Input: elantech - describe further the protocol
For some Dell laptops, Ubuntu had a special version of the elantech driver with more knowledge on the devices. It can be found there: http://zinc.ubuntu.com/git?p=mid-team/hardy-netbook.git;a=blob;f=drivers/input/mouse/elantech.c;h=d0e2cafed162428f72e3654f4dda85e08ea486b3;hb=refs/heads/abi-22 By inspecting the source code, and doing some test on a real hardware, I have completed the protocol specification (especially for the 6 bytes protocol). It also adds information about the mapping between the version reported by the device and the protocol to use. Signed-off-by: Éric Piel <eric.piel@tremplin-utc.net> Reviewed-by: Henrik Rydberg <rydberg@euromail.se> Signed-off-by: Dmitry Torokhov <dtor@mail.ru>
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@ -34,7 +34,8 @@ Contents
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Currently the Linux Elantech touchpad driver is aware of two different
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hardware versions unimaginatively called version 1 and version 2. Version 1
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is found in "older" laptops and uses 4 bytes per packet. Version 2 seems to
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be introduced with the EeePC and uses 6 bytes per packet.
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be introduced with the EeePC and uses 6 bytes per packet, and provides
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additional features such as position of two fingers, and width of the touch.
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The driver tries to support both hardware versions and should be compatible
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with the Xorg Synaptics touchpad driver and its graphical configuration
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@ -94,18 +95,44 @@ Currently the Linux Elantech touchpad driver provides two extra knobs under
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can check these bits and reject any packet that appears corrupted. Using
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this knob you can bypass that check.
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It is not known yet whether hardware version 2 provides the same parity
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bits. Hence checking is disabled by default. Currently even turning it on
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will do nothing.
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Hardware version 2 does not provide the same parity bits. Only some basic
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data consistency checking can be done. For now checking is disabled by
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default. Currently even turning it on will do nothing.
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/////////////////////////////////////////////////////////////////////////////
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3. Differentiating hardware versions
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=================================
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3. Hardware version 1
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To detect the hardware version, read the version number as param[0].param[1].param[2]
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4 bytes version: (after the arrow is the name given in the Dell-provided driver)
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02.00.22 => EF013
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02.06.00 => EF019
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In the wild, there appear to be more versions, such as 00.01.64, 01.00.21,
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02.00.00, 02.00.04, 02.00.06.
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6 bytes:
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02.00.30 => EF113
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02.08.00 => EF023
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02.08.XX => EF123
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02.0B.00 => EF215
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04.01.XX => Scroll_EF051
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04.02.XX => EF051
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In the wild, there appear to be more versions, such as 04.03.01, 04.04.11. There
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appears to be almost no difference, except for EF113, which does not report
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pressure/width and has different data consistency checks.
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Probably all the versions with param[0] <= 01 can be considered as
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4 bytes/firmware 1. The versions < 02.08.00, with the exception of 02.00.30, as
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4 bytes/firmware 2. Everything >= 02.08.00 can be considered as 6 bytes.
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/////////////////////////////////////////////////////////////////////////////
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4. Hardware version 1
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==================
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3.1 Registers
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4.1 Registers
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~~~~~~~~~
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By echoing a hexadecimal value to a register it contents can be altered.
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@ -168,7 +195,7 @@ For example:
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smart edge activation area width?
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3.2 Native relative mode 4 byte packet format
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4.2 Native relative mode 4 byte packet format
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~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
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byte 0:
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@ -226,9 +253,13 @@ byte 3:
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positive = down
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3.3 Native absolute mode 4 byte packet format
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4.3 Native absolute mode 4 byte packet format
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~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
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EF013 and EF019 have a special behaviour (due to a bug in the firmware?), and
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when 1 finger is touching, the first 2 position reports must be discarded.
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This counting is reset whenever a different number of fingers is reported.
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byte 0:
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firmware version 1.x:
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@ -279,11 +310,11 @@ byte 3:
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/////////////////////////////////////////////////////////////////////////////
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4. Hardware version 2
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5. Hardware version 2
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==================
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4.1 Registers
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5.1 Registers
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~~~~~~~~~
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By echoing a hexadecimal value to a register it contents can be altered.
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@ -316,16 +347,41 @@ For example:
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0x7f = never i.e. tap again to release)
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4.2 Native absolute mode 6 byte packet format
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5.2 Native absolute mode 6 byte packet format
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~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
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5.2.1 Parity checking and packet re-synchronization
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There is no parity checking, however some consistency checks can be performed.
