1 .. SPDX-License-Identifier: GPL-2.0 2 3 The Linux USB Video Class (UVC) driver 4 ====================================== 5 6 This file documents some driver-specific aspects of the UVC driver, such as 7 driver-specific ioctls and implementation notes. 8 9 Questions and remarks can be sent to the Linux UVC development mailing list at 10 linux-media@vger.kernel.org. 11 12 13 Extension Unit (XU) support 14 --------------------------- 15 16 Introduction 17 ~~~~~~~~~~~~ 18 19 The UVC specification allows for vendor-specific extensions through extension 20 units (XUs). The Linux UVC driver supports extension unit controls (XU controls) 21 through two separate mechanisms: 22 23 - through mappings of XU controls to V4L2 controls 24 - through a driver-specific ioctl interface 25 26 The first one allows generic V4L2 applications to use XU controls by mapping 27 certain XU controls onto V4L2 controls, which then show up during ordinary 28 control enumeration. 29 30 The second mechanism requires uvcvideo-specific knowledge for the application to 31 access XU controls but exposes the entire UVC XU concept to user space for 32 maximum flexibility. 33 34 Both mechanisms complement each other and are described in more detail below. 35 36 37 Control mappings 38 ~~~~~~~~~~~~~~~~ 39 40 The UVC driver provides an API for user space applications to define so-called 41 control mappings at runtime. These allow for individual XU controls or byte 42 ranges thereof to be mapped to new V4L2 controls. Such controls appear and 43 function exactly like normal V4L2 controls (i.e. the stock controls, such as 44 brightness, contrast, etc.). However, reading or writing of such a V4L2 controls 45 triggers a read or write of the associated XU control. 46 47 The ioctl used to create these control mappings is called UVCIOC_CTRL_MAP. 48 Previous driver versions (before 0.2.0) required another ioctl to be used 49 beforehand (UVCIOC_CTRL_ADD) to pass XU control information to the UVC driver. 50 This is no longer necessary as newer uvcvideo versions query the information 51 directly from the device. 52 53 For details on the UVCIOC_CTRL_MAP ioctl please refer to the section titled 54 "IOCTL reference" below. 55 56 57 3. Driver specific XU control interface 58 59 For applications that need to access XU controls directly, e.g. for testing 60 purposes, firmware upload, or accessing binary controls, a second mechanism to 61 access XU controls is provided in the form of a driver-specific ioctl, namely 62 UVCIOC_CTRL_QUERY. 63 64 A call to this ioctl allows applications to send queries to the UVC driver that 65 directly map to the low-level UVC control requests. 66 67 In order to make such a request the UVC unit ID of the control's extension unit 68 and the control selector need to be known. This information either needs to be 69 hardcoded in the application or queried using other ways such as by parsing the 70 UVC descriptor or, if available, using the media controller API to enumerate a 71 device's entities. 72 73 Unless the control size is already known it is necessary to first make a 74 UVC_GET_LEN requests in order to be able to allocate a sufficiently large buffer 75 and set the buffer size to the correct value. Similarly, to find out whether 76 UVC_GET_CUR or UVC_SET_CUR are valid requests for a given control, a 77 UVC_GET_INFO request should be made. The bits 0 (GET supported) and 1 (SET 78 supported) of the resulting byte indicate which requests are valid. 79 80 With the addition of the UVCIOC_CTRL_QUERY ioctl the UVCIOC_CTRL_GET and 81 UVCIOC_CTRL_SET ioctls have become obsolete since their functionality is a 82 subset of the former ioctl. For the time being they are still supported but 83 application developers are encouraged to use UVCIOC_CTRL_QUERY instead. 84 85 For details on the UVCIOC_CTRL_QUERY ioctl please refer to the section titled 86 "IOCTL reference" below. 87 88 89 Security 90 ~~~~~~~~ 91 92 The API doesn't currently provide a fine-grained access control facility. The 93 UVCIOC_CTRL_ADD and UVCIOC_CTRL_MAP ioctls require super user permissions. 94 95 Suggestions on how to improve this are welcome. 96 97 98 Debugging 99 ~~~~~~~~~ 100 101 In order to debug problems related to XU controls or controls in general it is 102 recommended to enable the UVC_TRACE_CONTROL bit in the module parameter 'trace'. 103 This causes extra output to be written into the system log. 104 105 106 IOCTL reference 107 ~~~~~~~~~~~~~~~ 108 109 UVCIOC_CTRL_MAP - Map a UVC control to a V4L2 control 110 ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ 111 112 Argument: struct uvc_xu_control_mapping 113 114 **Description**: 115 116 This ioctl creates a mapping between a UVC control or part of a UVC 117 control and a V4L2 control. Once mappings are defined, userspace 118 applications can access vendor-defined UVC control through the V4L2 119 control API. 120 121 To create a mapping, applications fill the uvc_xu_control_mapping 122 structure with information about an existing UVC control defined with 123 UVCIOC_CTRL_ADD and a new V4L2 control. 