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The newly released HID protocol for win8 multitouch devices is capable of transmitting more information about each touch. In particular, it includes details useful for touch alignment. This patch completes the MT protocol with the ABS_MT_TOOL_X/Y events, and documents how to map win8 devices. Cc: Stephane Chatty <chatty@enac.fr> Cc: Benjamin Tissoires <benjamin.tissoires@enac.fr> Cc: Peter Hutterer <peter.hutterer@who-t.net> Acked-by: Chase Douglas <chase.douglas@canonical.com> Signed-off-by: Henrik Rydberg <rydberg@euromail.se>
414 lines
17 KiB
Plaintext
414 lines
17 KiB
Plaintext
Multi-touch (MT) Protocol
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-------------------------
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Copyright (C) 2009-2010 Henrik Rydberg <rydberg@euromail.se>
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Introduction
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------------
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In order to utilize the full power of the new multi-touch and multi-user
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devices, a way to report detailed data from multiple contacts, i.e.,
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objects in direct contact with the device surface, is needed. This
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document describes the multi-touch (MT) protocol which allows kernel
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drivers to report details for an arbitrary number of contacts.
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The protocol is divided into two types, depending on the capabilities of the
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hardware. For devices handling anonymous contacts (type A), the protocol
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describes how to send the raw data for all contacts to the receiver. For
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devices capable of tracking identifiable contacts (type B), the protocol
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describes how to send updates for individual contacts via event slots.
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Protocol Usage
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--------------
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Contact details are sent sequentially as separate packets of ABS_MT
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events. Only the ABS_MT events are recognized as part of a contact
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packet. Since these events are ignored by current single-touch (ST)
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applications, the MT protocol can be implemented on top of the ST protocol
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in an existing driver.
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Drivers for type A devices separate contact packets by calling
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input_mt_sync() at the end of each packet. This generates a SYN_MT_REPORT
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event, which instructs the receiver to accept the data for the current
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contact and prepare to receive another.
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Drivers for type B devices separate contact packets by calling
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input_mt_slot(), with a slot as argument, at the beginning of each packet.
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This generates an ABS_MT_SLOT event, which instructs the receiver to
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prepare for updates of the given slot.
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All drivers mark the end of a multi-touch transfer by calling the usual
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input_sync() function. This instructs the receiver to act upon events
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accumulated since last EV_SYN/SYN_REPORT and prepare to receive a new set
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of events/packets.
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The main difference between the stateless type A protocol and the stateful
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type B slot protocol lies in the usage of identifiable contacts to reduce
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the amount of data sent to userspace. The slot protocol requires the use of
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the ABS_MT_TRACKING_ID, either provided by the hardware or computed from
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the raw data [5].
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For type A devices, the kernel driver should generate an arbitrary
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enumeration of the full set of anonymous contacts currently on the
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surface. The order in which the packets appear in the event stream is not
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important. Event filtering and finger tracking is left to user space [3].
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For type B devices, the kernel driver should associate a slot with each
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identified contact, and use that slot to propagate changes for the contact.
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Creation, replacement and destruction of contacts is achieved by modifying
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the ABS_MT_TRACKING_ID of the associated slot. A non-negative tracking id
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is interpreted as a contact, and the value -1 denotes an unused slot. A
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tracking id not previously present is considered new, and a tracking id no
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longer present is considered removed. Since only changes are propagated,
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the full state of each initiated contact has to reside in the receiving
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end. Upon receiving an MT event, one simply updates the appropriate
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attribute of the current slot.
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Some devices identify and/or track more contacts than they can report to the
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driver. A driver for such a device should associate one type B slot with each
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contact that is reported by the hardware. Whenever the identity of the
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contact associated with a slot changes, the driver should invalidate that
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slot by changing its ABS_MT_TRACKING_ID. If the hardware signals that it is
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tracking more contacts than it is currently reporting, the driver should use
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a BTN_TOOL_*TAP event to inform userspace of the total number of contacts
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being tracked by the hardware at that moment. The driver should do this by
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explicitly sending the corresponding BTN_TOOL_*TAP event and setting
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use_count to false when calling input_mt_report_pointer_emulation().
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The driver should only advertise as many slots as the hardware can report.
