Zephyr API Documentation  3.6.99
A Scalable Open Source RTOS
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input_kbd_matrix.h
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1/*
2 * Copyright 2023 Google LLC
3 *
4 * SPDX-License-Identifier: Apache-2.0
5 */
6
7#ifndef ZEPHYR_INCLUDE_INPUT_KBD_MATRIX_H_
8#define ZEPHYR_INCLUDE_INPUT_KBD_MATRIX_H_
9
17#include <zephyr/device.h>
18#include <zephyr/kernel.h>
19#include <zephyr/sys/util.h>
20#include <zephyr/sys_clock.h>
21#include <zephyr/toolchain.h>
22
24#define INPUT_KBD_MATRIX_COLUMN_DRIVE_NONE -1
25
27#define INPUT_KBD_MATRIX_COLUMN_DRIVE_ALL -2
28
30#define INPUT_KBD_MATRIX_SCAN_OCURRENCES 30U
31
33#if CONFIG_INPUT_KBD_MATRIX_16_BIT_ROW
34typedef uint16_t kbd_row_t;
35#define PRIkbdrow "04" PRIx16
36#else
38#define PRIkbdrow "02" PRIx8
39#endif
40
41#if defined(CONFIG_INPUT_KBD_ACTUAL_KEY_MASK_DYNAMIC) || defined(__DOXYGEN__)
42#define INPUT_KBD_ACTUAL_KEY_MASK_CONST
62 uint8_t row, uint8_t col, bool enabled);
63#else
64#define INPUT_KBD_ACTUAL_KEY_MASK_CONST const
65#endif
66
68#define INPUT_KBD_MATRIX_ROW_BITS NUM_BITS(kbd_row_t)
69
84 void (*drive_column)(const struct device *dev, int col);
90 kbd_row_t (*read_row)(const struct device *dev);
101 void (*set_detect_mode)(const struct device *dev, bool enabled);
102};
103
120
121 /* extra data pointers */
127};
128
129#define INPUT_KBD_MATRIX_DATA_NAME(node_id, name) \
130 _CONCAT(__input_kbd_matrix_, \
131 _CONCAT(name, DEVICE_DT_NAME_GET(node_id)))
132
137#define INPUT_KBD_MATRIX_DT_DEFINE_ROW_COL(node_id, _row_size, _col_size) \
138 BUILD_ASSERT(IN_RANGE(_row_size, 1, INPUT_KBD_MATRIX_ROW_BITS), "invalid row-size"); \
139 BUILD_ASSERT(IN_RANGE(_col_size, 1, UINT8_MAX), "invalid col-size"); \
140 IF_ENABLED(DT_NODE_HAS_PROP(node_id, actual_key_mask), ( \
141 BUILD_ASSERT(DT_PROP_LEN(node_id, actual_key_mask) == _col_size, \
142 "actual-key-mask size does not match the number of columns"); \
143 static INPUT_KBD_ACTUAL_KEY_MASK_CONST kbd_row_t \
144 INPUT_KBD_MATRIX_DATA_NAME(node_id, actual_key_mask)[_col_size] = \
145 DT_PROP(node_id, actual_key_mask); \
146 )) \
147 static kbd_row_t INPUT_KBD_MATRIX_DATA_NAME(node_id, stable_state)[_col_size]; \
148 static kbd_row_t INPUT_KBD_MATRIX_DATA_NAME(node_id, unstable_state)[_col_size]; \
149 static kbd_row_t INPUT_KBD_MATRIX_DATA_NAME(node_id, previous_state)[_col_size]; \
150 static kbd_row_t INPUT_KBD_MATRIX_DATA_NAME(node_id, new_state)[_col_size]; \
151 static uint8_t INPUT_KBD_MATRIX_DATA_NAME(node_id, scan_cycle_idx)[_row_size * _col_size];
152
156#define INPUT_KBD_MATRIX_DT_DEFINE(node_id) \
157 INPUT_KBD_MATRIX_DT_DEFINE_ROW_COL( \
158 node_id, DT_PROP(node_id, row_size), DT_PROP(node_id, col_size))
159
