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 official
Warning!
This library is unable to work due to huge changes in the mbed toolchain. Do not use with mbed online!
New wersion:
Import librarymbed-STM32F103C8
Modification of Mbed-dev library for LQFP48 package microcontrollers: STM32F103C8 (STM32F103C8T6) and STM32F103CB (STM32F103CBT6) (Bluepill boards, Maple mini etc. )
Last commit 27 Apr 2017 by 
Nothing Special
Import librarymbed-STM32F103C8
Modification of Mbed-dev library for LQFP48 package microcontrollers: STM32F103C8 (STM32F103C8T6) and STM32F103CB (STM32F103CBT6) (Bluepill boards, Maple mini etc. )
Last commit 27 Apr 2017 by 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 clock (mbed 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)
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
api/CThunk.h
- Committer:
- mega64
- Date:
- 2016-08-29
- Revision:
- 145:54b3c5994df6
- Parent:
- 119:3921aeca8633
File content as of revision 145:54b3c5994df6:
/* General C++ Object Thunking class
*
* - allows direct callbacks to non-static C++ class functions
* - keeps track for the corresponding class instance
* - supports an optional context parameter for the called function
* - ideally suited for class object receiving interrupts (NVIC_SetVector)
*
* Copyright (c) 2014-2015 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 __CTHUNK_H__
#define __CTHUNK_H__
#define CTHUNK_ADDRESS 1
#if (defined(__CORTEX_M3) || defined(__CORTEX_M4) || defined(__thumb2__)) && ! defined(__CORTEX_A9)
#define CTHUNK_VARIABLES volatile uint32_t code[1]
/**
* CTHUNK disassembly for Cortex-M3/M4 (thumb2):
* * ldm.w pc,{r0,r1,r2,pc}
*
* This instruction loads the arguments for the static thunking function to r0-r2, and
* branches to that function by loading its address into PC.
*
* This is safe for both regular calling and interrupt calling, since it only touches scratch registers
* which should be saved by the caller, and are automatically saved as part of the IRQ context switch.
*/
#define CTHUNK_ASSIGMENT m_thunk.code[0] = 0x8007E89F
#elif defined(__CORTEX_M0PLUS) || defined(__CORTEX_M0) || defined(__CORTEX_A9)
/*
* CTHUNK disassembly for Cortex M0 (thumb):
* * push {r0,r1,r2,r3,r4,lr} save touched registers and return address
* * movs r4,#4 set up address to load arguments from (immediately following this code block) (1)
* * add r4,pc set up address to load arguments from (immediately following this code block) (2)
* * ldm r4!,{r0,r1,r2,r3} load arguments for static thunk function
* * blx r3 call static thunk function
* * pop {r0,r1,r2,r3,r4,pc} restore scratch registers and return from function
*/
#define CTHUNK_VARIABLES volatile uint32_t code[3]
#define CTHUNK_ASSIGMENT do { \
m_thunk.code[0] = 0x2404B51F; \
m_thunk.code[1] = 0xCC0F447C; \
m_thunk.code[2] = 0xBD1F4798; \
} while (0)
#else
#error "Target is not currently suported."
#endif
/* IRQ/Exception compatible thunk entry function */
typedef void (*CThunkEntry)(void);
template<class T>
class CThunk
{
public:
typedef void (T::*CCallbackSimple)(void);
typedef void (T::*CCallback)(void* context);
inline CThunk(T *instance)
{
init(instance, NULL, NULL);
}
inline CThunk(T *instance, CCallback callback)
{
init(instance, callback, NULL);
}
~CThunk() {
}
inline CThunk(T *instance, CCallbackSimple callback)
{
init(instance, (CCallback)callback, NULL);
}
inline CThunk(T &instance, CCallback callback)
{
init(instance, callback, NULL);
}
inline CThunk(T &instance, CCallbackSimple callback)
{
init(instance, (CCallback)callback, NULL);
}
inline CThunk(T &instance, CCallback callback, void* context)
{
init(instance, callback, context);
}
inline void callback(CCallback callback)
{
m_callback = callback;
}
inline void callback(CCallbackSimple callback)
{
m_callback = (CCallback)callback;
}
inline void context(void* context)
{
m_thunk.context = (uint32_t)context;
}
inline void context(uint32_t context)
{
m_thunk.context = context;
}
inline uint32_t entry(void)
{
return (((uint32_t)&m_thunk)|CTHUNK_ADDRESS);
}
/* get thunk entry point for connecting rhunk to an IRQ table */
inline operator CThunkEntry(void)
{
return (CThunkEntry)entry();
}
/* get thunk entry point for connecting rhunk to an IRQ table */
inline operator uint32_t(void)
{
return entry();
}
/* simple test function */
inline void call(void)
{
(((CThunkEntry)(entry()))());
}
private:
T* m_instance;
volatile CCallback m_callback;
// TODO: this needs proper fix, to refactor toolchain header file and all its use
// PACKED there is not defined properly for IAR
#if defined (__ICCARM__)
typedef __packed struct
{
CTHUNK_VARIABLES;
volatile uint32_t instance;
volatile uint32_t context;
volatile uint32_t callback;
volatile uint32_t trampoline;
} CThunkTrampoline;
#else
typedef struct
{
CTHUNK_VARIABLES;
volatile uint32_t instance;
volatile uint32_t context;
volatile uint32_t callback;
volatile uint32_t trampoline;
} __attribute__((__packed__)) CThunkTrampoline;
#endif
static void trampoline(T* instance, void* context, CCallback* callback)
{
if(instance && *callback) {
(static_cast<T*>(instance)->**callback)(context);
}
}
volatile CThunkTrampoline m_thunk;
inline void init(T *instance, CCallback callback, void* context)
{
/* remember callback - need to add this level of redirection
as pointer size for member functions differs between platforms */
m_callback = callback;
/* populate thunking trampoline */
CTHUNK_ASSIGMENT;
m_thunk.context = (uint32_t)context;
m_thunk.instance = (uint32_t)instance;
m_thunk.callback = (uint32_t)&m_callback;
m_thunk.trampoline = (uint32_t)&trampoline;
#if defined(__CORTEX_A9)
/* Data cache clean */
/* Cache control */
{
uint32_t start_addr = (uint32_t)&m_thunk & 0xFFFFFFE0;
uint32_t end_addr = (uint32_t)&m_thunk + sizeof(m_thunk);
uint32_t addr;
/* Data cache clean and invalid */
for (addr = start_addr; addr < end_addr; addr += 0x20) {
__v7_clean_inv_dcache_mva((void *)addr);
}
/* Instruction cache invalid */
__v7_inv_icache_all();
__ca9u_inv_tlb_all();
__v7_inv_btac();
}
#endif
__ISB();
__DSB();
}
};
#endif/*__CTHUNK_H__*/