/* * Copyright (c) 2019 Intel Corporation * * SPDX-License-Identifier: Apache-2.0 */ #include #include #include #include #define LOG_LEVEL LOG_LEVEL_DBG #include #define LOG_MODULE_NAME main LOG_MODULE_REGISTER(); #define TASK_STACK_SIZE 1024 #define PRIORITY 7 /*Minimum safe time interval between regular PS/2 calls */ #define MS_BETWEEN_REGULAR_CALLS 8 /*Minimum safe time interval between BAT/Reset PS/2 calls */ #define MS_BETWEEN_RESET_CALLS 500 static void to_port_60_thread(void *dummy1, void *dummy2, void *dummy3); static void saturate_ps2(struct k_timer *timer); static bool host_blocked; K_THREAD_DEFINE(aux_thread_id, TASK_STACK_SIZE, to_port_60_thread, NULL, NULL, NULL, PRIORITY, 0, 0); K_SEM_DEFINE(p60_sem, 0, 1); K_MSGQ_DEFINE(aux_to_host_queue, sizeof(uint8_t), 8, 4); /* We use a timer to saturate the queue */ K_TIMER_DEFINE(block_ps2_timer, saturate_ps2, NULL); static const struct device *const ps2_0_dev = DEVICE_DT_GET(DT_ALIAS(ps2_port0)); static void saturate_ps2(struct k_timer *timer) { LOG_DBG("block host\n"); host_blocked = true; ps2_disable_callback(ps2_0_dev); k_sleep(K_MSEC(500)); host_blocked = false; ps2_enable_callback(ps2_0_dev); } static void mb_callback(const struct device *dev, uint8_t value) { if (k_msgq_put(&aux_to_host_queue, &value, K_NO_WAIT) != 0) { ps2_disable_callback(ps2_0_dev); } if (!host_blocked) { k_sem_give(&p60_sem); } } /* This data is sent to BIOS and eventually is consumed by the host OS */ static void to_port_60_thread(void *dummy1, void *dummy2, void *dummy3) { uint8_t data; while (true) { k_sem_take(&p60_sem, K_FOREVER); while (!k_msgq_get(&aux_to_host_queue, &data, K_NO_WAIT)) { LOG_DBG("\nmb data :%02x\n", data); } } } /* Commands expected from BIOS and Windows */ void initialize_mouse(void) { LOG_DBG("mouse->f4\n"); ps2_write(ps2_0_dev, 0xf4); k_msleep(MS_BETWEEN_REGULAR_CALLS); LOG_DBG("Reset mouse->ff\n"); ps2_write(ps2_0_dev, 0xff); k_msleep(MS_BETWEEN_RESET_CALLS); LOG_DBG("Reset mouse->ff\n"); ps2_write(ps2_0_dev, 0xff); k_msleep(MS_BETWEEN_RESET_CALLS); LOG_DBG("Read ID mouse->f2\n"); ps2_write(ps2_0_dev, 0xf2); k_msleep(MS_BETWEEN_REGULAR_CALLS); LOG_DBG("Set resolution mouse->e8\n"); ps2_write(ps2_0_dev, 0xe8); k_msleep(MS_BETWEEN_REGULAR_CALLS); LOG_DBG("mouse->00\n"); ps2_write(ps2_0_dev, 0x00); k_msleep(MS_BETWEEN_REGULAR_CALLS); LOG_DBG("Set scaling 1:1 mouse->e6\n"); ps2_write(ps2_0_dev, 0xe6); k_msleep(MS_BETWEEN_REGULAR_CALLS); LOG_DBG("Set scaling 1:1 mouse->e6\n"); ps2_write(ps2_0_dev, 0xe6); k_msleep(MS_BETWEEN_REGULAR_CALLS); LOG_DBG("Set scaling 1:1 mouse->e6\n"); ps2_write(ps2_0_dev, 0xe6); k_msleep(MS_BETWEEN_REGULAR_CALLS); LOG_DBG("mouse->e9\n"); ps2_write(ps2_0_dev, 