raspberrypi.git

			@@ -21,21 +21,112 @@

			int gpio_init(gpio_t *gpio)
			{
			int i;
			int rv;
			gpio_info_t *gpioinfo;

			s_gpio = gpio;

			if( !gpio )
			{
			log_err("Invalid input arguments $gpio\n");
			return -1;
			}

			s_gpio = gpio;

			if( !gpio->incnt && !gpio->outcnt )
			{
			log_warn("WARNNING: No GPIO pins configured\n");
			return 0;
			}

			/* gpiod open chip */
			s_chip = gpiod_chip_open_by_name(RPI_GPIONAME);
			if( !s_chip )
			{
			log_err("gpiod open chip failure, maybe you need running as root\n");
			return -2;
			}
			log_nrml("gpiod initialise open chip ok\n");


			/* gpiod request all output pins */
			for(i=0; i<gpio->outcnt; i++)
			{
			gpio->output[i].line = gpiod_chip_get_line(s_chip, gpio->output[i].pin);
			if( !gpio->output[i].line )
			{
			log_err("gpiod get line for '%s' pin[#%d] failure\n", gpio->output[i].name, gpio->output[i].pin );
			return -2;
			}

			if( gpiod_line_request_output(gpio->output[i].line, gpio->output[i].name, !gpio->output[i].active_level) < 0 )
			{
			log_err("gpiod request '%s' pin[#%d] output failure: %s\n", gpio->output[i].name, gpio->output[i].pin, strerror(errno));
			}
			else
			{
			log_nrml("gpiod request '%s' pin[#%d] output ok\n", gpio->output[i].name, gpio->output[i].pin);
			}
			}


			/* gpiod request all input pins */
			for(i=0; i<gpio->incnt; i++)
			{
			gpio->input[i].line = gpiod_chip_get_line(s_chip, gpio->input[i].pin);
			if( !gpio->input[i].line )
			{
			log_err("gpiod get line for '%s' pin[#%d] failure\n", gpio->input[i].name, gpio->input[i].pin );
			return -2;
			}

			if( gpio->output[i].active_level )
			rv = gpiod_line_request_rising_edge_events(gpio->input[i].line, gpio->input[i].name) ;
			else
			rv = gpiod_line_request_falling_edge_events(gpio->input[i].line, gpio->input[i].name) ;

			if( rv < 0 )
			{
			log_err("gpiod request '%s' pin[#%d] event edge [%s] failure: %s\n",
			gpio->input[i].name, gpio->input[i].pin, gpio->output[i].active_level?"rising":"falling", strerror(errno));
			}
			else
			{
			log_nrml("gpiod request '%s' pin[#%d] event edge [%s] ok\n",
			gpio->input[i].name, gpio->input[i].pin, gpio->output[i].active_level?"rising":"falling");
			}
			}
			}


			void gpio_term(void)
			{
			return ;
			int i;

			log_nrml("start teriminated GPIO\n");

			if( !s_gpio->incnt && !s_gpio->outcnt )
			{
			return ;
			}


			for(i=0; i<s_gpio->outcnt; i++)
			{
			gpiod_line_release(s_gpio->output[i].line);
			}


			for(i=0; i<s_gpio->incnt; i++)
			{
			gpiod_line_release(s_gpio->input[i].line);
			}

			gpiod_chip_close(s_chip);
			}

			void gpio_out(char *name, int cmd)
			void gpio_out(char name, char cmd)
			{
			int i;
			int found = 0;
			@@ -51,47 +142,71 @@

			if( !found )
			{
			log_err("GPIO output for [%s] pin not found\n", name);
			log_err("GPIO output for '%s' pin not found\n", name);
			return ;
			}

			if( OFF == cmd )
			if( strstr(cmd, "on") )
			{
			gpiod_line_set_value(s_gpio->output[i].lines, s_gpio->output[i].active_level);
			gpiod_line_set_value(s_gpio->output[i].line, s_gpio->output[i].active_level);
			}
			else
			else if( strstr(cmd, "off") )
			{
			gpiod_line_set_value(s_gpio->output[i].lines, !s_gpio->output[i].active_level);
			gpiod_line_set_value(s_gpio->output[i].line, !s_gpio->output[i].active_level);
			}

			return ;
			}

			#define MS_NANOSEC (110001000)

			#if 0
			/* Return value: 1(HIGH): Sombody detected 0(LOW): Nobody detected */
			int infrared_detect(void)
			/* Return value: 0(LOW): Nobody detected, !0: indoor or hallway detected */
			int infrared_detect(int interval)
			{
			int i;
			int rv = 0;
			int res = 0;
			struct gpiod_line_event event;
			int event_type;
			struct timespec ts = { 0, intervalMS_NANOSEC }; / second and nanoseconds, */

			/* This function will block, must call it to setup */
			if( gpiod_line_event_wait(s_infrared_lines, NULL) < 0 )
			for(i=0; i<s_gpio->incnt; i++)
			{
			//log_err("infrared gpiod line wait event failure!\n");
			return 0;
			if( strstr(s_gpio->input[i].name, "infrared"))
			{
			/* This function will block, must call it to setup */
			rv = gpiod_line_event_wait(s_gpio->input[i].line, &ts);
			if( rv < 0 )
			{
			//log_err("infrared gpiod line wait[%s] event failure!\n", s_gpio->input[i].name);
			return 0;
			}
			else if( rv == 0 )
			{
			//log_dbg("infrared gpiod line[%s] wait event timeout\n", s_gpio->input[i].name);
			continue;
			}

			/* Must read to clear the event */
			rv = gpiod_line_event_read(s_gpio->input[i].line, &event);

			event_type = s_gpio->input[i].active_level? GPIOD_LINE_EVENT_RISING_EDGE : GPIOD_LINE_EVENT_FALLING_EDGE;

			if ( event.event_type == event_type )
			{
			if( strstr(s_gpio->input[i].name, "indoor") )
			{
			res \|= FLAG_INFRARED_INDOOR;
			}
			else if( strstr(s_gpio->input[i].name, "hallway") )
			{
			res \|= FLAG_INFRARED_HALLWAY;
			}
			}

			}
			}

			/* This function will block, must read to clear the event */
			if (gpiod_line_event_read(s_infrared_lines, &event) < 0)
			{
			log_err("gpiod line event read failure!\n");
			return 0;
			}

			if (event.event_type == GPIOD_LINE_EVENT_RISING_EDGE)
			return 1;
			else
			return 0;
			return res;
			}

			#endif