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-rw-r--r--Documentation/input/alps.txt135
1 files changed, 124 insertions, 11 deletions
diff --git a/Documentation/input/alps.txt b/Documentation/input/alps.txt
index ab5478f92a2b..f274c28b5103 100644
--- a/Documentation/input/alps.txt
+++ b/Documentation/input/alps.txt
@@ -4,12 +4,9 @@ ALPS Touchpad Protocol
4Introduction 4Introduction
5------------ 5------------
6 6
7Currently the ALPS touchpad driver supports two protocol versions in use by 7Currently the ALPS touchpad driver supports four protocol versions in use by
8ALPS touchpads, the "old" and "new" protocol versions. Fundamentally these 8ALPS touchpads, called versions 1, 2, 3, and 4. Information about the various
9differ only in the format of their event packets (in reality many features may 9protocol versions is contained in the following sections.
10be found on new protocol devices that aren't found on the old protocol
11devices, but these are handled transparently as feature differences rather
12than protocol differences).
13 10
14Detection 11Detection
15--------- 12---------
@@ -22,10 +19,37 @@ If the E6 report is successful, the touchpad model is identified using the "E7
22report" sequence: E8-E7-E7-E7-E9. The response is the model signature and is 19report" sequence: E8-E7-E7-E7-E9. The response is the model signature and is
23matched against known models in the alps_model_data_array. 20matched against known models in the alps_model_data_array.
24 21
22With protocol versions 3 and 4, the E7 report model signature is always
2373-02-64. To differentiate between these versions, the response from the
24"Enter Command Mode" sequence must be inspected as described below.
25
26Command Mode
27------------
28
29Protocol versions 3 and 4 have a command mode that is used to read and write
30one-byte device registers in a 16-bit address space. The command sequence
31EC-EC-EC-E9 places the device in command mode, and the device will respond
32with 88-07 followed by a third byte. This third byte can be used to determine
33whether the devices uses the version 3 or 4 protocol.
34
35To exit command mode, PSMOUSE_CMD_SETSTREAM (EA) is sent to the touchpad.
36
37While in command mode, register addresses can be set by first sending a
38specific command, either EC for v3 devices or F5 for v4 devices. Then the
39address is sent one nibble at a time, where each nibble is encoded as a
40command with optional data. This enoding differs slightly between the v3 and
41v4 protocols.
42
43Once an address has been set, the addressed register can be read by sending
44PSMOUSE_CMD_GETINFO (E9). The first two bytes of the response contains the
45address of the register being read, and the third contains the value of the
46register. Registers are written by writing the value one nibble at a time
47using the same encoding used for addresses.
48
25Packet Format 49Packet Format
26------------- 50-------------
27 51
28In the following tables, the following notation us used. 52In the following tables, the following notation is used.
29 53
30 CAPITALS = stick, miniscules = touchpad 54 CAPITALS = stick, miniscules = touchpad
31 55
@@ -41,8 +65,8 @@ PS/2 packet format
41 65
42Note that the device never signals overflow condition. 66Note that the device never signals overflow condition.
43 67
44ALPS Absolute Mode - Old Format 68ALPS Absolute Mode - Protocol Verion 1
45------------------------------- 69--------------------------------------
46 70
47 byte 0: 1 0 0 0 1 x9 x8 x7 71 byte 0: 1 0 0 0 1 x9 x8 x7
48 byte 1: 0 x6 x5 x4 x3 x2 x1 x0 72 byte 1: 0 x6 x5 x4 x3 x2 x1 x0
@@ -51,8 +75,8 @@ ALPS Absolute Mode - Old Format
51 byte 4: 0 y6 y5 y4 y3 y2 y1 y0 75 byte 4: 0 y6 y5 y4 y3 y2 y1 y0
52 byte 5: 0 z6 z5 z4 z3 z2 z1 z0 76 byte 5: 0 z6 z5 z4 z3 z2 z1 z0
53 77
54ALPS Absolute Mode - New Format 78ALPS Absolute Mode - Protocol Version 2
55------------------------------- 79---------------------------------------
56 80
57 byte 0: 1 ? ? ? 1 ? ? ? 81 byte 0: 1 ? ? ? 1 ? ? ?
