px4-firmware/apps/uORB/uORB.h

264 lines
9.9 KiB
C

/****************************************************************************
*
* Copyright (C) 2012 PX4 Development Team. All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
*
* 1. Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* 2. Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in
* the documentation and/or other materials provided with the
* distribution.
* 3. Neither the name PX4 nor the names of its contributors may be
* used to endorse or promote products derived from this software
* without specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
* "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
* LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS
* FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE
* COPYRIGHT OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT,
* INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING,
* BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS
* OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED
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*
****************************************************************************/
#ifndef _UORB_UORB_H
#define _UORB_UORB_H
/**
* @file API for the uORB lightweight object broker.
*/
#include <sys/types.h>
#include <stdint.h>
#include <stdbool.h>
// Hack until parameter storage is cleaned up
#include "parameter_storage.h"
// Hack until everything is using this header
#include <systemlib/visibility.h>
/**
* Object metadata.
*/
struct orb_metadata {
const char *o_name; /**< unique object name */
const size_t o_size; /**< object size */
};
/**
* Generates a pointer to the uORB metadata structure for
* a given topic.
*
* The topic must have been declared previously in scope
* with ORB_DECLARE().
*
* @param _name The name of the topic.
*/
#define ORB_ID(_name) &__orb_##_name
/**
* Declare (prototype) the uORB metadata for a topic.
*
* Note that optional topics are declared weak; this allows a potential
* subscriber to attempt to subscribe to a topic that is not known to the
* system at runtime. The ORB_ID() macro will return NULL/nullptr for
* such a topic, and attempts to advertise or subscribe to it will
* return -1/ENOENT (see below).
*
* @param _name The name of the topic.
*/
#if defined(__cplusplus)
# define ORB_DECLARE(_name) extern "C" const struct orb_metadata __orb_##_name __EXPORT
# define ORB_DECLARE_OPTIONAL(_name) extern "C" const struct orb_metadata __orb_##_name __EXPORT __attribute__((weak))
#else
# define ORB_DECLARE(_name) extern const struct orb_metadata __orb_##_name __EXPORT
# define ORB_DECLARE_OPTIONAL(_name) extern const struct orb_metadata __orb_##_name __EXPORT __attribute__((weak))
#endif
/**
* Define (instantiate) the uORB metadata for a topic.
*
* The uORB metadata is used to help ensure that updates and
* copies are accessing the right data.
*
* Note that there must be no more than one instance of this macro
* for each topic.
*
* @param _name The name of the topic.
* @param _struct The structure the topic provides.
*/
#define ORB_DEFINE(_name, _struct) \
const struct orb_metadata __orb_##_name = { \
#_name, \
sizeof(_struct) \
}; struct hack
__BEGIN_DECLS
/**
* ORB topic advertiser handle.
*
* Advertiser handles are global; once obtained they can be shared freely
* and do not need to be closed or released.
*
* This permits publication from interrupt context and other contexts where
* a file-descriptor-based handle would not otherwise be in scope for the
* publisher.
*/
typedef intptr_t orb_advert_t;
/**
* Advertise as the publisher of a topic.
*
* This performs the initial advertisement of a topic; it creates the topic
* node in /obj if required and publishes the initial data.
*
* Any number of advertisers may publish to a topic; publications are atomic
* but co-ordination between publishers is not provided by the ORB.
*
* @param meta The uORB metadata (usually from the ORB_ID() macro)
* for the topic.
* @param data A pointer to the initial data to be published.
* For topics updated by interrupt handlers, the advertisement
* must be performed from non-interrupt context.
* @return ERROR on error, otherwise returns a handle
* that can be used to publish to the topic.
* If the topic in question is not known (due to an
* ORB_DEFINE with no corresponding ORB_DECLARE)
* this function will return -1 and set errno to ENOENT.
*/
extern orb_advert_t orb_advertise(const struct orb_metadata *meta, const void *data) __EXPORT;
/**
* Publish new data to a topic.
*
* The data is atomically published to the topic and any waiting subscribers
* will be notified. Subscribers that are not waiting can check the topic
* for updates using orb_check and/or orb_stat.