0xe9); k_msleep(MS_BETWEEN_REGULAR_CALLS); LOG_DBG("Set resolution mouse->e8\n"); ps2_write(ps2_0_dev, 0xe8); k_msleep(MS_BETWEEN_REGULAR_CALLS); LOG_DBG("8 Counts/mm mouse->0x03\n"); ps2_write(ps2_0_dev, 0x03); k_msleep(MS_BETWEEN_REGULAR_CALLS); LOG_DBG("Set sample rate mouse->0xF3\n"); ps2_write(ps2_0_dev, 0xf3); k_msleep(MS_BETWEEN_REGULAR_CALLS); LOG_DBG("decimal 200 ->0xc8\n"); ps2_write(ps2_0_dev, 0xc8); k_msleep(MS_BETWEEN_REGULAR_CALLS); LOG_DBG("Set sample rate mouse->0xF3\n"); ps2_write(ps2_0_dev, 0xf3); k_msleep(MS_BETWEEN_REGULAR_CALLS); LOG_DBG("decimal 100 ->0x64\n"); ps2_write(ps2_0_dev, 0x64); LOG_DBG("Set sample rate mouse->0xF3\n"); ps2_write(ps2_0_dev, 0xf3); k_msleep(MS_BETWEEN_REGULAR_CALLS); LOG_DBG("decimal 80 ->0x50\n"); ps2_write(ps2_0_dev, 0x50); k_msleep(MS_BETWEEN_REGULAR_CALLS); LOG_DBG("Read device type->0xf2\n"); ps2_write(ps2_0_dev, 0xf2); k_msleep(MS_BETWEEN_REGULAR_CALLS); LOG_DBG("Set sample rate mouse->0xF3\n"); ps2_write(ps2_0_dev, 0xf3); k_msleep(MS_BETWEEN_REGULAR_CALLS); LOG_DBG("decimal 200 ->0xc8\n"); ps2_write(ps2_0_dev, 0xc8); k_msleep(MS_BETWEEN_REGULAR_CALLS); LOG_DBG("Set sample rate mouse->0xF3\n"); ps2_write(ps2_0_dev, 0xf3); k_msleep(MS_BETWEEN_REGULAR_CALLS); LOG_DBG("decimal 200 ->0xc8\n"); ps2_write(ps2_0_dev, 0xc8); k_msleep(MS_BETWEEN_REGULAR_CALLS); LOG_DBG("Set sample rate mouse->0xF3\n"); ps2_write(ps2_0_dev, 0xf3); k_msleep(MS_BETWEEN_REGULAR_CALLS); LOG_DBG("decimal 80 ->0x50\n"); ps2_write(ps2_0_dev, 0x50); k_msleep(MS_BETWEEN_REGULAR_CALLS); LOG_DBG("Read device type->0xf2\n"); ps2_write(ps2_0_dev, 0xf2); k_msleep(MS_BETWEEN_REGULAR_CALLS); LOG_DBG("Set sample rate mouse->0xF3\n"); ps2_write(ps2_0_dev, 0xf3); k_msleep(MS_BETWEEN_REGULAR_CALLS); LOG_DBG("decimal 100 ->0x64\n"); ps2_write(ps2_0_dev, 0x64); k_msleep(MS_BETWEEN_REGULAR_CALLS); LOG_DBG("Set resolution mouse->e8\n"); ps2_write(ps2_0_dev, 0xe8); k_msleep(MS_BETWEEN_REGULAR_CALLS); LOG_DBG("8 Counts/mm mouse->0x03\n"); ps2_write(ps2_0_dev, 0x03); k_msleep(MS_BETWEEN_REGULAR_CALLS); LOG_DBG("mouse->f4\n"); ps2_write(ps2_0_dev, 0xf4); k_msleep(MS_BETWEEN_REGULAR_CALLS); } int main(void) { printk("PS/2 test with mouse\n"); /* Wait for the PS/2 BAT to finish */ k_msleep(MS_BETWEEN_RESET_CALLS); /* The ps2 blocks are generic, therefore, it is allowed to swap * keyboard and mouse as desired */ if (!device_is_ready(ps2_0_dev)) { printk("%s: device not ready.\n", ps2_0_dev->name); return 0; } ps2_config(ps2_0_dev, mb_callback); /*Make sure there is a PS/2 device connected */ initialize_mouse(); k_timer_start(&block_ps2_timer, K_SECONDS(2), K_SECONDS(1)); return 0; }