devices some application might still have one of these
+device nodes open. So after the unregister all file operations will return
+an error as well, except for the ioctl and unlocked_ioctl file operations:
+those will still be passed on since some buffer ioctls may still be needed.
 
 When the last user of the video device node exits, then the vdev->release()
 callback is called and you can do the final cleanup there.
@@ -609,3 +608,135 @@ scatter/gather method (videobuf-dma-sg), DMA with linear access
 
 Please see Documentation/video4linux/videobuf for more information on how
 to use the videobuf layer.
+
+struct v4l2_fh
+--------------
+
+struct v4l2_fh provides a way to easily keep file handle specific data
+that is used by the V4L2 framework. Using v4l2_fh is optional for
+drivers.
+
+The users of v4l2_fh (in the V4L2 framework, not the driver) know
+whether a driver uses v4l2_fh as its file->private_data pointer by
+testing the V4L2_FL_USES_V4L2_FH bit in video_device->flags.
+
+Useful functions:
+
+- v4l2_fh_init()
+
+  Initialise the file handle. This *MUST* be performed in the driver's
+  v4l2_file_operations->open() handler.
+
+- v4l2_fh_add()
+
+  Add a v4l2_fh to video_device file handle list. May be called after
+  initialising the file handle.
+
+- v4l2_fh_del()
+
+  Unassociate the file handle from video_device(). The file handle
+  exit function may now be called.
+
+- v4l2_fh_exit()
+
+  Uninitialise the file handle. After uninitialisation the v4l2_fh
+  memory can be freed.
+
+struct v4l2_fh is allocated as a part of the driver's own file handle
+structure and is set to file->private_data in the driver's open
+function by the driver. Drivers can extract their own file handle
+structure by using the container_of macro. Example:
+
+struct my_fh {
+	int blah;
+	struct v4l2_fh fh;
+};
+
+...
+
+int my_open(struct file *file)
+{
+	struct my_fh *my_fh;
+	struct video_device *vfd;
+	int ret;
+
+	...
+
+	ret = v4l2_fh_init(&my_fh->fh, vfd);
+	if (ret)
+		return ret;
+
+	v4l2_fh_add(&my_fh->fh);
+
+	file->private_data = &my_fh->fh;
+
+	...
+}
+
+int my_release(struct file *file)
+{
+	struct v4l2_fh *fh = file->private_data;
+	struct my_fh *my_fh = container_of(fh, struct my_fh, fh);
+
+	...
+}
+
+V4L2 events
+-----------
+
+The V4L2 events provide a generic way to pass events to user space.
+The driver must use v4l2_fh to be able to support V4L2 events.
+
+Useful functions:
+
+- v4l2_event_alloc()
+
+  To use events, the driver must allocate events for the file handle. By
+  calling the function more than once, the driver may assure that at least n
+  events in total have been allocated. The function may not be called in
+  atomic context.
+
+- v4l2_event_queue()
+
+  Queue events to video device. The driver's only responsibility is to fill
+  in the type and the data fields. The other fields will be filled in by
+  V4L2.
+
+- v4l2_event_subscribe()
+
+  The video_device->ioctl_ops->vidioc_subscribe_event must check the driver
+  is able to produce events with specified event id. Then it calls
+  v4l2_event_subscribe() to subscribe the event.
+
+- v4l2_event_unsubscribe()
+
+  vidioc_unsubscribe_event in struct v4l2_ioctl_ops. A driver may use
+  v4l2_event_unsubscribe() directly unless it wants to be involved in
+  unsubscription process.
+
+  The special type V4L2_EVENT_ALL may be used to unsubscribe all events. The
+  drivers may want to handle this in a special way.
+
+- v4l2_event_pending()
+
+  Returns the number of pending events. Useful when implementing poll.
+
+Drivers do not initialise events directly. The events are initialised
+through v4l2_fh_init() if video_device->ioctl_ops->vidioc_subscribe_event is
+non-NULL. This *MUST* be performed in the driver's
+v4l2_file_operations->open() handler.
+
+Events are delivered to user space through the poll system call. The driver
+can use v4l2_fh->events->wait wait_queue_head_t as the argument for
+poll_wait().
+
+There are standard and private events. New standard events must use the
+smallest available event type. The drivers must allocate their events from
+their own class starting from class base. Class base is
+V4L2_EVENT_PRIVATE_START + n * 1000 where n is the lowest available number.
+The first event type in the class is reserved for future use, so the first
+available event type is 'class base + 1'.
+
+An example on how the V4L2 events may be used can be found in the OMAP
+3 ISP driver available at <URL:http://gitorious.org/omap3camera> as of
+writing this.