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diff --git a/Documentation/input/devices/alps.rst b/Documentation/input/devices/alps.rst new file mode 100644 index 000000000000..6779148e428c --- /dev/null +++ b/Documentation/input/devices/alps.rst @@ -0,0 +1,387 @@ +---------------------- +ALPS Touchpad Protocol +---------------------- + +Introduction +------------ +Currently the ALPS touchpad driver supports seven protocol versions in use by +ALPS touchpads, called versions 1, 2, 3, 4, 5, 6, 7 and 8. + +Since roughly mid-2010 several new ALPS touchpads have been released and +integrated into a variety of laptops and netbooks. These new touchpads +have enough behavior differences that the alps_model_data definition +table, describing the properties of the different versions, is no longer +adequate. The design choices were to re-define the alps_model_data +table, with the risk of regression testing existing devices, or isolate +the new devices outside of the alps_model_data table. The latter design +choice was made. The new touchpad signatures are named: "Rushmore", +"Pinnacle", and "Dolphin", which you will see in the alps.c code. +For the purposes of this document, this group of ALPS touchpads will +generically be called "new ALPS touchpads". + +We experimented with probing the ACPI interface _HID (Hardware ID)/_CID +(Compatibility ID) definition as a way to uniquely identify the +different ALPS variants but there did not appear to be a 1:1 mapping. +In fact, it appeared to be an m:n mapping between the _HID and actual +hardware type. + +Detection +--------- + +All ALPS touchpads should respond to the "E6 report" command sequence: +E8-E6-E6-E6-E9. An ALPS touchpad should respond with either 00-00-0A or +00-00-64 if no buttons are pressed. The bits 0-2 of the first byte will be 1s +if some buttons are pressed. + +If the E6 report is successful, the touchpad model is identified using the "E7 +report" sequence: E8-E7-E7-E7-E9. The response is the model signature and is +matched against known models in the alps_model_data_array. + +For older touchpads supporting protocol versions 3 and 4, the E7 report +model signature is always 73-02-64. To differentiate between these +versions, the response from the "Enter Command Mode" sequence must be +inspected as described below. + +The new ALPS touchpads have an E7 signature of 73-03-50 or 73-03-0A but +seem to be better differentiated by the EC Command Mode response. + +Command Mode +------------ + +Protocol versions 3 and 4 have a command mode that is used to read and write +one-byte device registers in a 16-bit address space. The command sequence +EC-EC-EC-E9 places the device in command mode, and the device will respond +with 88-07 followed by a third byte. This third byte can be used to determine +whether the devices uses the version 3 or 4 protocol. + +To exit command mode, PSMOUSE_CMD_SETSTREAM (EA) is sent to the touchpad. + +While in command mode, register addresses can be set by first sending a +specific command, either EC for v3 devices or F5 for v4 devices. Then the +address is sent one nibble at a time, where each nibble is encoded as a +command with optional data. This encoding differs slightly between the v3 and +v4 protocols. + +Once an address has been set, the addressed register can be read by sending +PSMOUSE_CMD_GETINFO (E9). The first two bytes of the response contains the +address of the register being read, and the third contains the value of the +register. Registers are written by writing the value one nibble at a time +using the same encoding used for addresses. + +For the new ALPS touchpads, the EC command is used to enter command +mode. The response in the new ALPS touchpads is significantly different, +and more important in determining the behavior. This code has been +separated from the original alps_model_data table and put in the +alps_identify function. For example, there seem to be two hardware init +sequences for the "Dolphin" touchpads as determined by the second byte +of the EC response. + +Packet Format +------------- + +In the following tables, the following notation is used:: + + CAPITALS = stick, miniscules = touchpad + +?'s can have different meanings on different models, such as wheel rotation, +extra buttons, stick buttons on a dualpoint, etc. + +PS/2 packet format +------------------ + +:: + + byte 0: 0 0 YSGN XSGN 1 M R L + byte 1: X7 X6 X5 X4 X3 X2 X1 X0 + byte 2: Y7 Y6 Y5 Y4 Y3 Y2 Y1 Y0 + +Note that the device never signals overflow condition. + +For protocol version 2 devices when the trackpoint is used, and no fingers +are on the touchpad, the M R L bits signal the combined status of both the +pointingstick and touchpad buttons. + +ALPS Absolute Mode - Protocol Version 1 +--------------------------------------- + +:: + + byte 0: 1 0 0 0 1 x9 x8 x7 + byte 1: 0 x6 x5 x4 x3 x2 x1 x0 + byte 2: 0 ? ? l r ? fin ges + byte 3: 0 ? ? ? ? y9 y8 y7 + byte 4: 0 y6 y5 y4 y3 y2 y1 y0 + byte 5: 0 z6 z5 z4 z3 z2 z1 z0 + +ALPS Absolute Mode - Protocol Version 2 +--------------------------------------- + +:: + + byte 0: 1 ? ? ? 1 PSM PSR PSL + byte 1: 0 x6 x5 x4 x3 x2 x1 x0 + byte 2: 0 x10 x9 x8 x7 ? fin ges + byte 3: 0 y9 y8 y7 1 M R L + byte 4: 0 y6 y5 y4 y3 y2 y1 y0 + byte 5: 0 z6 z5 z4 z3 z2 z1 z0 + +Protocol Version 2 DualPoint devices send standard PS/2 mouse packets for +the DualPoint Stick. The M, R and L bits signal the combined status of both +the pointingstick and touchpad buttons, except for Dell dualpoint devices +where the pointingstick buttons get reported separately in the PSM, PSR +and PSL bits. + +Dualpoint device -- interleaved packet format +--------------------------------------------- + +:: + + byte 0: 1 1 0 0 1 1 1 1 + byte 1: 0 x6 x5 x4 x3 x2 x1 x0 + byte 2: 0 x10 x9 x8 x7 0 fin ges + byte 3: 0 0 YSGN XSGN 1 1 1 1 + byte 4: X7 X6 X5 X4 X3 X2 X1 X0 + byte 5: Y7 Y6 Y5 Y4 Y3 Y2 Y1 Y0 + byte 6: 0 y9 y8 y7 1 m r l + byte 7: 0 y6 y5 y4 y3 y2 y1 y0 + byte 8: 0 z6 z5 z4 z3 z2 z1 z0 + +Devices which use the interleaving format normally send standard PS/2 mouse +packets for the DualPoint Stick + ALPS Absolute Mode packets for the +touchpad, switching to the interleaved packet format when both the stick and +the touchpad are used at the same time. + +ALPS Absolute Mode - Protocol Version 3 +--------------------------------------- + +ALPS protocol version 3 has three different packet formats. The first two are +associated with touchpad events, and the third is associated with trackstick +events. + +The first type is the touchpad position packet:: + + byte 0: 1 ? x1 x0 1 1 1 1 + byte 1: 0 x10 x9 x8 x7 x6 x5 x4 + byte 2: 0 y10 y9 y8 y7 y6 y5 y4 + byte 3: 0 M R L 1 m r l + byte 4: 0 mt x3 x2 y3 y2 y1 y0 + byte 5: 0 z6 z5 z4 z3 z2 z1 z0 + +Note that for some devices the trackstick buttons are reported in this packet, +and on others it is reported in the trackstick packets. + +The second packet type contains bitmaps representing the x and y axes. In the +bitmaps a given bit is set if there is a finger covering that position on the +given axis. Thus the bitmap packet can be used for low-resolution multi-touch +data, although finger tracking is not possible. This packet also encodes the +number of contacts (f1 and f0 in the table below):: + + byte 0: 1 1 x1 x0 1 1 1 1 + byte 1: 0 x8 x7 x6 x5 x4 x3 x2 + byte 2: 0 y7 y6 y5 y4 y3 y2 y1 + byte 3: 0 y10 y9 y8 1 1 1 1 + byte 4: 0 x14 x13 x12 x11 x10 x9 y0 + byte 5: 0 1 ? ? ? ? f1 f0 + +This packet only appears after a position packet with the mt bit set, and +usually only appears when there are two or more contacts (although +occasionally it's seen with only a single contact). + +The final v3 packet type is the trackstick packet:: + + byte 0: 1 1 x7 y7 1 1 1 1 + byte 1: 0 x6 x5 x4 x3 x2 x1 x0 + byte 2: 0 y6 y5 y4 y3 y2 y1 y0 + byte 3: 0 1 0 0 1 0 0 0 + byte 4: 0 z4 z3 z2 z1 z0 ? ? + byte 5: 0 0 1 1 1 1 1 1 + +ALPS Absolute Mode - Protocol Version 4 +--------------------------------------- + +Protocol version 4 has an 8-byte packet format:: + + byte 0: 1 ? x1 x0 1 1 1 1 + byte 1: 0 x10 x9 x8 x7 x6 x5 x4 + byte 2: 0 y10 y9 y8 y7 y6 y5 y4 + byte 3: 0 1 x3 x2 y3 y2 y1 y0 + byte 4: 0 ? ? ? 1 ? r l + byte 5: 0 z6 z5 z4 z3 z2 z1 z0 + byte 6: bitmap data (described below) + byte 7: bitmap data (described below) + +The last two bytes represent a partial bitmap packet, with 3 full packets +required to construct a complete bitmap packet. Once assembled, the 6-byte +bitmap packet has the following format:: + + byte 0: 0 1 x7 x6 x5 x4 x3 x2 + byte 1: 0 x1 x0 y4 y3 y2 y1 y0 + byte 2: 0 0 ? x14 x13 x12 x11 x10 + byte 3: 0 x9 x8 y9 y8 y7 y6 y5 + byte 4: 0 0 0 0 0 0 0 0 + byte 5: 0 0 0 0 0 0 0 y10 + +There are several things worth noting here. + + 1) In the bitmap data, bit 6 of byte 0 serves as a sync byte to + identify the first fragment of a bitmap packet. + + 2) The bitmaps represent the same data as in the v3 bitmap packets, although + the packet layout is different. + + 3) There doesn't seem to be a count of the contact points anywhere in the v4 + protocol packets. Deriving a count of contact points must be done by + analyzing the bitmaps. + + 4) There is a 3 to 1 ratio of position packets to bitmap packets. Therefore + MT position can only be updated for every third ST position update, and + the count of contact points can only be updated every third packet as + well. + +So far no v4 devices with tracksticks have been encountered. + +ALPS Absolute Mode - Protocol Version 5 +--------------------------------------- +This is basically Protocol Version 3 but with different logic for packet +decode. It uses the same alps_process_touchpad_packet_v3 call with a +specialized decode_fields function pointer to correctly interpret the +packets. This appears to only be used by the Dolphin devices. + +For single-touch, the 6-byte packet format is:: + + byte 0: 1 1 0 0 1 0 0 0 + byte 1: 0 x6 x5 x4 x3 x2 x1 x0 + byte 2: 0 y6 y5 y4 y3 y2 y1 y0 + byte 3: 0 M R L 1 m r l + byte 4: y10 y9 y8 y7 x10 x9 x8 x7 + byte 5: 0 z6 z5 z4 z3 z2 z1 z0 + +For mt, the format is:: + + byte 0: 1 1 1 n3 1 n2 n1 x24 + byte 1: 1 y7 y6 y5 y4 y3 y2 y1 + byte 2: ? x2 x1 y12 y11 y10 y9 y8 + byte 3: 0 x23 x22 x21 x20 x19 x18 x17 + byte 4: 0 x9 x8 x7 x6 x5 x4 x3 + byte 5: 0 x16 x15 x14 x13 x12 x11 x10 + +ALPS Absolute Mode - Protocol Version 6 +--------------------------------------- + +For trackstick packet, the format is:: + + byte 0: 1 1 1 1 1 1 1 1 + byte 1: 0 X6 X5 X4 X3 X2 X1 X0 + byte 2: 0 Y6 Y5 Y4 Y3 Y2 Y1 Y0 + byte 3: ? Y7 X7 ? ? M R L + byte 4: Z7 Z6 Z5 Z4 Z3 Z2 Z1 Z0 + byte 5: 0 1 1 1 1 1 1 1 + +For touchpad packet, the format is:: + + byte 0: 1 1 1 1 1 1 1 1 + byte 1: 0 0 0 0 x3 x2 x1 x0 + byte 2: 0 0 0 0 y3 y2 y1 y0 + byte 3: ? x7 x6 x5 x4 ? r l + byte 4: ? y7 y6 y5 y4 ? ? ? + byte 5: z7 z6 z5 z4 z3 z2 z1 z0 + +(v6 touchpad does not have middle button) + +ALPS Absolute Mode - Protocol Version 7 +--------------------------------------- + +For trackstick packet, the format is:: + + byte 0: 0 1 0 0 1 0 0 0 + byte 1: 1 1 * * 1 M R L + byte 2: X7 1 X5 X4 X3 X2 X1 X0 + byte 3: Z6 1 Y6 X6 1 Y2 Y1 Y0 + byte 4: Y7 0 Y5 Y4 Y3 1 1 0 + byte 5: T&P 0 Z5 Z4 Z3 Z2 Z1 Z0 + +For touchpad packet, the format is:: + + packet-fmt b7 b6 b5 b4 b3 b2 b1 b0 + byte 0: TWO & MULTI L 1 R M 1 Y0-2 Y0-1 Y0-0 + byte 0: NEW L 1 X1-5 1 1 Y0-2 Y0-1 Y0-0 + byte 1: Y0-10 Y0-9 Y0-8 Y0-7 Y0-6 Y0-5 Y0-4 Y0-3 + byte 2: X0-11 1 X0-10 X0-9 X0-8 X0-7 X0-6 X0-5 + byte 3: X1-11 1 X0-4 X0-3 1 X0-2 X0-1 X0-0 + byte 4: TWO X1-10 TWO X1-9 X1-8 X1-7 X1-6 X1-5 X1-4 + byte 4: MULTI X1-10 TWO X1-9 X1-8 X1-7 X1-6 Y1-5 1 + byte 4: NEW X1-10 TWO X1-9 X1-8 X1-7 X1-6 0 0 + byte 5: TWO & NEW Y1-10 0 Y1-9 Y1-8 Y1-7 Y1-6 Y1-5 Y1-4 + byte 5: MULTI Y1-10 0 Y1-9 Y1-8 Y1-7 Y1-6 F-1 F-0 + + L: Left button + R / M: Non-clickpads: Right / Middle button + Clickpads: When > 2 fingers are down, and some fingers + are in the button area, then the 2 coordinates reported + are for fingers outside the button area and these report + extra fingers being present in the right / left button + area. Note these fingers are not added to the F field! + so if a TWO packet is received and R = 1 then there are + 3 fingers down, etc. + TWO: 1: Two touches present, byte 0/4/5 are in TWO fmt + 0: If byte 4 bit 0 is 1, then byte 0/4/5 are in MULTI fmt + otherwise byte 0 bit 4 must be set and byte 0/4/5 are + in NEW fmt + F: Number of fingers - 3, 0 means 3 fingers, 1 means 4 ... + + +ALPS Absolute Mode - Protocol Version 8 +--------------------------------------- + +Spoken by SS4 (73 03 14) and SS5 (73 03 28) hardware. + +The packet type is given by the APD field, bits 4-5 of byte 3. + +Touchpad packet (APD = 0x2):: + + b7 b6 b5 b4 b3 b2 b1 b0 + byte 0: SWM SWR SWL 1 1 0 0 X7 + byte 1: 0 X6 X5 X4 X3 X2 X1 X0 + byte 2: 0 Y6 Y5 Y4 Y3 Y2 Y1 Y0 + byte 3: 0 T&P 1 0 1 0 0 Y7 + byte 4: 0 Z6 Z5 Z4 Z3 Z2 Z1 Z0 + byte 5: 0 0 0 0 0 0 0 0 + +SWM, SWR, SWL: Middle, Right, and Left button states + +Touchpad 1 Finger packet (APD = 0x0):: + + b7 b6 b5 b4 b3 b2 b1 b0 + byte 0: SWM SWR SWL 1 1 X2 X1 X0 + byte 1: X9 X8 X7 1 X6 X5 X4 X3 + byte 2: 0 X11 X10 LFB Y3 Y2 Y1 Y0 + byte 3: Y5 Y4 0 0 1 TAPF2 TAPF1 TAPF0 + byte 4: Zv7 Y11 Y10 1 Y9 Y8 Y7 Y6 + byte 5: Zv6 Zv5 Zv4 0 Zv3 Zv2 Zv1 Zv0 + +TAPF: ??? +LFB: ??? + +Touchpad 2 Finger packet (APD = 0x1):: + + b7 b6 b5 b4 b3 b2 b1 b0 + byte 0: SWM SWR SWL 1 1 AX6 AX5 AX4 + byte 1: AX11 AX10 AX9 AX8 AX7 AZ1 AY4 AZ0 + byte 2: AY11 AY10 AY9 CONT AY8 AY7 AY6 AY5 + byte 3: 0 0 0 1 1 BX6 BX5 BX4 + byte 4: BX11 BX10 BX9 BX8 BX7 BZ1 BY4 BZ0 + byte 5: BY11 BY10 BY9 0 BY8 BY7 BY5 BY5 + +CONT: A 3-or-4 Finger packet is to follow + +Touchpad 3-or-4 Finger packet (APD = 0x3):: + + b7 b6 b5 b4 b3 b2 b1 b0 + byte 0: SWM SWR SWL 1 1 AX6 AX5 AX4 + byte 1: AX11 AX10 AX9 AX8 AX7 AZ1 AY4 AZ0 + byte 2: AY11 AY10 AY9 OVF AY8 AY7 AY6 AY5 + byte 3: 0 0 1 1 1 BX6 BX5 BX4 + byte 4: BX11 BX10 BX9 BX8 BX7 BZ1 BY4 BZ0 + byte 5: BY11 BY10 BY9 0 BY8 BY7 BY5 BY5 + +OVF: 5th finger detected diff --git a/Documentation/input/devices/amijoy.rst b/Documentation/input/devices/amijoy.rst new file mode 100644 index 000000000000..8df7b11cd98d --- /dev/null +++ b/Documentation/input/devices/amijoy.rst @@ -0,0 +1,263 @@ +~~~~~~~~~~~~~~~~~~~~~~~~~ +Amiga joystick extensions +~~~~~~~~~~~~~~~~~~~~~~~~~ + + +Amiga 4-joystick parport extension +~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ + +Parallel port pins: + + +===== ======== ==== ========== +Pin Meaning Pin Meaning +===== ======== ==== ========== + 2 Up1 6 Up2 + 3 Down1 7 Down2 + 4 Left1 8 Left2 + 5 Right1 9 Right2 +13 Fire1 11 Fire2 +18 Gnd1 18 Gnd2 +===== ======== ==== ========== + +Amiga digital joystick pinout +~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ + +=== ============ +Pin Meaning +=== ============ +1 Up +2 Down +3 Left +4 Right +5 n/c +6 Fire button +7 +5V (50mA) +8 Gnd +9 Thumb button +=== ============ + +Amiga mouse pinout +~~~~~~~~~~~~~~~~~~ + +=== ============ +Pin Meaning +=== ============ +1 V-pulse +2 H-pulse +3 VQ-pulse +4 HQ-pulse +5 Middle button +6 Left button +7 +5V (50mA) +8 Gnd +9 Right button +=== ============ + +Amiga analog joystick pinout +~~~~~~~~~~~~~~~~~~~~~~~~~~~~ + +=== ============== +Pin Meaning +=== ============== +1 Top button +2 Top2 button +3 Trigger button +4 Thumb button +5 Analog X +6 n/c +7 +5V (50mA) +8 Gnd +9 Analog Y +=== ============== + +Amiga lightpen pinout +~~~~~~~~~~~~~~~~~~~~~ + +=== ============= +Pin Meaning +=== ============= +1 n/c +2 n/c +3 n/c +4 n/c +5 Touch button +6 /Beamtrigger +7 +5V (50mA) +8 Gnd +9 Stylus button +=== ============= + +------------------------------------------------------------------------------- + +======== === ==== ==== ====== ======================================== +NAME rev ADDR type chip Description +======== === ==== ==== ====== ======================================== +JOY0DAT 00A R Denise Joystick-mouse 0 data (left vert, horiz) +JOY1DAT 00C R Denise Joystick-mouse 1 data (right vert,horiz) +======== === ==== ==== ====== ======================================== + + These addresses each read a 16 bit register. These in turn + are loaded from the MDAT serial stream and are clocked in on + the rising edge of SCLK. MLD output is used to parallel load + the external parallel-to-serial converter.This in turn is + loaded with the 4 quadrature inputs from each of two game + controller ports (8 total) plus 8 miscellaneous control bits + which are new for LISA and can be read in upper 8 bits of + LISAID. + + Register bits are as follows: + + - Mouse counter usage (pins 1,3 =Yclock, pins 2,4 =Xclock) + +======== === === === === === === === === ====== === === === === === === === + BIT# 15 14 13 12 11 10 09 08 07 06 05 04 03 02 01 00 +======== === === === === === === === === ====== === === === === === === === +JOY0DAT Y7 Y6 Y5 Y4 Y3 Y2 Y1 Y0 X7 X6 X5 X4 X3 X2 X1 X0 +JOY1DAT Y7 Y6 Y5 Y4 Y3 Y2 Y1 Y0 X7 X6 X5 X4 X3 X2 X1 X0 +======== === === === === === === === === ====== === === === === === === === + + 0=LEFT CONTROLLER PAIR, 1=RIGHT CONTROLLER PAIR. + (4 counters total). The bit usage for both left and right + addresses is shown below. Each 6 bit counter (Y7-Y2,X7-X2) is + clocked by 2 of the signals input from the mouse serial + stream. Starting with first bit received: + + +-------------------+-----------------------------------------+ + | Serial | Bit Name | Description | + +========+==========+=========================================+ + | 0 | M0H | JOY0DAT Horizontal Clock | + +--------+----------+-----------------------------------------+ + | 1 | M0HQ | JOY0DAT Horizontal Clock (quadrature) | + +--------+----------+-----------------------------------------+ + | 2 | M0V | JOY0DAT Vertical Clock | + +--------+----------+-----------------------------------------+ + | 3 | M0VQ | JOY0DAT Vertical Clock (quadrature) | + +--------+----------+-----------------------------------------+ + | 4 | M1V | JOY1DAT Horizontal Clock | + +--------+----------+-----------------------------------------+ + | 5 | M1VQ | JOY1DAT Horizontal Clock (quadrature) | + +--------+----------+-----------------------------------------+ + | 6 | M1V | JOY1DAT Vertical Clock | + +--------+----------+-----------------------------------------+ + | 7 | M1VQ | JOY1DAT Vertical Clock (quadrature) | + +--------+----------+-----------------------------------------+ + + Bits 1 and 0 of each counter (Y1-Y0,X1-X0) may be + read to determine the state of the related input signal pair. + This allows these pins to double as joystick switch inputs. + Joystick switch closures can be deciphered as follows: + + +------------+------+---------------------------------+ + | Directions | Pin# | Counter bits | + +============+======+=================================+ + | Forward | 1 | Y1 xor Y0 (BIT#09 xor BIT#08) | + +------------+------+---------------------------------+ + | Left | 3 | Y1 | + +------------+------+---------------------------------+ + | Back | 2 | X1 xor X0 (BIT#01 xor BIT#00) | + +------------+------+---------------------------------+ + | Right | 4 | X1 | + +------------+------+---------------------------------+ + +------------------------------------------------------------------------------- + +======== === ==== ==== ====== ================================================= +NAME rev ADDR type chip Description +======== === ==== ==== ====== ================================================= +JOYTEST 036 W Denise Write to all 4 joystick-mouse counters at once. +======== === ==== ==== ====== ================================================= + + Mouse counter write test data: + +========= === === === === === === === === ====== === === === === === === === + BIT# 15 14 13 12 11 10 09 08 07 06 05 04 03 02 01 00 +========= === === === === === === === === ====== === === === === === === === + JOYxDAT Y7 Y6 Y5 Y4 Y3 Y2 xx xx X7 X6 X5 X4 X3 X2 xx xx + JOYxDAT Y7 Y6 Y5 Y4 Y3 Y2 xx xx X7 X6 X5 X4 X3 X2 xx xx +========= === === === === === === === === ====== === === === === === === === + +------------------------------------------------------------------------------- + +======= === ==== ==== ====== ======================================== +NAME rev ADDR type chip Description +======= === ==== ==== ====== ======================================== +POT0DAT h 012 R Paula Pot counter data left pair (vert, horiz) +POT1DAT h 014 R Paula Pot counter data right pair (vert,horiz) +======= === ==== ==== ====== ======================================== + + These addresses each read a pair of 8 bit pot counters. + (4 counters total). The bit assignment for both + addresses is shown below. The counters are stopped by signals + from 2 controller connectors (left-right) with 2 pins each. + +====== === === === === === === === === ====== === === === === === === === + BIT# 15 14 13 12 11 10 09 08 07 06 05 04 03 02 01 00 +====== === === === === === === === === ====== === === === === === === === + RIGHT Y7 Y6 Y5 Y4 Y3 Y2 Y1 Y0 X7 X6 X5 X4 X3 X2 X1 X0 + LEFT Y7 Y6 Y5 Y4 Y3 Y2 Y1 Y0 X7 X6 X5 X4 X3 X2 X1 X0 +====== === === === === === === === === ====== === === === === === === === + + +--------------------------+-------+ + | CONNECTORS | PAULA | + +-------+------+-----+-----+-------+ + | Loc. | Dir. | Sym | pin | pin | + +=======+======+=====+=====+=======+ + | RIGHT | Y | RX | 9 | 33 | + +-------+------+-----+-----+-------+ + | RIGHT | X | RX | 5 | 32 | + +-------+------+-----+-----+-------+ + | LEFT | Y | LY | 9 | 36 | + +-------+------+-----+-----+-------+ + | LEFT | X | LX | 5 | 35 | + +-------+------+-----+-----+-------+ + + With normal (NTSC or PAL) horiz. line rate, the pots will + give a full scale (FF) reading with about 500kohms in one + frame time. With proportionally faster horiz line times, + the counters will count proportionally faster. + This should be noted when doing variable beam displays. + +------------------------------------------------------------------------------- + +====== === ==== ==== ====== ================================================ +NAME rev ADDR type chip Description +====== === ==== ==== ====== ================================================ +POTGO 034 W Paula Pot port (4 bit) bi-direction and data, and pot + counter start. +====== === ==== ==== ====== ================================================ + +------------------------------------------------------------------------------- + +====== === ==== ==== ====== ================================================ +NAME rev ADDR type chip Description +====== === ==== ==== ====== ================================================ +POTINP 016 R Paula Pot pin data read +====== === ==== ==== ====== ================================================ + + This register controls a 4 bit bi-direction I/O port + that shares the same 4 pins as the 4 pot counters above. + + +-------+----------+---------------------------------------------+ + | BIT# | FUNCTION | DESCRIPTION | + +=======+==========+=============================================+ + | 15 | OUTRY | Output enable for Paula pin 33 | + +-------+----------+---------------------------------------------+ + | 14 | DATRY | I/O data Paula pin 33 | + +-------+----------+---------------------------------------------+ + | 13 | OUTRX | Output enable for Paula pin 32 | + +-------+----------+---------------------------------------------+ + | 12 | DATRX | I/O data Paula pin 32 | + +-------+----------+---------------------------------------------+ + | 11 | OUTLY | Out put enable for Paula pin 36 | + +-------+----------+---------------------------------------------+ + | 10 | DATLY | I/O data Paula pin 36 | + +-------+----------+---------------------------------------------+ + | 09 | OUTLX | Output enable for Paula pin 35 | + +-------+----------+---------------------------------------------+ + | 08 | DATLX | I/O data Paula pin 35 | + +-------+----------+---------------------------------------------+ + | 07-01 | X | Not used | + +-------+----------+---------------------------------------------+ + | 00 | START | Start pots (dump capacitors,start counters) | + +-------+----------+---------------------------------------------+ diff --git a/Documentation/input/devices/appletouch.rst b/Documentation/input/devices/appletouch.rst new file mode 100644 index 000000000000..c94470e66533 --- /dev/null +++ b/Documentation/input/devices/appletouch.rst @@ -0,0 +1,94 @@ +.. include:: <isonum.txt> + +---------------------------------- +Apple Touchpad Driver (appletouch) +---------------------------------- + +:Copyright: |copy| 2005 Stelian Pop <stelian@popies.net> + +appletouch is a Linux kernel driver for the USB touchpad found on post +February 2005 and October 2005 Apple Aluminium Powerbooks. + +This driver is derived from Johannes Berg's appletrackpad driver [#f1]_, +but it has been improved in some areas: + + * appletouch is a full kernel driver, no userspace program is necessary + * appletouch can be interfaced with the synaptics X11 driver, in order + to have touchpad acceleration, scrolling, etc. + +Credits go to Johannes Berg for reverse-engineering the touchpad protocol, +Frank Arnold for further improvements, and Alex Harper for some additional +information about the inner workings of the touchpad sensors. Michael +Hanselmann added support for the October 2005 models. + +Usage +----- + +In order to use the touchpad in the basic mode, compile the driver and load +the module. A new input device will be detected and you will be able to read +the mouse data from /dev/input/mice (using gpm, or X11). + +In X11, you can configure the touchpad to use the synaptics X11 driver, which +will give additional functionalities, like acceleration, scrolling, 2 finger +tap for middle button mouse emulation, 3 finger tap for right button mouse +emulation, etc. In order to do this, make sure you're using a recent version of +the synaptics driver (tested with 0.14.2, available from [#f2]_), and configure +a new input device in your X11 configuration file (take a look below for an +example). For additional configuration, see the synaptics driver documentation:: + + Section "InputDevice" + Identifier "Synaptics Touchpad" + Driver "synaptics" + Option "SendCoreEvents" "true" + Option "Device" "/dev/input/mice" + Option "Protocol" "auto-dev" + Option "LeftEdge" "0" + Option "RightEdge" "850" + Option "TopEdge" "0" + Option "BottomEdge" "645" + Option "MinSpeed" "0.4" + Option "MaxSpeed" "1" + Option "AccelFactor" "0.02" + Option "FingerLow" "0" + Option "FingerHigh" "30" + Option "MaxTapMove" "20" + Option "MaxTapTime" "100" + Option "HorizScrollDelta" "0" + Option "VertScrollDelta" "30" + Option "SHMConfig" "on" + EndSection + + Section "ServerLayout" + ... + InputDevice "Mouse" + InputDevice "Synaptics Touchpad" + ... + EndSection + +Fuzz problems +------------- + +The touchpad sensors are very sensitive to heat, and will generate a lot of +noise when the temperature changes. This is especially true when you power-on +the laptop for the first time. + +The appletouch driver tries to handle this noise and auto adapt itself, but it +is not perfect. If finger movements are not recognized anymore, try reloading +the driver. + +You can activate debugging using the 'debug' module parameter. A value of 0 +deactivates any debugging, 1 activates tracing of invalid samples, 2 activates +full tracing (each sample is being traced):: + + modprobe appletouch debug=1 + +or:: + + echo "1" > /sys/module/appletouch/parameters/debug + + +.. Links: + +.. [#f1] http://johannes.sipsolutions.net/PowerBook/touchpad/ + +.. [#f2] `<http://web.archive.org/web/*/http://web.telia.com/~u89404340/touchpad/index.html>`_ diff --git a/Documentation/input/devices/atarikbd.rst b/Documentation/input/devices/atarikbd.rst new file mode 100644 index 000000000000..745e7a1ff122 --- /dev/null +++ b/Documentation/input/devices/atarikbd.rst @@ -0,0 +1,820 @@ +==================================== +Intelligent Keyboard (ikbd) Protocol +==================================== + + +Introduction +============ + +The Atari Corp. Intelligent Keyboard (ikbd) is a general purpose keyboard +controller that is flexible enough that it can be used in a variety of +products without modification. The keyboard, with its microcontroller, +provides a convenient connection point for a mouse and switch-type joysticks. +The ikbd processor also maintains a time-of-day clock with one second +resolution. +The ikbd has been designed to be general enough that it can be used with a +variety of new computer products. Product variations in a number of +keyswitches, mouse resolution, etc. can be accommodated. +The ikbd communicates with the main processor over a high speed bi-directional +serial interface. It can function in a variety of modes to facilitate +different applications of the keyboard, joysticks, or mouse. Limited use of +the controller is possible in applications in which only a unidirectional +communications medium is available by carefully designing the default modes. + +Keyboard +======== + +The keyboard always returns key make/break scan codes. The ikbd generates +keyboard scan codes for each key press and release. The key scan make (key +closure) codes start at 1, and are defined in Appendix A. For example, the +ISO key position in the scan code table should exist even if no keyswitch +exists in that position on a particular keyboard. The break code for each key +is obtained by ORing 0x80 with the make code. + +The special codes 0xF6 through 0xFF are reserved for use as follows: + +=================== ==================================================== + Code Command +=================== ==================================================== + 0xF6 status report + 0xF7 absolute mouse position record + 0xF8-0xFB relative mouse position records (lsbs determined by + mouse button states) + 0xFC time-of-day + 0xFD joystick report (both sticks) + 0xFE joystick 0 event + 0xFF joystick 1 event +=================== ==================================================== + +The two shift keys return different scan codes in this mode. The ENTER key +and the RETurn key are also distinct. + +Mouse +===== + +The mouse port should be capable of supporting a mouse with resolution of +approximately 200 counts (phase changes or 'clicks') per inch of travel. The +mouse should be scanned at a rate that will permit accurate tracking at +velocities up to 10 inches per second. +The ikbd can report mouse motion in three distinctly different ways. It can +report relative motion, absolute motion in a coordinate system maintained +within the ikbd, or by converting mouse motion into keyboard cursor control +key equivalents. +The mouse buttons can be treated as part of the mouse or as additional +keyboard keys. + +Relative Position Reporting +--------------------------- + +In relative position mode, the ikbd will return relative mouse position +records whenever a mouse event occurs. A mouse event consists of a mouse +button being pressed or released, or motion in either axis exceeding a +settable threshold of motion. Regardless of the threshold, all bits of +resolution are returned to the host computer. +Note that the ikbd may return mouse relative position reports with +significantly more than the threshold delta x or y. This may happen since no +relative mouse motion events will be generated: (a) while the keyboard has +been 'paused' ( the event will be stored until keyboard communications is +resumed) (b) while any event is being transmitted. + +The relative mouse position record is a three byte record of the form +(regardless of keyboard mode):: + + %111110xy ; mouse position record flag + ; where y is the right button state + ; and x is the left button state + X ; delta x as twos complement integer + Y ; delta y as twos complement integer + +Note that the value of the button state bits should be valid even if the +MOUSE BUTTON ACTION has set the buttons to act like part of the keyboard. +If the accumulated motion before the report packet is generated exceeds the ++127...-128 range, the motion is broken into multiple packets. +Note that the sign of the delta y reported is a function of the Y origin +selected. + +Absolute Position reporting +--------------------------- + +The ikbd can also maintain absolute mouse position. Commands exist for +resetting the mouse position, setting X/Y scaling, and interrogating the +current mouse position. + +Mouse Cursor Key Mode +--------------------- + +The ikbd can translate mouse motion into the equivalent cursor keystrokes. +The number of mouse clicks per keystroke is independently programmable in +each axis. The ikbd internally maintains mouse motion information to the +highest resolution available, and merely generates a pair of cursor key events +for each multiple of the scale factor. +Mouse motion produces the cursor key make code immediately followed by the +break code for the appropriate cursor key. The mouse buttons produce scan +codes above those normally assigned for the largest envisioned keyboard (i.e. +LEFT=0x74 & RIGHT=0x75). + +Joystick +======== + +Joystick Event Reporting +------------------------ + +In this mode, the ikbd generates a record whenever the joystick position is +changed (i.e. for each opening or closing of a joystick switch or trigger). + +The joystick event record is two bytes of the form:: + + %1111111x ; Joystick event marker + ; where x is Joystick 0 or 1 + %x000yyyy ; where yyyy is the stick position + ; and x is the trigger + +Joystick Interrogation +---------------------- + +The current state of the joystick ports may be interrogated at any time in +this mode by sending an 'Interrogate Joystick' command to the ikbd. + +The ikbd response to joystick interrogation is a three byte report of the form:: + + 0xFD ; joystick report header + %x000yyyy ; Joystick 0 + %x000yyyy ; Joystick 1 + ; where x is the trigger + ; and yyy is the stick position + +Joystick Monitoring +------------------- + +A mode is available that devotes nearly all of the keyboard communications +time to reporting the state of the joystick ports at a user specifiable rate. +It remains in this mode until reset or commanded into another mode. The PAUSE +command in this mode not only stop the output but also temporarily stops +scanning the joysticks (samples are not queued). + +Fire Button Monitoring +---------------------- + +A mode is provided to permit monitoring a single input bit at a high rate. In +this mode the ikbd monitors the state of the Joystick 1 fire button at the +maximum rate permitted by the serial communication channel. The data is packed +8 bits per byte for transmission to the host. The ikbd remains in this mode +until reset or commanded into another mode. The PAUSE command in this mode not +only stops the output but also temporarily stops scanning the button (samples +are not queued). + +Joystick Key Code Mode +---------------------- + +The ikbd may be commanded to translate the use of either joystick into the +equivalent cursor control keystroke(s). The ikbd provides a single breakpoint +velocity joystick cursor. +Joystick events produce the make code, immediately followed by the break code +for the appropriate cursor motion keys. The trigger or fire buttons of the +joysticks produce pseudo key scan codes above those used by the largest key +matrix envisioned (i.e. JOYSTICK0=0x74, JOYSTICK1=0x75). + +Time-of-Day Clock +================= + +The ikbd also maintains a time-of-day clock for the system. Commands are +available to set and interrogate the timer-of-day clock. Time-keeping is +maintained down to a resolution of one second. + +Status Inquiries +================ + +The current state of ikbd modes and parameters may be found by sending status +inquiry commands that correspond to the ikbd set commands. + +Power-Up Mode +============= + +The keyboard controller will perform a simple self-test on power-up to detect +major controller faults (ROM checksum and RAM test) and such things as stuck +keys. Any keys down at power-up are presumed to be stuck, and their BREAK +(sic) code is returned (which without the preceding MAKE code is a flag for a +keyboard error). If the controller self-test completes without error, the code +0xF0 is returned. (This code will be used to indicate the version/release of +the ikbd controller. The first release of the ikbd is version 0xF0, should +there be a second release it will be 0xF1, and so on.) +The ikbd defaults to a mouse position reporting with threshold of 1 unit in +either axis and the Y=0 origin at the top of the screen, and joystick event +reporting mode for joystick 1, with both buttons being logically assigned to +the mouse. After any joystick command, the ikbd assumes that joysticks are +connected to both Joystick0 and Joystick1. Any mouse command (except MOUSE +DISABLE) then causes port 0 to again be scanned as if it were a mouse, and +both buttons are logically connected to it. If a mouse disable command is +received while port 0 is presumed to be a mouse, the button is logically +assigned to Joystick1 (until the mouse is reenabled by another mouse command). + +ikbd Command Set +================ + +This section contains a list of commands that can be sent to the ikbd. Command +codes (such as 0x00) which are not specified should perform no operation +(NOPs). + +RESET +----- + +:: + + 0x80 + 0x01 + +N.B. The RESET command is the only two byte command understood by the ikbd. +Any byte following an 0x80 command byte other than 0x01 is ignored (and causes +the 0x80 to be ignored). +A reset may also be caused by sending a break lasting at least 200mS to the +ikbd. +Executing the RESET command returns the keyboard to its default (power-up) +mode and parameter settings. It does not affect the time-of-day clock. +The RESET command or function causes the ikbd to perform a simple self-test. +If the test is successful, the ikbd will send the code of 0xF0 within 300mS +of receipt of the RESET command (or the end of the break, or power-up). The +ikbd will then scan the key matrix for any stuck (closed) keys. Any keys found +closed will cause the break scan code to be generated (the break code arriving +without being preceded by the make code is a flag for a key matrix error). + +SET MOUSE BUTTON ACTION +----------------------- + +:: + + 0x07 + %00000mss ; mouse button action + ; (m is presumed = 1 when in MOUSE KEYCODE mode) + ; mss=0xy, mouse button press or release causes mouse + ; position report + ; where y=1, mouse key press causes absolute report + ; and x=1, mouse key release causes absolute report + ; mss=100, mouse buttons act like keys + +This command sets how the ikbd should treat the buttons on the mouse. The +default mouse button action mode is %00000000, the buttons are treated as part +of the mouse logically. +When buttons act like keys, LEFT=0x74 & RIGHT=0x75. + +SET RELATIVE MOUSE POSITION REPORTING +------------------------------------- + +:: + + 0x08 + +Set relative mouse position reporting. (DEFAULT) Mouse position packets are +generated asynchronously by the ikbd whenever motion exceeds the setable +threshold in either axis (see SET MOUSE THRESHOLD). Depending upon the mouse +key mode, mouse position reports may also be generated when either mouse +button is pressed or released. Otherwise the mouse buttons behave as if they +were keyboard keys. + +SET ABSOLUTE MOUSE POSITIONING +------------------------------ + +:: + + 0x09 + XMSB ; X maximum (in scaled mouse clicks) + XLSB + YMSB ; Y maximum (in scaled mouse clicks) + YLSB + +Set absolute mouse position maintenance. Resets the ikbd maintained X and Y +coordinates. +In this mode, the value of the internally maintained coordinates does NOT wrap +between 0 and large positive numbers. Excess motion below 0 is ignored. The +command sets the maximum positive value that can be attained in the scaled +coordinate system. Motion beyond that value is also ignored. + +SET MOUSE KEYCODE MOSE +---------------------- + +:: + + 0x0A + deltax ; distance in X clicks to return (LEFT) or (RIGHT) + deltay ; distance in Y clicks to return (UP) or (DOWN) + +Set mouse monitoring routines to return cursor motion keycodes instead of +either RELATIVE or ABSOLUTE motion records. The ikbd returns the appropriate +cursor keycode after mouse travel exceeding the user specified deltas in +either axis. When the keyboard is in key scan code mode, mouse motion will +cause the make code immediately followed by the break code. Note that this +command is not affected by the mouse motion origin. + +SET MOUSE THRESHOLD +------------------- + +:: + + 0x0B + X ; x threshold in mouse ticks (positive integers) + Y ; y threshold in mouse ticks (positive integers) + +This command sets the threshold before a mouse event is generated. Note that +it does NOT affect the resolution of the data returned to the host. This +command is valid only in RELATIVE MOUSE POSITIONING mode. The thresholds +default to 1 at RESET (or power-up). + +SET MOUSE SCALE +--------------- + +:: + + 0x0C + X ; horizontal mouse ticks per internal X + Y ; vertical mouse ticks per internal Y + +This command sets the scale factor for the ABSOLUTE MOUSE POSITIONING mode. +In this mode, the specified number of mouse phase changes ('clicks') must +occur before the internally maintained coordinate is changed by one +(independently scaled for each axis). Remember that the mouse position +information is available only by interrogating the ikbd in the ABSOLUTE MOUSE +POSITIONING mode unless the ikbd has been commanded to report on button press +or release (see SET MOSE BUTTON ACTION). + +INTERROGATE MOUSE POSITION +-------------------------- + +:: + + 0x0D + Returns: + 0xF7 ; absolute mouse position header + BUTTONS + 0000dcba ; where a is right button down since last interrogation + ; b is right button up since last + ; c is left button down since last + ; d is left button up since last + XMSB ; X coordinate + XLSB + YMSB ; Y coordinate + YLSB + +The INTERROGATE MOUSE POSITION command is valid when in the ABSOLUTE MOUSE +POSITIONING mode, regardless of the setting of the MOUSE BUTTON ACTION. + +LOAD MOUSE POSITION +------------------- + +:: + + 0x0E + 0x00 ; filler + XMSB ; X coordinate + XLSB ; (in scaled coordinate system) + YMSB ; Y coordinate + YLSB + +This command allows the user to preset the internally maintained absolute +mouse position. + +SET Y=0 AT BOTTOM +----------------- + +:: + + 0x0F + +This command makes the origin of the Y axis to be at the bottom of the +logical coordinate system internal to the ikbd for all relative or absolute +mouse motion. This causes mouse motion toward the user to be negative in sign +and away from the user to be positive. + +SET Y=0 AT TOP +-------------- + +:: + + 0x10 + +Makes the origin of the Y axis to be at the top of the logical coordinate +system within the ikbd for all relative or absolute mouse motion. (DEFAULT) +This causes mouse motion toward the user to be positive in sign and away from +the user to be negative. + +RESUME +------ + +:: + + 0x11 + +Resume sending data to the host. Since any command received by the ikbd after +its output has been paused also causes an implicit RESUME this command can be +thought of as a NO OPERATION command. If this command is received by the ikbd +and it is not PAUSED, it is simply ignored. + +DISABLE MOUSE +------------- + +:: + + 0x12 + +All mouse event reporting is disabled (and scanning may be internally +disabled). Any valid mouse mode command resumes mouse motion monitoring. (The +valid mouse mode commands are SET RELATIVE MOUSE POSITION REPORTING, SET +ABSOLUTE MOUSE POSITIONING, and SET MOUSE KEYCODE MODE. ) +N.B. If the mouse buttons have been commanded to act like keyboard keys, this +command DOES affect their actions. + +PAUSE OUTPUT +------------ + +:: + + 0x13 + +Stop sending data to the host until another valid command is received. Key +matrix activity is still monitored and scan codes or ASCII characters enqueued +(up to the maximum supported by the microcontroller) to be sent when the host +allows the output to be resumed. If in the JOYSTICK EVENT REPORTING mode, +joystick events are also queued. +Mouse