/* This program is free software: you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation, either version 3 of the License, or (at your option) any later version. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program. If not, see . */ #pragma once #include "AP_Scripting/AP_Scripting_config.h" #if AP_SCRIPTING_ENABLED #include #include #include #include #include #include #include #include "AP_Scripting_CANSensor.h" #include #ifndef SCRIPTING_MAX_NUM_I2C_DEVICE #define SCRIPTING_MAX_NUM_I2C_DEVICE 4 #endif #define SCRIPTING_MAX_NUM_PWM_SOURCE 4 #if AP_NETWORKING_ENABLED #ifndef SCRIPTING_MAX_NUM_NET_SOCKET #define SCRIPTING_MAX_NUM_NET_SOCKET 50 #endif class SocketAPM; #endif #if AP_SCRIPTING_SERIALDEVICE_ENABLED #include "AP_Scripting_SerialDevice.h" #endif class AP_Scripting { public: AP_Scripting(); /* Do not allow copies */ CLASS_NO_COPY(AP_Scripting); void init(void); #if AP_SCRIPTING_SERIALDEVICE_ENABLED void init_serialdevice_ports(void); #endif void update(); bool enabled(void) const { return _enable != 0; }; bool should_run(void) const { return enabled() && !_stop; } #if HAL_GCS_ENABLED void handle_message(const mavlink_message_t &msg, const mavlink_channel_t chan); // Check if command ID is blocked bool is_handling_command(uint16_t cmd_id); #endif static AP_Scripting * get_singleton(void) { return _singleton; } static const struct AP_Param::GroupInfo var_info[]; #if HAL_GCS_ENABLED MAV_RESULT handle_command_int_packet(const mavlink_command_int_t &packet); #endif void handle_mission_command(const class AP_Mission::Mission_Command& cmd); bool arming_checks(size_t buflen, char *buffer) const; void restart_all(void); // User parameters for inputs into scripts AP_Float _user[6]; enum class SCR_DIR { ROMFS = 1 << 0, SCRIPTS = 1 << 1, }; uint16_t get_disabled_dir() { return uint16_t(_dir_disable.get());} // the number of and storage for i2c devices uint8_t num_i2c_devices; AP_HAL::OwnPtr *_i2c_dev[SCRIPTING_MAX_NUM_I2C_DEVICE]; #if AP_SCRIPTING_CAN_SENSOR_ENABLED // Scripting CAN sensor ScriptingCANSensor *_CAN_dev; ScriptingCANSensor *_CAN_dev2; #endif #if AP_MISSION_ENABLED // mission item buffer static const int mission_cmd_queue_size = 5; struct scripting_mission_cmd { uint16_t p1; float content_p1; float content_p2; float content_p3; uint32_t time_ms; }; ObjectBuffer * mission_data; #endif // PWMSource storage uint8_t num_pwm_source; AP_HAL::PWMSource *_pwm_source[SCRIPTING_MAX_NUM_PWM_SOURCE]; int get_current_env_ref() { return current_env_ref; } void set_current_env_ref(int ref) { current_env_ref = ref; } #if AP_NETWORKING_ENABLED // SocketAPM storage SocketAPM *_net_sockets[SCRIPTING_MAX_NUM_NET_SOCKET]; #endif struct mavlink_msg { mavlink_message_t msg; mavlink_channel_t chan; uint32_t timestamp_ms; }; struct mavlink { ObjectBuffer *rx_buffer; uint32_t *accept_msg_ids; uint16_t accept_msg_ids_size; HAL_Semaphore sem; } mavlink_data; struct command_block_list { uint16_t id; command_block_list *next; }; command_block_list *mavlink_command_block_list; HAL_Semaphore mavlink_command_block_list_sem; #if AP_SCRIPTING_SERIALDEVICE_ENABLED AP_Scripting_SerialDevice _serialdevice; #endif enum class DebugOption : uint8_t { NO_SCRIPTS_TO_RUN = 1U << 0, RUNTIME_MSG = 1U << 1, SUPPRESS_SCRIPT_LOG = 1U << 2, LOG_RUNTIME = 1U << 3, DISABLE_PRE_ARM = 1U << 4, SAVE_CHECKSUM = 1U << 5, }; private: void thread(void); // main script execution thread // Check if DEBUG_OPTS bit has been set to save current checksum values to params void save_checksum(); // Mask down to 23 bits for comparison with parameters, this the length of the a float mantissa, to deal with the float transport of parameters over MAVLink // The full range of uint32 integers cannot be represented by a float. const uint32_t checksum_param_mask = 0x007FFFFF; enum class ThreadPriority : uint8_t { NORMAL = 0, IO = 1, STORAGE = 2, UART = 3, I2C = 4, SPI = 5, TIMER = 6, MAIN = 7, BOOST = 8 }; AP_Int8 _enable; AP_Int32 _script_vm_exec_count; AP_Int32 _script_heap_size; AP_Int8 _debug_options; AP_Int16 _dir_disable; AP_Int32 _required_loaded_checksum; AP_Int32 _required_running_checksum; AP_Enum _thd_priority; bool option_is_set(DebugOption option) const { return (uint8_t(_debug_options.get()) & uint8_t(option)) != 0; } void option_clear(DebugOption option) { _debug_options.set_and_save(_debug_options.get() & ~uint8_t(option)); } bool _thread_failed; // thread allocation failed bool _init_failed; // true if memory allocation failed bool _restart; // true if scripts should be restarted bool _stop; // true if scripts should be stopped static AP_Scripting *_singleton; int current_env_ref; }; namespace AP { AP_Scripting * scripting(void); }; #endif // AP_SCRIPTING_ENABLED