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4.2.1 One finger touch
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For instance for EF113:
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SA1= packet[0];
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A1 = packet[1];
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B1 = packet[2];
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SB1= packet[3];
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C1 = packet[4];
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D1 = packet[5];
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if( (((SA1 & 0x3C) != 0x3C) && ((SA1 & 0xC0) != 0x80)) || // check Byte 1
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(((SA1 & 0x0C) != 0x0C) && ((SA1 & 0xC0) == 0x80)) || // check Byte 1 (one finger pressed)
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(((SA1 & 0xC0) != 0x80) && (( A1 & 0xF0) != 0x00)) || // check Byte 2
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(((SB1 & 0x3E) != 0x38) && ((SA1 & 0xC0) != 0x80)) || // check Byte 4
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(((SB1 & 0x0E) != 0x08) && ((SA1 & 0xC0) == 0x80)) || // check Byte 4 (one finger pressed)
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(((SA1 & 0xC0) != 0x80) && (( C1 & 0xF0) != 0x00)) ) // check Byte 5
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// error detected
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For all the other ones, there are just a few constant bits:
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if( ((packet[0] & 0x0C) != 0x04) ||
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((packet[3] & 0x0f) != 0x02) )
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// error detected
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In case an error is detected, all the packets are shifted by one (and packet[0] is discarded).
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5.2.1 One/Three finger touch
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~~~~~~~~~~~~~~~~
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byte 0:
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bit 7 6 5 4 3 2 1 0
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n1 n0 . . . . R L
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n1 n0 w3 w2 . . R L
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L, R = 1 when Left, Right mouse button pressed
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n1..n0 = numbers of fingers on touchpad
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byte 1:
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bit 7 6 5 4 3 2 1 0
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. . . . . x10 x9 x8
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p7 p6 p5 p4 . x10 x9 x8
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byte 2:
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bit 7 6 5 4 3 2 1 0
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x7 x6 x5 x4 x4 x2 x1 x0
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x7 x6 x5 x4 x3 x2 x1 x0
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x10..x0 = absolute x value (horizontal)
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byte 3:
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bit 7 6 5 4 3 2 1 0
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. . . . . . . .
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n4 vf w1 w0 . . . b2
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n4 = set if more than 3 fingers (only in 3 fingers mode)
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vf = a kind of flag ? (only on EF123, 0 when finger is over one
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of the buttons, 1 otherwise)
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w3..w0 = width of the finger touch (not EF113)
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b2 (on EF113 only, 0 otherwise), b2.R.L indicates one button pressed:
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0 = none
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1 = Left
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2 = Right
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3 = Middle (Left and Right)
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4 = Forward
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5 = Back
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6 = Another one
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7 = Another one
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byte 4:
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bit 7 6 5 4 3 2 1 0
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. . . . . . y9 y8
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p3 p1 p2 p0 . . y9 y8
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p7..p0 = pressure (not EF113)
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byte 5:
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4.2.2 Two finger touch
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~~~~~~~~~~~~~~~~
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Note that the two pairs of coordinates are not exactly the coordinates of the
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two fingers, but only the pair of the lower-left and upper-right coordinates.
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So the actual fingers might be situated on the other diagonal of the square
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defined by these two points.
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byte 0:
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bit 7 6 5 4 3 2 1 0
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bit 7 6 5 4 3 2 1 0
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ax7 ax6 ax5 ax4 ax3 ax2 ax1 ax0
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ax8..ax0 = first finger absolute x value
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ax8..ax0 = lower-left finger absolute x value
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byte 2:
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bit 7 6 5 4 3 2 1 0
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ay7 ay6 ay5 ay4 ay3 ay2 ay1 ay0
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ay8..ay0 = first finger absolute y value
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ay8..ay0 = lower-left finger absolute y value
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byte 3:
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bit 7 6 5 4 3 2 1 0
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bx7 bx6 bx5 bx4 bx3 bx2 bx1 bx0
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bx8..bx0 = second finger absolute x value
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bx8..bx0 = upper-right finger absolute x value
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byte 5:
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bit 7 6 5 4 3 2 1 0
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by7 by8 by5 by4 by3 by2 by1 by0
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by8..by0 = second finger absolute y value
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by8..by0 = upper-right finger absolute y value
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