168#define INPUT_KBD_MATRIX_DT_INST_DEFINE_ROW_COL(inst, row_size, col_size) \
169 INPUT_KBD_MATRIX_DT_DEFINE_ROW_COL(DT_DRV_INST(inst), row_size, col_size)
170
176#define INPUT_KBD_MATRIX_DT_INST_DEFINE(inst) \
177 INPUT_KBD_MATRIX_DT_DEFINE(DT_DRV_INST(inst))
178
187#define INPUT_KBD_MATRIX_DT_COMMON_CONFIG_INIT_ROW_COL(node_id, _api, _row_size, _col_size) \
188 { \
189 .api = _api, \
190 .row_size = _row_size, \
191 .col_size = _col_size, \
192 .poll_period_us = DT_PROP(node_id, poll_period_ms) * USEC_PER_MSEC, \
193 .poll_timeout_ms = DT_PROP(node_id, poll_timeout_ms), \
194 .debounce_down_us = DT_PROP(node_id, debounce_down_ms) * USEC_PER_MSEC, \
195 .debounce_up_us = DT_PROP(node_id, debounce_up_ms) * USEC_PER_MSEC, \
196 .settle_time_us = DT_PROP(node_id, settle_time_us), \
197 .ghostkey_check = !DT_PROP(node_id, no_ghostkey_check), \
198 IF_ENABLED(DT_NODE_HAS_PROP(node_id, actual_key_mask), ( \
199 .actual_key_mask = INPUT_KBD_MATRIX_DATA_NAME(node_id, actual_key_mask), \
200 )) \
201 \
202 .matrix_stable_state = INPUT_KBD_MATRIX_DATA_NAME(node_id, stable_state), \
203 .matrix_unstable_state = INPUT_KBD_MATRIX_DATA_NAME(node_id, unstable_state), \
204 .matrix_previous_state = INPUT_KBD_MATRIX_DATA_NAME(node_id, previous_state), \
205 .matrix_new_state = INPUT_KBD_MATRIX_DATA_NAME(node_id, new_state), \
206 .scan_cycle_idx = INPUT_KBD_MATRIX_DATA_NAME(node_id, scan_cycle_idx), \
207 }
208
215#define INPUT_KBD_MATRIX_DT_COMMON_CONFIG_INIT(node_id, api) \
216 INPUT_KBD_MATRIX_DT_COMMON_CONFIG_INIT_ROW_COL( \
217 node_id, api, DT_PROP(node_id, row_size), DT_PROP(node_id, col_size))
218
228#define INPUT_KBD_MATRIX_DT_INST_COMMON_CONFIG_INIT_ROW_COL(inst, api, row_size, col_size) \
229 INPUT_KBD_MATRIX_DT_COMMON_CONFIG_INIT_ROW_COL(DT_DRV_INST(inst), api, row_size, col_size)
230
237#define INPUT_KBD_MATRIX_DT_INST_COMMON_CONFIG_INIT(inst, api) \
238 INPUT_KBD_MATRIX_DT_COMMON_CONFIG_INIT(DT_DRV_INST(inst), api)
239
246 /* Track previous cycles, used for debouncing. */
249
250 struct k_sem poll_lock;
251
253
255 CONFIG_INPUT_KBD_MATRIX_THREAD_STACK_SIZE);
256};
257
264#define INPUT_KBD_STRUCT_CHECK(config, data) \
265 BUILD_ASSERT(offsetof(config, common) == 0, \
266 "struct input_kbd_matrix_common_config must be placed first"); \
267 BUILD_ASSERT(offsetof(data, common) == 0, \
268 "struct input_kbd_matrix_common_data must be placed first")
269
278void input_kbd_matrix_poll_start(const struct device *dev);
279
280#if defined(CONFIG_INPUT_KBD_DRIVE_COLUMN_HOOK) || defined(__DOXYGEN__)
293void input_kbd_matrix_drive_column_hook(const struct device *dev, int col);
294#endif
295
307
310#endif /* ZEPHYR_INCLUDE_INPUT_KBD_MATRIX_H_ */
void input_kbd_matrix_drive_column_hook(const struct device *dev, int col)
Drive column hook.
