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1 // SPDX-License-Identifier: GPL-2.0+
2 /*
3  *  (C) Copyright 2011
4  *  NVIDIA Corporation <www.nvidia.com>
5  */
6 
7 #include <common.h>
8 #include <dm.h>
9 #include <fdtdec.h>
10 #include <input.h>
11 #include <keyboard.h>
12 #include <key_matrix.h>
13 #include <stdio_dev.h>
14 #include <tegra-kbc.h>
15 #include <asm/io.h>
16 #include <asm/arch/clock.h>
17 #include <asm/arch/funcmux.h>
18 #include <asm/arch-tegra/timer.h>
19 #include <linux/input.h>
20 
21 enum {
22 	KBC_MAX_GPIO		= 24,
23 	KBC_MAX_KPENT		= 8,	/* size of keypress entry queue */
24 };
25 
26 #define KBC_FIFO_TH_CNT_SHIFT		14
27 #define KBC_DEBOUNCE_CNT_SHIFT		4
28 #define KBC_CONTROL_FIFO_CNT_INT_EN	(1 << 3)
29 #define KBC_CONTROL_KBC_EN		(1 << 0)
30 #define KBC_INT_FIFO_CNT_INT_STATUS	(1 << 2)
31 #define KBC_KPENT_VALID			(1 << 7)
32 #define KBC_ST_STATUS			(1 << 3)
33 
34 enum {
35 	KBC_DEBOUNCE_COUNT	= 2,
36 	KBC_REPEAT_RATE_MS	= 30,
37 	KBC_REPEAT_DELAY_MS	= 240,
38 	KBC_CLOCK_KHZ		= 32,	/* Keyboard uses a 32KHz clock */
39 };
40 
41 /* keyboard controller config and state */
42 struct tegra_kbd_priv {
43 	struct input_config *input;	/* The input layer */
44 	struct key_matrix matrix;	/* The key matrix layer */
45 
46 	struct kbc_tegra *kbc;		/* tegra keyboard controller */
47 	unsigned char inited;		/* 1 if keyboard has been inited */
48 	unsigned char first_scan;	/* 1 if this is our first key scan */
49 
50 	/*
51 	 * After init we must wait a short time before polling the keyboard.
52 	 * This gives the tegra keyboard controller time to react after reset
53 	 * and lets us grab keys pressed during reset.
54 	 */
55 	unsigned int init_dly_ms;	/* Delay before we can read keyboard */
56 	unsigned int start_time_ms;	/* Time that we inited (in ms) */
57 	unsigned int last_poll_ms;	/* Time we should last polled */
58 	unsigned int next_repeat_ms;	/* Next time we repeat a key */
59 };
60 
61 /**
62  * reads the keyboard fifo for current keypresses
63  *
64  * @param priv		Keyboard private data
65  * @param fifo		Place to put fifo results
66  * @param max_keycodes	Maximum number of key codes to put in the fifo
67  * @return number of items put into fifo
68  */
tegra_kbc_find_keys(struct tegra_kbd_priv * priv,int * fifo,int max_keycodes)69 static int tegra_kbc_find_keys(struct tegra_kbd_priv *priv, int *fifo,
70 			       int max_keycodes)
71 {
72 	struct key_matrix_key keys[KBC_MAX_KPENT], *key;
73 	u32 kp_ent = 0;
74 	int i;
75 
76 	for (key = keys, i = 0; i < KBC_MAX_KPENT; i++, key++) {
77 		/* Get next word */
78 		if (!(i & 3))
79 			kp_ent = readl(&priv->kbc->kp_ent[i / 4]);
80 
81 		key->valid = (kp_ent & KBC_KPENT_VALID) != 0;
82 		key->row = (kp_ent >> 3) & 0xf;
83 		key->col = kp_ent & 0x7;
84 
85 		/* Shift to get next entry */
86 		kp_ent >>= 8;
87 	}
88 	return key_matrix_decode(&priv->matrix, keys, KBC_MAX_KPENT, fifo,
89 				 max_keycodes);
90 }
91 
92 /**
93  * Process all the keypress sequences in fifo and send key codes
94  *
95  * The fifo contains zero or more keypress sets. Each set
96  * consists of from 1-8 keycodes, representing the keycodes which
97  * were simultaneously pressed during that scan.
98  *
99  * This function works through each set and generates ASCII characters
100  * for each. Not that one set may produce more than one ASCII characters -
101  * for example holding down 'd' and 'f' at the same time will generate
102  * two ASCII characters.
103  *
104  * Note: if fifo_cnt is 0, we will tell the input layer that no keys are
105  * pressed.
