Linus Torvalds | 1da177e | 2005-04-16 15:20:36 -0700 | [diff] [blame] | 1 | README for Linux device driver for the IBM "C-It" USB video camera |
| 2 | |
| 3 | INTRODUCTION: |
| 4 | |
| 5 | This driver does not use all features known to exist in |
| 6 | the IBM camera. However most of needed features work well. |
| 7 | |
| 8 | This driver was developed using logs of observed USB traffic |
| 9 | which was produced by standard Windows driver (c-it98.sys). |
| 10 | I did not have data sheets from Xirlink. |
| 11 | |
| 12 | Video formats: |
| 13 | 128x96 [model 1] |
| 14 | 176x144 |
| 15 | 320x240 [model 2] |
| 16 | 352x240 [model 2] |
| 17 | 352x288 |
| 18 | Frame rate: 3 - 30 frames per second (FPS) |
| 19 | External interface: USB |
| 20 | Internal interface: Video For Linux (V4L) |
| 21 | Supported controls: |
| 22 | - by V4L: Contrast, Brightness, Color, Hue |
| 23 | - by driver options: frame rate, lighting conditions, video format, |
| 24 | default picture settings, sharpness. |
| 25 | |
| 26 | SUPPORTED CAMERAS: |
| 27 | |
| 28 | Xirlink "C-It" camera, also known as "IBM PC Camera". |
| 29 | The device uses proprietary ASIC (and compression method); |
| 30 | it is manufactured by Xirlink. See http://www.xirlink.com/ |
| 31 | http://www.ibmpccamera.com or http://www.c-itnow.com/ for |
| 32 | details and pictures. |
| 33 | |
| 34 | This very chipset ("X Chip", as marked at the factory) |
| 35 | is used in several other cameras, and they are supported |
| 36 | as well: |
| 37 | |
| 38 | - IBM NetCamera |
| 39 | - Veo Stingray |
| 40 | |
| 41 | The Linux driver was developed with camera with following |
| 42 | model number (or FCC ID): KSX-XVP510. This camera has three |
| 43 | interfaces, each with one endpoint (control, iso, iso). This |
| 44 | type of cameras is referred to as "model 1". These cameras are |
| 45 | no longer manufactured. |
| 46 | |
| 47 | Xirlink now manufactures new cameras which are somewhat different. |
| 48 | In particular, following models [FCC ID] belong to that category: |
| 49 | |
| 50 | XVP300 [KSX-X9903] |
| 51 | XVP600 [KSX-X9902] |
| 52 | XVP610 [KSX-X9902] |
| 53 | |
| 54 | (see http://www.xirlink.com/ibmpccamera/ for updates, they refer |
| 55 | to these new cameras by Windows driver dated 12-27-99, v3005 BETA) |
| 56 | These cameras have two interfaces, one endpoint in each (iso, bulk). |
| 57 | Such type of cameras is referred to as "model 2". They are supported |
| 58 | (with exception of 352x288 native mode). |
| 59 | |
| 60 | Some IBM NetCameras (Model 4) are made to generate only compressed |
| 61 | video streams. This is great for performance, but unfortunately |
| 62 | nobody knows how to decompress the stream :-( Therefore, these |
| 63 | cameras are *unsupported* and if you try to use one of those, all |
| 64 | you get is random colored horizontal streaks, not the image! |
| 65 | If you have one of those cameras, you probably should return it |
| 66 | to the store and get something that is supported. |
| 67 | |
| 68 | Tell me more about all that "model" business |
| 69 | -------------------------------------------- |
| 70 | |
| 71 | I just invented model numbers to uniquely identify flavors of the |
| 72 | hardware/firmware that were sold. It was very confusing to use |
| 73 | brand names or some other internal numbering schemes. So I found |
| 74 | by experimentation that all Xirlink chipsets fall into four big |
| 75 | classes, and I called them "models". Each model is programmed in |
| 76 | its own way, and each model sends back the video in its own way. |
| 77 | |
| 78 | Quirks of Model 2 cameras: |
| 79 | ------------------------- |
| 80 | |
| 81 | Model 2 does not have hardware contrast control. Corresponding V4L |
| 82 | control is implemented in software, which is not very nice to your |
| 83 | CPU, but at least it works. |
| 84 | |
| 85 | This driver provides 352x288 mode by switching the camera into |
| 86 | quasi-352x288 RGB mode (800 Kbits per frame) essentially limiting |
| 87 | this mode to 10 frames per second or less, in ideal conditions on |