motion should be accumulated while the output is paused. If the ikbd is +in RELATIVE MOUSE POSITIONING REPORTING mode, motion is accumulated beyond the +normal threshold limits to produce the minimum number of packets necessary for +transmission when output is resumed. Pressing or releasing either mouse button +causes any accumulated motion to be immediately queued as packets, if the +mouse is in RELATIVE MOUSE POSITION REPORTING mode. +Because of the limitations of the microcontroller memory this command should +be used sparingly, and the output should not be shut of for more than <tbd> +milliseconds at a time. +The output is stopped only at the end of the current 'even'. If the PAUSE +OUTPUT command is received in the middle of a multiple byte report, the packet +will still be transmitted to conclusion and then the PAUSE will take effect. +When the ikbd is in either the JOYSTICK MONITORING mode or the FIRE BUTTON +MONITORING mode, the PAUSE OUTPUT command also temporarily stops the +monitoring process (i.e. the samples are not enqueued for transmission). + +SET JOYSTICK EVENT REPORTING +---------------------------- + +:: + + 0x14 + +Enter JOYSTICK EVENT REPORTING mode (DEFAULT). Each opening or closure of a +joystick switch or trigger causes a joystick event record to be generated. + +SET JOYSTICK INTERROGATION MODE +------------------------------- + +:: + + 0x15 + +Disables JOYSTICK EVENT REPORTING. Host must send individual JOYSTICK +INTERROGATE commands to sense joystick state. + +JOYSTICK INTERROGATE +-------------------- + +:: + + 0x16 + +Return a record indicating the current state of the joysticks. This command +is valid in either the JOYSTICK EVENT REPORTING mode or the JOYSTICK +INTERROGATION MODE. + +SET JOYSTICK MONITORING +----------------------- + +:: + + 0x17 + rate ; time between samples in hundredths of a second + Returns: (in packets of two as long as in mode) + %000000xy ; where y is JOYSTICK1 Fire button + ; and x is JOYSTICK0 Fire button + %nnnnmmmm ; where m is JOYSTICK1 state + ; and n is JOYSTICK0 state + +Sets the ikbd to do nothing but monitor the serial command line, maintain the +time-of-day clock, and monitor the joystick. The rate sets the interval +between joystick samples. +N.B. The user should not set the rate higher than the serial communications +channel will allow the 2 bytes packets to be transmitted. + +SET FIRE BUTTON MONITORING +-------------------------- + +:: + + 0x18 + Returns: (as long as in mode) + %bbbbbbbb ; state of the JOYSTICK1 fire button packed + ; 8 bits per byte, the first sample if the MSB + +Set the ikbd to do nothing but monitor the serial command line, maintain the +time-of-day clock, and monitor the fire button on Joystick 1. The fire button +is scanned at a rate that causes 8 samples to be made in the time it takes for +the previous byte to be sent to the host (i.e. scan rate = 8/10 * baud rate). +The sample interval should be as constant as possible. + +SET JOYSTICK KEYCODE MODE +------------------------- + +:: + + 0x19 + RX ; length of time (in tenths of seconds) until + ; horizontal velocity breakpoint is reached + RY ; length of time (in tenths of seconds) until + ; vertical velocity breakpoint is reached + TX ; length (in tenths of seconds) of joystick closure + ; until horizontal cursor key is generated before RX + ; has elapsed + TY ; length (in tenths of seconds) of joystick closure + ; until vertical cursor key is generated before RY + ; has elapsed + VX ; length (in tenths of seconds) of joystick closure + ; until horizontal cursor keystrokes are generated + ; after RX has elapsed + VY ; length (in tenths of seconds) of joystick closure + ; until vertical cursor keystrokes are generated + ; after RY has elapsed + +In this mode, joystick 0 is scanned in a way that simulates cursor keystrokes. +On initial closure, a keystroke pair (make/break) is generated. Then up to Rn +tenths of seconds later, keystroke pairs are generated every Tn tenths of +seconds. After the Rn breakpoint is reached, keystroke pairs are generated +every Vn tenths of seconds. This provides a velocity (auto-repeat) breakpoint +feature. +Note that by setting RX and/or Ry to zero, the velocity feature can be +disabled. The values of TX and TY then become meaningless, and the generation +of cursor 'keystrokes' is set by VX and VY. + +DISABLE JOYSTICKS +----------------- + +:: + + 0x1A + +Disable the generation of any joystick events (and scanning may be internally +disabled). Any valid joystick mode command resumes joystick monitoring. (The +joystick mode commands are SET JOYSTICK EVENT REPORTING, SET JOYSTICK +INTERROGATION MODE, SET JOYSTICK MONITORING, SET FIRE BUTTON MONITORING, and +SET JOYSTICK KEYCODE MODE.) + +TIME-OF-DAY CLOCK SET +--------------------- + +:: + + 0x1B + YY ; year (2 least significant digits) + MM ; month + DD ; day + hh ; hour + mm ; minute + ss ; second + +All time-of-day data should be sent to the ikbd in packed BCD format. +Any digit that is not a valid BCD digit should be treated as a 'don't care' +and not alter that particular field of the date or time. This permits setting +only some subfields of the time-of-day clock. + +INTERROGATE TIME-OF-DAT CLOCK +----------------------------- + +:: + + 0x1C + Returns: + 0xFC ; time-of-day event header + YY ; year (2 least significant digits) + MM ; month + DD ; day + hh ; hour + mm ; minute + ss ; second + + All time-of-day is sent in packed BCD format. + +MEMORY LOAD +----------- + +:: + + 0x20 + ADRMSB ; address in controller + ADRLSB ; memory to be loaded + NUM ; number of bytes (0-128) + { data } + +This command permits the host to load arbitrary values into the ikbd +controller memory. The time between data bytes must be less than 20ms. + +MEMORY READ +----------- + +:: + + 0x21 + ADRMSB ; address in controller + ADRLSB ; memory to be read + Returns: + 0xF6 ; status header + 0x20 ; memory access + { data } ; 6 data bytes starting at ADR + +This command permits the host to read from the ikbd controller memory. + +CONTROLLER EXECUTE +------------------ + +:: + + 0x22 + ADRMSB ; address of subroutine in + ADRLSB ; controller memory to be called + +This command allows the host to command the execution of a subroutine in the +ikbd controller memory. + +STATUS INQUIRIES +---------------- + +:: + + Status commands are formed by inclusively ORing 0x80 with the + relevant SET command. + + Example: + 0x88 (or 0x89 or 0x8A) ; request mouse mode + Returns: + 0xF6 ; status response header + mode ; 0x08 is RELATIVE + ; 0x09 is ABSOLUTE + ; 0x0A is KEYCODE + param1 ; 0 is RELATIVE + ; XMSB maximum if ABSOLUTE + ; DELTA X is KEYCODE + param2 ; 0 is RELATIVE + ; YMSB maximum if ABSOLUTE + ; DELTA Y is KEYCODE + param3 ; 0 if RELATIVE + ; or KEYCODE + ; YMSB is ABSOLUTE + param4 ; 0 if RELATIVE + ; or KEYCODE + ; YLSB is ABSOLUTE + 0 ; pad + 0 + +The STATUS INQUIRY commands request the ikbd to return either the current mode +or the parameters associated with a given command. All status reports are +padded to form 8 byte long return packets. The responses to the status +requests are designed so that the host may store them away (after stripping +off the status report header byte) and later send them back as commands to +ikbd to restore its state. The 0 pad bytes will be treated as NOPs by the +ikbd. + + Valid STATUS INQUIRY commands are:: + + 0x87 mouse button action + 0x88 mouse mode + 0x89 + 0x8A + 0x8B mnouse threshold + 0x8C mouse scale + 0x8F mouse vertical coordinates + 0x90 ( returns 0x0F Y=0 at bottom + 0x10 Y=0 at top ) + 0x92 mouse enable/disable + ( returns 0x00 enabled) + 0x12 disabled ) + 0x94 joystick mode + 0x95 + 0x96 + 0x9A joystick enable/disable + ( returns 0x00 enabled + 0x1A disabled ) + +It is the (host) programmer's responsibility to have only one unanswered +inquiry in process at a time. +STATUS INQUIRY commands are not valid if the ikbd is in JOYSTICK MONITORING +mode or FIRE BUTTON MONITORING mode. + + +SCAN CODES +========== + +The key scan codes returned by the ikbd are chosen to simplify the +implementation of GSX. + +GSX Standard Keyboard Mapping + +======= ============ +Hex Keytop +======= ============ +01 Esc +02 1 +03 2 +04 3 +05 4 +06 5 +07 6 +08 7 +09 8 +0A 9 +0B 0 +0C \- +0D \= +0E BS +0F TAB +10 Q +11 W +12 E +13 R +14 T +15 Y +16 U +17 I +18 O +19 P +1A [ +1B ] +1C RET +1D CTRL +1E A +1F S +20 D +21 F +22 G +23 H +24 J +25 K +26 L +27 ; +28 ' +29 \` +2A (LEFT) SHIFT +2B \\ +2C Z +2D X +2E C +2F V +30 B +31 N +32 M +33 , +34 . +35 / +36 (RIGHT) SHIFT +37 { NOT USED } +38 ALT +39 SPACE BAR +3A CAPS LOCK +3B F1 +3C F2 +3D F3 +3E F4 +3F F5 +40 F6 +41 F7 +42 F8 +43 F9 +44 F10 +45 { NOT USED } +46 { NOT USED } +47 HOME +48 UP ARROW +49 { NOT USED } +4A KEYPAD - +4B LEFT ARROW +4C { NOT USED } +4D RIGHT ARROW +4E KEYPAD + +4F { NOT USED } +50 DOWN ARROW +51 { NOT USED } +52 INSERT +53 DEL +54 { NOT USED } +5F { NOT USED } +60 ISO KEY +61 UNDO +62 HELP +63 KEYPAD ( +64 KEYPAD / +65 KEYPAD * +66 KEYPAD * +67 KEYPAD 7 +68 KEYPAD 8 +69 KEYPAD 9 +6A KEYPAD 4 +6B KEYPAD 5 +6C KEYPAD 6 +6D KEYPAD 1 +6E KEYPAD 2 +6F KEYPAD 3 +70 KEYPAD 0 +71 KEYPAD . +72 KEYPAD ENTER +======= ============ diff --git a/Documentation/input/devices/bcm5974.rst b/Documentation/input/devices/bcm5974.rst new file mode 100644 index 000000000000..4aca199b0aa6 --- /dev/null +++ b/Documentation/input/devices/bcm5974.rst @@ -0,0 +1,70 @@ +.. include:: <isonum.txt> + +------------------------ +BCM5974 Driver (bcm5974) +------------------------ + +:Copyright: |copy| 2008-2009 Henrik Rydberg <rydberg@euromail.se> + +The USB initialization and package decoding was made by Scott Shawcroft as +part of the touchd user-space driver project: + +:Copyright: |copy| 2008 Scott Shawcroft (scott.shawcroft@gmail.com) + +The BCM5974 driver is based on the appletouch driver: + +:Copyright: |copy| 2001-2004 Greg Kroah-Hartman (greg@kroah.com) +:Copyright: |copy| 2005 Johannes Berg (johannes@sipsolutions.net) +:Copyright: |copy| 2005 Stelian Pop (stelian@popies.net) +:Copyright: |copy| 2005 Frank Arnold (frank@scirocco-5v-turbo.de) +:Copyright: |copy| 2005 Peter Osterlund (petero2@telia.com) +:Copyright: |copy| 2005 Michael Hanselmann (linux-kernel@hansmi.ch) +:Copyright: |copy| 2006 Nicolas Boichat (nicolas@boichat.ch) + +This driver adds support for the multi-touch trackpad on the new Apple +Macbook Air and Macbook Pro laptops. It replaces the appletouch driver on +those computers, and integrates well with the synaptics driver of the Xorg +system. + +Known to work on Macbook Air, Macbook Pro Penryn and the new unibody +Macbook 5 and Macbook Pro 5. + +Usage +----- + +The driver loads automatically for the supported usb device ids, and +becomes available both as an event device (/dev/input/event*) and as a +mouse via the mousedev driver (/dev/input/mice). + +USB Race +-------- + +The Apple multi-touch trackpads report both mouse and keyboard events via +different interfaces of the same usb device. This creates a race condition +with the HID driver, which, if not told otherwise, will find the standard +HID mouse and keyboard, and claim the whole device. To remedy, the usb +product id must be listed in the mouse_ignore list of the hid driver. + +Debug output +------------ + +To ease the development for new hardware version, verbose packet output can +be switched on with the debug kernel module parameter. The range [1-9] +yields different levels of verbosity. Example (as root):: + + echo -n 9 > /sys/module/bcm5974/parameters/debug + + tail -f /var/log/debug + + echo -n 0 > /sys/module/bcm5974/parameters/debug + +Trivia +------ + +The driver was developed at the ubuntu forums in June 2008 [#f1]_, and now has +a more permanent home at bitmath.org [#f2]_. + +.. Links + +.. [#f1] http://ubuntuforums.org/showthread.php?t=840040 +.. [#f2] http://bitmath.org/code/ diff --git a/Documentation/input/devices/cma3000_d0x.rst b/Documentation/input/devices/cma3000_d0x.rst new file mode 100644 index 000000000000..8bc8e61487b0 --- /dev/null +++ b/Documentation/input/devices/cma3000_d0x.rst @@ -0,0 +1,139 @@ +CMA3000-D0x Accelerometer +========================= + +Supported chips: +* VTI CMA3000-D0x + +Datasheet: + CMA3000-D0X Product Family Specification 8281000A.02.pdf + <http://www.vti.fi/en/> + +:Author: Hemanth V <hemanthv@ti.com> + + +Description +----------- + +CMA3000 Tri-axis accelerometer supports Motion detect, Measurement and +Free fall modes. + +Motion Detect Mode: + Its the low power mode where interrupts are generated only + when motion exceeds the defined thresholds. + +Measurement Mode: + This mode is used to read the acceleration data on X,Y,Z + axis and supports 400, 100, 40 Hz sample frequency. + +Free fall Mode: + This mode is intended to save system resources. + +Threshold values: + Chip supports defining threshold values for above modes + which includes time and g value. Refer product specifications for + more details. + +CMA3000 chip supports mutually exclusive I2C and SPI interfaces for +communication, currently the driver supports I2C based communication only. +Initial configuration for bus mode is set in non volatile memory and can later +be modified through bus interface command. + +Driver reports acceleration data through input subsystem. It generates ABS_MISC +event with value 1 when free fall is detected. + +Platform data need to be configured for initial default values. + +Platform Data +------------- + +fuzz_x: + Noise on X Axis + +fuzz_y: + Noise on Y Axis + +fuzz_z: + Noise on Z Axis + +g_range: + G range in milli g i.e 2000 or 8000 + +mode: + Default Operating mode + +mdthr: + Motion detect g range threshold value + +mdfftmr: + Motion detect and free fall time threshold value + +ffthr: + Free fall g range threshold value + +Input Interface +--------------- + +Input driver version is 1.0.0 +Input device ID: bus 0x18 vendor 0x0 product 0x0 version 0x0 +Input device name: "cma3000-accelerometer" + +Supported events:: + + Event type 0 (Sync) + Event type 3 (Absolute) + Event code 0 (X) + Value 47 + Min -8000 + Max 8000 + Fuzz 200 + Event code 1 (Y) + Value -28 + Min -8000 + Max 8000 + Fuzz 200 + Event code 2 (Z) + Value 905 + Min -8000 + Max 8000 + Fuzz 200 + Event code 40 (Misc) + Value 0 + Min 0 + Max 1 + Event type 4 (Misc) + + +Register/Platform parameters Description +---------------------------------------- + +mode:: + + 0: power down mode + 1: 100 Hz Measurement mode + 2: 400 Hz Measurement mode + 3: 40 Hz Measurement mode + 4: Motion Detect mode (default) + 5: 100 Hz Free fall mode + 6: 40 Hz Free fall mode + 7: Power off mode + +grange:: + + 2000: 2000 mg or 2G Range + 8000: 8000 mg or 8G Range + +mdthr:: + + X: X * 71mg (8G Range) + X: X * 18mg (2G Range) + +mdfftmr:: + + X: (X & 0x70) * 100 ms (MDTMR) + (X & 0x0F) * 2.5 ms (FFTMR 400 Hz) + (X & 0x0F) * 10 ms (FFTMR 100 Hz) + +ffthr:: + + X: (X >> 2) * 18mg (2G Range) + X: (X & 0x0F) * 71 mg (8G Range) diff --git a/Documentation/input/devices/cs461x.rst b/Documentation/input/devices/cs461x.rst new file mode 100644 index 000000000000..b1e6d508ad26 --- /dev/null +++ b/Documentation/input/devices/cs461x.rst @@ -0,0 +1,43 @@ +Crystal SoundFusion CS4610/CS4612/CS461 joystick +================================================ + +This is a new low-level driver to support analog joystick attached to +Crystal SoundFusion CS4610/CS4612/CS4615. This code is based upon +Vortex/Solo drivers as an example of decoration style, and ALSA +0.5.8a kernel drivers as an chipset documentation and samples. + +This version does not have cooked mode support; the basic code +is present here, but have not tested completely. The button analysis +is completed in this mode, but the axis movement is not. + +Raw mode works fine with analog joystick front-end driver and cs461x +driver as a backend. I've tested this driver with CS4610, 4-axis and +4-button joystick; I mean the jstest utility. Also I've tried to +play in xracer game using joystick, and the result is better than +keyboard only mode. + +The sensitivity and calibrate quality have not been tested; the two +reasons are performed: the same hardware cannot work under Win95 (blue +screen in VJOYD); I have no documentation on my chip; and the existing +behavior in my case was not raised the requirement of joystick calibration. +So the driver have no code to perform hardware related calibration. + +This driver have the basic support for PCI devices only; there is no +ISA or PnP ISA cards supported. + +The driver works with ALSA drivers simultaneously. For example, the xracer +uses joystick as input device and PCM device as sound output in one time. +There are no sound or input collisions detected. The source code have +comments about them; but I've found the joystick can be initialized +separately of ALSA modules. So, you can use only one joystick driver +without ALSA drivers. The ALSA drivers are not needed to compile or +run this driver. + +There are no debug information print have been placed in source, and no +specific options required to work this driver. The found chipset parameters +are printed via printk(KERN_INFO "..."), see the /var/log/messages to +inspect cs461x: prefixed messages to determine possible card detection +errors. + +Regards, +Viktor diff --git a/Documentation/input/devices/edt-ft5x06.rst b/Documentation/input/devices/edt-ft5x06.rst new file mode 100644 index 000000000000..2032f0b7a8fa --- /dev/null +++ b/Documentation/input/devices/edt-ft5x06.rst @@ -0,0 +1,54 @@ +EDT ft5x06 based Polytouch devices +---------------------------------- + +The edt-ft5x06 driver is useful for the EDT "Polytouch" family of capacitive +touch screens. Note that it is *not* suitable for other devices based on the +focaltec ft5x06 devices, since they contain vendor-specific firmware. In +particular this driver is not suitable for the Nook tablet. + +It has been tested with the following devices: + * EP0350M06 + * EP0430M06 + * EP0570M06 + * EP0700M06 + +The driver allows configuration of the touch screen via a set of sysfs files: + +/sys/class/input/eventX/device/device/threshold: + allows setting the "click"-threshold in the range from 20 to 80. + +/sys/class/input/eventX/device/device/gain: + allows setting the sensitivity in the range from 0 to 31. Note that + lower values indicate higher sensitivity. + +/sys/class/input/eventX/device/device/offset: + allows setting the edge compensation in the range from 0 to 31. + +/sys/class/input/eventX/device/device/report_rate: + allows setting the report rate in the range from 3 to 14. + + +For debugging purposes the driver provides a few files in the debug +filesystem (if available in the kernel). In /sys/kernel/debug/edt_ft5x06 +you'll find the following files: + +num_x, num_y: + (readonly) contains the number of sensor fields in X- and + Y-direction. + +mode: + allows switching the sensor between "factory mode" and "operation + mode" by writing "1" or "0" to it. In factory mode (1) it is + possible to get the raw data from the sensor. Note that in factory + mode regular events don't get delivered and the options described + above are unavailable. + +raw_data: + contains num_x * num_y big endian 16 bit values describing the raw + values for each sensor field. Note that each read() call on this + files triggers a new readout. It is recommended to provide a buffer + big enough to contain num_x * num_y * 2 bytes. + +Note that reading raw_data gives a I/O error when the device is not in factory +mode. The same happens when reading/writing to the parameter files when the +device is not in regular operation mode. diff --git a/Documentation/input/devices/elantech.rst b/Documentation/input/devices/elantech.rst new file mode 100644 index 000000000000..c3374a7ce7af --- /dev/null +++ b/Documentation/input/devices/elantech.rst @@ -0,0 +1,841 @@ +Elantech Touchpad Driver +======================== + + Copyright (C) 2007-2008 Arjan Opmeer <arjan@opmeer.net> + + Extra information for hardware version 1 found and + provided by Steve Havelka + + Version 2 (EeePC) hardware support based on patches + received from Woody at Xandros and forwarded to me + by user StewieGriffin at the eeeuser.com forum + +.. Contents + + 1. Introduction + 2. Extra knobs + 3. Differentiating hardware versions + 4. Hardware version 1 + 4.1 Registers + 4.2 Native relative mode 4 byte packet format + 4.3 Native absolute mode 4 byte packet format + 5. Hardware version 2 + 5.1 Registers + 5.2 Native absolute mode 6 byte packet format + 5.2.1 Parity checking and packet re-synchronization + 5.2.2 One/Three finger touch + 5.2.3 Two finger touch + 6. Hardware version 3 + 6.1 Registers + 6.2 Native absolute mode 6 byte packet format + 6.2.1 One/Three finger touch + 6.2.2 Two finger touch + 7. Hardware version 4 + 7.1 Registers + 7.2 Native absolute mode 6 byte packet format + 7.2.1 Status packet + 7.2.2 Head packet + 7.2.3 Motion packet + 8. Trackpoint (for Hardware version 3 and 4) + 8.1 Registers + 8.2 Native relative mode 6 byte packet format + 8.2.1 Status Packet + + + +Introduction +~~~~~~~~~~~~ + +Currently the Linux Elantech touchpad driver is aware of four different +hardware versions unimaginatively called version 1,version 2, version 3 +and version 4. Version 1 is found in "older" laptops and uses 4 bytes per +packet. Version 2 seems to be introduced with the EeePC and uses 6 bytes +per packet, and provides additional features such as position of two fingers, +and width of the touch. Hardware version 3 uses 6 bytes per packet (and +for 2 fingers the concatenation of two 6 bytes packets) and allows tracking +of up to 3 fingers. Hardware version 4 uses 6 bytes per packet, and can +combine a status packet with multiple head or motion packets. Hardware version +4 allows tracking up to 5 fingers. + +Some Hardware version 3 and version 4 also have a trackpoint which uses a +separate packet format. It is also 6 bytes per packet. + +The driver tries to support both hardware versions and should be compatible +with the Xorg Synaptics touchpad driver and