Nothing Special
Modification of Mbed-dev library for LQFP48 package microcontrollers: STM32F103C8 (STM32F103C8T6) and STM32F103CB (STM32F103CBT6) (Bluepill boards, Maple mini etc. )
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mbed-STM32F103C8_org
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Nothing Special
Library for STM32F103C8 (Bluepill boards etc.).
Use this instead of mbed library.
This library allows the size of the code in the FLASH up to 128kB. Therefore, code also runs on microcontrollers STM32F103CB (eg. Maple mini).
But in the case of STM32F103C8, check the size of the resulting code would not exceed 64kB.
To compile a program with this library, use NUCLEO-F103RB as the target name. !
Changes:
- Corrected initialization of the HSE + crystal clock (mbed permanent bug), allowing the use of on-board xtal (8MHz).(1)
- Additionally, it also set USB clock (48Mhz).(2)
- Definitions of pins and peripherals adjusted to LQFP48 case.
- Board led LED1 is now PC_13 (3)
- USER_BUTTON is now PC_14 (4)
Now the library is complete rebuilt based on mbed-dev v160 (and not yet fully tested).
notes
(1) - In case 8MHz xtal on board, CPU frequency is 72MHz. Without xtal is 64MHz.
(2) - Using the USB interface is only possible if STM32 is clocking by on-board 8MHz xtal or external clock signal 8MHz on the OSC_IN pin.
(3) - On Bluepill board led operation is reversed, i.e. 0 - led on, 1 - led off.
(4) - Bluepill board has no real user button
Information
After export to SW4STM (AC6):
- add line
#include "mbed_config.h"in files Serial.h and RawSerial.h - in project properties change
Optimisation LeveltoOptimise for size (-Os)
drivers/CAN.h
- Committer:
- mega64
- Date:
- 2017-04-27
- Revision:
- 148:8b0b02bf146f
- Parent:
- 146:03e976389d16
File content as of revision 148:8b0b02bf146f:
/* mbed Microcontroller Library
* Copyright (c) 2006-2013 ARM Limited
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
#ifndef MBED_CAN_H
#define MBED_CAN_H
#include "platform/platform.h"
#if DEVICE_CAN
#include "hal/can_api.h"
#include "platform/Callback.h"
#include "platform/PlatformMutex.h"
namespace mbed {
/** \addtogroup drivers */
/** @{*/
/** CANMessage class
*
* @Note Synchronization level: Thread safe
*/
class CANMessage : public CAN_Message {
public:
/** Creates empty CAN message.
*/
CANMessage() : CAN_Message() {
len = 8;
type = CANData;
format = CANStandard;
id = 0;
memset(data, 0, 8);
}
/** Creates CAN message with specific content.
*/
CANMessage(int _id, const char *_data, char _len = 8, CANType _type = CANData, CANFormat _format = CANStandard) {
len = _len & 0xF;
type = _type;
format = _format;
id = _id;
memcpy(data, _data, _len);
}
/** Creates CAN remote message.
*/
CANMessage(int _id, CANFormat _format = CANStandard) {
len = 0;
type = CANRemote;
format = _format;
id = _id;
memset(data, 0, 8);
}
};
/** A can bus client, used for communicating with can devices
*/
class CAN {
public:
/** Creates an CAN interface connected to specific pins.
*
* @param rd read from transmitter
* @param td transmit to transmitter
*
* Example:
* @code
* #include "mbed.h"
*
* Ticker ticker;
* DigitalOut led1(LED1);
* DigitalOut led2(LED2);
* CAN can1(p9, p10);
* CAN can2(p30, p29);
*
* char counter = 0;
*
* void send() {
* if(can1.write(CANMessage(1337, &counter, 1))) {
* printf("Message sent: %d\n", counter);
* counter++;
* }
* led1 = !led1;
* }
*
* int main() {
* ticker.attach(&send, 1);
* CANMessage msg;
* while(1) {
* if(can2.read(msg)) {
* printf("Message received: %d\n\n", msg.data[0]);
* led2 = !led2;
* }
* wait(0.2);
* }
* }
* @endcode
*/
CAN(PinName rd, PinName td);
virtual ~CAN();
/** Set the frequency of the CAN interface
*
* @param hz The bus frequency in hertz
*
* @returns
* 1 if successful,
* 0 otherwise
*/
int frequency(int hz);
/** Write a CANMessage to the bus.
