Controller Area Network library for NUCLEO boards equipped with CAN peripheral.
Dependents: Nucleo-Courtois CANBLE CANnucleo_Hello3 Nucleo_Serialprintf ... more
Controller Area Network library for the NUCLEO and DISCOVERY boards equipped with CAN peripheral
Information
Because CAN support has been finally implemented into the mbed library also for the ST boards there is no need to use the CANnucleo library anymore (however you may if you want). The CAN_Hello example is trying to demonstrate the mbed built-in CAN API with NUCLEO boards.
Provides CAN support for the following boards:
- NUCLEO-F072RB
- NUCLEO-F091RC
- NUCLEO-F103RB
- NUCLEO-F302R8
- NUCLEO-F303RE
- NUCLEO-F303K8
- NUCLEO-F334R8
- DISCO-F334C8
- NUCLEO-F446RE
- STM32F103C8T6
- Maple Mini
with the following features:
- Easy to use. Delete the mbed library from your project and import the latest mbed-dev and CANnucleo libraries. In the mbed-dev library open the device.h file associated with the selected target board and add
#undef DEVICE_CAN
as follows:
device.h
#ifndef MBED_DEVICE_H #define MBED_DEVICE_H //======================================= #define DEVICE_ID_LENGTH 24 #undef DEVICE_CAN #include "objects.h" #endif
See the CANnucleo_Hello demo for more details.
- Automatic recovery from bus-off state can be enabled/disabled in the constructor (defaults to ENABLE).
- Up to 14 filters (0 - 13) are available for the application to set up for message filtering performed by hardware.
For more details see below or have a look at the comments in CANnucleo.cpp. - One CAN channel per NUCLEO board is supported. The CAN peripheral can be connected either to pins PA_11, PA_12 (Receiver, Transmitter) or to pins PB_8, PB_9 (Receiver, Transmitter). This is configured when creating a CAN instance.
- Simplifies adding/getting data to/from a CAN message by using the << (append) and the >> (extract) operators.
Import programCANnucleo_Hello
Using CAN bus with NUCLEO boards (Demo for the CANnucleo library).
Filtering performed by the built-in CAN controller without disturbing the CPU
CANnucleo supports only mask mode and 32-bit filter scale. Identifier list mode filtering and 16-bit filter scale are not supported. There are 14 filters available (0 - 13) for the application to set up. Each filter is a 32-bit filter defined by a filter ID and a filter mask. If no filter is set up then no CAN message is accepted! That's why filter #0 is set up in the constructor to accept all CAN messages by default. On reception of a message it is compared with filter #0. If there is a match, the message is accepted and stored. If there is no match, the incoming identifier is then compared with the next filter. If the received identifier does not match any of the identifiers configured in the filters, the message is discarded by hardware without disturbing the software.
CAN filter function - designed to setup a CAN filter
int CAN::filter(unsigned int id, unsigned int mask, CANFormat format, int handle)
Parameters
id - 'Filter ID' defines the bit values to be compared with the corresponding received bits.
Mapping of 32-bits (4-bytes) :
STID[10:3] | STID[2:0] EXID[17:13] | EXID[12:5] | EXID[4:0] IDE RTR 0 |
- STID - Stardard Identifier bits
- EXID - Extended Identifier bits
- [x:y]- bit range
- IDE - Identifier Extension bit (0 -> Standard Identifier, 1 -> Extended Identifier)
- RTR - Remote Transmission Request bit (0 -> Remote Transmission Request, 1 -> Standard message)
mask - 'Filter mask' defines which bits of the 'Filter ID' are compared with the received bits and which are disregarded.
