Difference between revisions of "ABI"
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== Code generation == | == Code generation == | ||
The generated code will be in var/include/abi_messages.h and include some structure definition from sw/airborne/ | The generated code will be in var/include/abi_messages.h and include some structure definition from sw/airborne/modules/core/abi_common.h (sw/airborne/modules/core/abi.h is a convenience header that only includes var/include/abi_messages.h). Bind and Send functions are generated, as well as callback type definition. A linked list is used to store the binded callbacks for each message. The head of the list is in an array to allow a fast access. | ||
// Code in abi_common.h | // Code in abi_common.h | ||
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// Code generated in var/include/abi_messages.h | // Code generated in var/include/abi_messages.h | ||
#include " | #include "modules/core/abi_common.h" | ||
// Message IDs | // Message IDs | ||
#define DATA_ID 0 | #define DATA_ID 0 | ||
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#define ABI_C 1 | #define ABI_C 1 | ||
#include " | #include "modules/core/abi.h" | ||
== Airborne code for subscriber == | == Airborne code for subscriber == | ||
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Include header and declare an abi_event as a global variable. Write the callback function with the proper prototype. | Include header and declare an abi_event as a global variable. Write the callback function with the proper prototype. | ||
#include " | #include "modules/core/abi.h" | ||
abi_event ev; | abi_event ev; | ||
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Include header of course. | Include header of course. | ||
#include " | #include "modules/core/abi.h" | ||
In any function, call the send function. Sender id 0 is reserved (broadcast address). | In any function, call the send function. Sender id 0 is reserved (broadcast address). |
Latest revision as of 00:37, 13 April 2022
This page presents some idea for an embedded middleware named ABI based on publish/subscribe like Ivy.
General idea
- Give an easy way to allow software components to exchange data with minimum delay nor execution overhead.
- The components don't need to know each other, they only need the message format.
- Each subscriber set a callback function that will be called when new data are sent.
Implementation
Message definition
The messages are described in conf/abi.xml analoguous to other messages in paparazzi. Name are unique, IDs starts from 0. "type" field should be a real C type. Field name might be useless.
<class name="airborne"> <message name="DATA" id="0"> <field name="a" type="float"/> <field name="b" type="struct bla"/> </message> ... </class>
Code generation
The generated code will be in var/include/abi_messages.h and include some structure definition from sw/airborne/modules/core/abi_common.h (sw/airborne/modules/core/abi.h is a convenience header that only includes var/include/abi_messages.h). Bind and Send functions are generated, as well as callback type definition. A linked list is used to store the binded callbacks for each message. The head of the list is in an array to allow a fast access.
// Code in abi_common.h // Here, include header custom structures you may want to use in ABI messages // Default is to include pprz algebra libraries typedef void (*abi_callback)(void); // Generic callback definition struct _abi_event_struct { uint8_t id; abi_callback cb; struct _abi_event_struct * next; }; typedef struct _abi_event_struct abi_event; #ifdef ABI_C #define ABI_EXTERN #else #define ABI_EXTERN extern #endif #define ABI_FOREACH(head,el) for(el=head; el; el=el->next) #define ABI_PREPEND(head,new) { (add)->next = head; head = add; }
// Code generated in var/include/abi_messages.h #include "modules/core/abi_common.h" // Message IDs #define DATA_ID 0 // Callbacks typedef void (*abi_callbackDATA)(uint8_t sender_id, const float * a, const struct bla * b); // Specific callback for DATA message (arguments are const to prevent modifying them) // Array and linked list #define ABI_MESSAGE_NB <highest id of the messages in airborne class + 1> EXTERN abi_event abi_queues[ABI_MESSAGE_NB]; // Magic trick to avoid generating .c file // Bind and Send for each messages static inline void AbiBindMsgDATA(uint8_t sender_id, abi_event * ev, abi_callbackDATA cb) { ev->id = sender_id; // Store sender ID ev->cb = (abi_callback)cb; // Store callback ABI_PREPEND(abi_queues[DATA_ID],ev); // add to the head of the list (because I'm lazy) } static inline void AbiSendMsgDATA(uint8_t sender_id, const float * a, const struct bla * b) { // Call all callback functions abi_event* e; ABI_FOREACH(abi_queues[DATA_ID],e) { if (e->id == ABI_BROADCAST || e->id == sender_id) { // call function only if selected source or broadcast address abi_callbackDATA cb = (abi_callbackDATA)(e->cb); // C black magic cb(sender_id, a, b); } } }
Airborne code for main AP
This part of the code should be written and called only once in a .c file (like main.c, but it can be somewhere else)
#define ABI_C 1 #include "modules/core/abi.h"
Airborne code for subscriber
Include header and declare an abi_event as a global variable. Write the callback function with the proper prototype.
#include "modules/core/abi.h" abi_event ev; void data_cb(uint8_t sender_id, const float * a, const struct bla * b) { // do something here }
In the initialization function (or later) call the binding functions for the message you want to receive. ABI_BROADCAST is a macro equals to 0 and is used as a broadcast address, which means that input values will be received from all sources for this message.
AbiBindMsgDATA(ABI_BROADCAST, &ev, data_cb);
Airborne code for publisher
Include header of course.
#include "modules/core/abi.h"
In any function, call the send function. Sender id 0 is reserved (broadcast address).
#define SENDER_ID 1 float var = 2.; struct bla s; AbiSendMsgDATA(SENDER_ID, &var, &s);
That's it !