its graphical configuration +utilities. + +Note that a mouse button is also associated with either the touchpad or the +trackpoint when a trackpoint is available. Disabling the Touchpad in xorg +(TouchPadOff=0) will also disable the buttons associated with the touchpad. + +Additionally the operation of the touchpad can be altered by adjusting the +contents of some of its internal registers. These registers are represented +by the driver as sysfs entries under /sys/bus/serio/drivers/psmouse/serio? +that can be read from and written to. + +Currently only the registers for hardware version 1 are somewhat understood. +Hardware version 2 seems to use some of the same registers but it is not +known whether the bits in the registers represent the same thing or might +have changed their meaning. + +On top of that, some register settings have effect only when the touchpad is +in relative mode and not in absolute mode. As the Linux Elantech touchpad +driver always puts the hardware into absolute mode not all information +mentioned below can be used immediately. But because there is no freely +available Elantech documentation the information is provided here anyway for +completeness sake. + + +Extra knobs +~~~~~~~~~~~ + +Currently the Linux Elantech touchpad driver provides three extra knobs under +/sys/bus/serio/drivers/psmouse/serio? for the user. + +* debug + + Turn different levels of debugging ON or OFF. + + By echoing "0" to this file all debugging will be turned OFF. + + Currently a value of "1" will turn on some basic debugging and a value of + "2" will turn on packet debugging. For hardware version 1 the default is + OFF. For version 2 the default is "1". + + Turning packet debugging on will make the driver dump every packet + received to the syslog before processing it. Be warned that this can + generate quite a lot of data! + +* paritycheck + + Turns parity checking ON or OFF. + + By echoing "0" to this file parity checking will be turned OFF. Any + non-zero value will turn it ON. For hardware version 1 the default is ON. + For version 2 the default it is OFF. + + Hardware version 1 provides basic data integrity verification by + calculating a parity bit for the last 3 bytes of each packet. The driver + can check these bits and reject any packet that appears corrupted. Using + this knob you can bypass that check. + + Hardware version 2 does not provide the same parity bits. Only some basic + data consistency checking can be done. For now checking is disabled by + default. Currently even turning it on will do nothing. + +* crc_enabled + + Sets crc_enabled to 0/1. The name "crc_enabled" is the official name of + this integrity check, even though it is not an actual cyclic redundancy + check. + + Depending on the state of crc_enabled, certain basic data integrity + verification is done by the driver on hardware version 3 and 4. The + driver will reject any packet that appears corrupted. Using this knob, + The state of crc_enabled can be altered with this knob. + + Reading the crc_enabled value will show the active value. Echoing + "0" or "1" to this file will set the state to "0" or "1". + +Differentiating hardware versions +~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ + +To detect the hardware version, read the version number as param[0].param[1].param[2]:: + + 4 bytes version: (after the arrow is the name given in the Dell-provided driver) + 02.00.22 => EF013 + 02.06.00 => EF019 + +In the wild, there appear to be more versions, such as 00.01.64, 01.00.21, +02.00.00, 02.00.04, 02.00.06:: + + 6 bytes: + 02.00.30 => EF113 + 02.08.00 => EF023 + 02.08.XX => EF123 + 02.0B.00 => EF215 + 04.01.XX => Scroll_EF051 + 04.02.XX => EF051 + +In the wild, there appear to be more versions, such as 04.03.01, 04.04.11. There +appears to be almost no difference, except for EF113, which does not report +pressure/width and has different data consistency checks. + +Probably all the versions with param[0] <= 01 can be considered as +4 bytes/firmware 1. The versions < 02.08.00, with the exception of 02.00.30, as +4 bytes/firmware 2. Everything >= 02.08.00 can be considered as 6 bytes. + + +Hardware version 1 +~~~~~~~~~~~~~~~~~~ + +Registers +--------- + +By echoing a hexadecimal value to a register it contents can be altered. + +For example:: + + echo -n 0x16 > reg_10 + +* reg_10:: + + bit 7 6 5 4 3 2 1 0 + B C T D L A S E + + E: 1 = enable smart edges unconditionally + S: 1 = enable smart edges only when dragging + A: 1 = absolute mode (needs 4 byte packets, see reg_11) + L: 1 = enable drag lock (see reg_22) + D: 1 = disable dynamic resolution + T: 1 = disable tapping + C: 1 = enable corner tap + B: 1 = swap left and right button + +* reg_11:: + + bit 7 6 5 4 3 2 1 0 + 1 0 0 H V 1 F P + + P: 1 = enable parity checking for relative mode + F: 1 = enable native 4 byte packet mode + V: 1 = enable vertical scroll area + H: 1 = enable horizontal scroll area + +* reg_20:: + + single finger width? + +* reg_21:: + + scroll area width (small: 0x40 ... wide: 0xff) + +* reg_22:: + + drag lock time out (short: 0x14 ... long: 0xfe; + 0xff = tap again to release) + +* reg_23:: + + tap make timeout? + +* reg_24:: + + tap release timeout? + +* reg_25:: + + smart edge cursor speed (0x02 = slow, 0x03 = medium, 0x04 = fast) + +* reg_26:: + + smart edge activation area width? + + +Native relative mode 4 byte packet format +----------------------------------------- + +byte 0:: + + bit 7 6 5 4 3 2 1 0 + c c p2 p1 1 M R L + + L, R, M = 1 when Left, Right, Middle mouse button pressed + some models have M as byte 3 odd parity bit + when parity checking is enabled (reg_11, P = 1): + p1..p2 = byte 1 and 2 odd parity bit + c = 1 when corner tap detected + +byte 1:: + + bit 7 6 5 4 3 2 1 0 + dx7 dx6 dx5 dx4 dx3 dx2 dx1 dx0 + + dx7..dx0 = x movement; positive = right, negative = left + byte 1 = 0xf0 when corner tap detected + +byte 2:: + + bit 7 6 5 4 3 2 1 0 + dy7 dy6 dy5 dy4 dy3 dy2 dy1 dy0 + + dy7..dy0 = y movement; positive = up, negative = down + +byte 3:: + + parity checking enabled (reg_11, P = 1): + + bit 7 6 5 4 3 2 1 0 + w h n1 n0 ds3 ds2 ds1 ds0 + + normally: + ds3..ds0 = scroll wheel amount and direction + positive = down or left + negative = up or right + when corner tap detected: + ds0 = 1 when top right corner tapped + ds1 = 1 when bottom right corner tapped + ds2 = 1 when bottom left corner tapped + ds3 = 1 when top left corner tapped + n1..n0 = number of fingers on touchpad + only models with firmware 2.x report this, models with + firmware 1.x seem to map one, two and three finger taps + directly to L, M and R mouse buttons + h = 1 when horizontal scroll action + w = 1 when wide finger touch? + + otherwise (reg_11, P = 0): + + bit 7 6 5 4 3 2 1 0 + ds7 ds6 ds5 ds4 ds3 ds2 ds1 ds0 + + ds7..ds0 = vertical scroll amount and direction + negative = up + positive = down + + +Native absolute mode 4 byte packet format +----------------------------------------- + +EF013 and EF019 have a special behaviour (due to a bug in the firmware?), and +when 1 finger is touching, the first 2 position reports must be discarded. +This counting is reset whenever a different number of fingers is reported. + +byte 0:: + + firmware version 1.x: + + bit 7 6 5 4 3 2 1 0 + D U p1 p2 1 p3 R L + + L, R = 1 when Left, Right mouse button pressed + p1..p3 = byte 1..3 odd parity bit + D, U = 1 when rocker switch pressed Up, Down + + firmware version 2.x: + + bit 7 6 5 4 3 2 1 0 + n1 n0 p2 p1 1 p3 R L + + L, R = 1 when Left, Right mouse button pressed + p1..p3 = byte 1..3 odd parity bit + n1..n0 = number of fingers on touchpad + +byte 1:: + + firmware version 1.x: + + bit 7 6 5 4 3 2 1 0 + f 0 th tw x9 x8 y9 y8 + + tw = 1 when two finger touch + th = 1 when three finger touch + f = 1 when finger touch + + firmware version 2.x: + + bit 7 6 5 4 3 2 1 0 + . . . . x9 x8 y9 y8 + +byte 2:: + + bit 7 6 5 4 3 2 1 0 + x7 x6 x5 x4 x3 x2 x1 x0 + + x9..x0 = absolute x value (horizontal) + +byte 3:: + + bit 7 6 5 4 3 2 1 0 + y7 y6 y5 y4 y3 y2 y1 y0 + + y9..y0 = absolute y value (vertical) + + +Hardware version 2 +~~~~~~~~~~~~~~~~~~ + + +Registers +--------- + +By echoing a hexadecimal value to a register it contents can be altered. + +For example:: + + echo -n 0x56 > reg_10 + +* reg_10:: + + bit 7 6 5 4 3 2 1 0 + 0 1 0 1 0 1 D 0 + + D: 1 = enable drag and drop + +* reg_11:: + + bit 7 6 5 4 3 2 1 0 + 1 0 0 0 S 0 1 0 + + S: 1 = enable vertical scroll + +* reg_21:: + + unknown (0x00) + +* reg_22:: + + drag and drop release time out (short: 0x70 ... long 0x7e; + 0x7f = never i.e. tap again to release) + + +Native absolute mode 6 byte packet format +----------------------------------------- + +Parity checking and packet re-synchronization +^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ + +There is no parity checking, however some consistency checks can be performed. + +For instance for EF113:: + + SA1= packet[0]; + A1 = packet[1]; + B1 = packet[2]; + SB1= packet[3]; + C1 = packet[4]; + D1 = packet[5]; + if( (((SA1 & 0x3C) != 0x3C) && ((SA1 & 0xC0) != 0x80)) || // check Byte 1 + (((SA1 & 0x0C) != 0x0C) && ((SA1 & 0xC0) == 0x80)) || // check Byte 1 (one finger pressed) + (((SA1 & 0xC0) != 0x80) && (( A1 & 0xF0) != 0x00)) || // check Byte 2 + (((SB1 & 0x3E) != 0x38) && ((SA1 & 0xC0) != 0x80)) || // check Byte 4 + (((SB1 & 0x0E) != 0x08) && ((SA1 & 0xC0) == 0x80)) || // check Byte 4 (one finger pressed) + (((SA1 & 0xC0) != 0x80) && (( C1 & 0xF0) != 0x00)) ) // check Byte 5 + // error detected + +For all the other ones, there are just a few constant bits:: + + if( ((packet[0] & 0x0C) != 0x04) || + ((packet[3] & 0x0f) != 0x02) ) + // error detected + + +In case an error is detected, all the packets are shifted by one (and packet[0] is discarded). + +One/Three finger touch +^^^^^^^^^^^^^^^^^^^^^^ + +byte 0:: + + bit 7 6 5 4 3 2 1 0 + n1 n0 w3 w2 . . R L + + L, R = 1 when Left, Right mouse button pressed + n1..n0 = number of fingers on touchpad + +byte 1:: + + bit 7 6 5 4 3 2 1 0 + p7 p6 p5 p4 x11 x10 x9 x8 + +byte 2:: + + bit 7 6 5 4 3 2 1 0 + x7 x6 x5 x4 x3 x2 x1 x0 + + x11..x0 = absolute x value (horizontal) + +byte 3:: + + bit 7 6 5 4 3 2 1 0 + n4 vf w1 w0 . . . b2 + + n4 = set if more than 3 fingers (only in 3 fingers mode) + vf = a kind of flag ? (only on EF123, 0 when finger is over one + of the buttons, 1 otherwise) + w3..w0 = width of the finger touch (not EF113) + b2 (on EF113 only, 0 otherwise), b2.R.L indicates one button pressed: + 0 = none + 1 = Left + 2 = Right + 3 = Middle (Left and Right) + 4 = Forward + 5 = Back + 6 = Another one + 7 = Another one + +byte 4:: + + bit 7 6 5 4 3 2 1 0 + p3 p1 p2 p0 y11 y10 y9 y8 + + p7..p0 = pressure (not EF113) + +byte 5:: + + bit 7 6 5 4 3 2 1 0 + y7 y6 y5 y4 y3 y2 y1 y0 + + y11..y0 = absolute y value (vertical) + + +Two finger touch +^^^^^^^^^^^^^^^^ + +Note that the two pairs of coordinates are not exactly the coordinates of the +two fingers, but only the pair of the lower-left and upper-right coordinates. +So the actual fingers might be situated on the other diagonal of the square +defined by these two points. + +byte 0:: + + bit 7 6 5 4 3 2 1 0 + n1 n0 ay8 ax8 . . R L + + L, R = 1 when Left, Right mouse button pressed + n1..n0 = number of fingers on touchpad + +byte 1:: + + bit 7 6 5 4 3 2 1 0 + ax7 ax6 ax5 ax4 ax3 ax2 ax1 ax0 + + ax8..ax0 = lower-left finger absolute x value + +byte 2:: + + bit 7 6 5 4 3 2 1 0 + ay7 ay6 ay5 ay4 ay3 ay2 ay1 ay0 + + ay8..ay0 = lower-left finger absolute y value + +byte 3:: + + bit 7 6 5 4 3 2 1 0 + . . by8 bx8 . . . . + +byte 4:: + + bit 7 6 5 4 3 2 1 0 + bx7 bx6 bx5 bx4 bx3 bx2 bx1 bx0 + + bx8..bx0 = upper-right finger absolute x value + +byte 5:: + + bit 7 6 5 4 3 2 1 0 + by7 by8 by5 by4 by3 by2 by1 by0 + + by8..by0 = upper-right finger absolute y value + +Hardware version 3 +~~~~~~~~~~~~~~~~~~ + +Registers +--------- + +* reg_10:: + + bit 7 6 5 4 3 2 1 0 + 0 0 0 0 R F T A + + A: 1 = enable absolute tracking + T: 1 = enable two finger mode auto correct + F: 1 = disable ABS Position Filter + R: 1 = enable real hardware resolution + +Native absolute mode 6 byte packet format +----------------------------------------- + +1 and 3 finger touch shares the same 6-byte packet format, except that +3 finger touch only reports the position of the center of all three fingers. + +Firmware would send 12 bytes of data for 2 finger touch. + +Note on debounce: +In case the box has unstable power supply or other electricity issues, or +when number of finger changes, F/W would send "debounce packet" to inform +driver that the hardware is in debounce status. +The debouce packet has the following signature:: + + byte 0: 0xc4 + byte 1: 0xff + byte 2: 0xff + byte 3: 0x02 + byte 4: 0xff + byte 5: 0xff + +When we encounter this kind of packet, we just ignore it. + +One/Three finger touch +^^^^^^^^^^^^^^^^^^^^^^ + +byte 0:: + + bit 7 6 5 4 3 2 1 0 + n1 n0 w3 w2 0 1 R L + + L, R = 1 when Left, Right mouse button pressed + n1..n0 = number of fingers on touchpad + +byte 1:: + + bit 7 6 5 4 3 2 1 0 + p7 p6 p5 p4 x11 x10 x9 x8 + +byte 2:: + + bit 7 6 5 4 3 2 1 0 + x7 x6 x5 x4 x3 x2 x1 x0 + + x11..x0 = absolute x value (horizontal) + +byte 3:: + + bit 7 6 5 4 3 2 1 0 + 0 0 w1 w0 0 0 1 0 + + w3..w0 = width of the finger touch + +byte 4:: + + bit 7 6 5 4 3 2 1 0 + p3 p1 p2 p0 y11 y10 y9 y8 + + p7..p0 = pressure + +byte 5:: + + bit 7 6 5 4 3 2 1 0 + y7 y6 y5 y4 y3 y2 y1 y0 + + y11..y0 = absolute y value (vertical) + +Two finger touch +^^^^^^^^^^^^^^^^ + +The packet format is exactly the same for two finger touch, except the hardware +sends two 6 byte packets. The first packet contains data for the first finger, +the second packet has data for the second finger. So for two finger touch a +total of 12 bytes are sent. + +Hardware version 4 +~~~~~~~~~~~~~~~~~~ + +Registers +--------- + +* reg_07:: + + bit 7 6 5 4 3 2 1 0 + 0 0 0 0 0 0 0 A + + A: 1 = enable absolute tracking + +Native absolute mode 6 byte packet format +----------------------------------------- + +v4 hardware is a true multitouch touchpad, capable of tracking up to 5 fingers. +Unfortunately, due to PS/2's limited bandwidth, its packet format is rather +complex. + +Whenever the numbers or identities of the fingers changes, the hardware sends a +status packet to indicate how many and which fingers is on touchpad, followed by +head packets or motion packets. A head packet contains data of finger id, finger +position (absolute x, y values), width, and pressure. A motion packet contains +two fingers' position delta. + +For example, when status packet tells there are 2 fingers on touchpad, then we +can expect two following head packets. If the finger status doesn't change, +the following packets would be motion packets, only sending delta of finger +position, until we receive a status packet. + +One exception is one finger touch. when a status packet tells us there is only +one finger, the hardware would just send head packets afterwards. + +Status packet +^^^^^^^^^^^^^ + +byte 0:: + + bit 7 6 5 4 3 2 1 0 + . . . . 0 1 R L + + L, R = 1 when Left, Right mouse button pressed + +byte 1:: + + bit 7 6 5 4 3 2 1 0 + . . . ft4 ft3 ft2 ft1 ft0 + + ft4 ft3 ft2 ft1 ft0 ftn = 1 when finger n is on touchpad + +byte 2:: + + not used + +byte 3:: + + bit 7 6 5 4 3 2 1 0 + . . . 1 0 0 0 0 + + constant bits + +byte 4:: + + bit 7 6 5 4 3 2 1 0 + p . . . . . . . + + p = 1 for palm + +byte 5:: + + not used + +Head packet +^^^^^^^^^^^ + +byte 0:: + + bit 7 6 5 4 3 2 1 0 + w3 w2 w1 w0 0 1 R L + + L, R = 1 when Left, Right mouse button pressed + w3..w0 = finger width (spans how many trace lines) + +byte 1:: + + bit 7 6 5 4 3 2 1 0 + p7 p6 p5 p4 x11 x10 x9 x8 + +byte 2:: + + bit 7 6 5 4 3 2 1 0 + x7 x6 x5 x4 x3 x2 x1 x0 + + x11..x0 = absolute x value (horizontal) + +byte 3:: + + bit 7 6 5 4 3 2 1 0 + id2 id1 id0 1 0 0 0 1 + + id2..id0 = finger id + +byte 4:: + + bit 7 6 5 4 3 2 1 0 + p3 p1 p2 p0 y11 y10 y9 y8 + + p7..p0 = pressure + +byte 5:: + + bit 7 6 5 4 3 2 1 0 + y7 y6 y5 y4 y3 y2 y1 y0 + + y11..y0 = absolute y value (vertical) + +Motion packet +^^^^^^^^^^^^^ + +byte 0:: + + bit 7 6 5 4 3 2 1 0 + id2 id1 id0 w 0 1 R L + + L, R = 1 when Left, Right mouse button pressed + id2..id0 = finger id + w = 1 when delta overflows (> 127 or < -128), in this case + firmware sends us (delta x / 5) and (delta y / 5) + +byte 1:: + + bit 7 6 5 4 3 2 1 0 + x7 x6 x5 x4 x3 x2 x1 x0 + + x7..x0 = delta x (two's complement) + +byte 2:: + + bit 7 6 5 4 3 2 1 0 + y7 y6 y5 y4 y3 y2 y1 y0 + + y7..y0 = delta y (two's complement) + +byte 3:: + + bit 7 6 5 4 3 2 1 0 + id2 id1 id0 1 0 0 1 0 + + id2..id0 = finger id + +byte 4:: + + bit 7 6 5 4 3 2 1 0 + x7 x6 x5 x4 x3 x2 x1 x0 + + x7..x0 = delta x (two's complement) + +byte 5:: + + bit 7 6 5 4 3 2 1 0 + y7 y6 y5 y4 y3 y2 y1 y0 + + y7..y0 = delta y (two's complement) + + byte 0 ~ 2 for one finger + byte 3 ~ 5 for another + + +Trackpoint (for Hardware version 3 and 4) +~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ + +Registers +--------- + +No special registers have been identified. + +Native relative mode 6 byte packet format +----------------------------------------- + +Status Packet +^^^^^^^^^^^^^ + +byte 0:: + + bit 7 6 5 4 3 2 1 0 + 0 0 sx sy 0 M R L + +byte 1:: + + bit 7 6 5 4 3 2 1 0 + ~sx 0 0 0 0 0 0 0 + +byte 2:: + + bit 7 6 5 4 3 2 1 0 + ~sy 0 0 0 0 0 0 0 + +byte 3:: + + bit 7 6 5 4 3 2 1 0 + 0 0 ~sy ~sx 0 1 1 0 + +byte 4:: + + bit 7 6 5 4 3 2 1 0 + x7 x6 x5 x4 x3 x2 x1 x0 + +byte 5:: + + bit 7 6 5 4 3 2 1 0 + y7 y6 y5 y4 y3 y2 y1 y0 + + + x and y are written in two's complement spread + over 9 bits with sx/sy the relative top bit and + x7..x0 and y7..y0 the lower bits. + ~sx is the inverse of sx, ~sy is the inverse of sy. + The sign of y is opposite to what the input driver + expects for a relative movement diff --git a/Documentation/input/devices/gpio-tilt.rst b/Documentation/input/devices/gpio-tilt.rst new file mode 100644 index 000000000000..fa6e64570aa7 --- /dev/null +++ b/Documentation/input/devices/gpio-tilt.rst @@ -0,0 +1,103 @@ +Driver for tilt-switches connected via GPIOs +============================================ + +Generic driver to read data from tilt switches connected via gpios. +Orientation can be provided by one or more than one tilt switches, +i.e. each tilt switch providing one axis, and the number of axes +is also not limited. + + +Data structures +--------------- + +The array of struct gpio in the gpios field is used to list the gpios +that represent the current tilt state. + +The array of struct gpio_tilt_axis describes the axes that are reported +to the input system. The values set therein are used for the +input_set_abs_params calls needed to init the axes. + +The array of struct gpio_tilt_state maps gpio states to the corresponding +values to report. The gpio state is represented as a bitfield where the +bit-index corresponds to the index of the gpio in the struct gpio array. +In the same manner the values stored in the axes array correspond to +the elements of the gpio_tilt_axis-array. + + +Example +------- + +Example configuration for a single TS1003 tilt switch that rotates around +one axis in 4 steps and emits the current tilt via two GPIOs:: + + static int sg060_tilt_enable(struct device *dev) { + /* code to enable the sensors */ + }; + + static void sg060_tilt_disable(struct device *dev) { + /* code to disable the sensors */ + }; + + static struct gpio sg060_tilt_gpios[] = { + { SG060_TILT_GPIO_SENSOR1, GPIOF_IN, "tilt_sensor1" }, + { SG060_TILT_GPIO_SENSOR2, GPIOF_IN, "tilt_sensor2" }, + }; + + static struct gpio_tilt_state sg060_tilt_states[] = { + { + .gpios = (0 << 1) | (0 << 0), + .axes = (int[]) { + 0, + }, + }, { + .gpios = (0 << 1) | (1 << 0), + .axes = (int[]) { + 1, /* 90 degrees */ + }, + }, { + .gpios = (1 << 1) | (1 << 0), + .axes = (int[]) { + 2, /* 180 degrees */ + }, + }, { + .gpios = (1 << 1) | (0 << 0), + .axes = (int[]) { + 3, /* 270 degrees */ + }, + }, + }; + + static struct gpio_tilt_axis sg060_tilt_axes[] = { + { + .axis = ABS_RY, + .min = 0, + .max = 3, + .fuzz = 0, + .flat = 0, + }, + }; + + static struct gpio_tilt_platform_data sg060_tilt_pdata= { + .gpios = sg060_tilt_gpios, + .nr_gpios = ARRAY_SIZE(sg060_tilt_gpios), + + .axes = sg060_tilt_axes, + .nr_axes = ARRAY_SIZE(sg060_tilt_axes), + + .states = sg060_tilt_states, + .nr_states = ARRAY_SIZE(sg060_tilt_states), + + .debounce_interval = 100, + + .poll_interval = 1000, + .enable = sg060_tilt_enable, + .disable = sg060_tilt_disable, + }; + + static struct platform_device sg060_device_tilt = { + .name = "gpio-tilt-polled", + .id = -1, + .dev = { + .platform_data = &sg060_tilt_pdata, + }, + }; diff --git a/Documentation/input/devices/iforce-protocol.rst b/Documentation/input/devices/iforce-protocol.rst new file mode 100644 index 000000000000..8634beac3fdb --- /dev/null +++ b/Documentation/input/devices/iforce-protocol.rst @@ -0,0 +1,381 @@ +=============== +Iforce Protocol +=============== + +:Author: Johann Deneux <johann.deneux@gmail.com> + +Home page at `<http://web.archive.org/web/*/http://www.esil.univ-mrs.fr>`_ + +:Additions: by Vojtech Pavlik. + + +Introduction +============ + +This document describes what I managed to discover about the protocol used to +specify force effects to I-Force 2.0 devices. None of this information comes +from Immerse. That's why you should not trust what is written in this +document. This document is intended to help understanding the protocol. +This is not a reference. Comments and corrections are welcome. To contact me, +send an email to: johann.deneux@gmail.com + +.. warning:: + + I shall not be held responsible for any damage or harm caused if you try to + send data to your I-Force device based on what you read in this document. + +Preliminary Notes +================= + +All values are hexadecimal with big-endian encoding (msb on the left). Beware, +values inside packets are encoded using little-endian. Bytes whose roles are +unknown are marked ??? Information that needs deeper inspection is marked (?) + +General form