124 125 A UVC control can be mapped to several V4L2 controls. For instance, 126 a UVC pan/tilt control could be mapped to separate pan and tilt V4L2 127 controls. The UVC control is divided into non overlapping fields using 128 the 'size' and 'offset' fields and are then independently mapped to 129 V4L2 control. 130 131 For signed integer V4L2 controls the data_type field should be set to 132 UVC_CTRL_DATA_TYPE_SIGNED. Other values are currently ignored. 133 134 **Return value**: 135 136 On success 0 is returned. On error -1 is returned and errno is set 137 appropriately. 138 139 ENOMEM 140 Not enough memory to perform the operation. 141 EPERM 142 Insufficient privileges (super user privileges are required). 143 EINVAL 144 No such UVC control. 145 EOVERFLOW 146 The requested offset and size would overflow the UVC control. 147 EEXIST 148 Mapping already exists. 149 150 **Data types**: 151 152 .. code-block:: none 153 154 * struct uvc_xu_control_mapping 155 156 __u32 id V4L2 control identifier 157 __u8 name[32] V4L2 control name 158 __u8 entity[16] UVC extension unit GUID 159 __u8 selector UVC control selector 160 __u8 size V4L2 control size (in bits) 161 __u8 offset V4L2 control offset (in bits) 162 enum v4l2_ctrl_type 163 v4l2_type V4L2 control type 164 enum uvc_control_data_type 165 data_type UVC control data type 166 struct uvc_menu_info 167 *menu_info Array of menu entries (for menu controls only) 168 __u32 menu_count Number of menu entries (for menu controls only) 169 170 * struct uvc_menu_info 171 172 __u32 value Menu entry value used by the device 173 __u8 name[32] Menu entry name 174 175 176 * enum uvc_control_data_type 177 178 UVC_CTRL_DATA_TYPE_RAW Raw control (byte array) 179 UVC_CTRL_DATA_TYPE_SIGNED Signed integer 180 UVC_CTRL_DATA_TYPE_UNSIGNED Unsigned integer 181 UVC_CTRL_DATA_TYPE_BOOLEAN Boolean 182 UVC_CTRL_DATA_TYPE_ENUM Enumeration 183 UVC_CTRL_DATA_TYPE_BITMASK Bitmask 184 185 186 UVCIOC_CTRL_QUERY - Query a UVC XU control 187 ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ 188 Argument: struct uvc_xu_control_query 189 190 **Description**: 191 192 This ioctl queries a UVC XU control identified by its extension unit ID 193 and control selector. 194 195 There are a number of different queries available that closely 196 correspond to the low-level control requests described in the UVC 197 specification. These requests are: 198 199 UVC_GET_CUR 200 Obtain the current value of the control. 201 UVC_GET_MIN 202 Obtain the minimum value of the control. 203 UVC_GET_MAX 204 Obtain the maximum value of the control. 205 UVC_GET_DEF 206 Obtain the default value of the control. 207 UVC_GET_RES 208 Query the resolution of the control, i.e. the step size of the 209 allowed control values. 210 UVC_GET_LEN 211 Query the size of the control in bytes. 212 UVC_GET_INFO 213 Query the control information bitmap, which indicates whether 214 get/set requests are supported. 215 UVC_SET_CUR 216 Update the value of the control. 217 218 Applications must set the 'size' field to the correct length for the 219 control. Exceptions are the UVC_GET_LEN and UVC_GET_INFO queries, for 220 which the size must be set to 2 and 1, respectively. The 'data' field 221 must point to a valid writable buffer big enough to hold the indicated 222 number of data bytes. 223 224 Data is copied directly from the device without any driver-side 225 processing. Applications are responsible for data buffer formatting, 226 including little-endian/big-endian conversion. This is particularly 227 important for the result of the UVC_GET_LEN requests, which is always 228 returned as a little-endian 16-bit integer by the device. 229 230 **Return value**: 231 232 On success 0 is returned. On error -1 is returned and errno is set 233 appropriately. 234 235 ENOENT 236 The device does not support the given control or the specified 237 extension unit could not be found. 238 ENOBUFS 239 The specified buffer size is incorrect (too big or too small). 240 EINVAL 241 An invalid request code was passed. 242 EBADRQC 243 The given request is not supported by the given control. 244 EFAULT 245 The data pointer references an inaccessible memory area. 246 247 **Data types**: 248 249 .. code-block:: none 250 251 * struct uvc_xu_control_query 252 253 __u8 unit Extension unit ID 254 __u8 selector Control selector 255 __u8 query Request code to send to the device 256 __u16 size Control data size (in bytes) 257 __u8 *data Control value
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