This source file includes following definitions.
- print_input
- send_mouse_event
- send_keyboard_event
- ibmasm_handle_mouse_interrupt
- ibmasm_init_remote_input_dev
- ibmasm_free_remote_input_dev
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13 #include <linux/pci.h>
14 #include "ibmasm.h"
15 #include "remote.h"
16
17 #define MOUSE_X_MAX 1600
18 #define MOUSE_Y_MAX 1200
19
20 static const unsigned short xlate_high[XLATE_SIZE] = {
21 [KEY_SYM_ENTER & 0xff] = KEY_ENTER,
22 [KEY_SYM_KPSLASH & 0xff] = KEY_KPSLASH,
23 [KEY_SYM_KPSTAR & 0xff] = KEY_KPASTERISK,
24 [KEY_SYM_KPMINUS & 0xff] = KEY_KPMINUS,
25 [KEY_SYM_KPDOT & 0xff] = KEY_KPDOT,
26 [KEY_SYM_KPPLUS & 0xff] = KEY_KPPLUS,
27 [KEY_SYM_KP0 & 0xff] = KEY_KP0,
28 [KEY_SYM_KP1 & 0xff] = KEY_KP1,
29 [KEY_SYM_KP2 & 0xff] = KEY_KP2, [KEY_SYM_KPDOWN & 0xff] = KEY_KP2,
30 [KEY_SYM_KP3 & 0xff] = KEY_KP3,
31 [KEY_SYM_KP4 & 0xff] = KEY_KP4, [KEY_SYM_KPLEFT & 0xff] = KEY_KP4,
32 [KEY_SYM_KP5 & 0xff] = KEY_KP5,
33 [KEY_SYM_KP6 & 0xff] = KEY_KP6, [KEY_SYM_KPRIGHT & 0xff] = KEY_KP6,
34 [KEY_SYM_KP7 & 0xff] = KEY_KP7,
35 [KEY_SYM_KP8 & 0xff] = KEY_KP8, [KEY_SYM_KPUP & 0xff] = KEY_KP8,
36 [KEY_SYM_KP9 & 0xff] = KEY_KP9,
37 [KEY_SYM_BK_SPC & 0xff] = KEY_BACKSPACE,
38 [KEY_SYM_TAB & 0xff] = KEY_TAB,
39 [KEY_SYM_CTRL & 0xff] = KEY_LEFTCTRL,
40 [KEY_SYM_ALT & 0xff] = KEY_LEFTALT,
41 [KEY_SYM_INSERT & 0xff] = KEY_INSERT,
42 [KEY_SYM_DELETE & 0xff] = KEY_DELETE,
43 [KEY_SYM_SHIFT & 0xff] = KEY_LEFTSHIFT,
44 [KEY_SYM_UARROW & 0xff] = KEY_UP,
45 [KEY_SYM_DARROW & 0xff] = KEY_DOWN,
46 [KEY_SYM_LARROW & 0xff] = KEY_LEFT,
47 [KEY_SYM_RARROW & 0xff] = KEY_RIGHT,
48 [KEY_SYM_ESCAPE & 0xff] = KEY_ESC,
49 [KEY_SYM_PAGEUP & 0xff] = KEY_PAGEUP,
50 [KEY_SYM_PAGEDOWN & 0xff] = KEY_PAGEDOWN,
51 [KEY_SYM_HOME & 0xff] = KEY_HOME,
52 [KEY_SYM_END & 0xff] = KEY_END,
53 [KEY_SYM_F1 & 0xff] = KEY_F1,
54 [KEY_SYM_F2 & 0xff] = KEY_F2,
55 [KEY_SYM_F3 & 0xff] = KEY_F3,
56 [KEY_SYM_F4 & 0xff] = KEY_F4,
57 [KEY_SYM_F5 & 0xff] = KEY_F5,
58 [KEY_SYM_F6 & 0xff] = KEY_F6,
59 [KEY_SYM_F7 & 0xff] = KEY_F7,
60 [KEY_SYM_F8 & 0xff] = KEY_F8,
61 [KEY_SYM_F9 & 0xff] = KEY_F9,
62 [KEY_SYM_F10 & 0xff] = KEY_F10,
63 [KEY_SYM_F11 & 0xff] = KEY_F11,
64 [KEY_SYM_F12 & 0xff] = KEY_F12,
65 [KEY_SYM_CAP_LOCK & 0xff] = KEY_CAPSLOCK,
66 [KEY_SYM_NUM_LOCK & 0xff] = KEY_NUMLOCK,
67 [KEY_SYM_SCR_LOCK & 0xff] = KEY_SCROLLLOCK,