#define INPUT_KBD_MATRIX_SCAN_OCURRENCES
Number of tracked scan cycles.
Definition: input_kbd_matrix.h:30
int input_kbd_matrix_common_init(const struct device *dev)
Common function to initialize a keyboard matrix device at init time.
int input_kbd_matrix_actual_key_mask_set(const struct device *dev, uint8_t row, uint8_t col, bool enabled)
Enables or disables a specific row, column combination in the actual key mask.
uint8_t kbd_row_t
Row entry data type.
Definition: input_kbd_matrix.h:37
#define INPUT_KBD_ACTUAL_KEY_MASK_CONST
Definition: input_kbd_matrix.h:42
void input_kbd_matrix_poll_start(const struct device *dev)
Start scanning the keyboard matrix.
Public kernel APIs.
__UINT32_TYPE__ uint32_t
Definition: stdint.h:90
__UINT8_TYPE__ uint8_t
Definition: stdint.h:88
__UINT16_TYPE__ uint16_t
Definition: stdint.h:89
Runtime device structure (in ROM) per driver instance.
Definition: device.h:399
Keyboard matrix internal APIs.
Definition: input_kbd_matrix.h:73
void(* set_detect_mode)(const struct device *dev, bool enabled)
Request to put the matrix in detection mode.
Definition: input_kbd_matrix.h:101
kbd_row_t(* read_row)(const struct device *dev)
Read the matrix row.
Definition: input_kbd_matrix.h:90
void(* drive_column)(const struct device *dev, int col)
Request to drive a specific column.
Definition: input_kbd_matrix.h:84
Common keyboard matrix config.
Definition: input_kbd_matrix.h:109
uint32_t debounce_down_us
Definition: input_kbd_matrix.h:115
uint8_t * scan_cycle_idx
Definition: input_kbd_matrix.h:126
uint32_t settle_time_us
Definition: input_kbd_matrix.h:117
bool ghostkey_check
Definition: input_kbd_matrix.h:118
uint32_t poll_period_us
Definition: input_kbd_matrix.h:113
kbd_row_t * matrix_previous_state
Definition: input_kbd_matrix.h:124
kbd_row_t * matrix_unstable_state
Definition: input_kbd_matrix.h:123
uint32_t debounce_up_us
Definition: input_kbd_matrix.h:116
kbd_row_t * matrix_new_state
Definition: input_kbd_matrix.h:125
uint32_t poll_timeout_ms
Definition: input_kbd_matrix.h:114
kbd_row_t * matrix_stable_state
Definition: input_kbd_matrix.h:122
kbd_row_t * actual_key_mask
Definition: input_kbd_matrix.h:119
const struct input_kbd_matrix_api * api
Definition: input_kbd_matrix.h:110
uint8_t col_size
Definition: input_kbd_matrix.h:112
uint8_t row_size
Definition: input_kbd_matrix.h:111
Common keyboard matrix data.
Definition: input_kbd_matrix.h:245
struct k_thread thread
Definition: input_kbd_matrix.h:252
uint8_t scan_cycles_idx
Definition: input_kbd_matrix.h:248
uint32_t scan_clk_cycle[30U]
Definition: input_kbd_matrix.h:247
K_KERNEL_STACK_MEMBER(thread_stack, CONFIG_INPUT_KBD_MATRIX_THREAD_STACK_SIZE)
struct k_sem poll_lock
Definition: input_kbd_matrix.h:250
Thread Structure.
Definition: thread.h:259
Variables needed for system clock.
Macros to abstract toolchain specific capabilities.
Misc utilities.