| 88 | the bus (USB is shared, after all). The frame rate |
| 89 | has to be programmed very conservatively. Additional concern is that |
| 90 | frame rate depends on brightness setting; therefore the picture can |
| 91 | be good at one brightness and broken at another! I did not want to fix |
| 92 | the frame rate at slowest setting, but I had to move it pretty much down |
| 93 | the scale (so that framerate option barely matters). I also noticed that |
| 94 | camera after first powering up produces frames slightly faster than during |
| 95 | consecutive uses. All this means that if you use 352x288 (which is |
| 96 | default), be warned - you may encounter broken picture on first connect; |
| 97 | try to adjust brightness - brighter image is slower, so USB will be able |
| 98 | to send all data. However if you regularly use Model 2 cameras you may |
| 99 | prefer 176x144 which makes perfectly good I420, with no scaling and |
| 100 | lesser demands on USB (300 Kbits per second, or 26 frames per second). |
| 101 | |
| 102 | Another strange effect of 352x288 mode is the fine vertical grid visible |
| 103 | on some colored surfaces. I am sure it is caused by me not understanding |
| 104 | what the camera is trying to say. Blame trade secrets for that. |
| 105 | |
| 106 | The camera that I had also has a hardware quirk: if disconnected, |
| 107 | it needs few minutes to "relax" before it can be plugged in again |
| 108 | (poorly designed USB processor reset circuit?) |
| 109 | |
| 110 | [Veo Stingray with Product ID 0x800C is also Model 2, but I haven't |
| 111 | observed this particular flaw in it.] |
| 112 | |
| 113 | Model 2 camera can be programmed for very high sensitivity (even starlight |
| 114 | may be enough), this makes it convenient for tinkering with. The driver |
| 115 | code has enough comments to help a programmer to tweak the camera |
| 116 | as s/he feels necessary. |
| 117 | |
| 118 | WHAT YOU NEED: |
| 119 | |
| 120 | - A supported IBM PC (C-it) camera (model 1 or 2) |
| 121 | |
| 122 | - A Linux box with USB support (2.3/2.4; 2.2 w/backport may work) |
| 123 | |
| 124 | - A Video4Linux compatible frame grabber program such as xawtv. |
| 125 | |
| 126 | HOW TO COMPILE THE DRIVER: |
| 127 | |
| 128 | You need to compile the driver only if you are a developer |
| 129 | or if you want to make changes to the code. Most distributions |
| 130 | precompile all modules, so you can go directly to the next |
| 131 | section "HOW TO USE THE DRIVER". |
| 132 | |
| 133 | The ibmcam driver uses usbvideo helper library (module), |
| 134 | so if you are studying the ibmcam code you will be led there. |
| 135 | |
| 136 | The driver itself consists of only one file in usb/ directory: |
| 137 | ibmcam.c. This file is included into the Linux kernel build |
| 138 | process if you configure the kernel for CONFIG_USB_IBMCAM. |
| 139 | Run "make xconfig" and in USB section you will find the IBM |
| 140 | camera driver. Select it, save the configuration and recompile. |
| 141 | |
| 142 | HOW TO USE THE DRIVER: |
| 143 | |
| 144 | I recommend to compile driver as a module. This gives you an |
| 145 | easier access to its configuration. The camera has many more |
| 146 | settings than V4L can operate, so some settings are done using |
| 147 | module options. |
| 148 | |
| 149 | To begin with, on most modern Linux distributions the driver |
| 150 | will be automatically loaded whenever you plug the supported |
| 151 | camera in. Therefore, you don't need to do anything. However |
| 152 | if you want to experiment with some module parameters then |
| 153 | you can load and unload the driver manually, with camera |
| 154 | plugged in or unplugged. |
| 155 | |
| 156 | Typically module is installed with command 'modprobe', like this: |
| 157 | |
| 158 | # modprobe ibmcam framerate=1 |
| 159 | |
| 160 | Alternatively you can use 'insmod' in similar fashion: |
| 161 | |
| 162 | # insmod /lib/modules/2.x.y/usb/ibmcam.o framerate=1 |
| 163 | |