68 };
69
70 static const unsigned short xlate[XLATE_SIZE] = {
71 [NO_KEYCODE] = KEY_RESERVED,
72 [KEY_SYM_SPACE] = KEY_SPACE,
73 [KEY_SYM_TILDE] = KEY_GRAVE, [KEY_SYM_BKTIC] = KEY_GRAVE,
74 [KEY_SYM_ONE] = KEY_1, [KEY_SYM_BANG] = KEY_1,
75 [KEY_SYM_TWO] = KEY_2, [KEY_SYM_AT] = KEY_2,
76 [KEY_SYM_THREE] = KEY_3, [KEY_SYM_POUND] = KEY_3,
77 [KEY_SYM_FOUR] = KEY_4, [KEY_SYM_DOLLAR] = KEY_4,
78 [KEY_SYM_FIVE] = KEY_5, [KEY_SYM_PERCENT] = KEY_5,
79 [KEY_SYM_SIX] = KEY_6, [KEY_SYM_CARAT] = KEY_6,
80 [KEY_SYM_SEVEN] = KEY_7, [KEY_SYM_AMPER] = KEY_7,
81 [KEY_SYM_EIGHT] = KEY_8, [KEY_SYM_STAR] = KEY_8,
82 [KEY_SYM_NINE] = KEY_9, [KEY_SYM_LPAREN] = KEY_9,
83 [KEY_SYM_ZERO] = KEY_0, [KEY_SYM_RPAREN] = KEY_0,
84 [KEY_SYM_MINUS] = KEY_MINUS, [KEY_SYM_USCORE] = KEY_MINUS,
85 [KEY_SYM_EQUAL] = KEY_EQUAL, [KEY_SYM_PLUS] = KEY_EQUAL,
86 [KEY_SYM_LBRKT] = KEY_LEFTBRACE, [KEY_SYM_LCURLY] = KEY_LEFTBRACE,
87 [KEY_SYM_RBRKT] = KEY_RIGHTBRACE, [KEY_SYM_RCURLY] = KEY_RIGHTBRACE,
88 [KEY_SYM_SLASH] = KEY_BACKSLASH, [KEY_SYM_PIPE] = KEY_BACKSLASH,
89 [KEY_SYM_TIC] = KEY_APOSTROPHE, [KEY_SYM_QUOTE] = KEY_APOSTROPHE,
90 [KEY_SYM_SEMIC] = KEY_SEMICOLON, [KEY_SYM_COLON] = KEY_SEMICOLON,
91 [KEY_SYM_COMMA] = KEY_COMMA, [KEY_SYM_LT] = KEY_COMMA,
92 [KEY_SYM_PERIOD] = KEY_DOT, [KEY_SYM_GT] = KEY_DOT,
93 [KEY_SYM_BSLASH] = KEY_SLASH, [KEY_SYM_QMARK] = KEY_SLASH,
94 [KEY_SYM_A] = KEY_A, [KEY_SYM_a] = KEY_A,
95 [KEY_SYM_B] = KEY_B, [KEY_SYM_b] = KEY_B,
96 [KEY_SYM_C] = KEY_C, [KEY_SYM_c] = KEY_C,
97 [KEY_SYM_D] = KEY_D, [KEY_SYM_d] = KEY_D,
98 [KEY_SYM_E] = KEY_E, [KEY_SYM_e] = KEY_E,
99 [KEY_SYM_F] = KEY_F, [KEY_SYM_f] = KEY_F,
100 [KEY_SYM_G] = KEY_G, [KEY_SYM_g] = KEY_G,
101 [KEY_SYM_H] = KEY_H, [KEY_SYM_h] = KEY_H,
102 [KEY_SYM_I] = KEY_I, [KEY_SYM_i] = KEY_I,
103 [KEY_SYM_J] = KEY_J, [KEY_SYM_j] = KEY_J,
104 [KEY_SYM_K] = KEY_K, [KEY_SYM_k] = KEY_K,
105 [KEY_SYM_L] = KEY_L, [KEY_SYM_l] = KEY_L,
106 [KEY_SYM_M] = KEY_M, [KEY_SYM_m] = KEY_M,
107 [KEY_SYM_N] = KEY_N, [KEY_SYM_n] = KEY_N,
108 [KEY_SYM_O] = KEY_O, [KEY_SYM_o] = KEY_O,
109 [KEY_SYM_P] = KEY_P, [KEY_SYM_p] = KEY_P,
110 [KEY_SYM_Q] = KEY_Q, [KEY_SYM_q] = KEY_Q,
111 [KEY_SYM_R] = KEY_R, [KEY_SYM_r] = KEY_R,
112 [KEY_SYM_S] = KEY_S, [KEY_SYM_s] = KEY_S,
113 [KEY_SYM_T] = KEY_T, [KEY_SYM_t] = KEY_T,
114 [KEY_SYM_U] = KEY_U, [KEY_SYM_u] = KEY_U,
115 [KEY_SYM_V] = KEY_V, [KEY_SYM_v] = KEY_V,