106  *
107  * @param priv		Keyboard private data
108  * @param fifo_cnt	Number of entries in the keyboard fifo
109  */
process_fifo(struct tegra_kbd_priv * priv,int fifo_cnt)110 static void process_fifo(struct tegra_kbd_priv *priv, int fifo_cnt)
111 {
112 	int fifo[KBC_MAX_KPENT];
113 	int cnt = 0;
114 
115 	/* Always call input_send_keycodes() at least once */
116 	do {
117 		if (fifo_cnt)
118 			cnt = tegra_kbc_find_keys(priv, fifo, KBC_MAX_KPENT);
119 
120 		input_send_keycodes(priv->input, fifo, cnt);
121 	} while (--fifo_cnt > 0);
122 }
123 
124 /**
125  * Check the keyboard controller and emit ASCII characters for any keys that
126  * are pressed.
127  *
128  * @param priv		Keyboard private data
129  */
check_for_keys(struct tegra_kbd_priv * priv)130 static void check_for_keys(struct tegra_kbd_priv *priv)
131 {
132 	int fifo_cnt;
133 
134 	if (!priv->first_scan &&
135 	    get_timer(priv->last_poll_ms) < KBC_REPEAT_RATE_MS)
136 		return;
137 	priv->last_poll_ms = get_timer(0);
138 	priv->first_scan = 0;
139 
140 	/*
141 	 * Once we get here we know the keyboard has been scanned. So if there
142 	 * scan waiting for us, we know that nothing is held down.
143 	 */
144 	fifo_cnt = (readl(&priv->kbc->interrupt) >> 4) & 0xf;
145 	process_fifo(priv, fifo_cnt);
146 }
147 
148 /**
149  * In order to detect keys pressed on boot, wait for the hardware to
150  * complete scanning the keys. This includes time to transition from
151  * Wkup mode to Continous polling mode and the repoll time. We can
152  * deduct the time that's already elapsed.
153  *
154  * @param priv		Keyboard private data
155  */
kbd_wait_for_fifo_init(struct tegra_kbd_priv * priv)156 static void kbd_wait_for_fifo_init(struct tegra_kbd_priv *priv)
157 {
158 	if (!priv->inited) {
159 		unsigned long elapsed_time;
160 		long delay_ms;
161 
162 		elapsed_time = get_timer(priv->start_time_ms);
163 		delay_ms = priv->init_dly_ms - elapsed_time;
164 		if (delay_ms > 0) {
165 			udelay(delay_ms * 1000);
166 			debug("%s: delay %ldms\n", __func__, delay_ms);
167 		}
168 
169 		priv->inited = 1;
170 	}
171 }
172 
173 /**
174  * Check the tegra keyboard, and send any keys that are pressed.
175  *
176  * This is called by input_tstc() and input_getc() when they need more
177  * characters
178  *
179  * @param input		Input configuration
180  * @return 1, to indicate that we have something to look at
181  */
tegra_kbc_check(struct input_config * input)182 static int tegra_kbc_check(struct input_config *input)
183 {
184 	struct tegra_kbd_priv *priv = dev_get_priv(input->dev);
185 
186 	kbd_wait_for_fifo_init(priv);
187 	check_for_keys(priv);
188 
189 	return 1;
190 }
191 
192 /* configures keyboard GPIO registers to use the rows and columns */
config_kbc_gpio(struct tegra_kbd_priv * priv,struct kbc_tegra * kbc)193 static void config_kbc_gpio(struct tegra_kbd_priv *priv, struct kbc_tegra *kbc)
194 {
195 	int i;
196 
197 	for (i = 0; i < KBC_MAX_GPIO; i++) {
198 		u32 row_cfg, col_cfg;
199 		u32 r_shift = 5 * (i % 6);
200 		u32 c_shift = 4 * (i % 8);
201 		u32 r_mask = 0x1f << r_shift;
202 		u32 c_mask = 0xf << c_shift;
203 		u32 r_offs = i / 6;
204 		u32 c_offs = i / 8;
205 
206 		row_cfg = readl(&kbc->row_cfg[r_offs]);
207 		col_cfg = readl(&kbc->col_cfg[c_offs]);
208 
209 		row_cfg &= ~r_mask;
210 		col_cfg &= ~c_mask;
211 
212 		if (i < priv->matrix.num_rows) {
213 			row_cfg |= ((i << 1) | 1) << r_shift;
214 		} else {
215 			col_cfg |= (((i - priv->matrix.num_rows) << 1) | 1)
216 					<< c_shift;
217 		}
218 
219 		writel(row_cfg, &kbc->row_cfg[r_offs]);
220 		writel(col_cfg, &kbc->col_cfg[c_offs]);
221 	}
222 }
223 
224 /**
225  * Start up the keyboard device
226  */
tegra_kbc_open(struct tegra_kbd_priv * priv)227 static void tegra_kbc_open(struct tegra_kbd_priv *priv)
228 {
229 	struct kbc_tegra *kbc = priv->kbc;
230 	unsigned int scan_period;
231 	u32 val;
232 
233 	/*
234 	 * We will scan at twice the keyboard repeat rate, so that there is
235 	 * always a scan ready when we check it in check_for_keys().