58 byte 1: 0 x6 x5 x4 x3 x2 x1 x0 82 byte 1: 0 x6 x5 x4 x3 x2 x1 x0
@@ -73,3 +97,92 @@ Dualpoint device -- interleaved packet format
73 byte 6: 0 y9 y8 y7 1 m r l 97 byte 6: 0 y9 y8 y7 1 m r l
74 byte 7: 0 y6 y5 y4 y3 y2 y1 y0 98 byte 7: 0 y6 y5 y4 y3 y2 y1 y0
75 byte 8: 0 z6 z5 z4 z3 z2 z1 z0 99 byte 8: 0 z6 z5 z4 z3 z2 z1 z0
100
101ALPS Absolute Mode - Protocol Version 3
102---------------------------------------
103
104ALPS protocol version 3 has three different packet formats. The first two are
105associated with touchpad events, and the third is associatd with trackstick
106events.
107
108The first type is the touchpad position packet.
109
110 byte 0: 1 ? x1 x0 1 1 1 1
111 byte 1: 0 x10 x9 x8 x7 x6 x5 x4
112 byte 2: 0 y10 y9 y8 y7 y6 y5 y4
113 byte 3: 0 M R L 1 m r l
114 byte 4: 0 mt x3 x2 y3 y2 y1 y0
115 byte 5: 0 z6 z5 z4 z3 z2 z1 z0
116
117Note that for some devices the trackstick buttons are reported in this packet,
118and on others it is reported in the trackstick packets.
119
120The second packet type contains bitmaps representing the x and y axes. In the
121bitmaps a given bit is set if there is a finger covering that position on the
122given axis. Thus the bitmap packet can be used for low-resolution multi-touch
123data, although finger tracking is not possible. This packet also encodes the
124number of contacts (f1 and f0 in the table below).
125
126 byte 0: 1 1 x1 x0 1 1 1 1
127 byte 1: 0 x8 x7 x6 x5 x4 x3 x2
128 byte 2: 0 y7 y6 y5 y4 y3 y2 y1
129 byte 3: 0 y10 y9 y8 1 1 1 1
130 byte 4: 0 x14 x13 x12 x11 x10 x9 y0
131 byte 5: 0 1 ? ? ? ? f1 f0
132
133This packet only appears after a position packet with the mt bit set, and
134ususally only appears when there are two or more contacts (although
135ocassionally it's seen with only a single contact).
136
137The final v3 packet type is the trackstick packet.
138
139 byte 0: 1 1 x7 y7 1 1 1 1
140 byte 1: 0 x6 x5 x4 x3 x2 x1 x0
141 byte 2: 0 y6 y5 y4 y3 y2 y1 y0
142 byte 3: 0 1 0 0 1 0 0 0
143 byte 4: 0 z4 z3 z2 z1 z0 ? ?
144 byte 5: 0 0 1 1 1 1 1 1
145
146ALPS Absolute Mode - Protocol Version 4
147---------------------------------------
148
149Protocol version 4 has an 8-byte packet format.
150
151 byte 0: 1 ? x1 x0 1 1 1 1
152 byte 1: 0 x10 x9 x8 x7 x6 x5 x4
153 byte 2: 0 y10 y9 y8 y7 y6 y5 y4
154 byte 3: 0 1 x3 x2 y3 y2 y1 y0
155 byte 4: 0 ? ? ? 1 ? r l
156 byte 5: 0 z6 z5 z4 z3 z2 z1 z0
157 byte 6: bitmap data (described below)
158 byte 7: bitmap data (described below)
159
160The last two bytes represent a partial bitmap packet, with 3 full packets
161required to construct a complete bitmap packet. Once assembled, the 6-byte
162bitmap packet has the following format:
163
164 byte 0: 0 1 x7 x6 x5 x4 x3 x2
165 byte 1: 0 x1 x0 y4 y3 y2 y1 y0
166 byte 2: 0 0 ? x14 x13 x12 x11 x10
167 byte 3: 0 x9 x8 y9 y8 y7 y6 y5
168 byte 4: 0 0 0 0 0 0 0 0
169 byte 5: 0 0 0 0 0 0 0 y10
170
171There are several things worth noting here.
172
173 1) In the bitmap data, bit 6 of byte 0 serves as a sync byte to
174 identify the first fragment of a bitmap packet.
175
176 2) The bitmaps represent the same data as in the v3 bitmap packets, although
177 the packet layout is different.
178
179 3) There doesn't seem to be a count of the contact points anywhere in the v4
180 protocol packets. Deriving a count of contact points must be done by
181 analyzing the bitmaps.
182
183 4) There is a 3 to 1 ratio of position packets to bitmap packets. Therefore
184 MT position can only be updated for every third ST position update, and
185 the count of contact points can only be updated every third packet as
186 well.
187
188So far no v4 devices with tracksticks have been encountered.