of a packet +------------------------ + +This is how packets look when the device uses the rs232 to communicate. + +== == === ==== == +2B OP LEN DATA CS +== == === ==== == + +CS is the checksum. It is equal to the exclusive or of all bytes. + +When using USB: + +== ==== +OP DATA +== ==== + +The 2B, LEN and CS fields have disappeared, probably because USB handles +frames and data corruption is handled or unsignificant. + +First, I describe effects that are sent by the device to the computer + +Device input state +================== + +This packet is used to indicate the state of each button and the value of each +axis:: + + OP= 01 for a joystick, 03 for a wheel + LEN= Varies from device to device + 00 X-Axis lsb + 01 X-Axis msb + 02 Y-Axis lsb, or gas pedal for a wheel + 03 Y-Axis msb, or brake pedal for a wheel + 04 Throttle + 05 Buttons + 06 Lower 4 bits: Buttons + Upper 4 bits: Hat + 07 Rudder + +Device effects states +===================== + +:: + + OP= 02 + LEN= Varies + 00 ? Bit 1 (Value 2) is the value of the deadman switch + 01 Bit 8 is set if the effect is playing. Bits 0 to 7 are the effect id. + 02 ?? + 03 Address of parameter block changed (lsb) + 04 Address of parameter block changed (msb) + 05 Address of second parameter block changed (lsb) + ... depending on the number of parameter blocks updated + +Force effect +------------ + +:: + + OP= 01 + LEN= 0e + 00 Channel (when playing several effects at the same time, each must + be assigned a channel) + 01 Wave form + Val 00 Constant + Val 20 Square + Val 21 Triangle + Val 22 Sine + Val 23 Sawtooth up + Val 24 Sawtooth down + Val 40 Spring (Force = f(pos)) + Val 41 Friction (Force = f(velocity)) and Inertia + (Force = f(acceleration)) + + + 02 Axes affected and trigger + Bits 4-7: Val 2 = effect along one axis. Byte 05 indicates direction + Val 4 = X axis only. Byte 05 must contain 5a + Val 8 = Y axis only. Byte 05 must contain b4 + Val c = X and Y axes. Bytes 05 must contain 60 + Bits 0-3: Val 0 = No trigger + Val x+1 = Button x triggers the effect + When the whole byte is 0, cancel the previously set trigger + + 03-04 Duration of effect (little endian encoding, in ms) + + 05 Direction of effect, if applicable. Else, see 02 for value to assign. + + 06-07 Minimum time between triggering. + + 08-09 Address of periodicity or magnitude parameters + 0a-0b Address of attack and fade parameters, or ffff if none. + *or* + 08-09 Address of interactive parameters for X-axis, + or ffff if not applicable + 0a-0b Address of interactive parameters for Y-axis, + or ffff if not applicable + + 0c-0d Delay before execution of effect (little endian encoding, in ms) + + +Time based parameters +--------------------- + +Attack and fade +^^^^^^^^^^^^^^^ + +:: + + OP= 02 + LEN= 08 + 00-01 Address where to store the parameters + 02-03 Duration of attack (little endian encoding, in ms) + 04 Level at end of attack. Signed byte. + 05-06 Duration of fade. + 07 Level at end of fade. + +Magnitude +^^^^^^^^^ + +:: + + OP= 03 + LEN= 03 + 00-01 Address + 02 Level. Signed byte. + +Periodicity +^^^^^^^^^^^ + +:: + + OP= 04 + LEN= 07 + 00-01 Address + 02 Magnitude. Signed byte. + 03 Offset. Signed byte. + 04 Phase. Val 00 = 0 deg, Val 40 = 90 degs. + 05-06 Period (little endian encoding, in ms) + +Interactive parameters +---------------------- + +:: + + OP= 05 + LEN= 0a + 00-01 Address + 02 Positive Coeff + 03 Negative Coeff + 04+05 Offset (center) + 06+07 Dead band (Val 01F4 = 5000 (decimal)) + 08 Positive saturation (Val 0a = 1000 (decimal) Val 64 = 10000 (decimal)) + 09 Negative saturation + +The encoding is a bit funny here: For coeffs, these are signed values. The +maximum value is 64 (100 decimal), the min is 9c. +For the offset, the minimum value is FE0C, the maximum value is 01F4. +For the deadband, the minimum value is 0, the max is 03E8. + +Controls +-------- + +:: + + OP= 41 + LEN= 03 + 00 Channel + 01 Start/Stop + Val 00: Stop + Val 01: Start and play once. + Val 41: Start and play n times (See byte 02 below) + 02 Number of iterations n. + +Init +---- + + +Querying features +^^^^^^^^^^^^^^^^^ +:: + + OP= ff + Query command. Length varies according to the query type. + The general format of this packet is: + ff 01 QUERY [INDEX] CHECKSUM + responses are of the same form: + FF LEN QUERY VALUE_QUERIED CHECKSUM2 + where LEN = 1 + length(VALUE_QUERIED) + +Query ram size +~~~~~~~~~~~~~~ + +:: + + QUERY = 42 ('B'uffer size) + +The device should reply with the same packet plus two additional bytes +containing the size of the memory: +ff 03 42 03 e8 CS would mean that the device has 1000 bytes of ram available. + +Query number of effects +~~~~~~~~~~~~~~~~~~~~~~~ + +:: + + QUERY = 4e ('N'umber of effects) + +The device should respond by sending the number of effects that can be played +at the same time (one byte) +ff 02 4e 14 CS would stand for 20 effects. + +Vendor's id +~~~~~~~~~~~ + +:: + + QUERY = 4d ('M'anufacturer) + +Query the vendors'id (2 bytes) + +Product id +~~~~~~~~~~ + +:: + + QUERY = 50 ('P'roduct) + +Query the product id (2 bytes) + +Open device +~~~~~~~~~~~ + +:: + + QUERY = 4f ('O'pen) + +No data returned. + +Close device +~~~~~~~~~~~~ + +:: + + QUERY = 43 ('C')lose + +No data returned. + +Query effect +~~~~~~~~~~~~ + +:: + + QUERY = 45 ('E') + +Send effect type. +Returns nonzero if supported (2 bytes) + +Firmware Version +~~~~~~~~~~~~~~~~ + +:: + + QUERY = 56 ('V'ersion) + +Sends back 3 bytes - major, minor, subminor + +Initialisation of the device +^^^^^^^^^^^^^^^^^^^^^^^^^^^^ + +Set Control +~~~~~~~~~~~ + +.. note:: + Device dependent, can be different on different models! + +:: + + OP= 40 <idx> <val> [<val>] + LEN= 2 or 3 + 00 Idx + Idx 00 Set dead zone (0..2048) + Idx 01 Ignore Deadman sensor (0..1) + Idx 02 Enable comm watchdog (0..1) + Idx 03 Set the strength of the spring (0..100) + Idx 04 Enable or disable the spring (0/1) + Idx 05 Set axis saturation threshold (0..2048) + +Set Effect State +~~~~~~~~~~~~~~~~ + +:: + + OP= 42 <val> + LEN= 1 + 00 State + Bit 3 Pause force feedback + Bit 2 Enable force feedback + Bit 0 Stop all effects + +Set overall +~~~~~~~~~~~ + +:: + + OP= 43 <val> + LEN= 1 + 00 Gain + Val 00 = 0% + Val 40 = 50% + Val 80 = 100% + +Parameter memory +---------------- + +Each device has a certain amount of memory to store parameters of effects. +The amount of RAM may vary, I encountered values from 200 to 1000 bytes. Below +is the amount of memory apparently needed for every set of parameters: + + - period : 0c + - magnitude : 02 + - attack and fade : 0e + - interactive : 08 + +Appendix: How to study the protocol? +==================================== + +1. Generate effects using the force editor provided with the DirectX SDK, or +use Immersion Studio (freely available at their web site in the developer section: +www.immersion.com) +2. Start a soft spying RS232 or USB (depending on where you connected your +joystick/wheel). I used ComPortSpy from fCoder (alpha version!) +3. Play the effect, and watch what happens on the spy screen. + +A few words about ComPortSpy: +At first glance, this software seems, hum, well... buggy. In fact, data appear with a +few seconds latency. Personally, I restart it every time I play an effect. +Remember it's free (as in free beer) and alpha! + +URLS +==== + +Check http://www.immerse.com for Immersion Studio, +and http://www.fcoder.com for ComPortSpy. + + +I-Force is trademark of Immersion Corp. diff --git a/Documentation/input/devices/index.rst b/Documentation/input/devices/index.rst new file mode 100644 index 000000000000..95a453782bad --- /dev/null +++ b/Documentation/input/devices/index.rst @@ -0,0 +1,19 @@ +Driver-specific documentation +============================= + +This section provides information about various devices supported by the +Linux kernel, their protocols, and driver details. + +.. toctree:: + :maxdepth: 2 + :numbered: + :glob: + + * + +.. only:: subproject and html + + Indices + ======= + + * :ref:`genindex` diff --git a/Documentation/input/devices/joystick-parport.rst b/Documentation/input/devices/joystick-parport.rst new file mode 100644 index 000000000000..e8ce16ee799a --- /dev/null +++ b/Documentation/input/devices/joystick-parport.rst @@ -0,0 +1,611 @@ +.. include:: <isonum.txt> + +.. _joystick-parport: + +============================== +Parallel Port Joystick Drivers +============================== + +:Copyright: |copy| 1998-2000 Vojtech Pavlik <vojtech@ucw.cz> +:Copyright: |copy| 1998 Andree Borrmann <a.borrmann@tu-bs.de> + + +Sponsored by SuSE + +Disclaimer +========== + +Any information in this file is provided as-is, without any guarantee that +it will be true. So, use it at your own risk. The possible damages that can +happen include burning your parallel port, and/or the sticks and joystick +and maybe even more. Like when a lightning kills you it is not our problem. + +Introduction +============ + +The joystick parport drivers are used for joysticks and gamepads not +originally designed for PCs and other computers Linux runs on. Because of +that, PCs usually lack the right ports to connect these devices to. Parallel +port, because of its ability to change single bits at will, and providing +both output and input bits is the most suitable port on the PC for +connecting such devices. + +Devices supported +================= + +Many console and 8-bit computer gamepads and joysticks are supported. The +following subsections discuss usage of each. + +NES and SNES +------------ + +The Nintendo Entertainment System and Super Nintendo Entertainment System +gamepads are widely available, and easy to get. Also, they are quite easy to +connect to a PC, and don't need much processing speed (108 us for NES and +165 us for SNES, compared to about 1000 us for PC gamepads) to communicate +with them. + +All NES and SNES use the same synchronous serial protocol, clocked from +the computer's side (and thus timing insensitive). To allow up to 5 NES +and/or SNES gamepads and/or SNES mice connected to the parallel port at once, +the output lines of the parallel port are shared, while one of 5 available +input lines is assigned to each gamepad. + +This protocol is handled by the gamecon.c driver, so that's the one +you'll use for NES, SNES gamepads and SNES mice. + +The main problem with PC parallel ports is that they don't have +5V power +source on any of their pins. So, if you want a reliable source of power +for your pads, use either keyboard or joystick port, and make a pass-through +cable. You can also pull the power directly from the power supply (the red +wire is +5V). + +If you want to use the parallel port only, you can take the power is from +some data pin. For most gamepad and parport implementations only one pin is +needed, and I'd recommend pin 9 for that, the highest data bit. On the other +hand, if you are not planning to use anything else than NES / SNES on the +port, anything between and including pin 4 and pin 9 will work:: + + (pin 9) -----> Power + +Unfortunately, there are pads that need a lot more of power, and parallel +ports that can't give much current through the data pins. If this is your +case, you'll need to use diodes (as a prevention of destroying your parallel +port), and combine the currents of two or more data bits together:: + + Diodes + (pin 9) ----|>|-------+------> Power + | + (pin 8) ----|>|-------+ + | + (pin 7) ----|>|-------+ + | + <and so on> : + | + (pin 4) ----|>|-------+ + +Ground is quite easy. On PC's parallel port the ground is on any of the +pins from pin 18 to pin 25. So use any pin of these you like for the ground:: + + (pin 18) -----> Ground + +NES and SNES pads have two input bits, Clock and Latch, which drive the +serial transfer. These are connected to pins 2 and 3 of the parallel port, +respectively:: + + (pin 2) -----> Clock + (pin 3) -----> Latch + +And the last thing is the NES / SNES data wire. Only that isn't shared and +each pad needs its own data pin. The parallel port pins are:: + + (pin 10) -----> Pad 1 data + (pin 11) -----> Pad 2 data + (pin 12) -----> Pad 3 data + (pin 13) -----> Pad 4 data + (pin 15) -----> Pad 5 data + +Note that pin 14 is not used, since it is not an input pin on the parallel +port. + +This is everything you need on the PC's side of the connection, now on to +the gamepads side. The NES and SNES have different connectors. Also, there +are quite a lot of NES clones, and because Nintendo used proprietary +connectors for their machines, the cloners couldn't and used standard D-Cannon +connectors. Anyway, if you've got a gamepad, and it has buttons A, B, Turbo +A, Turbo B, Select and Start, and is connected through 5 wires, then it is +either a NES or NES clone and will work with this connection. SNES gamepads +also use 5 wires, but have more buttons. They will work as well, of course:: + + Pinout for NES gamepads Pinout for SNES gamepads and mice + + +----> Power +-----------------------\ + | 7 | o o o o | x x o | 1 + 5 +---------+ 7 +-----------------------/ + | x x o \ | | | | | + | o o o o | | | | | +-> Ground + 4 +------------+ 1 | | | +------------> Data + | | | | | | +---------------> Latch + | | | +-> Ground | +------------------> Clock + | | +----> Clock +---------------------> Power + | +-------> Latch + +----------> Data + + Pinout for NES clone (db9) gamepads Pinout for NES clone (db15) gamepads + + +---------> Clock +-----------------> Data + | +-------> Latch | +---> Ground + | | +-----> Data | | + | | | ___________________ + _____________ 8 \ o x x x x x x o / 1 + 5 \ x o o o x / 1 \ o x x o x x o / + \ x o x o / 15 `~~~~~~~~~~~~~' 9 + 9 `~~~~~~~' 6 | | | + | | | | +----> Clock + | +----> Power | +----------> Latch + +--------> Ground +----------------> Power + +Multisystem joysticks +--------------------- + +In the era of 8-bit machines, there was something like de-facto standard +for joystick ports. They were all digital, and all used D-Cannon 9 pin +connectors (db9). Because of that, a single joystick could be used without +hassle on Atari (130, 800XE, 800XL, 2600, 7200), Amiga, Commodore C64, +Amstrad CPC, Sinclair ZX Spectrum and many other machines. That's why these +joysticks are called "Multisystem". + +Now their pinout:: + + +---------> Right + | +-------> Left + | | +-----> Down + | | | +---> Up + | | | | + _____________ + 5 \ x o o o o / 1 + \ x o x o / + 9 `~~~~~~~' 6 + | | + | +----> Button + +--------> Ground + +However, as time passed, extensions to this standard developed, and these +were not compatible with each other:: + + + Atari 130, 800/XL/XE MSX + + +-----------> Power + +---------> Right | +---------> Right + | +-------> Left | | +-------> Left + | | +-----> Down | | | +-----> Down + | | | +---> Up | | | | +---> Up + | | | | | | | | | + _____________ _____________ + 5 \ x o o o o / 1 5 \ o o o o o / 1 + \ x o o o / \ o o o o / + 9 `~~~~~~~' 6 9 `~~~~~~~' 6 + | | | | | | | + | | +----> Button | | | +----> Button 1 + | +------> Power | | +------> Button 2 + +--------> Ground | +--------> Output 3 + +----------> Ground + + Amstrad CPC Commodore C64 + + +-----------> Analog Y + +---------> Right | +---------> Right + | +-------> Left | | +-------> Left + | | +-----> Down | | | +-----> Down + | | | +---> Up | | | | +---> Up + | | | | | | | | | + _____________ _____________ + 5 \ x o o o o / 1 5 \ o o o o o / 1 + \ x o o o / \ o o o o / + 9 `~~~~~~~' 6 9 `~~~~~~~' 6 + | | | | | | | + | | +----> Button 1 | | | +----> Button + | +------> Button 2 | | +------> Power + +--------> Ground | +--------> Ground + +----------> Analog X + + Sinclair Spectrum +2A/+3 Amiga 1200 + + +-----------> Up +-----------> Button 3 + | +---------> Fire | +---------> Right + | | | | +-------> Left + | | +-----> Ground | | | +-----> Down + | | | | | | | +---> Up + | | | | | | | | + _____________ _____________ + 5 \ o o x o x / 1 5 \ o o o o o / 1 + \ o o o o / \ o o o o / + 9 `~~~~~~~' 6 9 `~~~~~~~' 6 + | | | | | | | | + | | | +----> Right | | | +----> Button 1 + | | +------> Left | | +------> Power + | +--------> Ground | +--------> Ground + +----------> Down +----------> Button 2 + + And there were many others. + +Multisystem joysticks using db9.c +~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ + +For the Multisystem joysticks, and their derivatives, the db9.c driver +was written. It allows only one joystick / gamepad per parallel port, but +the interface is easy to build and works with almost anything. + +For the basic 1-button Multisystem joystick you connect its wires to the +parallel port like this:: + + (pin 1) -----> Power + (pin 18) -----> Ground + + (pin 2) -----> Up + (pin 3) -----> Down + (pin 4) -----> Left + (pin 5) -----> Right + (pin 6) -----> Button 1 + +However, if the joystick is switch based (eg. clicks when you move it), +you might or might not, depending on your parallel port, need 10 kOhm pullup +resistors on each of the direction and button signals, like this:: + + (pin 2) ------------+------> Up + Resistor | + (pin 1) --[10kOhm]--+ + +Try without, and if it doesn't work, add them. For TTL based joysticks / +gamepads the pullups are not needed. + +For joysticks with two buttons you connect the second button to pin 7 on +the parallel port:: + + (pin 7) -----> Button 2 + +And that's it. + +On a side note, if you have already built a different adapter for use with +the digital joystick driver 0.8.0.2, this is also supported by the db9.c +driver, as device type 8. (See section 3.2) + +Multisystem joysticks using gamecon.c +~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ + +For some people just one joystick per parallel port is not enough, and/or +want to use them on one parallel port together with NES/SNES/PSX pads. This is +possible using the gamecon.c. It supports up to 5 devices of the above types, +including 1 and 2 buttons Multisystem joysticks. + +However, there is nothing for free. To allow more sticks to be used at +once, you need the sticks to be purely switch based (that is non-TTL), and +not to need power. Just a plain simple six switches inside. If your +joystick can do more (eg. turbofire) you'll need to disable it totally first +if you want to use gamecon.c. + +Also, the connection is a bit more complex. You'll need a bunch of diodes, +and one pullup resistor. First, you connect the Directions and the button +the same as for db9, however with the diodes between:: + + Diodes + (pin 2) -----|<|----> Up + (pin 3) -----|<|----> Down + (pin 4) -----|<|----> Left + (pin 5) -----|<|----> Right + (pin 6) -----|<|----> Button 1 + +For two button sticks you also connect the other button:: + + (pin 7) -----|<|----> Button 2 + +And finally, you connect the Ground wire of the joystick, like done in +this little schematic to Power and Data on the parallel port, as described +for the NES / SNES pads in section 2.1 of this file - that is, one data pin +for each joystick. The power source is shared:: + + Data ------------+-----> Ground + Resistor | + Power --[10kOhm]--+ + +And that's all, here we go! + +Multisystem joysticks using turbografx.c +~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ + +The TurboGraFX interface, designed by + + Steffen Schwenke <schwenke@burg-halle.de> + +allows up to 7 Multisystem joysticks connected to the parallel port. In +Steffen's version, there is support for up to 5 buttons per joystick. However, +since this doesn't work reliably on all parallel ports, the turbografx.c driver +supports only one button per joystick. For more information on how to build the +interface, see: + + http://www2.burg-halle.de/~schwenke/parport.html + +Sony Playstation +---------------- + +The PSX controller is supported by the gamecon.c. Pinout of the PSX +controller (compatible with DirectPadPro):: + + +---------+---------+---------+ + 9 | o o o | o o o | o o o | 1 parallel + \________|_________|________/ port pins + | | | | | | + | | | | | +--------> Clock --- (4) + | | | | +------------> Select --- (3) + | | | +---------------> Power --- (5-9) + | | +------------------> Ground --- (18-25) + | +-------------------------> Command --- (2) + +----------------------------> Data --- (one of 10,11,12,13,15) + +The driver supports these controllers: + + * Standard PSX Pad + * NegCon PSX Pad + * Analog PSX Pad (red mode) + * Analog PSX Pad (green mode) + * PSX Rumble Pad + * PSX DDR Pad + +Sega +---- + +All the Sega controllers are more or less based on the standard 2-button +Multisystem joystick. However, since they don't use switches and use TTL +logic, the only driver usable with them is the db9.c driver. + +Sega Master System +~~~~~~~~~~~~~~~~~~ + +The SMS gamepads are almost exactly the same as normal 2-button +Multisystem joysticks. Set the driver to Multi2 mode, use the corresponding +parallel port pins, and the following schematic:: + + +-----------> Power + | +---------> Right + | | +-------> Left + | | | +-----> Down + | | | | +---> Up + | | | | | + _____________ + 5 \ o o o o o / 1 + \ o o x o / + 9 `~~~~~~~' 6 + | | | + | | +----> Button 1 + | +--------> Ground + +----------> Button 2 + +Sega Genesis aka MegaDrive +~~~~~~~~~~~~~~~~~~~~~~~~~~ + +The Sega Genesis (in Europe sold as Sega MegaDrive) pads are an extension +to the Sega Master System pads. They use more buttons (3+1, 5+1, 6+1). Use +the following schematic:: + + +-----------> Power + | +---------> Right + | | +-------> Left + | | | +-----> Down + | | | | +---> Up + | | | | | + _____________ + 5 \ o o o o o / 1 + \ o o o o / + 9 `~~~~~~~' 6 + | | | | + | | | +----> Button 1 + | | +------> Select + | +--------> Ground + +----------> Button 2 + +The Select pin goes to pin 14 on the parallel port:: + + (pin 14) -----> Select + +The rest is the same as for Multi2 joysticks using db9.c + +Sega Saturn +~~~~~~~~~~~ + +Sega Saturn has eight buttons, and to transfer that, without hacks like +Genesis 6 pads use, it needs one more select pin. Anyway, it is still +handled by the db9.c driver. Its pinout is very different from anything +else. Use this schematic:: + + +-----------> Select 1 + | +---------> Power + | | +-------> Up + | | | +-----> Down + | | | | +---> Ground + | | | | | + _____________ + 5 \ o o o o o / 1 + \ o o o o / + 9 `~~~~~~~' 6 + | | | | + | | | +----> Select 2 + | | +------> Right + | +--------> Left + +----------> Power + +Select 1 is pin 14 on the parallel port, Select 2 is pin 16 on the +parallel port:: + + (pin 14) -----> Select 1 + (pin 16) -----> Select 2 + +The other pins (Up, Down, Right, Left, Power, Ground) are the same as for +Multi joysticks using db9.c + +Amiga CD32 +---------- + +Amiga CD32 joypad uses the following pinout:: + + +-----------> Button 3 + | +---------> Right + | | +-------> Left + | | | +-----> Down + | | | | +---> Up + | | | | | + _____________ + 5 \ o o o o o / 1 + \ o o o o / + 9 `~~~~~~~' 6 + | | | | + | | | +----> Button 1 + | | +------> Power + | +--------> Ground + +----------> Button 2 + +It can be connected to the parallel port and driven by db9.c driver. It needs the following wiring: + + ============ ============= + CD32 pad Parallel port + ============ ============= + 1 (Up) 2 (D0) + 2 (Down) 3 (D1) + 3 (Left) 4 (D2) + 4 (Right) 5 (D3) + 5 (Button 3) 14 (AUTOFD) + 6 (Button 1) 17 (SELIN) + 7 (+5V) 1 (STROBE) + 8 (Gnd) 18 (Gnd) + 9 (Button 2) 7 (D5) + ============ ============= + +The drivers +=========== + +There are three drivers for the parallel port interfaces. Each, as +described above, allows to connect a different group of joysticks and pads. +Here are described their command lines: + +gamecon.c +--------- + +Using gamecon.c you can connect up to five devices to one parallel port. It +uses the following kernel/module command line:: + + gamecon.map=port,pad1,pad2,pad3,pad4,pad5 + +Where ``port`` the number of the parport interface (eg. 0 for parport0). + +And ``pad1`` to ``pad5`` are pad types connected to different data input pins +(10,11,12,13,15), as described in section 2.1 of this file. + +The types are: + + ===== ============================= + Type Joystick/Pad + ===== ============================= + 0 None + 1 SNES pad + 2 NES pad + 4 Multisystem 1-button joystick + 5 Multisystem 2-button joystick + 6 N64 pad + 7 Sony PSX controller + 8 Sony PSX DDR controller + 9 SNES mouse + ===== ============================= + +The exact type of the PSX controller type is autoprobed when used, so +hot swapping should work (but is not recommended). + +Should you want to use more than one of parallel ports at once, you can use +gamecon.map2 and gamecon.map3 as additional command line parameters for two +more parallel ports. + +There are two options specific to PSX driver portion. gamecon.psx_delay sets +the command delay when talking to the controllers. The default of 25 should +work but you can try lowering it for better performance. If your pads don't +respond try raising it until they work. Setting the type to 8 allows the +driver to be used with Dance Dance Revolution or similar games. Arrow keys are +registered as key presses instead of X and Y axes. + +db9.c +----- + +Apart from making an interface, there is nothing difficult on using the +db9.c driver. It uses the following kernel/module command line:: + + db9.dev=port,type + +Where ``port`` is the number of the parport interface (eg. 0 for parport0). + +Caveat here: This driver only works on bidirectional parallel ports. If +your parallel port is recent enough, you should have no trouble with this. +Old parallel ports may not have this feature. + +``Type`` is the type of joystick or pad attached: + + ===== ====================================================== + Type Joystick/Pad + ===== ====================================================== + 0 None + 1 Multisystem 1-button joystick + 2 Multisystem 2-button joystick + 3 Genesis pad (3+1 buttons) + 5 Genesis pad (5+1 buttons) + 6 Genesis pad (6+2 buttons) + 7 Saturn pad (8 buttons) + 8 Multisystem 1-button joystick (v0.8.0.2 pin-out) + 9 Two Multisystem 1-button joysticks (v0.8.0.2 pin-out) + 10 Amiga CD32 pad + ===== ====================================================== + +Should you want to use more than one of these joysticks/pads at once, you +can use db9.dev2 and db9.dev3 as additional command line parameters for two +more joysticks/pads. + +turbografx.c +------------ + +The turbografx.c driver uses a very simple kernel/module command line:: + + turbografx.map=port,js1,js2,js3,js4,js5,js6,js7 + +Where ``port`` is the number of the parport interface (eg. 0 for parport0). + +``jsX`` is the number of buttons the Multisystem joysticks connected to the +interface ports 1-7 have. For a standard multisystem joystick, this is 1. + +Should you want to use more than one of these interfaces at once, you can +use turbografx.map2 and turbografx.map3 as additional command line parameters +for two more interfaces. + +PC parallel port pinout +======================= + +:: + + .----------------------------------------. + At the PC: \ 13 12 11 10 9 8 7 6 5 4 3 2 1 / + \ 25 24 23 22 21 20 19 18 17 16 15 14 / + ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ + +====== ======= ============= + Pin Name Description +====== ======= ============= + 1 /STROBE Strobe + 2-9 D0-D7 Data Bit 0-7 + 10 /ACK Acknowledge + 11 BUSY Busy + 12 PE Paper End + 13 SELIN Select In + 14 /AUTOFD Autofeed + 15 /ERROR Error + 16 /INIT Initialize + 17 /SEL Select + 18-25 GND Signal Ground +====== ======= ============= + + +That's all, folks! Have fun! diff --git a/Documentation/input/devices/ntrig.rst b/Documentation/input/devices/ntrig.rst new file mode 100644 index 000000000000..a6b22ce6c61c --- /dev/null +++ b/Documentation/input/devices/ntrig.rst @@ -0,0 +1,137 @@ +.. include:: <isonum.txt> + +========================= +N-Trig touchscreen Driver +========================= + +:Copyright: |copy| 2008-2010 Rafi Rubin <rafi@seas.upenn.edu> +:Copyright: |copy| 2009-2010 Stephane Chatty + +This driver provides support for N-Trig pen and multi-touch sensors. Single +and multi-touch events are translated to the appropriate protocols for +the hid and input systems. Pen events are sufficiently hid compliant and +are left to the hid core. The driver also provides additional filtering +and utility functions accessible with sysfs and module parameters. + +This driver has been reported to work properly with multiple N-Trig devices +attached. + + +Parameters +---------- + +Note: values set at load time are global and will apply to all applicable +devices. Adjusting parameters with sysfs will override the load time values, +but only for that one device. + +The following parameters are used to configure filters to reduce noise: + ++-----------------------+-----------------------------------------------------+ +|activate_slack |number of fingers to ignore before processing events | ++-----------------------+-----------------------------------------------------+ +|activation_height, |size threshold to activate immediately | +|activation_width | | ++-----------------------+-----------------------------------------------------+ +|min_height, |size threshold bellow which fingers are ignored | +|min_width |both to decide activation and during activity | ++-----------------------+-----------------------------------------------------+ +|deactivate_slack |the number of "no contact" frames to ignore before | +| |propagating the end of activity events | ++-----------------------+-----------------------------------------------------+ + +When the last finger is removed from the device, it sends a number of empty +frames. By holding off on deactivation for a few frames we can tolerate false +erroneous disconnects, where the sensor may mistakenly not detect a finger that +is still present. Thus deactivate_slack addresses problems where a users might +see breaks in lines during drawing, or drop an object during a long drag. + + +Additional sysfs items +---------------------- + +These nodes just provide easy access to the ranges reported by the device. + ++-----------------------+-----------------------------------------------------+ +|sensor_logical_height, | the range for positions reported during activity | +|sensor_logical_width | | ++-----------------------+-----------------------------------------------------+ +|sensor_physical_height,| internal ranges not used for normal events but | +|sensor_physical_width | useful for tuning | ++-----------------------+-----------------------------------------------------+ + +All N-Trig devices with product id of 1 report events in the ranges of + +* X: 0-9600 +* Y: 0-7200 + +However not all of these devices have the same physical dimensions. Most +seem to be 12" sensors (Dell Latitude XT and XT2 and the HP TX2), and +at least one model (Dell Studio 17) has a 17" sensor. The ratio of physical +to logical sizes is used to adjust the size based filter parameters. + + +Filtering +--------- + +With the release of the early multi-touch firmwares it became increasingly +obvious that these sensors were prone to erroneous events. Users reported +seeing both inappropriately dropped contact and ghosts, contacts reported +where no finger was actually touching the screen. + +Deactivation slack helps prevent dropped contact for single touch use, but does +not address the problem of dropping one of more contacts while other contacts +are still active. Drops in the multi-touch context require additional +processing and should be handled in tandem with tacking. + +As observed ghost contacts are similar to actual use of the sensor, but they +seem to have different profiles. Ghost activity typically shows up as small +short lived touches. As such, I assume that the longer the continuous stream +of events the more likely those events are from a real contact, and that the +larger the size of each contact the more likely it is real. Balancing the +goals of preventing ghosts and accepting real events quickly (to minimize +user observable latency), the filter accumulates confidence for incoming +events until it hits thresholds and begins propagating. In the interest in +minimizing stored state as well as the cost of operations to make a decision, +I've kept that decision simple. + +Time is measured in terms of the number of fingers reported, not frames since +the probability of multiple simultaneous ghosts is expected to drop off +dramatically with increasing numbers. Rather than accumulate weight as a +function of size, I just use it as a binary threshold. A sufficiently large +contact immediately overrides the waiting period and leads to activation. + +Setting the activation size thresholds to large values will result in deciding +primarily on activation slack. If you see longer lived ghosts, turning up the +activation slack while reducing the size thresholds may suffice to eliminate +the ghosts while keeping the screen quite responsive to firm taps. + +Contacts continue to be filtered with min_height and min_width even after +the initial activation filter is satisfied. The intent is to provide +a mechanism for filtering out ghosts in the form of an extra finger while +you actually are using the screen. In practice this sort of ghost has +been far less problematic or relatively rare and I've left the defaults +set to 0 for both parameters, effectively turning off that filter. + +I don't know what the optimal values are for these filters. If the defaults +don't work for you, please play with the parameters. If you do find other +values more comfortable, I would appreciate feedback. + +The calibration of these devices does drift over time. If ghosts or contact +dropping worsen and interfere with the normal usage of your device, try +recalibrating it. + + +Calibration +----------- + +The N-Trig windows tools provide calibration and testing routines. Also an +unofficial unsupported set of user space tools including a calibrator is +available at: +http://code.launchpad.net/~rafi-seas/+junk/ntrig_calib + + +Tracking +-------- + +As of yet, all tested N-Trig firmwares do not track fingers. When multiple +contacts are active they seem to be sorted primarily by Y position. diff --git a/Documentation/input/devices/rotary-encoder.rst b/Documentation/input/devices/rotary-encoder.rst new file mode 100644 index 000000000000..b07b20a295ac --- /dev/null +++ b/Documentation/input/devices/rotary-encoder.rst @@ -0,0 +1,131 @@ +============================================================ +rotary-encoder - a generic driver for GPIO connected devices +============================================================ + +:Author: Daniel Mack <daniel@caiaq.de>, Feb 2009 + +Function +-------- + +Rotary encoders are devices which are connected to the CPU or other +peripherals with two wires. The outputs are phase-shifted by 90 degrees +and by triggering on falling and rising edges, the turn direction can +be determined. + +Some encoders have both outputs low in stable states, others also have +a stable state with both outputs high (half-period mode) and some have +a stable state in all steps (quarter-period mode). + +The phase diagram of these two outputs look like this:: + + _____ _____ _____ + | | | | | | + Channel A ____| |_____| |_____| |____ + + : : : : : : : : : : : : + __ _____ _____ _____ + | | | | | | | + Channel B |_____| |_____| |_____| |__ + + : : : : : : : : : : : : + Event a b c d a b c d a b c d + + |<-------->| + one step + + |<-->| + one step (half-period mode) + + |<>| + one step (quarter-period mode) + +For more information, please see + https://en.wikipedia.org/wiki/Rotary_encoder + + +Events / state machine +---------------------- + +In half-period mode, state a) and c) above are used to determine the +rotational direction based on the last stable state. Events are reported in +states b) and d) given that the new stable state is different from the last +(i.e. the rotation was not reversed half-way). + +Otherwise, the following apply: + +a) Rising edge on channel A, channel B in low state + This state is used to recognize a clockwise turn + +b) Rising edge on channel B, channel A in high state + When entering this state, the encoder is put into 'armed' state, + meaning that there it has seen half the way of a one-step transition. + +c) Falling edge on channel A, channel B in high state + This state is used to recognize a counter-clockwise turn + +d) Falling edge on channel B, channel A in low state + Parking position. If the encoder enters this state, a full transition + should have happened, unless it flipped back on half the way. The + 'armed' state tells us about that. + +Platform requirements +--------------------- + +As there is no hardware dependent call in this driver, the platform it is +used with must support gpiolib. Another requirement is that IRQs must be +able to fire on both edges. + + +Board integration +----------------- + +To use this driver in your system, register a platform_device with the +name 'rotary-encoder' and associate the IRQs and some specific platform +data with it. Because the driver uses generic device properties, this can +be done either via device tree, ACPI, or using static board files, like in +example below: + +:: + + /* board support file example */ + + #include <linux/input.h> + #include <linux/gpio/machine.h> + #include <linux/property.h> + + #define GPIO_ROTARY_A 1 + #define GPIO_ROTARY_B 2 + + static struct gpiod_lookup_table rotary_encoder_gpios = { + .dev_id = "rotary-encoder.0", + .table = { + GPIO_LOOKUP_IDX("gpio-0", + GPIO_ROTARY_A, NULL, 0, GPIO_ACTIVE_LOW), + GPIO_LOOKUP_IDX("gpio-0", + GPIO_ROTARY_B, NULL, 1, GPIO_ACTIVE_HIGH), + { }, + }, + }; + + static const struct property_entry rotary_encoder_properties[] __initconst = { + PROPERTY_ENTRY_INTEGER("rotary-encoder,steps-per-period", u32, 24), + PROPERTY_ENTRY_INTEGER("linux,axis", u32, ABS_X), + PROPERTY_ENTRY_INTEGER("rotary-encoder,relative_axis", u32, 0), + { }, + }; + + static struct platform_device rotary_encoder_device = { + .name = "rotary-encoder", + .id = 0, + }; + + ... + + gpiod_add_lookup_table(&rotary_encoder_gpios); + device_add_properties(&rotary_encoder_device, rotary_encoder_properties); + platform_device_register(&rotary_encoder_device); + + ... + +Please consult device tree binding documentation to see all properties +supported by the driver. diff --git a/Documentation/input/devices/sentelic.rst b/Documentation/input/devices/sentelic.rst new file mode 100644 index 000000000000..d7ad603dd77e --- /dev/null +++ b/Documentation/input/devices/sentelic.rst @@ -0,0 +1,901 @@ +.. include:: <isonum.txt> + +================= +Sentelic Touchpad +================= + + +:Copyright: |copy| 2002-2011 Sentelic Corporation. + +:Last update: Dec-07-2011 + +Finger Sensing Pad Intellimouse Mode (scrolling wheel, 4th and 5th buttons) +============================================================================ + +A) MSID 4: Scrolling wheel mode plus Forward page(4th button) and Backward + page (5th button) + +1. Set sample rate to 200; +2. Set sample rate to 200; +3. Set sample rate to 80; +4. Issuing the "Get device ID" command (0xF2) and waits for the response; +5. FSP will respond 0x04. + +:: + + Packet 1 + Bit 7 6 5 4 3 2 1 0 7 6 5 4 3 2 1 0 7 6 5 4 3 2 1 0 7 6 5 4 3 2 1 0 + BYTE |---------------|BYTE |---------------|BYTE|---------------|BYTE|---------------| + 1 |Y|X|y|x|1|M|R|L| 2 |X|X|X|X|X|X|X|X| 3 |Y|Y|Y|Y|Y|Y|Y|Y| 4 | | |B|F|W|W|W|W| + |---------------| |---------------| |---------------| |---------------| + + Byte 1: Bit7 => Y overflow + Bit6 => X overflow + Bit5 => Y sign bit + Bit4 => X sign bit + Bit3 => 1 + Bit2 => Middle Button, 1 is pressed, 0 is not pressed. + Bit1 => Right Button, 1 is pressed, 0 is not pressed. + Bit0 => Left Button, 1 is pressed, 0 is not pressed. + Byte 2: X Movement(9-bit 2's complement integers) + Byte 3: Y Movement(9-bit 2's complement integers) + Byte 4: Bit3~Bit0 => the scrolling wheel's movement since the last data report. + valid values, -8 ~ +7 + Bit4 => 1 = 4th mouse button is pressed, Forward one page. + 0 = 4th mouse button is not pressed. + Bit5 => 1 = 5th mouse button is pressed, Backward one page. + 0 = 5th mouse button is not pressed. + +B) MSID 6: Horizontal and Vertical scrolling + +- Set bit 1 in register 0x40 to 1 + +FSP replaces scrolling wheel's movement as 4 bits to show horizontal and +vertical scrolling. + +:: + + Packet 1 + Bit 7 6 5 4 3 2 1 0 7 6 5 4 3 2 1 0 7 6 5 4 3 2 1 0 7 6 5 4 3 2 1 0 + BYTE |---------------|BYTE |---------------|BYTE|---------------|BYTE|---------------| + 1 |Y|X|y|x|1|M|R|L| 2 |X|X|X|X|X|X|X|X| 3 |Y|Y|Y|Y|Y|Y|Y|Y| 4 | | |B|F|r|l|u|d| + |---------------| |---------------| |---------------| |---------------| + + Byte 1: Bit7 => Y overflow + Bit6 => X overflow + Bit5 => Y sign bit + Bit4 => X sign bit + Bit3 => 1 + Bit2 => Middle Button, 1 is pressed, 0 is not pressed. + Bit1 => Right Button, 1 is pressed, 0 is not pressed. + Bit0 => Left Button, 1 is pressed, 0 is not pressed. + Byte 2: X Movement(9-bit 2's complement integers) + Byte 3: Y Movement(9-bit 2's complement integers) + Byte 4: Bit0 => the Vertical scrolling movement downward. + Bit1 => the Vertical scrolling movement upward. + Bit2 => the Horizontal scrolling movement leftward. + Bit3 => the Horizontal scrolling movement rightward. + Bit4 => 1 = 4th mouse button is pressed, Forward one page. + 0 = 4th mouse button is not pressed. + Bit5 => 1 = 5th mouse button is pressed, Backward one page. + 0 = 5th mouse button is not pressed. + +C) MSID 7 + +FSP uses 2 packets (8 Bytes) to represent Absolute Position. +so we have PACKET NUMBER to identify packets. + + If PACKET NUMBER is 0, the packet is Packet 1. + If PACKET NUMBER is 1, the packet is Packet 2. + Please count this number in program. + +MSID6 special packet will be enable at the same time when enable MSID 7. + +Absolute position for STL3886-G0 +================================ + +1. Set bit 2 or 3 in register 0x40 to 1 +2. Set bit 6 in register 0x40 to 1 + +:: + + Packet 1 (ABSOLUTE POSITION) + Bit 7 6 5 4 3 2 1 0 7 6 5 4 3 2 1 0 7 6 5 4 3 2 1 0 7 6 5 4 3 2 1 0 + BYTE |---------------|BYTE |---------------|BYTE|---------------|BYTE|---------------| + 1 |0|1|V|1|1|M|R|L| 2 |X|X|X|X|X|X|X|X| 3 |Y|Y|Y|Y|Y|Y|Y|Y| 4 |r|l|d|u|X|X|Y|Y| + |---------------| |---------------| |---------------| |---------------| + + Byte 1: Bit7~Bit6 => 00, Normal data packet + => 01, Absolute coordination packet + => 10, Notify packet + Bit5 => valid bit + Bit4 => 1 + Bit3 => 1 + Bit2 => Middle Button, 1 is pressed, 0 is not pressed. + Bit1 => Right Button, 1 is pressed, 0 is not pressed. + Bit0 => Left Button, 1 is pressed, 0 is not pressed. + Byte 2: X coordinate (xpos[9:2]) + Byte 3: Y coordinate (ypos[9:2]) + Byte 4: Bit1~Bit0 => Y coordinate (xpos[1:0]) + Bit3~Bit2 => X coordinate (ypos[1:0]) + Bit4 => scroll up + Bit5 => scroll down + Bit6 => scroll left + Bit7 => scroll right + + Notify Packet for G0 + Bit 7 6 5 4 3 2 1 0 7 6 5 4 3 2 1 0 7 6 5 4 3 2 1 0 7 6 5 4 3 2 1 0 + BYTE |---------------|BYTE |---------------|BYTE|---------------|BYTE|---------------| + 1 |1|0|0|1|1|M|R|L| 2 |C|C|C|C|C|C|C|C| 3 |M|M|M|M|M|M|M|M| 4 |0|0|0|0|0|0|0|0| + |---------------| |---------------| |---------------| |---------------| + + Byte 1: Bit7~Bit6 => 00, Normal data packet + => 01, Absolute coordination packet + => 10, Notify packet + Bit5 => 0 + Bit4 => 1 + Bit3 => 1 + Bit2 => Middle Button, 1 is pressed, 0 is not pressed. + Bit1 => Right Button, 1 is pressed, 0 is not pressed. + Bit0 => Left Button, 1 is pressed, 0 is not pressed. + Byte 2: Message Type => 0x5A (Enable/Disable status packet) + Mode Type => 0xA5 (Normal/Icon mode status) + Byte 3: Message Type => 0x00 (Disabled) + => 0x01 (Enabled) + Mode Type => 0x00 (Normal) + => 0x01 (Icon) + Byte 4: Bit7~Bit0 => Don't Care + +Absolute position for STL3888-Ax +================================ + +:: + + Packet 1 (ABSOLUTE POSITION) + Bit 7 6 5 4 3 2 1 0 7 6 5 4 3 2 1 0 7 6 5 4 3 2 1 0 7 6 5 4 3 2 1 0 + BYTE |---------------|BYTE |---------------|BYTE|---------------|BYTE|---------------| + 1 |0|1|V|A|1|L|0|1| 2 |X|X|X|X|X|X|X|X| 3 |Y|Y|Y|Y|Y|Y|Y|Y| 4 |x|x|y|y|X|X|Y|Y| + |---------------| |---------------| |---------------| |---------------| + + Byte 1: Bit7~Bit6 => 00, Normal data packet + => 01, Absolute coordination packet + => 10, Notify packet + => 11, Normal data packet with on-pad click + Bit5 => Valid bit, 0 means that the coordinate is invalid or finger up. + When both fingers are up, the last two reports have zero valid + bit. + Bit4 => arc + Bit3 => 1 + Bit2 => Left Button, 1 is pressed, 0 is released. + Bit1 => 0 + Bit0 => 1 + Byte 2: X coordinate (xpos[9:2]) + Byte 3: Y coordinate (ypos[9:2]) + Byte 4: Bit1~Bit0 => Y coordinate (xpos[1:0]) + Bit3~Bit2 => X coordinate (ypos[1:0]) + Bit5~Bit4 => y1_g + Bit7~Bit6 => x1_g + + Packet 2 (ABSOLUTE POSITION) + Bit 7 6 5 4 3 2 1 0 7 6 5 4 3 2 1 0 7 6 5 4 3 2 1 0 7 6 5 4 3 2 1 0 + BYTE |---------------|BYTE |---------------|BYTE|---------------|BYTE|---------------| + 1 |0|1|V|A|1|R|1|0| 2 |X|X|X|X|X|X|X|X| 3 |Y|Y|Y|Y|Y|Y|Y|Y| 4 |x|x|y|y|X|X|Y|Y| + |---------------| |---------------| |---------------| |---------------| + + Byte 1: Bit7~Bit6 => 00, Normal data packet + => 01, Absolute coordinates packet + => 10, Notify packet + => 11, Normal data packet with on-pad click + Bit5 => Valid bit, 0 means that the coordinate is invalid or finger up. + When both fingers are up, the last two reports have zero valid + bit. + Bit4 => arc + Bit3 => 1 + Bit2 => Right Button, 1 is pressed, 0 is released. + Bit1 => 1 + Bit0 => 0 + Byte 2: X coordinate (xpos[9:2]) + Byte 3: Y coordinate (ypos[9:2]) + Byte 4: Bit1~Bit0 => Y coordinate (xpos[1:0]) + Bit3~Bit2 => X coordinate (ypos[1:0]) + Bit5~Bit4 => y2_g + Bit7~Bit6 => x2_g + + Notify Packet for STL3888-Ax + Bit 7 6 5 4 3 2 1 0 7 6 5 4 3 2 1 0 7 6 5 4 3 2 1 0 7 6 5 4 3 2 1 0 + BYTE |---------------|BYTE |---------------|BYTE|---------------|BYTE|---------------| + 1 |1|0|1|P|1|M|R|L| 2 |C|C|C|C|C|C|C|C| 3 |0|0|F|F|0|0|0|i| 4 |r|l|d|u|0|0|0|0| + |---------------| |---------------| |---------------| |---------------| + + Byte 1: Bit7~Bit6 => 00, Normal data packet + => 01, Absolute coordinates packet + => 10, Notify packet + => 11, Normal data packet with on-pad click + Bit5 => 1 + Bit4 => when in absolute coordinates mode (valid when EN_PKT_GO is 1): + 0: left button is generated by the on-pad command + 1: left button is generated by the external button + Bit3 => 1 + Bit2 => Middle Button, 1 is pressed, 0 is not pressed. + Bit1 => Right Button, 1 is pressed, 0 is not pressed. + Bit0 => Left Button, 1 is pressed, 0 is not pressed. + Byte 2: Message Type => 0xB7 (Multi Finger, Multi Coordinate mode) + Byte 3: Bit7~Bit6 => Don't care + Bit5~Bit4 => Number of fingers + Bit3~Bit1 => Reserved + Bit0 => 1: enter gesture mode; 0: leaving gesture mode + Byte 4: Bit7 => scroll right button + Bit6 => scroll left button + Bit5 => scroll down button + Bit4 => scroll up button + * Note that if gesture and additional button (Bit4~Bit7) + happen at the same time, the button information will not + be sent. + Bit3~Bit0 => Reserved + +Sample sequence of Multi-finger, Multi-coordinate mode: + + notify packet (valid bit == 1), abs pkt 1, abs pkt 2, abs pkt 1, + abs pkt 2, ..., notify packet (valid bit == 0) + +Absolute position for STL3888-B0 +================================ + +:: + + Packet 1(ABSOLUTE POSITION) + Bit 7 6 5 4 3 2 1 0 7 6 5 4 3 2 1 0 7 6 5 4 3 2 1 0 7 6 5 4 3 2 1 0 + BYTE |---------------|BYTE |---------------|BYTE|---------------|BYTE|---------------| + 1 |0|1|V|F|1|0|R|L| 2 |X|X|X|X|X|X|X|X| 3 |Y|Y|Y|Y|Y|Y|Y|Y| 4 |r|l|u|d|X|X|Y|Y| + |---------------| |---------------| |---------------| |---------------| + + Byte 1: Bit7~Bit6 => 00, Normal data packet + => 01, Absolute coordinates packet + => 10, Notify packet + => 11, Normal data packet with on-pad click + Bit5 => Valid bit, 0 means that the coordinate is invalid or finger up. + When both fingers are up, the last two reports have zero valid + bit. + Bit4 => finger up/down information. 1: finger down, 0: finger up. + Bit3 => 1 + Bit2 => finger index, 0 is the first finger, 1 is the second finger. + Bit1 => Right Button, 1 is pressed, 0 is not pressed. + Bit0 => Left Button, 1 is pressed, 0 is not pressed. + Byte 2: X coordinate (xpos[9:2]) + Byte 3: Y coordinate (ypos[9:2]) + Byte 4: Bit1~Bit0 => Y coordinate (xpos[1:0]) + Bit3~Bit2 => X coordinate (ypos[1:0]) + Bit4 => scroll down button + Bit5 => scroll up button + Bit6 => scroll left button + Bit7 => scroll right button + + Packet 2 (ABSOLUTE POSITION) + Bit 7 6 5 4 3 2 1 0 7 6 5 4 3 2 1 0 7 6 5 4 3 2 1 0 7 6 5 4 3 2 1 0 + BYTE |---------------|BYTE |---------------|BYTE|---------------|BYTE|---------------| + 1 |0|1|V|F|1|1|R|L| 2 |X|X|X|X|X|X|X|X| 3 |Y|Y|Y|Y|Y|Y|Y|Y| 4 |r|l|u|d|X|X|Y|Y| + |---------------| |---------------| |---------------| |---------------| + + Byte 1: Bit7~Bit6 => 00, Normal data packet + => 01, Absolute coordination packet + => 10, Notify packet + => 11, Normal data packet with on-pad click + Bit5 => Valid bit, 0 means that the coordinate is invalid or finger up. + When both fingers are up, the last two reports have zero valid + bit. + Bit4 => finger up/down information. 1: finger down, 0: finger up. + Bit3 => 1 + Bit2 => finger index, 0 is the first finger, 1 is the second finger. + Bit1 => Right Button, 1 is pressed, 0 is not pressed. + Bit0 => Left Button, 1 is pressed, 0 is not pressed. + Byte 2: X coordinate (xpos[9:2]) + Byte 3: Y coordinate (ypos[9:2]) + Byte 4: Bit1~Bit0 => Y coordinate (xpos[1:0]) + Bit3~Bit2 => X coordinate (ypos[1:0]) + Bit4 => scroll down button + Bit5 => scroll up button + Bit6 => scroll left button + Bit7 => scroll right button + +Notify Packet for STL3888-B0:: + + Bit 7 6 5 4 3 2 1 0 7 6 5 4 3 2 1 0 7 6 5 4 3 2 1 0 7 6 5 4 3 2 1 0 + BYTE |---------------|BYTE |---------------|BYTE|---------------|BYTE|---------------| + 1 |1|0|1|P|1|M|R|L| 2 |C|C|C|C|C|C|C|C| 3 |0|0|F|F|0|0|0|i| 4 |r|l|u|d|0|0|0|0| + |---------------| |---------------| |---------------| |---------------| + + Byte 1: Bit7~Bit6 => 00, Normal data packet + => 01, Absolute coordination packet + => 10, Notify packet + => 11, Normal data packet with on-pad click + Bit5 => 1 + Bit4 => when in absolute coordinates mode (valid when EN_PKT_GO is 1): + 0: left button is generated by the on-pad command + 1: left button is generated by the external button + Bit3 => 1 + Bit2 => Middle Button, 1 is pressed, 0 is not pressed. + Bit1 => Right Button, 1 is pressed, 0 is not pressed. + Bit0 => Left Button, 1 is pressed, 0 is not pressed. + Byte 2: Message Type => 0xB7 (Multi Finger, Multi Coordinate mode) + Byte 3: Bit7~Bit6 => Don't care + Bit5~Bit4 => Number of fingers + Bit3~Bit1 => Reserved + Bit0 => 1: enter gesture mode; 0: leaving gesture mode + Byte 4: Bit7 => scroll right button + Bit6 => scroll left button + Bit5 => scroll up button + Bit4 => scroll down button + * Note that if gesture and additional button(Bit4~Bit7) + happen at the same time, the button information will not + be sent. + Bit3~Bit0 => Reserved + +Sample sequence of Multi-finger, Multi-coordinate mode: + + notify packet (valid bit == 1), abs pkt 1, abs pkt 2, abs pkt 1, + abs pkt 2, ..., notify packet (valid bit == 0) + +Absolute position for STL3888-Cx and STL3888-Dx +=============================================== + +:: + + Single Finger, Absolute Coordinate Mode (SFAC) + Bit 7 6 5 4 3 2 1 0 7 6 5 4 3 2 1 0 7 6 5 4 3 2 1 0 7 6 5 4 3 2 1 0 + BYTE |---------------|BYTE |---------------|BYTE|---------------|BYTE|---------------| + 1 |0|1|0|P|1|M|R|L| 2 |X|X|X|X|X|X|X|X| 3 |Y|Y|Y|Y|Y|Y|Y|Y| 4 |r|l|B|F|X|X|Y|Y| + |---------------| |---------------| |---------------| |---------------| + + Byte 1: Bit7~Bit6 => 00, Normal data packet + => 01, Absolute coordinates packet + => 10, Notify packet + Bit5 => Coordinate mode(always 0 in SFAC mode): + 0: single-finger absolute coordinates (SFAC) mode + 1: multi-finger, multiple coordinates (MFMC) mode + Bit4 => 0: The LEFT button is generated by on-pad command (OPC) + 1: The LEFT button is generated by external button + Default is 1 even if the LEFT button is not pressed. + Bit3 => Always 1, as specified by PS/2 protocol. + Bit2 => Middle Button, 1 is pressed, 0 is not pressed. + Bit1 => Right Button, 1 is pressed, 0 is not pressed. + Bit0 => Left Button, 1 is pressed, 0 is not pressed. + Byte 2: X coordinate (xpos[9:2]) + Byte 3: Y coordinate (ypos[9:2]) + Byte 4: Bit1~Bit0 => Y coordinate (xpos[1:0]) + Bit3~Bit2 => X coordinate (ypos[1:0]) + Bit4 => 4th mouse button(forward one page) + Bit5 => 5th mouse button(backward one page) + Bit6 => scroll left button + Bit7 => scroll right button + + Multi Finger, Multiple Coordinates Mode (MFMC): + Bit 7 6 5 4 3 2 1 0 7 6 5 4 3 2 1 0 7 6 5 4 3 2 1 0 7 6 5 4 3 2 1 0 + BYTE |---------------|BYTE |---------------|BYTE|---------------|BYTE|---------------| + 1 |0|1|1|P|1|F|R|L| 2 |X|X|X|X|X|X|X|X| 3 |Y|Y|Y|Y|Y|Y|Y|Y| 4 |r|l|B|F|X|X|Y|Y| + |---------------| |---------------| |---------------| |---------------| + + Byte 1: Bit7~Bit6 => 00, Normal data packet + => 01, Absolute coordination packet + => 10, Notify packet + Bit5 => Coordinate mode (always 1 in MFMC mode): + 0: single-finger absolute coordinates (SFAC) mode + 1: multi-finger, multiple coordinates (MFMC) mode + Bit4 => 0: The LEFT button is generated by on-pad command (OPC) + 1: The LEFT button is generated by external button + Default is 1 even if the LEFT button is not pressed. + Bit3 => Always 1, as specified by PS/2 protocol. + Bit2 => Finger index, 0 is the first finger, 1 is the second finger. + If bit 1 and 0 are all 1 and bit 4 is 0, the middle external + button is pressed. + Bit1 => Right Button, 1 is pressed, 0 is not pressed. + Bit0 => Left Button, 1 is pressed, 0 is not pressed. + Byte 2: X coordinate (xpos[9:2]) + Byte 3: Y coordinate (ypos[9:2]) + Byte 4: Bit1~Bit0 => Y coordinate (xpos[1:0]) + Bit3~Bit2 => X coordinate (ypos[1:0]) + Bit4 => 4th mouse button(forward one page) + Bit5 => 5th mouse button(backward one page) + Bit6 => scroll left button + Bit7 => scroll right button + +When one of the two fingers is up, the device will output four consecutive +MFMC#0 report packets with zero X and Y to represent 1st finger is up or +four consecutive MFMC#1 report packets with zero X and Y to represent that +the 2nd finger is up. On the other hand, if both fingers are up, the device +will output four consecutive single-finger, absolute coordinate(SFAC) packets +with zero X and Y. + +Notify Packet for STL3888-Cx/Dx:: + + Bit 7 6 5 4 3 2 1 0 7 6 5 4 3 2 1 0 7 6 5 4 3 2 1 0 7 6 5 4 3 2 1 0 + BYTE |---------------|BYTE |---------------|BYTE|---------------|BYTE|---------------| + 1 |1|0|0|P|1|M|R|L| 2 |C|C|C|C|C|C|C|C| 3 |0|0|F|F|0|0|0|i| 4 |r|l|u|d|0|0|0|0| + |---------------| |---------------| |---------------| |---------------| + + Byte 1: Bit7~Bit6 => 00, Normal data packet + => 01, Absolute coordinates packet + => 10, Notify packet + Bit5 => Always 0 + Bit4 => 0: The LEFT button is generated by on-pad command(OPC) + 1: The LEFT button is generated by external button + Default is 1 even if the LEFT button is not pressed. + Bit3 => 1 + Bit2 => Middle Button, 1 is pressed, 0 is not pressed. + Bit1 => Right Button, 1 is pressed, 0 is not pressed. + Bit0 => Left Button, 1 is pressed, 0 is not pressed. + Byte 2: Message type: + 0xba => gesture information + 0xc0 => one finger hold-rotating gesture + Byte 3: The first parameter for the received message: + 0xba => gesture ID (refer to the 'Gesture ID' section) + 0xc0 => region ID + Byte 4: The second parameter for the received message: + 0xba => N/A + 0xc0 => finger up/down information + +Sample sequence of Multi-finger, Multi-coordinates mode: + + notify packet (valid bit == 1), MFMC packet 1 (byte 1, bit 2 == 0), + MFMC packet 2 (byte 1, bit 2 == 1), MFMC packet 1, MFMC packet 2, + ..., notify packet (valid bit == 0) + + That is, when the device is in MFMC mode, the host will receive + interleaved absolute coordinate packets for each finger. + +FSP Enable/Disable packet +========================= + +:: + + Bit 7 6 5 4 3 2 1 0 7 6 5 4 3 2 1 0 7 6 5 4 3 2 1 0 7 6 5 4 3 2 1 0 + BYTE |---------------|BYTE |---------------|BYTE|---------------|BYTE|---------------| + 1 |Y|X|0|0|1|M|R|L| 2 |0|1|0|1|1|0|1|E| 3 | | | | | | | | | 4 | | | | | | | | | + |---------------| |---------------| |---------------| |---------------| + + FSP will send out enable/disable packet when FSP receive PS/2 enable/disable + command. Host will receive the packet which Middle, Right, Left button will + be set. The packet only use byte 0 and byte 1 as a pattern of original packet. + Ignore the other bytes of the packet. + + Byte 1: Bit7 => 0, Y overflow + Bit6 => 0, X overflow + Bit5 => 0, Y sign bit + Bit4 => 0, X sign bit + Bit3 => 1 + Bit2 => 1, Middle Button + Bit1 => 1, Right Button + Bit0 => 1, Left Button + Byte 2: Bit7~1 => (0101101b) + Bit0 => 1 = Enable + 0 = Disable + Byte 3: Don't care + Byte 4: Don't care (MOUSE ID 3, 4) + Byte 5~8: Don't care (Absolute packet) + +PS/2 Command Set +================ + +FSP supports basic PS/2 commanding set and modes, refer to following URL for +details about PS/2 commands: + +http://www.computer-engineering.org/ps2mouse/ + +Programming Sequence for Determining Packet Parsing Flow +======================================================== + +1. Identify FSP by reading device ID(0x00) and version(0x01) register + +2. For FSP version < STL3888 Cx, determine number of buttons by reading + the 'test mode status' (0x20) register:: + + buttons = reg[0x20] & 0x30 + + if buttons == 0x30 or buttons == 0x20: + # two/four buttons + Refer to 'Finger Sensing Pad PS/2 Mouse Intellimouse' + section A for packet parsing detail(ignore byte 4, bit ~ 7) + elif buttons == 0x10: + # 6 buttons + Refer to 'Finger Sensing Pad PS/2 Mouse Intellimouse' + section B for packet parsing detail + elif buttons == 0x00: + # 6 buttons + Refer to 'Finger Sensing Pad PS/2 Mouse Intellimouse' + section A for packet parsing detail + +3. For FSP version >= STL3888 Cx: + Refer to 'Finger Sensing Pad PS/2 Mouse Intellimouse' + section A for packet parsing detail (ignore byte 4, bit ~ 7) + +Programming Sequence for Register Reading/Writing +================================================= + +Register inversion requirement: + +Following values needed to be inverted(the '~' operator in C) before being +sent to FSP:: + + 0xe8, 0xe9, 0xee, 0xf2, 0xf3 and 0xff. + +Register swapping requirement: + +Following values needed to have their higher 4 bits and lower 4 bits being +swapped before being sent to FSP:: + + 10, 20, 40, 60, 80, 100 and 200. + +Register reading sequence: + + 1. send 0xf3 PS/2 command to FSP; + + 2. send 0x66 PS/2 command to FSP; + + 3. send 0x88 PS/2 command to FSP; + + 4. send 0xf3 PS/2 command to FSP; + + 5. if the register address being to read is not required to be + inverted(refer to the 'Register inversion requirement' section), + goto step 6 + + a. send 0x68 PS/2 command to FSP; + + b. send the inverted register address to FSP and goto step 8; + + 6. if the register address being to read is not required to be + swapped(refer to the 'Register swapping requirement' section), + goto step 7 + + a. send 0xcc PS/2 command to FSP; + + b. send the swapped register address to FSP and goto step 8; + + 7. send 0x66 PS/2 command to FSP; + + a. send the original register address to FSP and goto step 8; + + 8. send 0xe9(status request) PS/2 command to FSP; + + 9. the 4th byte of the response read from FSP should be the + requested register value(?? indicates don't care byte):: + + host: 0xe9 + 3888: 0xfa (??) (??) (val) + + * Note that since the Cx release, the hardware will return 1's + complement of the register value at the 3rd byte of status request + result:: + + host: 0xe9 + 3888: 0xfa (??) (~val) (val) + +Register writing sequence: + + 1. send 0xf3 PS/2 command to FSP; + + 2. if the register address being to write is not required to be + inverted(refer to the 'Register inversion requirement' section), + goto step 3 + + a. send 0x74 PS/2 command to FSP; + + b. send the inverted register address to FSP and goto step 5; + + 3. if the register address being to write is not required to be + swapped(refer to the 'Register swapping requirement' section), + goto step 4 + + a. send 0x77 PS/2 command to FSP; + + b. send the swapped register address to FSP and goto step 5; + + 4. send 0x55 PS/2 command to FSP; + + a. send the register address to FSP and goto step 5; + + 5. send 0xf3 PS/2 command to FSP; + + 6. if the register value being to write is not required to be + inverted(refer to the 'Register inversion requirement' section), + goto step 7 + + a. send 0x47 PS/2 command to FSP; + + b. send the inverted register value to FSP and goto step 9; + + 7. if the register value being to write is not required to be + swapped(refer to the 'Register swapping requirement' section), + goto step 8 + + a. send 0x44 PS/2 command to FSP; + + b. send the swapped register value to FSP and goto step 9; + + 8. send 0x33 PS/2 command to FSP; + + a. send the register value to FSP; + + 9. the register writing sequence is completed. + + * Since the Cx release, the hardware will return 1's + complement of the register value at the 3rd byte of status request + result. Host can optionally send another 0xe9 (status request) PS/2 + command to FSP at the end of register writing to verify that the + register writing operation is successful (?? indicates don't care + byte):: + + host: 0xe9 + 3888: 0xfa (??) (~val) (val) + +Programming Sequence for Page Register Reading/Writing +====================================================== + +In order to overcome the limitation of maximum number of registers +supported, the hardware separates register into different groups called +'pages.' Each page is able to include up to 255 registers. + +The default page after power up is 0x82; therefore, if one has to get +access to register 0x8301, one has to use following sequence to switch +to page 0x83, then start reading/writing from/to offset 0x01 by using +the register read/write sequence described in previous section. + +Page register reading sequence: + + 1. send 0xf3 PS/2 command to FSP; + + 2. send 0x66 PS/2 command to FSP; + + 3. send 0x88 PS/2 command to FSP; + + 4. send 0xf3 PS/2 command to FSP; + + 5. send 0x83 PS/2 command to FSP; + + 6. send 0x88 PS/2 command to FSP; + + 7. send 0xe9(status request) PS/2 command to FSP; + + 8. the response read from FSP should be the requested page value. + + +Page register writing sequence: + + 1. send 0xf3 PS/2 command to FSP; + + 2. send 0x38 PS/2 command to FSP; + + 3. send 0x88 PS/2 command to FSP; + + 4. send 0xf3 PS/2 command to FSP; + + 5. if the page address being written is not required to be + inverted(refer to the 'Register inversion requirement' section), + goto step 6 + + a. send 0x47 PS/2 command to FSP; + + b. send the inverted page address to FSP and goto step 9; + + 6. if the page address being written is not required to be + swapped(refer to the 'Register swapping requirement' section), + goto step 7 + + a. send 0x44 PS/2 command to FSP; + + b. send the swapped page address to FSP and goto step 9; + + 7. send 0x33 PS/2 command to FSP; + + 8. send the page address to FSP; + + 9. the page register writing sequence is completed. + +Gesture ID +========== + +Unlike other devices which sends multiple fingers' coordinates to host, +FSP processes multiple fingers' coordinates internally and convert them +into a 8 bits integer, namely 'Gesture ID.' Following is a list of +supported gesture IDs: + + ======= ================================== + ID Description + ======= ================================== + 0x86 2 finger straight up + 0x82 2 finger straight down + 0x80 2 finger straight right + 0x84 2 finger straight left + 0x8f 2 finger zoom in + 0x8b 2 finger zoom out + 0xc0 2 finger curve, counter clockwise + 0xc4 2 finger curve, clockwise + 0x2e 3 finger straight up + 0x2a 3 finger straight down + 0x28 3 finger straight right + 0x2c 3 finger straight left + 0x38 palm + ======= ================================== + +Register Listing +================ + +Registers are represented in 16 bits values. The higher 8 bits represent +the page address and the lower 8 bits represent the relative offset within +that particular page. Refer to the 'Programming Sequence for Page Register +Reading/Writing' section for instructions on how to change current page +address:: + + offset width default r/w name + 0x8200 bit7~bit0 0x01 RO device ID + + 0x8201 bit7~bit0 RW version ID + 0xc1: STL3888 Ax + 0xd0 ~ 0xd2: STL3888 Bx + 0xe0 ~ 0xe1: STL3888 Cx + 0xe2 ~ 0xe3: STL3888 Dx + + 0x8202 bit7~bit0 0x01 RO vendor ID + + 0x8203 bit7~bit0 0x01 RO product ID + + 0x8204 bit3~bit0 0x01 RW revision ID + + 0x820b test mode status 1 + bit3 1 RO 0: rotate 180 degree + 1: no rotation + *only supported by H/W prior to Cx + + 0x820f register file page control + bit2 0 RW 1: rotate 180 degree + 0: no rotation + *supported since Cx + + bit0 0 RW 1 to enable page 1 register files + *only supported by H/W prior to Cx + + 0x8210 RW system control 1 + bit0 1 RW Reserved, must be 1 + bit1 0 RW Reserved, must be 0 + bit4 0 RW Reserved, must be 0 + bit5 1 RW register clock gating enable + 0: read only, 1: read/write enable + (Note that following registers does not require clock gating being + enabled prior to write: 05 06 07 08 09 0c 0f 10 11 12 16 17 18 23 2e + 40 41 42 43. In addition to that, this bit must be 1 when gesture + mode is enabled) + + 0x8220 test mode status + bit5~bit4 RO number of buttons + 11 => 2, lbtn/rbtn + 10 => 4, lbtn/rbtn/scru/scrd + 01 => 6, lbtn/rbtn/scru/scrd/scrl/scrr + 00 => 6, lbtn/rbtn/scru/scrd/fbtn/bbtn + *only supported by H/W prior to Cx + + 0x8231 RW on-pad command detection + bit7 0 RW on-pad command left button down tag + enable + 0: disable, 1: enable + *only supported by H/W prior to Cx + + 0x8234 RW on-pad command control 5 + bit4~bit0 0x05 RW XLO in 0s/4/1, so 03h = 0010.1b = 2.5 + (Note that position unit is in 0.5 scanline) + *only supported by H/W prior to Cx + + bit7 0 RW on-pad tap zone enable + 0: disable, 1: enable + *only supported by H/W prior to Cx + + 0x8235 RW on-pad command control 6 + bit4~bit0 0x1d RW XHI in 0s/4/1, so 19h = 1100.1b = 12.5 + (Note that position unit is in 0.5 scanline) + *only supported by H/W prior to Cx + + 0x8236 RW on-pad command control 7 + bit4~bit0 0x04 RW YLO in 0s/4/1, so 03h = 0010.1b = 2.5 + (Note that position unit is in 0.5 scanline) + *only supported by H/W prior to Cx + + 0x8237 RW on-pad command control 8 + bit4~bit0 0x13 RW YHI in 0s/4/1, so 11h = 1000.1b = 8.5 + (Note that position unit is in 0.5 scanline) + *only supported by H/W prior to Cx + + 0x8240 RW system control 5 + bit1 0 RW FSP Intellimouse mode enable + 0: disable, 1: enable + *only supported by H/W prior to Cx + + bit2 0 RW movement + abs. coordinate mode enable + 0: disable, 1: enable + (Note that this function has the functionality of bit 1 even when + bit 1 is not set. However, the format is different from that of bit 1. + In addition, when bit 1 and bit 2 are set at the same time, bit 2 will + override bit 1.) + *only supported by H/W prior to Cx + + bit3 0 RW abs. coordinate only mode enable + 0: disable, 1: enable + (Note that this function has the functionality of bit 1 even when + bit 1 is not set. However, the format is different from that of bit 1. + In addition, when bit 1, bit 2 and bit 3 are set at the same time, + bit 3 will override bit 1 and 2.) + *only supported by H/W prior to Cx + + bit5 0 RW auto switch enable + 0: disable, 1: enable + *only supported by H/W prior to Cx + + bit6 0 RW G0 abs. + notify packet format enable + 0: disable, 1: enable + (Note that the absolute/relative coordinate output still depends on + bit 2 and 3. That is, if any of those bit is 1, host will receive + absolute coordinates; otherwise, host only receives packets with + relative coordinate.) + *only supported by H/W prior to Cx + + bit7 0 RW EN_PS2_F2: PS/2 gesture mode 2nd + finger packet enable + 0: disable, 1: enable + *only supported by H/W prior to Cx + + 0x8243 RW on-pad control + bit0 0 RW on-pad control enable + 0: disable, 1: enable + (Note that if this bit is cleared, bit 3/5 will be ineffective) + *only supported by H/W prior to Cx + + bit3 0 RW on-pad fix vertical scrolling enable + 0: disable, 1: enable + *only supported by H/W prior to Cx + + bit5 0 RW on-pad fix horizontal scrolling enable + 0: disable, 1: enable + *only supported by H/W prior to Cx + + 0x8290 RW software control register 1 + bit0 0 RW absolute coordination mode + 0: disable, 1: enable + *supported since Cx + + bit1 0 RW gesture ID output + 0: disable, 1: enable + *supported since Cx + + bit2 0 RW two fingers' coordinates output + 0: disable, 1: enable + *supported since Cx + + bit3 0 RW finger up one packet output + 0: disable, 1: enable + *supported since Cx + + bit4 0 RW absolute coordination continuous mode + 0: disable, 1: enable + *supported since Cx + + bit6~bit5 00 RW gesture group selection + 00: basic + 01: suite + 10: suite pro + 11: advanced + *supported since Cx + + bit7 0 RW Bx packet output compatible mode + 0: disable, 1: enable + *supported since Cx + *supported since Cx + + + 0x833d RW on-pad command control 1 + bit7 1 RW on-pad command detection enable + 0: disable, 1: enable + *supported since Cx + + 0x833e RW on-pad command detection + bit7 0 RW on-pad command left button down tag + enable. Works only in H/W based PS/2 + data packet mode. + 0: disable, 1: enable + *supported since Cx diff --git a/Documentation/input/devices/walkera0701.rst b/Documentation/input/devices/walkera0701.rst new file mode 100644 index 000000000000..2adda99ca717 --- /dev/null +++ b/Documentation/input/devices/walkera0701.rst @@ -0,0 +1,128 @@ +=========================== +Walkera WK-0701 transmitter +=========================== + +Walkera WK-0701 transmitter is supplied with a ready to fly Walkera +helicopters such as HM36, HM37, HM60. The walkera0701 module enables to use +this transmitter as joystick + +Devel homepage and download: +http://zub.fei.tuke.sk/walkera-wk0701/ + +or use cogito: +cg-clone http://zub.fei.tuke.sk/GIT/walkera0701-joystick + + +Connecting to PC +================ + +At back side of transmitter S-video connector can be found. Modulation +pulses from processor to HF part can be found at pin 2 of this connector, +pin 3 is GND. Between pin 3 and CPU 5k6 resistor can be found. To get +modulation pulses to PC, signal pulses must be amplified. + +Cable: (walkera TX to parport) + +Walkera WK-0701 TX S-VIDEO connector:: + + (back side of TX) + __ __ S-video: canon25 + / |_| \ pin 2 (signal) NPN parport + / O 4 3 O \ pin 3 (GND) LED ________________ 10 ACK + ( O 2 1 O ) | C + \ ___ / 2 ________________________|\|_____|/ + | [___] | |/| B |\ + ------- 3 __________________________________|________________ 25 GND + E + +I use green LED and BC109 NPN transistor. + +Software +======== + +Build kernel with walkera0701 module. Module walkera0701 need exclusive +access to parport, modules like lp must be unloaded before loading +walkera0701 module, check dmesg for error messages. Connect TX to PC by +cable and run jstest /dev/input/js0 to see values from TX. If no value can +be changed by TX "joystick", check output from /proc/interrupts. Value for +(usually irq7) parport must increase if TX is on. + + + +Technical details +================= + +Driver use interrupt from parport ACK input bit to measure pulse length +using hrtimers. + +Frame format: +Based on walkera WK-0701 PCM Format description by Shaul Eizikovich. +(downloaded from http://www.smartpropoplus.com/Docs/Walkera_Wk-0701_PCM.pdf) + +Signal pulses +------------- + +:: + + (ANALOG) + SYNC BIN OCT + +---------+ +------+ + | | | | + --+ +------+ +--- + +Frame +----- + +:: + + SYNC , BIN1, OCT1, BIN2, OCT2 ... BIN24, OCT24, BIN25, next frame SYNC .. + +pulse length +------------ + +:: + + Binary values: Analog octal values: + + 288 uS Binary 0 318 uS 000 + 438 uS Binary 1 398 uS 001 + 478 uS 010 + 558 uS 011 + 638 uS 100 + 1306 uS SYNC 718 uS 101 + 798 uS 110 + 878 uS 111 + +24 bin+oct values + 1 bin value = 24*4+1 bits = 97 bits + +(Warning, pulses on ACK are inverted by transistor, irq is raised up on sync +to bin change or octal value to bin change). + +Binary data representations +--------------------------- + +One binary and octal value can be grouped to nibble. 24 nibbles + one binary +values can be sampled between sync pulses. + +Values for first four channels (analog joystick values) can be found in +first 10 nibbles. Analog value is represented by one sign bit and 9 bit +absolute binary value. (10 bits per channel). Next nibble is checksum for +first ten nibbles. + +Next nibbles 12 .. 21 represents four channels (not all channels can be +directly controlled from TX). Binary representations are the same as in first +four channels. In nibbles 22 and 23 is a special magic number. Nibble 24 is +checksum for nibbles 12..23. + +After last octal value for nibble 24 and next sync pulse one additional +binary value can be sampled. This bit and magic number is not used in +software driver. Some details about this magic numbers can be found in +Walkera_Wk-0701_PCM.pdf. + +Checksum calculation +-------------------- + +Summary of octal values in nibbles must be same as octal value in checksum +nibble (only first 3 bits are used). Binary value for checksum nibble is +calculated by sum of binary values in checked nibbles + sum of octal values +in checked nibbles divided by 8. Only bit 0 of this sum is used. diff --git a/Documentation/input/devices/xpad.rst b/Documentation/input/devices/xpad.rst new file mode 100644 index 000000000000..5a709ab77c8d --- /dev/null +++ b/Documentation/input/devices/xpad.rst @@ -0,0 +1,233 @@ +======================================================= +xpad - Linux USB driver for Xbox compatible controllers +======================================================= + +This driver exposes all first-party and third-party Xbox compatible +controllers. It has a long history and has enjoyed considerable usage +as Window's xinput library caused most PC games to focus on Xbox +controller compatibility. + +Due to backwards compatibility all buttons are reported as digital. +This only effects Original Xbox controllers. All later controller models +have only digital face buttons. + +Rumble is supported on some models of Xbox 360 controllers but not of +Original Xbox controllers nor on Xbox One controllers. As of writing +the Xbox One's rumble protocol has not been reverse engineered but in +the future could be supported. + + +Notes +===== + +The number of buttons/axes reported varies based on 3 things: + +- if you are using a known controller +- if you are using a known dance pad +- if using an unknown device (one not listed below), what you set in the + module configuration for "Map D-PAD to buttons rather than axes for unknown + pads" (module option dpad_to_buttons) + +If you set dpad_to_buttons to N and you are using an unknown device +the driver will map the directional pad to axes (X/Y). +If you said Y it will map the d-pad to buttons, which is needed for dance +style games to function correctly. The default is Y. + +dpad_to_buttons has no effect for known pads. A erroneous commit message +claimed dpad_to_buttons could be used to force behavior on known devices. +This is not true. Both dpad_to_buttons and triggers_to_buttons only affect +unknown controllers. + + +Normal Controllers +------------------ + +With a normal controller, the directional pad is mapped to its own X/Y axes. +The jstest-program from joystick-1.2.15 (jstest-version 2.1.0) will report 8 +axes and 10 buttons. + +All 8 axes work, though they all have the same range (-32768..32767) +and the zero-setting is not correct for the triggers (I don't know if that +is some limitation of jstest, since the input device setup should be fine. I +didn't have a look at jstest itself yet). + +All of the 10 buttons work (in digital mode). The six buttons on the +right side (A, B, X, Y, black, white) are said to be "analog" and +report their values as 8 bit unsigned, not sure what this is good for. + +I tested the controller with quake3, and configuration and +in game functionality were OK. However, I find it rather difficult to +play first person shooters with a pad. Your mileage may vary. + + +Xbox Dance Pads +--------------- + +When using a known dance pad, jstest will report 6 axes and 14 buttons. + +For dance style pads (like the redoctane pad) several changes +have been made. The old driver would map the d-pad to axes, resulting +in the driver being unable to report when the user was pressing both +left+right or up+down, making DDR style games unplayable. + +Known dance pads automatically map the d-pad to buttons and will work +correctly out of the box. + +If your dance pad is recognized by the driver but is using axes instead +of buttons, see section 0.3 - Unknown Controllers + +I've tested this with Stepmania, and it works quite well. + + +Unknown Controllers +------------------- + +If you have an unknown xbox controller, it should work just fine with +the default settings. + +HOWEVER if you have an unknown dance pad not listed below, it will not +work UNLESS you set "dpad_to_buttons" to 1 in the module configuration. + + +USB adapters +============ + +All generations of Xbox controllers speak USB over the wire. + +- Original Xbox controllers use a proprietary connector and require adapters. +- Wireless Xbox 360 controllers require a 'Xbox 360 Wireless Gaming Receiver + for Windows' +- Wired Xbox 360 controllers use standard USB connectors. +- Xbox One controllers can be wireless but speak Wi-Fi Direct and are not + yet supported. +- Xbox One controllers can be wired and use standard Micro-USB connectors. + + + +Original Xbox USB adapters +-------------------------- + +Using this driver with an Original Xbox controller requires an +adapter cable to break out the proprietary connector's pins to USB. +You can buy these online fairly cheap, or build your own. + +Such a cable is pretty easy to build. The Controller itself is a USB +compound device (a hub with three ports for two expansion slots and +the controller device) with the only difference in a nonstandard connector +(5 pins vs. 4 on standard USB 1.0 connectors). + +You just need to solder a USB connector onto the cable and keep the +yellow wire unconnected. The other pins have the same order on both +connectors so there is no magic to it. Detailed info on these matters +can be found on the net ([1]_, [2]_, [3]_). + +Thanks to the trip splitter found on the cable you don't even need to cut the +original one. You can buy an extension cable and cut that instead. That way, +you can still use the controller with your X-Box, if you have one ;) + + + +Driver Installation +=================== + +Once you have the adapter cable, if needed, and the controller connected +the xpad module should be auto loaded. To confirm you can cat +/sys/kernel/debug/usb/devices. There should be an entry like those: + +.. code-block:: none + :caption: dump from InterAct PowerPad Pro (Germany) + + T: Bus=01 Lev=03 Prnt=04 Port=00 Cnt=01 Dev#= 5 Spd=12 MxCh= 0 + D: Ver= 1.10 Cls=00(>ifc ) Sub=00 Prot=00 MxPS=32 #Cfgs= 1 + P: Vendor=05fd ProdID=107a Rev= 1.00 + C:* #Ifs= 1 Cfg#= 1 Atr=80 MxPwr=100mA + I: If#= 0 Alt= 0 #EPs= 2 Cls=58(unk. ) Sub=42 Prot=00 Driver=(none) + E: Ad=81(I) Atr=03(Int.) MxPS= 32 Ivl= 10ms + E: Ad=02(O) Atr=03(Int.) MxPS= 32 Ivl= 10ms + +.. code-block:: none + :caption: dump from Redoctane Xbox Dance Pad (US) + + T: Bus=01 Lev=02 Prnt=09 Port=00 Cnt=01 Dev#= 10 Spd=12 MxCh= 0 + D: Ver= 1.10 Cls=00(>ifc ) Sub=00 Prot=00 MxPS= 8 #Cfgs= 1 + P: Vendor=0c12 ProdID=8809 Rev= 0.01 + S: Product=XBOX DDR + C:* #Ifs= 1 Cfg#= 1 Atr=80 MxPwr=100mA + I: If#= 0 Alt= 0 #EPs= 2 Cls=58(unk. ) Sub=42 Prot=00 Driver=xpad + E: Ad=82(I) Atr=03(Int.) MxPS= 32 Ivl=4ms + E: Ad=02(O) Atr=03(Int.) MxPS= 32 Ivl=4ms + + +Supported Controllers +===================== + +For a full list of supported controllers and associated vendor and product +IDs see the xpad_device[] array\ [4]_. + +As of the historic version 0.0.6 (2006-10-10) the following devices +were supported:: + + original Microsoft XBOX controller (US), vendor=0x045e, product=0x0202 + smaller Microsoft XBOX controller (US), vendor=0x045e, product=0x0289 + original Microsoft XBOX controller (Japan), vendor=0x045e, product=0x0285 + InterAct PowerPad Pro (Germany), vendor=0x05fd, product=0x107a + RedOctane Xbox Dance Pad (US), vendor=0x0c12, product=0x8809 + +Unrecognized models of Xbox controllers should function as Generic +Xbox controllers. Unrecognized Dance Pad controllers require setting +the module option 'dpad_to_buttons'. + +If you have an unrecognized controller please see 0.3 - Unknown Controllers + + +Manual Testing +============== + +To test this driver's functionality you may use 'jstest'. + +For example:: + + > modprobe xpad + > modprobe joydev + > jstest /dev/js0 + +If you're using a normal controller, there should be a single line showing +18 inputs (8 axes, 10 buttons), and its values should change if you move +the sticks and push the buttons. If you're using a dance pad, it should +show 20 inputs (6 axes, 14 buttons). + +It works? Voila, you're done ;) + + + +Thanks +====== + +I have to thank ITO Takayuki for the detailed info on his site + http://euc.jp/periphs/xbox-controller.ja.html. + +His useful info and both the usb-skeleton as well as the iforce input driver +(Greg Kroah-Hartmann; Vojtech Pavlik) helped a lot in rapid prototyping +the basic functionality. + + + +References +========== + +.. [1] http://euc.jp/periphs/xbox-controller.ja.html (ITO Takayuki) +.. [2] http://xpad.xbox-scene.com/ +.. [3] http://www.markosweb.com/www/xboxhackz.com/ +.. [4] http://lxr.free-electrons.com/ident?i=xpad_device + + +Historic Edits +============== + +2002-07-16 - Marko Friedemann <mfr@bmx-chemnitz.de> + - original doc + +2005-03-19 - Dominic Cerquetti <binary1230@yahoo.com> + - added stuff for dance pads, new d-pad->axes mappings + +Later changes may be viewed with 'git log Documentation/input/xpad.txt' diff --git a/Documentation/input/devices/yealink.rst b/Documentation/input/devices/yealink.rst new file mode 100644 index 000000000000..bb5a1aafeca2 --- /dev/null +++ b/Documentation/input/devices/yealink.rst @@ -0,0 +1,225 @@ +=============================================== +Driver documentation for yealink usb-p1k phones +=============================================== + +Status +====== + +The p1k is a relatively cheap usb 1.1 phone with: + + - keyboard full support, yealink.ko / input event API + - LCD full support, yealink.ko / sysfs API + - LED full support, yealink.ko / sysfs API + - dialtone full support, yealink.ko / sysfs API + - ringtone full support, yealink.ko / sysfs API + - audio playback full support, snd_usb_audio.ko / alsa API + - audio record full support, snd_usb_audio.ko / alsa API + +For vendor documentation see http://www.yealink.com + + +keyboard features +================= + +The current mapping in the kernel is provided by the map_p1k_to_key +function:: + + Physical USB-P1K button layout input events + + + up up + IN OUT left, right + down down + + pickup C hangup enter, backspace, escape + 1 2 3 1, 2, 3 + 4 5 6 4, 5, 6, + 7 8 9 7, 8, 9, + * 0 # *, 0, #, + +The "up" and "down" keys, are symbolised by arrows on the button. +The "pickup" and "hangup" keys are symbolised by a green and red phone +on the button. + + +LCD features +============ + +The LCD is divided and organised as a 3 line display:: + + |[] [][] [][] [][] in |[][] + |[] M [][] D [][] : [][] out |[][] + store + + NEW REP SU MO TU WE TH FR SA + + [] [] [] [] [] [] [] [] [] [] [] [] + [] [] [] [] [] [] [] [] [] [] [] [] + + + Line 1 Format (see below) : 18.e8.M8.88...188 + Icon names : M D : IN OUT STORE + Line 2 Format : ......... + Icon name : NEW REP SU MO TU WE TH FR SA + Line 3 Format : 888888888888 + + +Format description: + From a userspace perspective the world is separated into "digits" and "icons". + A digit can have a character set, an icon can only be ON or OFF. + + Format specifier:: + + '8' : Generic 7 segment digit with individual addressable segments + + Reduced capability 7 segment digit, when segments are hard wired together. + '1' : 2 segments digit only able to produce a 1. + 'e' : Most significant day of the month digit, + able to produce at least 1 2 3. + 'M' : Most significant minute digit, + able to produce at least 0 1 2 3 4 5. + + Icons or pictograms: + '.' : For example like AM, PM, SU, a 'dot' .. or other single segment + elements. + + +Driver usage +============ + +For userland the following interfaces are available using the sysfs interface:: + + /sys/.../ + line1 Read/Write, lcd line1 + line2 Read/Write, lcd line2 + line3 Read/Write, lcd line3 + + get_icons Read, returns a set of available icons. + hide_icon Write, hide the element by writing the icon name. + show_icon Write, display the element by writing the icon name. + + map_seg7 Read/Write, the 7 segments char set, common for all + yealink phones. (see map_to_7segment.h) + + ringtone Write, upload binary representation of a ringtone, + see yealink.c. status EXPERIMENTAL due to potential + races between async. and sync usb calls. + + +lineX +~~~~~ + +Reading /sys/../lineX will return the format string with its current value. + + Example:: + + cat ./line3 + 888888888888 + Linux Rocks! + +Writing to /sys/../lineX will set the corresponding LCD line. + + - Excess characters are ignored. + - If less characters are written than allowed, the remaining digits are + unchanged. + - The tab '\t'and '\n' char does not overwrite the original content. + - Writing a space to an icon will always hide its content. + + Example:: + + date +"%m.%e.%k:%M" | sed 's/^0/ /' > ./line1 + + Will update the LCD with the current date & time. + + +get_icons +~~~~~~~~~ + +Reading will return all available icon names and its current settings:: + + cat ./get_icons + on M + on D + on : + IN + OUT + STORE + NEW + REP + SU + MO + TU + WE + TH + FR + SA + LED + DIALTONE + RINGTONE + + +show/hide icons +~~~~~~~~~~~~~~~ + +Writing to these files will update the state of the icon. +Only one icon at a time can be updated. + +If an icon is also on a ./lineX the corresponding value is +updated with the first letter of the icon. + + Example - light up the store icon:: + + echo -n "STORE" > ./show_icon + + cat ./line1 + 18.e8.M8.88...188 + S + + Example - sound the ringtone for 10 seconds:: + + echo -n RINGTONE > /sys/..../show_icon + sleep 10 + echo -n RINGTONE > /sys/..../hide_icon + + +Sound features +============== + +Sound is supported by the ALSA driver: snd_usb_audio + +One 16-bit channel with sample and playback rates of 8000 Hz is the practical +limit of the device. + + Example - recording test:: + + arecord -v -d 10 -r 8000 -f S16_LE -t wav foobar.wav + + Example - playback test:: + + aplay foobar.wav + + +Troubleshooting +=============== + +:Q: Module yealink compiled and installed without any problem but phone + is not initialized and does not react to any actions. +:A: If you see something like: + hiddev0: USB HID v1.00 Device [Yealink Network Technology Ltd. VOIP USB Phone + in dmesg, it means that the hid driver has grabbed the device first. Try to + load module yealink before any other usb hid driver. Please see the + instructions provided by your distribution on module configuration. + +:Q: Phone is working now (displays version and accepts keypad input) but I can't + find the sysfs files. +:A: The sysfs files are located on the particular usb endpoint. On most + distributions you can do: "find /sys/ -name get_icons" for a hint. + + +Credits & Acknowledgments +========================= + + - Olivier Vandorpe, for starting the usbb2k-api project doing much of + the reverse engineering. + - Martin Diehl, for pointing out how to handle USB memory allocation. + - Dmitry Torokhov, for the numerous code reviews and suggestions. |