116 [KEY_SYM_W] = KEY_W, [KEY_SYM_w] = KEY_W,
117 [KEY_SYM_X] = KEY_X, [KEY_SYM_x] = KEY_X,
118 [KEY_SYM_Y] = KEY_Y, [KEY_SYM_y] = KEY_Y,
119 [KEY_SYM_Z] = KEY_Z, [KEY_SYM_z] = KEY_Z,
120 };
121
122 static void print_input(struct remote_input *input)
123 {
124 if (input->type == INPUT_TYPE_MOUSE) {
125 unsigned char buttons = input->mouse_buttons;
126 dbg("remote mouse movement: (x,y)=(%d,%d)%s%s%s%s\n",
127 input->data.mouse.x, input->data.mouse.y,
128 (buttons) ? " -- buttons:" : "",
129 (buttons & REMOTE_BUTTON_LEFT) ? "left " : "",
130 (buttons & REMOTE_BUTTON_MIDDLE) ? "middle " : "",
131 (buttons & REMOTE_BUTTON_RIGHT) ? "right" : ""
132 );
133 } else {
134 dbg("remote keypress (code, flag, down):"
135 "%d (0x%x) [0x%x] [0x%x]\n",
136 input->data.keyboard.key_code,
137 input->data.keyboard.key_code,
138 input->data.keyboard.key_flag,
139 input->data.keyboard.key_down
140 );
141 }
142 }
143
144 static void send_mouse_event(struct input_dev *dev, struct remote_input *input)
145 {
146 unsigned char buttons = input->mouse_buttons;
147
148 input_report_abs(dev, ABS_X, input->data.mouse.x);
149 input_report_abs(dev, ABS_Y, input->data.mouse.y);
150 input_report_key(dev, BTN_LEFT, buttons & REMOTE_BUTTON_LEFT);
151 input_report_key(dev, BTN_MIDDLE, buttons & REMOTE_BUTTON_MIDDLE);
152 input_report_key(dev, BTN_RIGHT, buttons & REMOTE_BUTTON_RIGHT);
153 input_sync(dev);
154 }
155
156 static void send_keyboard_event(struct input_dev *dev,
157 struct remote_input *input)
158 {
159 unsigned int key;
160 unsigned short code = input->data.keyboard.key_code;
161
162 if (code & 0xff00)
163 key = xlate_high[code & 0xff];
164 else
165 key = xlate[code];
166 input_report_key(dev, key, input->data.keyboard.key_down);
167 input_sync(dev);
168 }
169
170 void ibmasm_handle_mouse_interrupt(struct service_processor *sp)
171 {
172 unsigned long reader;
173 unsigned long writer;
174 struct remote_input input;
175
176 reader = get_queue_reader(sp);
177 writer = get_queue_writer(sp);
178
179 while (reader != writer) {
180 memcpy_fromio(&input, get_queue_entry(sp, reader),
181 sizeof(struct remote_input));
182
183 print_input(&input);
184 if (input.type == INPUT_TYPE_MOUSE) {
185 send_mouse_event(sp->remote.mouse_dev, &input);
186 } else if (input.type == INPUT_TYPE_KEYBOARD) {
187 send_keyboard_event(sp->remote.keybd_dev, &input);
188 } else