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Userspace can detect that a driver can report more total contacts than slots
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by noting that the largest supported BTN_TOOL_*TAP event is larger than the
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total number of type B slots reported in the absinfo for the ABS_MT_SLOT axis.
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Protocol Example A
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------------------
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Here is what a minimal event sequence for a two-contact touch would look
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like for a type A device:
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ABS_MT_POSITION_X x[0]
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ABS_MT_POSITION_Y y[0]
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SYN_MT_REPORT
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ABS_MT_POSITION_X x[1]
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ABS_MT_POSITION_Y y[1]
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SYN_MT_REPORT
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SYN_REPORT
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The sequence after moving one of the contacts looks exactly the same; the
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raw data for all present contacts are sent between every synchronization
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with SYN_REPORT.
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Here is the sequence after lifting the first contact:
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ABS_MT_POSITION_X x[1]
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ABS_MT_POSITION_Y y[1]
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SYN_MT_REPORT
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SYN_REPORT
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And here is the sequence after lifting the second contact:
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SYN_MT_REPORT
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SYN_REPORT
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If the driver reports one of BTN_TOUCH or ABS_PRESSURE in addition to the
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ABS_MT events, the last SYN_MT_REPORT event may be omitted. Otherwise, the
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last SYN_REPORT will be dropped by the input core, resulting in no
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zero-contact event reaching userland.
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Protocol Example B
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------------------
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Here is what a minimal event sequence for a two-contact touch would look
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like for a type B device:
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ABS_MT_SLOT 0
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ABS_MT_TRACKING_ID 45
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ABS_MT_POSITION_X x[0]
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ABS_MT_POSITION_Y y[0]
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ABS_MT_SLOT 1
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ABS_MT_TRACKING_ID 46
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ABS_MT_POSITION_X x[1]
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ABS_MT_POSITION_Y y[1]
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SYN_REPORT
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Here is the sequence after moving contact 45 in the x direction:
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ABS_MT_SLOT 0
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ABS_MT_POSITION_X x[0]
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SYN_REPORT
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Here is the sequence after lifting the contact in slot 0:
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ABS_MT_TRACKING_ID -1
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SYN_REPORT
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The slot being modified is already 0, so the ABS_MT_SLOT is omitted. The
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message removes the association of slot 0 with contact 45, thereby
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destroying contact 45 and freeing slot 0 to be reused for another contact.
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Finally, here is the sequence after lifting the second contact:
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ABS_MT_SLOT 1
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ABS_MT_TRACKING_ID -1
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SYN_REPORT
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Event Usage
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-----------
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A set of ABS_MT events with the desired properties is defined. The events
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are divided into categories, to allow for partial implementation. The
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minimum set consists of ABS_MT_POSITION_X and ABS_MT_POSITION_Y, which
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allows for multiple contacts to be tracked. If the device supports it, the
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ABS_MT_TOUCH_MAJOR and ABS_MT_WIDTH_MAJOR may be used to provide the size
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of the contact area and approaching tool, respectively.
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The TOUCH and WIDTH parameters have a geometrical interpretation; imagine
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looking through a window at someone gently holding a finger against the
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glass. You will see two regions, one inner region consisting of the part
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of the finger actually touching the glass, and one outer region formed by
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the perimeter of the finger. The center of the touching region (a) is
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ABS_MT_POSITION_X/Y and the center of the approaching finger (b) is
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ABS_MT_TOOL_X/Y. The touch diameter is ABS_MT_TOUCH_MAJOR and the finger
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diameter is ABS_MT_WIDTH_MAJOR. Now imagine the person pressing the finger
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harder against the glass. The touch region will increase, and in general,
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the ratio ABS_MT_TOUCH_MAJOR / ABS_MT_WIDTH_MAJOR, which is always smaller
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than unity, is related to the contact pressure. For pressure-based devices,
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ABS_MT_PRESSURE may be used to provide the pressure on the contact area
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instead. Devices capable of contact hovering can use ABS_MT_DISTANCE to
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indicate the distance between the contact and the surface.