| 164 | Module can be inserted with camera connected or disconnected. |
| 165 | |
| 166 | The driver can have options, though some defaults are provided. |
| 167 | |
| 168 | Driver options: (* indicates that option is model-dependent) |
| 169 | |
| 170 | Name Type Range [default] Example |
| 171 | -------------- -------------- -------------- ------------------ |
| 172 | debug Integer 0-9 [0] debug=1 |
| 173 | flags Integer 0-0xFF [0] flags=0x0d |
| 174 | framerate Integer 0-6 [2] framerate=1 |
| 175 | hue_correction Integer 0-255 [128] hue_correction=115 |
| 176 | init_brightness Integer 0-255 [128] init_brightness=100 |
| 177 | init_contrast Integer 0-255 [192] init_contrast=200 |
| 178 | init_color Integer 0-255 [128] init_color=130 |
| 179 | init_hue Integer 0-255 [128] init_hue=115 |
| 180 | lighting Integer 0-2* [1] lighting=2 |
| 181 | sharpness Integer 0-6* [4] sharpness=3 |
| 182 | size Integer 0-2* [2] size=1 |
| 183 | |
| 184 | Options for Model 2 only: |
| 185 | |
| 186 | Name Type Range [default] Example |
| 187 | -------------- -------------- -------------- ------------------ |
| 188 | init_model2_rg Integer 0..255 [0x70] init_model2_rg=128 |
| 189 | init_model2_rg2 Integer 0..255 [0x2f] init_model2_rg2=50 |
| 190 | init_model2_sat Integer 0..255 [0x34] init_model2_sat=65 |
| 191 | init_model2_yb Integer 0..255 [0xa0] init_model2_yb=200 |
| 192 | |
| 193 | debug You don't need this option unless you are a developer. |
| 194 | If you are a developer then you will see in the code |
| 195 | what values do what. 0=off. |
| 196 | |
| 197 | flags This is a bit mask, and you can combine any number of |
| 198 | bits to produce what you want. Usually you don't want |
| 199 | any of extra features this option provides: |
| 200 | |
| 201 | FLAGS_RETRY_VIDIOCSYNC 1 This bit allows to retry failed |
| 202 | VIDIOCSYNC ioctls without failing. |
| 203 | Will work with xawtv, will not |
| 204 | with xrealproducer. Default is |
| 205 | not set. |
| 206 | FLAGS_MONOCHROME 2 Activates monochrome (b/w) mode. |
| 207 | FLAGS_DISPLAY_HINTS 4 Shows colored pixels which have |
| 208 | magic meaning to developers. |
| 209 | FLAGS_OVERLAY_STATS 8 Shows tiny numbers on screen, |
| 210 | useful only for debugging. |
| 211 | FLAGS_FORCE_TESTPATTERN 16 Shows blue screen with numbers. |
| 212 | FLAGS_SEPARATE_FRAMES 32 Shows each frame separately, as |
| 213 | it was received from the camera. |
| 214 | Default (not set) is to mix the |
| 215 | preceding frame in to compensate |
| 216 | for occasional loss of Isoc data |
| 217 | on high frame rates. |
| 218 | FLAGS_CLEAN_FRAMES 64 Forces "cleanup" of each frame |
| 219 | prior to use; relevant only if |
| 220 | FLAGS_SEPARATE_FRAMES is set. |
| 221 | Default is not to clean frames, |
| 222 | this is a little faster but may |
| 223 | produce flicker if frame rate is |
| 224 | too high and Isoc data gets lost. |
| 225 | FLAGS_NO_DECODING 128 This flag turns the video stream |
| 226 | decoder off, and dumps the raw |
| 227 | Isoc data from the camera into |
| 228 | the reading process. Useful to |
| 229 | developers, but not to users. |
| 230 | |
| 231 | framerate This setting controls frame rate of the camera. This is |
| 232 | an approximate setting (in terms of "worst" ... "best") |
| 233 | because camera changes frame rate depending on amount |
| 234 | of light available. Setting 0 is slowest, 6 is fastest. |
| 235 | Beware - fast settings are very demanding and may not |
| 236 | work well with all video sizes. Be conservative. |
| 237 | |
| 238 | hue_correction This highly optional setting allows to adjust the |
| 239 | hue of the image in a way slightly different from |
| 240 | what usual "hue" control does. Both controls affect |
| 241 | YUV colorspace: regular "hue" control adjusts only |
| 242 | U component, and this "hue_correction" option similarly |
| 243 | adjusts only V component. However usually it is enough |
| 244 | to tweak only U or V to compensate for colored light or |
| 245 | color temperature; this option simply allows more |
| 246 | complicated correction when and if it is necessary. |