189 break;
190
191 reader = advance_queue_reader(sp, reader);
192 writer = get_queue_writer(sp);
193 }
194 }
195
196 int ibmasm_init_remote_input_dev(struct service_processor *sp)
197 {
198
199 struct input_dev *mouse_dev, *keybd_dev;
200 struct pci_dev *pdev = to_pci_dev(sp->dev);
201 int error = -ENOMEM;
202 int i;
203
204 sp->remote.mouse_dev = mouse_dev = input_allocate_device();
205 sp->remote.keybd_dev = keybd_dev = input_allocate_device();
206
207 if (!mouse_dev || !keybd_dev)
208 goto err_free_devices;
209
210 mouse_dev->id.bustype = BUS_PCI;
211 mouse_dev->id.vendor = pdev->vendor;
212 mouse_dev->id.product = pdev->device;
213 mouse_dev->id.version = 1;
214 mouse_dev->dev.parent = sp->dev;
215 mouse_dev->evbit[0] = BIT_MASK(EV_KEY) | BIT_MASK(EV_ABS);
216 mouse_dev->keybit[BIT_WORD(BTN_MOUSE)] = BIT_MASK(BTN_LEFT) |
217 BIT_MASK(BTN_RIGHT) | BIT_MASK(BTN_MIDDLE);
218 set_bit(BTN_TOUCH, mouse_dev->keybit);
219 mouse_dev->name = "ibmasm RSA I remote mouse";
220 input_set_abs_params(mouse_dev, ABS_X, 0, MOUSE_X_MAX, 0, 0);
221 input_set_abs_params(mouse_dev, ABS_Y, 0, MOUSE_Y_MAX, 0, 0);
222
223 keybd_dev->id.bustype = BUS_PCI;
224 keybd_dev->id.vendor = pdev->vendor;
225 keybd_dev->id.product = pdev->device;
226 keybd_dev->id.version = 2;
227 keybd_dev->dev.parent = sp->dev;
228 keybd_dev->evbit[0] = BIT_MASK(EV_KEY);
229 keybd_dev->name = "ibmasm RSA I remote keyboard";
230
231 for (i = 0; i < XLATE_SIZE; i++) {
232 if (xlate_high[i])
233 set_bit(xlate_high[i], keybd_dev->keybit);
234 if (xlate[i])
235 set_bit(xlate[i], keybd_dev->keybit);
236 }
237
238 error = input_register_device(mouse_dev);
239 if (error)
240 goto err_free_devices;
241
242 error = input_register_device(keybd_dev);
243 if (error)
244 goto err_unregister_mouse_dev;
245
246 enable_mouse_interrupts(sp);
247
248 printk(KERN_INFO "ibmasm remote responding to events on RSA card %d\n", sp->number);
249
250 return 0;
251
252 err_unregister_mouse_dev:
253 input_unregister_device(mouse_dev);
254 mouse_dev = NULL;
255 err_free_devices:
256 input_free_device(mouse_dev);
257 input_free_device(keybd_dev);
258
259 return error;
260 }
261
262 void ibmasm_free_remote_input_dev(struct service_processor *sp)
263 {
264 disable_mouse_interrupts(sp);
265 input_unregister_device(sp->remote.mouse_dev);
266 input_unregister_device(sp->remote.keybd_dev);
267 }
268