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Linux MT Win8
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__________ _______________________
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/ \ | |
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/ \ | |
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/ ____ \ | |
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/ / \ \ | |
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\ \ a \ \ | a |
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\ \____/ \ | |
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\ \ | |
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\ b \ | b |
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\ \ | |
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\ \ | |
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\ \ | |
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\ / | |
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\ / | |
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\ / | |
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\__________/ |_______________________|
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In addition to the MAJOR parameters, the oval shape of the touch and finger
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regions can be described by adding the MINOR parameters, such that MAJOR
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and MINOR are the major and minor axis of an ellipse. The orientation of
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the touch ellipse can be described with the ORIENTATION parameter, and the
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direction of the finger ellipse is given by the vector (a - b).
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For type A devices, further specification of the touch shape is possible
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via ABS_MT_BLOB_ID.
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The ABS_MT_TOOL_TYPE may be used to specify whether the touching tool is a
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finger or a pen or something else. Finally, the ABS_MT_TRACKING_ID event
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may be used to track identified contacts over time [5].
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In the type B protocol, ABS_MT_TOOL_TYPE and ABS_MT_TRACKING_ID are
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implicitly handled by input core; drivers should instead call
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input_mt_report_slot_state().
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Event Semantics
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---------------
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ABS_MT_TOUCH_MAJOR
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The length of the major axis of the contact. The length should be given in
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surface units. If the surface has an X times Y resolution, the largest
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possible value of ABS_MT_TOUCH_MAJOR is sqrt(X^2 + Y^2), the diagonal [4].
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ABS_MT_TOUCH_MINOR
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The length, in surface units, of the minor axis of the contact. If the
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contact is circular, this event can be omitted [4].
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ABS_MT_WIDTH_MAJOR
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The length, in surface units, of the major axis of the approaching
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tool. This should be understood as the size of the tool itself. The
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orientation of the contact and the approaching tool are assumed to be the
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same [4].
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ABS_MT_WIDTH_MINOR
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The length, in surface units, of the minor axis of the approaching
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tool. Omit if circular [4].
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The above four values can be used to derive additional information about
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the contact. The ratio ABS_MT_TOUCH_MAJOR / ABS_MT_WIDTH_MAJOR approximates
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the notion of pressure. The fingers of the hand and the palm all have
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different characteristic widths.
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ABS_MT_PRESSURE
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The pressure, in arbitrary units, on the contact area. May be used instead
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of TOUCH and WIDTH for pressure-based devices or any device with a spatial
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signal intensity distribution.
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ABS_MT_DISTANCE
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The distance, in surface units, between the contact and the surface. Zero
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distance means the contact is touching the surface. A positive number means
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the contact is hovering above the surface.
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ABS_MT_ORIENTATION
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The orientation of the touching ellipse. The value should describe a signed
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quarter of a revolution clockwise around the touch center. The signed value
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range is arbitrary, but zero should be returned for an ellipse aligned with
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the Y axis of the surface, a negative value when the ellipse is turned to
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the left, and a positive value when the ellipse is turned to the
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right. When completely aligned with the X axis, the range max should be
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returned.
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Touch ellipsis are symmetrical by default. For devices capable of true 360
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degree orientation, the reported orientation must exceed the range max to
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indicate more than a quarter of a revolution. For an upside-down finger,
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range max * 2 should be returned.
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Orientation can be omitted if the touch area is circular, or if the
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information is not available in the kernel driver. Partial orientation
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support is possible if the device can distinguish between the two axis, but
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not (uniquely) any values in between. In such cases, the range of
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ABS_MT_ORIENTATION should be [0, 1] [4].
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ABS_MT_POSITION_X
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The surface X coordinate of the center of the touching ellipse.
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ABS_MT_POSITION_Y
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The surface Y coordinate of the center of the touching ellipse.
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ABS_MT_TOOL_X
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The surface X coordinate of the center of the approaching tool. Omit if
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the device cannot distinguish between the intended touch point and the
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tool itself.
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ABS_MT_TOOL_Y
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The surface Y coordinate of the center of the approaching tool. Omit if the
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device cannot distinguish between the intended touch point and the tool
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itself.
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The four position values can be used to separate the position of the touch
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from the position of the tool. If both positions are present, the major
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tool axis points towards the touch point [1]. Otherwise, the tool axes are
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aligned with the touch axes.