| 247 | |
| 248 | init_brightness These settings specify _initial_ values which will be |
| 249 | init_contrast used to set up the camera. If your V4L application has |
| 250 | init_color its own controls to adjust the picture then these |
| 251 | init_hue controls will be used too. These options allow you to |
| 252 | preconfigure the camera when it gets connected, before |
| 253 | any V4L application connects to it. Good for webcams. |
| 254 | |
| 255 | init_model2_rg These initial settings alter color balance of the |
| 256 | init_model2_rg2 camera on hardware level. All four settings may be used |
| 257 | init_model2_sat to tune the camera to specific lighting conditions. These |
| 258 | init_model2_yb settings only apply to Model 2 cameras. |
| 259 | |
| 260 | lighting This option selects one of three hardware-defined |
| 261 | photosensitivity settings of the camera. 0=bright light, |
| 262 | 1=Medium (default), 2=Low light. This setting affects |
| 263 | frame rate: the dimmer the lighting the lower the frame |
| 264 | rate (because longer exposition time is needed). The |
| 265 | Model 2 cameras allow values more than 2 for this option, |
| 266 | thus enabling extremely high sensitivity at cost of frame |
| 267 | rate, color saturation and imaging sensor noise. |
| 268 | |
| 269 | sharpness This option controls smoothing (noise reduction) |
| 270 | made by camera. Setting 0 is most smooth, setting 6 |
| 271 | is most sharp. Be aware that CMOS sensor used in the |
| 272 | camera is pretty noisy, so if you choose 6 you will |
| 273 | be greeted with "snowy" image. Default is 4. Model 2 |
| 274 | cameras do not support this feature. |
| 275 | |
| 276 | size This setting chooses one of several image sizes that are |
| 277 | supported by this driver. Cameras may support more, but |
| 278 | it's difficult to reverse-engineer all formats. |
| 279 | Following video sizes are supported: |
| 280 | |
| 281 | size=0 128x96 (Model 1 only) |
| 282 | size=1 160x120 |
| 283 | size=2 176x144 |
| 284 | size=3 320x240 (Model 2 only) |
| 285 | size=4 352x240 (Model 2 only) |
| 286 | size=5 352x288 |
| 287 | size=6 640x480 (Model 3 only) |
| 288 | |
| 289 | The 352x288 is the native size of the Model 1 sensor |
| 290 | array, so it's the best resolution the camera can |
| 291 | yield. The best resolution of Model 2 is 176x144, and |
| 292 | larger images are produced by stretching the bitmap. |
| 293 | Model 3 has sensor with 640x480 grid, and it works too, |
| 294 | but the frame rate will be exceptionally low (1-2 FPS); |
| 295 | it may be still OK for some applications, like security. |
| 296 | Choose the image size you need. The smaller image can |
| 297 | support faster frame rate. Default is 352x288. |
| 298 | |
| 299 | For more information and the Troubleshooting FAQ visit this URL: |
| 300 | |
| 301 | http://www.linux-usb.org/ibmcam/ |
| 302 | |
| 303 | WHAT NEEDS TO BE DONE: |
| 304 | |
| 305 | - The button on the camera is not used. I don't know how to get to it. |
| 306 | I know now how to read button on Model 2, but what to do with it? |
| 307 | |
| 308 | - Camera reports its status back to the driver; however I don't know |
| 309 | what returned data means. If camera fails at some initialization |
| 310 | stage then something should be done, and I don't do that because |
| 311 | I don't even know that some command failed. This is mostly Model 1 |
| 312 | concern because Model 2 uses different commands which do not return |
| 313 | status (and seem to complete successfully every time). |
| 314 | |
| 315 | - Some flavors of Model 4 NetCameras produce only compressed video |
| 316 | streams, and I don't know how to decode them. |
| 317 | |
| 318 | CREDITS: |
| 319 | |
| 320 | The code is based in no small part on the CPiA driver by Johannes Erdfelt, |
| 321 | Randy Dunlap, and others. Big thanks to them for their pioneering work on that |
| 322 | and the USB stack. |
| 323 | |
| 324 | I also thank John Lightsey for his donation of the Veo Stingray camera. |