/**************************************************************************** * apps/testing/monkey/monkey_proc.c * * Licensed to the Apache Software Foundation (ASF) under one or more * contributor license agreements. See the NOTICE file distributed with * this work for additional information regarding copyright ownership. The * ASF licenses this file to you under the Apache License, Version 2.0 (the * "License"); you may not use this file except in compliance with the * License. You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, WITHOUT * WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the * License for the specific language governing permissions and limitations * under the License. * ****************************************************************************/ /**************************************************************************** * Included Files ****************************************************************************/ #include #include #include #include #include "monkey.h" #include "monkey_assert.h" #include "monkey_dev.h" #include "monkey_event.h" #include "monkey_log.h" #include "monkey_recorder.h" #include "monkey_utils.h" /**************************************************************************** * Private Functions ****************************************************************************/ /**************************************************************************** * Name: monkey_update_uinput_ramdom ****************************************************************************/ static bool monkey_update_uinput_ramdom(FAR struct monkey_s *monkey) { int i; bool retval = false; for (i = 0; i < monkey->dev_num; i++) { FAR struct monkey_dev_s *dev = monkey->devs[i]; struct monkey_event_param_s param; monkey_event_gen(monkey, ¶m); retval = monkey_event_exec(monkey, dev, ¶m); if (!retval) { break; } } return retval; } /**************************************************************************** * Name: monkey_search_dev ****************************************************************************/ static FAR struct monkey_dev_s *monkey_search_dev( FAR struct monkey_s *monkey, enum monkey_dev_type_e type) { int i; for (i = 0; i < monkey->dev_num; i++) { FAR struct monkey_dev_s *dev = monkey->devs[i]; if (type == dev->type) { return dev; } } return NULL; } /**************************************************************************** * Name: monkey_recorder_get_next ****************************************************************************/ static int monkey_recorder_get_next(FAR struct monkey_s *monkey, FAR uint32_t *cur_time_stamp_p, FAR struct monkey_dev_state_s *cur_state_p, FAR uint32_t *next_time_stamp_p, FAR struct monkey_dev_state_s *next_state_p) { enum monkey_recorder_res_e res; if (monkey->playback_ctx.time_stamp == 0) { res = monkey_recorder_read(monkey->recorder, cur_state_p, cur_time_stamp_p); if (res != MONKEY_RECORDER_RES_OK) { MONKEY_LOG_ERROR("read first line failed: %d", res); return 0; } } else { *cur_time_stamp_p = monkey->playback_ctx.time_stamp; *cur_state_p = monkey->playback_ctx.state; } res = monkey_recorder_read(monkey->recorder, next_state_p, next_time_stamp_p); if (res != MONKEY_RECORDER_RES_OK) { if (res == MONKEY_RECORDER_RES_END_OF_FILE) { MONKEY_LOG_WARN("end of file"); return 1; } MONKEY_LOG_ERROR("read error: %d", res); return 0; } monkey->playback_ctx.time_stamp = *next_time_stamp_p; monkey->playback_ctx.state = *next_state_p; return 2; } /**************************************************************************** * Name: monkey_update_uinput_playback ****************************************************************************/ static bool monkey_update_uinput_playback(FAR struct monkey_s *monkey) { FAR uint32_t cur_time_stamp; struct monkey_dev_state_s cur_state; FAR uint32_t next_time_stamp; struct monkey_dev_state_s next_state; uint32_t tick_elaps; FAR struct monkey_dev_s *dev; int num_of_get; MONKEY_ASSERT_NULL(monkey->recorder); num_of_get = monkey_recorder_get_next(monkey, &cur_time_stamp, &cur_state, &next_time_stamp, &next_state); switch (num_of_get) { case 1: next_time_stamp = cur_time_stamp; memset(&monkey->playback_ctx, 0, sizeof(monkey->playback_ctx)); monkey_recorder_reset(monkey->recorder); case 2: dev = monkey_search_dev(monkey, MONKEY_UINPUT_TYPE_MASK | cur_state.type); if (dev) { monkey_dev_set_state(dev, &cur_state); } else { MONKEY_LOG_WARN("unsupport device type: %d", cur_state.type); } tick_elaps = monkey_tick_elaps(next_time_stamp, cur_time_stamp); monkey_set_period(monkey, tick_elaps); break; default: MONKEY_LOG_ERROR("error num_of_get = %d", num_of_get); return false; } return true; } /**************************************************************************** * Name: monkey_update_uinput ****************************************************************************/ static bool monkey_update_uinput(FAR struct monkey_s *monkey) { bool retval = false; MONKEY_ASSERT_NULL(monkey); if (monkey->mode == MONKEY_MODE_RANDOM) { retval = monkey_update_uinput_ramdom(monkey); } else if(monkey->mode == MONKEY_MODE_PLAYBACK) { retval = monkey_update_uinput_playback(monkey); } else { MONKEY_LOG_ERROR("error mode: %d", monkey->mode); } return retval; } /**************************************************************************** * Name: monkey_update_input ****************************************************************************/ static bool monkey_update_input(FAR struct monkey_s *monkey) { struct monkey_dev_state_s state; int available; int i; MONKEY_ASSERT_NULL(monkey); available = monkey_dev_get_available(monkey->devs, monkey->dev_num); if (available <= 0) { MONKEY_LOG_WARN("no available device"); return false; } for (i = 0; i < monkey->dev_num; i++) { FAR struct monkey_dev_s *dev = monkey->devs[i]; if (dev->is_available) { /* try to get device state */ if (!monkey_dev_get_state(dev, &state)) { MONKEY_LOG_ERROR("can't get state"); return false; } if (dev->type == MONKEY_DEV_TYPE_TOUCH) { MONKEY_LOG_INFO("touch %s at x = %d, y = %d", state.data.touch.is_pressed ? "PRESS " : "RELEASE", state.data.touch.x, state.data.touch.y); } else if (dev->type == MONKEY_DEV_TYPE_BUTTON) { MONKEY_LOG_INFO("btn = 0x%08X", state.data.button.value); } /* record state */ if (monkey->recorder) { monkey_recorder_write(monkey->recorder, &state); } } } return true; } /**************************************************************************** * Public Functions ****************************************************************************/ /**************************************************************************** * Name: monkey_update ****************************************************************************/ int monkey_update(FAR struct monkey_s *monkey) { int wait_time; MONKEY_ASSERT_NULL(monkey); srand(monkey_tick_get()); if (monkey->mode == MONKEY_MODE_RECORD) { if (monkey_update_input(monkey)) { /* no need for sleep */ return 0; } else { return -1; } } else { if (!monkey_update_uinput(monkey)) { return -1; } } wait_time = monkey_random(monkey->config.period.min, monkey->config.period.max); return wait_time; }