*
* @param msg The CANMessage to write.
*
* @returns
* 0 if write failed,
* 1 if write was successful
*/
int write(CANMessage msg);
/** Read a CANMessage from the bus.
*
* @param msg A CANMessage to read to.
* @param handle message filter handle (0 for any message)
*
* @returns
* 0 if no message arrived,
* 1 if message arrived
*/
int read(CANMessage &msg, int handle = 0);
/** Reset CAN interface.
*
* To use after error overflow.
*/
void reset();
/** Puts or removes the CAN interface into silent monitoring mode
*
* @param silent boolean indicating whether to go into silent mode or not
*/
void monitor(bool silent);
enum Mode {
Reset = 0,
Normal,
Silent,
LocalTest,
GlobalTest,
SilentTest
};
/** Change CAN operation to the specified mode
*
* @param mode The new operation mode (CAN::Normal, CAN::Silent, CAN::LocalTest, CAN::GlobalTest, CAN::SilentTest)
*
* @returns
* 0 if mode change failed or unsupported,
* 1 if mode change was successful
*/
int mode(Mode mode);
/** Filter out incomming messages
*
* @param id the id to filter on
* @param mask the mask applied to the id
* @param format format to filter on (Default CANAny)
* @param handle message filter handle (Optional)
*
* @returns
* 0 if filter change failed or unsupported,
* new filter handle if successful
*/
int filter(unsigned int id, unsigned int mask, CANFormat format = CANAny, int handle = 0);
/** Returns number of read errors to detect read overflow errors.
*/
unsigned char rderror();
/** Returns number of write errors to detect write overflow errors.
*/
unsigned char tderror();
enum IrqType {
RxIrq = 0,
TxIrq,
EwIrq,
DoIrq,
WuIrq,
EpIrq,
AlIrq,
BeIrq,
IdIrq,
IrqCnt
};
/** Attach a function to call whenever a CAN frame received interrupt is
* generated.
*
* @param func A pointer to a void function, or 0 to set as none
* @param event Which CAN interrupt to attach the member function to (CAN::RxIrq for message received, CAN::TxIrq for transmitted or aborted, CAN::EwIrq for error warning, CAN::DoIrq for data overrun, CAN::WuIrq for wake-up, CAN::EpIrq for error passive, CAN::AlIrq for arbitration lost, CAN::BeIrq for bus error)
*/
void attach(Callback<void()> func, IrqType type=RxIrq);
/** Attach a member function to call whenever a CAN frame received interrupt
* is generated.
*
* @param obj pointer to the object to call the member function on
* @param method pointer to the member function to be called
* @param event Which CAN interrupt to attach the member function to (CAN::RxIrq for message received, TxIrq for transmitted or aborted, EwIrq for error warning, DoIrq for data overrun, WuIrq for wake-up, EpIrq for error passive, AlIrq for arbitration lost, BeIrq for bus error)
*/
template<typename T>
void attach(T* obj, void (T::*method)(), IrqType type=RxIrq) {
// Underlying call thread safe
attach(Callback<void()>(obj, method), type);
}
/** Attach a member function to call whenever a CAN frame received interrupt
* is generated.
*
* @param obj pointer to the object to call the member function on
* @param method pointer to the member function to be called
* @param event Which CAN interrupt to attach the member function to (CAN::RxIrq for message received, TxIrq for transmitted or aborted, EwIrq for error warning, DoIrq for data overrun, WuIrq for wake-up, EpIrq for error passive, AlIrq for arbitration lost, BeIrq for bus error)
*/
template<typename T>
void attach(T* obj, void (*method)(T*), IrqType type=RxIrq) {
// Underlying call thread safe
attach(Callback<void()>(obj, method), type);
}
static void _irq_handler(uint32_t id, CanIrqType type);
protected:
virtual void lock();
virtual void unlock();
can_t _can;
Callback<void()> _irq[IrqCnt];
PlatformMutex _mutex;
};
} // namespace mbed
#endif
#endif // MBED_CAN_H
/** @}*/