236 	 */
237 	scan_period = KBC_REPEAT_RATE_MS / 2;
238 	writel(scan_period * KBC_CLOCK_KHZ, &kbc->rpt_dly);
239 	writel(scan_period * KBC_CLOCK_KHZ, &kbc->init_dly);
240 	/*
241 	 * Before reading from the keyboard we must wait for the init_dly
242 	 * plus the rpt_delay, plus 2ms for the row scan time.
243 	 */
244 	priv->init_dly_ms = scan_period * 2 + 2;
245 
246 	val = KBC_DEBOUNCE_COUNT << KBC_DEBOUNCE_CNT_SHIFT;
247 	val |= 1 << KBC_FIFO_TH_CNT_SHIFT;	/* fifo interrupt threshold */
248 	val |= KBC_CONTROL_KBC_EN;		/* enable */
249 	writel(val, &kbc->control);
250 
251 	priv->start_time_ms = get_timer(0);
252 	priv->last_poll_ms = get_timer(0);
253 	priv->next_repeat_ms = priv->last_poll_ms;
254 	priv->first_scan = 1;
255 }
256 
tegra_kbd_start(struct udevice * dev)257 static int tegra_kbd_start(struct udevice *dev)
258 {
259 	struct tegra_kbd_priv *priv = dev_get_priv(dev);
260 
261 	/* Set up pin mux and enable the clock */
262 	funcmux_select(PERIPH_ID_KBC, FUNCMUX_DEFAULT);
263 	clock_enable(PERIPH_ID_KBC);
264 	config_kbc_gpio(priv, priv->kbc);
265 
266 	tegra_kbc_open(priv);
267 	debug("%s: Tegra keyboard ready\n", __func__);
268 
269 	return 0;
270 }
271 
272 /**
273  * Set up the tegra keyboard. This is called by the stdio device handler
274  *
275  * We want to do this init when the keyboard is actually used rather than
276  * at start-up, since keyboard input may not currently be selected.
277  *
278  * Once the keyboard starts there will be a period during which we must
279  * wait for the keyboard to init. We do this only when a key is first
280  * read - see kbd_wait_for_fifo_init().
281  *
282  * @return 0 if ok, -ve on error
283  */
tegra_kbd_probe(struct udevice * dev)284 static int tegra_kbd_probe(struct udevice *dev)
285 {
286 	struct tegra_kbd_priv *priv = dev_get_priv(dev);
287 	struct keyboard_priv *uc_priv = dev_get_uclass_priv(dev);
288 	struct stdio_dev *sdev = &uc_priv->sdev;
289 	struct input_config *input = &uc_priv->input;
290 	int ret;
291 
292 	priv->kbc = (struct kbc_tegra *)devfdt_get_addr(dev);
293 	if ((fdt_addr_t)priv->kbc == FDT_ADDR_T_NONE) {
294 		debug("%s: No keyboard register found\n", __func__);
295 		return -EINVAL;
296 	}
297 	input_set_delays(input, KBC_REPEAT_DELAY_MS, KBC_REPEAT_RATE_MS);
298 
299 	/* Decode the keyboard matrix information (16 rows, 8 columns) */
300 	ret = key_matrix_init(&priv->matrix, 16, 8, 1);
301 	if (ret) {
302 		debug("%s: Could not init key matrix: %d\n", __func__, ret);
303 		return ret;
304 	}
305 	ret = key_matrix_decode_fdt(dev, &priv->matrix);
306 	if (ret) {
307 		debug("%s: Could not decode key matrix from fdt: %d\n",
308 		      __func__, ret);
309 		return ret;
310 	}
311 	input_add_tables(input, false);
312 	if (priv->matrix.fn_keycode) {
313 		ret = input_add_table(input, KEY_FN, -1,
314 				      priv->matrix.fn_keycode,
315 				      priv->matrix.key_count);
316 		if (ret) {
317 			debug("%s: input_add_table() failed\n", __func__);
318 			return ret;
319 		}
320 	}
321 
322 	/* Register the device. init_tegra_keyboard() will be called soon */
323 	priv->input = input;
324 	input->dev = dev;
325 	input->read_keys = tegra_kbc_check;
326 	strcpy(sdev->name, "tegra-kbc");
327 	ret = input_stdio_register(sdev);
328 	if (ret) {
329 		debug("%s: input_stdio_register() failed\n", __func__);
330 		return ret;
331 	}
332 
333 	return 0;
334 }
335 
336 static const struct keyboard_ops tegra_kbd_ops = {
337 	.start	= tegra_kbd_start,
338 };
339 
340 static const struct udevice_id tegra_kbd_ids[] = {
341 	{ .compatible = "nvidia,tegra20-kbc" },
342 	{ }
343 };
344 
345 U_BOOT_DRIVER(tegra_kbd) = {
346 	.name	= "tegra_kbd",
347 	.id	= UCLASS_KEYBOARD,
348 	.of_match = tegra_kbd_ids,
349 	.probe = tegra_kbd_probe,
350 	.ops	= &tegra_kbd_ops,
351 	.priv_auto_alloc_size = sizeof(struct tegra_kbd_priv),
352 };
353