*
* @param meta The uORB metadata (usually from the ORB_ID() macro)
* for the topic.
* @handle The handle returned from orb_advertise.
* @param data A pointer to the data to be published.
* @return OK on success, ERROR otherwise with errno set accordingly.
*/
extern int orb_publish(const struct orb_metadata *meta, orb_advert_t handle, const void *data) __EXPORT;
/**
* Subscribe to a topic.
*
* The returned value is a file descriptor that can be passed to poll()
* in order to wait for updates to a topic, as well as topic_read,
* orb_check and orb_stat.
*
* Subscription will succeed even if the topic has not been advertised;
* in this case the topic will have a timestamp of zero, it will never
* signal a poll() event, checking will always return false and it cannot
* be copied. When the topic is subsequently advertised, poll, check,
* stat and copy calls will react to the initial publication that is
* performed as part of the advertisement.
*
* Subscription will fail if the topic is not known to the system, i.e.
* there is nothing in the system that has declared the topic and thus it
* can never be published.
*
* @param meta The uORB metadata (usually from the ORB_ID() macro)
* for the topic.
* @return ERROR on error, otherwise returns a handle
* that can be used to read and update the topic.
* If the topic in question is not known (due to an
* ORB_DEFINE_OPTIONAL with no corresponding ORB_DECLARE)
* this function will return -1 and set errno to ENOENT.
*/
extern int orb_subscribe(const struct orb_metadata *meta) __EXPORT;
/**
* Unsubscribe from a topic.
*
* @param handle A handle returned from orb_subscribe.
* @return OK on success, ERROR otherwise with errno set accordingly.
*/
extern int orb_unsubscribe(int handle) __EXPORT;
/**
* Fetch data from a topic.
*
* This is the only operation that will reset the internal marker that
* indicates that a topic has been updated for a subscriber. Once poll
* or check return indicating that an updaet is available, this call
* must be used to update the subscription.
*
* @param meta The uORB metadata (usually from the ORB_ID() macro)
* for the topic.
* @param handle A handle returned from orb_subscribe.
* @param buffer Pointer to the buffer receiving the data, or NULL
* if the caller wants to clear the updated flag without
* using the data.
* @return OK on success, ERROR otherwise with errno set accordingly.
*/
extern int orb_copy(const struct orb_metadata *meta, int handle, void *buffer) __EXPORT;
/**
* Check whether a topic has been published to since the last orb_copy.
*
* This check can be used to determine whether to copy the topic when
* not using poll(), or to avoid the overhead of calling poll() when the
* topic is likely to have updated.
*
* Updates are tracked on a per-handle basis; this call will continue to
* return true until orb_copy is called using the same handle. This interface
* should be preferred over calling orb_stat due to the race window between
* stat and copy that can lead to missed updates.
*
* @param handle A handle returned from orb_subscribe.
* @param updated Set to true if the topic has been updated since the
* last time it was copied using this handle.
* @return OK if the check was successful, ERROR otherwise with
* errno set accordingly.
*/
extern int orb_check(int handle, bool *updated) __EXPORT;
/**
* Return the last time that the topic was updated.
*
* @param handle A handle returned from orb_subscribe.
* @param time Returns the absolute time that the topic was updated, or zero if it has
* never been updated. Time is measured in microseconds.
* @return OK on success, ERROR otherwise with errno set accordingly.
*/
extern int orb_stat(int handle, uint64_t *time) __EXPORT;
/**
* Set the minimum interval between which updates are seen for a subscription.
*
* If this interval is set, the subscriber will not see more than one update
* within the period.
*
* Specifically, the first time an update is reported to the subscriber a timer
* is started. The update will continue to be reported via poll and orb_check, but
* once fetched via orb_copy another update will not be reported until the timer
* expires.
*
* This feature can be used to pace a subscriber that is watching a topic that
* would otherwise update too quickly.
*
* @param handle A handle returned from orb_subscribe.
* @param interval An interval period in milliseconds.
* @return OK on success, ERROR otherwise with ERRNO set accordingly.
*/
extern int orb_set_interval(int handle, unsigned interval) __EXPORT;
__END_DECLS
#endif /* _UORB_UORB_H */