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ABS_MT_TOOL_TYPE
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The type of approaching tool. A lot of kernel drivers cannot distinguish
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between different tool types, such as a finger or a pen. In such cases, the
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event should be omitted. The protocol currently supports MT_TOOL_FINGER and
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MT_TOOL_PEN [2]. For type B devices, this event is handled by input core;
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drivers should instead use input_mt_report_slot_state().
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ABS_MT_BLOB_ID
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The BLOB_ID groups several packets together into one arbitrarily shaped
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contact. The sequence of points forms a polygon which defines the shape of
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the contact. This is a low-level anonymous grouping for type A devices, and
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should not be confused with the high-level trackingID [5]. Most type A
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devices do not have blob capability, so drivers can safely omit this event.
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ABS_MT_TRACKING_ID
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The TRACKING_ID identifies an initiated contact throughout its life cycle
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[5]. The value range of the TRACKING_ID should be large enough to ensure
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unique identification of a contact maintained over an extended period of
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time. For type B devices, this event is handled by input core; drivers
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should instead use input_mt_report_slot_state().
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Event Computation
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-----------------
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The flora of different hardware unavoidably leads to some devices fitting
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better to the MT protocol than others. To simplify and unify the mapping,
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this section gives recipes for how to compute certain events.
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For devices reporting contacts as rectangular shapes, signed orientation
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cannot be obtained. Assuming X and Y are the lengths of the sides of the
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touching rectangle, here is a simple formula that retains the most
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information possible:
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ABS_MT_TOUCH_MAJOR := max(X, Y)
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ABS_MT_TOUCH_MINOR := min(X, Y)
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ABS_MT_ORIENTATION := bool(X > Y)
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The range of ABS_MT_ORIENTATION should be set to [0, 1], to indicate that
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the device can distinguish between a finger along the Y axis (0) and a
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finger along the X axis (1).
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For win8 devices with both T and C coordinates, the position mapping is
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ABS_MT_POSITION_X := T_X
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ABS_MT_POSITION_Y := T_Y
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ABS_MT_TOOL_X := C_X
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ABS_MT_TOOL_X := C_Y
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Unfortunately, there is not enough information to specify both the touching
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ellipse and the tool ellipse, so one has to resort to approximations. One
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simple scheme, which is compatible with earlier usage, is:
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ABS_MT_TOUCH_MAJOR := min(X, Y)
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ABS_MT_TOUCH_MINOR := <not used>
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ABS_MT_ORIENTATION := <not used>
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ABS_MT_WIDTH_MAJOR := min(X, Y) + distance(T, C)
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ABS_MT_WIDTH_MINOR := min(X, Y)
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Rationale: We have no information about the orientation of the touching
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ellipse, so approximate it with an inscribed circle instead. The tool
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ellipse should align with the the vector (T - C), so the diameter must
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increase with distance(T, C). Finally, assume that the touch diameter is
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equal to the tool thickness, and we arrive at the formulas above.
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Finger Tracking
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---------------
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The process of finger tracking, i.e., to assign a unique trackingID to each
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initiated contact on the surface, is a Euclidian Bipartite Matching
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problem. At each event synchronization, the set of actual contacts is
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matched to the set of contacts from the previous synchronization. A full
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implementation can be found in [3].
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Gestures
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--------
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In the specific application of creating gesture events, the TOUCH and WIDTH
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parameters can be used to, e.g., approximate finger pressure or distinguish
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between index finger and thumb. With the addition of the MINOR parameters,
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one can also distinguish between a sweeping finger and a pointing finger,
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and with ORIENTATION, one can detect twisting of fingers.
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Notes
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-----
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In order to stay compatible with existing applications, the data reported
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in a finger packet must not be recognized as single-touch events.
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For type A devices, all finger data bypasses input filtering, since
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subsequent events of the same type refer to different fingers.
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For example usage of the type A protocol, see the bcm5974 driver. For
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example usage of the type B protocol, see the hid-egalax driver.
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[1] Also, the difference (TOOL_X - POSITION_X) can be used to model tilt.
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[2] The list can of course be extended.
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[3] The mtdev project: http://bitmath.org/code/mtdev/.
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[4] See the section on event computation.
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[5] See the section on finger tracking.
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