Mapping of 32-bits (4-bytes) :
STID[10:3] | STID[2:0] EXID[17:13] | EXID[12:5] | EXID[4:0] IDE RTR 0 |
- STID - Stardard Identifier bits
- EXID - Extended Identifier bits
- [x:y]- bit range
- IDE - Identifier Extension bit
- RTR - Remote Transmission Request bit
- 1 -> bit is considered
- 0 -> bit is disregarded
format - This parameter must be CANAny
handle - Selects the filter. This parameter must be a number between 0
and 13
.
retval - 0
- successful, 1
- error, 2
- busy, 3
- time out
Example of filter set up and filtering
Let's assume we would like to accept only messages with standard identifier 0x207:
STID[15:0] = 0x207 = 00000010 00000111
We map the STID to filter ID by shifting the bits adequately:
Filter ID = STID << (16 + (15 - 10)) = STID << 21 = 01000000 11100000 00000000 00000000
To compare only the bits representing STID we set the filter mask appropriately:
Filter mask = 11111111 11100000 00000000 00000100 = 0xFFE00004 |||||||| ||| | -------- --- | | | | STID[10:3] STID[2:0] IDE
Recall that filter #0 has been set up in the constructor to accept all CAN messages by default. So we have to reconfigure it. If we were set up filter #1 here then filter #0 would accept all the messages and no message would reach filter #1!
To reconfigure (set up) filter #0 we call:
can.filter(0x207 << 21, 0xFFE00004, CANAny, 0);
Only these bits of 'Filter id' (set to 1 here in 'Filter mask') are compared with the corresponding bits of received message (the others are disregarded) | --------------------------------- |||||||| ||| | Filter mask = 11111111 11100000 00000000 00000100 (= 0xFFE00004) Filter id = 01000000 11100000 00000000 00000000 (= 0x40E00000) |||||||| ||| | --------------------------------- | To accept the message the values of these bits must match. Otherwise the message is passed to the next filter or discarded if this was the last active filter. | --------------------------------- |||||||| ||| | Received id = 01000000 11100000 00000000 00000010 (= 0x40E00002) ||||| |||||||| ||||| || ----------------------- | These bits (set to 0 in 'Filter mask') are disregarded (masked). They can have arbitrary values.
NOTE: For the meaning of individual bits see the mapping of 32-bits explained above.
We can use the filter
function to setup more (up to 14) CAN filters for example as follows:
can.filter(0x207 << 21, 0xFFE00004, CANAny, 0); // filter #0 can.filter(0x251 << 21, 0xFFE00004, CANAny, 1); // filter #1 can.filter(0x304 << 21, 0xFFE00004, CANAny, 2); // filter #2 ...
History
Updated.
2017-05-28, by hudakz [Sun, 28 May 2017 09:18:54 +0000] rev 29
Updated.
Updated.
2017-03-11, by hudakz [Sat, 11 Mar 2017 10:13:27 +0000] rev 28
Updated.
Updated.
2017-03-07, by hudakz [Tue, 07 Mar 2017 18:51:35 +0000] rev 27
Updated.
CAN speed corrected for NUCLEO-F303K8.
2016-12-25, by hudakz [Sun, 25 Dec 2016 21:08:30 +0000] rev 26
CAN speed corrected for NUCLEO-F303K8.
CAN speed corrected for NUCLEO-F303K8.
2016-12-25, by hudakz [Sun, 25 Dec 2016 14:03:41 +0000] rev 25
CAN speed corrected for NUCLEO-F303K8.
Updated.
2016-08-16, by hudakz [Tue, 16 Aug 2016 21:09:11 +0000] rev 24
Updated.
Updated.
2016-08-13, by hudakz [Sat, 13 Aug 2016 12:44:12 +0000] rev 23
Updated.
CAN and CANMessage moved into CANnucleo namespace.
2016-08-10, by hudakz [Wed, 10 Aug 2016 18:21:09 +0000] rev 22
CAN and CANMessage moved into CANnucleo namespace.
Updated
2016-07-23, by hudakz [Sat, 23 Jul 2016 08:28:31 +0000] rev 21
Updated
Added support for attaching member functions as interrupt handlers.
2016-05-19, by hudakz [Thu, 19 May 2016 17:16:59 +0000] rev 20
Added support for attaching member functions as interrupt handlers.