The prosthetic control - The prosthetic control（MIT）

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The prosthetic control（MIT）

targets/TARGET_STM/i2c_api.c@0:20e0c61e0684, 2022-06-23 (annotated)

Committer:: ganlikun
Date:: Thu Jun 23 05:23:34 2022 +0000
Revision:: 0:20e0c61e0684

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User	Revision	Line number	New contents of line
ganlikun	0:20e0c61e0684	1	/* mbed Microcontroller Library
ganlikun	0:20e0c61e0684	2	*******************************************************************************
ganlikun	0:20e0c61e0684	3	* Copyright (c) 2015, STMicroelectronics
ganlikun	0:20e0c61e0684	4	* All rights reserved.
ganlikun	0:20e0c61e0684	5	*
ganlikun	0:20e0c61e0684	6	* Redistribution and use in source and binary forms, with or without
ganlikun	0:20e0c61e0684	7	* modification, are permitted provided that the following conditions are met:
ganlikun	0:20e0c61e0684	8	*
ganlikun	0:20e0c61e0684	9	* 1. Redistributions of source code must retain the above copyright notice,
ganlikun	0:20e0c61e0684	10	* this list of conditions and the following disclaimer.
ganlikun	0:20e0c61e0684	11	* 2. Redistributions in binary form must reproduce the above copyright notice,
ganlikun	0:20e0c61e0684	12	* this list of conditions and the following disclaimer in the documentation
ganlikun	0:20e0c61e0684	13	* and/or other materials provided with the distribution.
ganlikun	0:20e0c61e0684	14	* 3. Neither the name of STMicroelectronics nor the names of its contributors
ganlikun	0:20e0c61e0684	15	* may be used to endorse or promote products derived from this software
ganlikun	0:20e0c61e0684	16	* without specific prior written permission.
ganlikun	0:20e0c61e0684	17	*
ganlikun	0:20e0c61e0684	18	* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
ganlikun	0:20e0c61e0684	19	* AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
ganlikun	0:20e0c61e0684	20	* IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
ganlikun	0:20e0c61e0684	21	* DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE
ganlikun	0:20e0c61e0684	22	* FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
ganlikun	0:20e0c61e0684	23	* DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR
ganlikun	0:20e0c61e0684	24	* SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER
ganlikun	0:20e0c61e0684	25	* CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY,
ganlikun	0:20e0c61e0684	26	* OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
ganlikun	0:20e0c61e0684	27	* OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
ganlikun	0:20e0c61e0684	28	*******************************************************************************
ganlikun	0:20e0c61e0684	29	*/
ganlikun	0:20e0c61e0684	30
ganlikun	0:20e0c61e0684	31
ganlikun	0:20e0c61e0684	32	#include "mbed_assert.h"
ganlikun	0:20e0c61e0684	33	#include "i2c_api.h"
ganlikun	0:20e0c61e0684	34	#include "platform/mbed_wait_api.h"
ganlikun	0:20e0c61e0684	35
ganlikun	0:20e0c61e0684	36	#if DEVICE_I2C
ganlikun	0:20e0c61e0684	37
ganlikun	0:20e0c61e0684	38	#include "cmsis.h"
ganlikun	0:20e0c61e0684	39	#include "pinmap.h"
ganlikun	0:20e0c61e0684	40	#include "PeripheralPins.h"
ganlikun	0:20e0c61e0684	41	#include "i2c_device.h" // family specific defines
ganlikun	0:20e0c61e0684	42
ganlikun	0:20e0c61e0684	43	#ifndef DEBUG_STDIO
ganlikun	0:20e0c61e0684	44	# define DEBUG_STDIO 0
ganlikun	0:20e0c61e0684	45	#endif
ganlikun	0:20e0c61e0684	46
ganlikun	0:20e0c61e0684	47	#if DEBUG_STDIO
ganlikun	0:20e0c61e0684	48	# include <stdio.h>
ganlikun	0:20e0c61e0684	49	# define DEBUG_PRINTF(...) do { printf(__VA_ARGS__); } while(0)
ganlikun	0:20e0c61e0684	50	#else
ganlikun	0:20e0c61e0684	51	# define DEBUG_PRINTF(...) {}
ganlikun	0:20e0c61e0684	52	#endif
ganlikun	0:20e0c61e0684	53
ganlikun	0:20e0c61e0684	54	#if DEVICE_I2C_ASYNCH
ganlikun	0:20e0c61e0684	55	#define I2C_S(obj) (struct i2c_s *) (&((obj)->i2c))
ganlikun	0:20e0c61e0684	56	#else
ganlikun	0:20e0c61e0684	57	#define I2C_S(obj) (struct i2c_s *) (obj)
ganlikun	0:20e0c61e0684	58	#endif
ganlikun	0:20e0c61e0684	59
ganlikun	0:20e0c61e0684	60	/* Family specific description for I2C */
ganlikun	0:20e0c61e0684	61	#define I2C_NUM (5)
ganlikun	0:20e0c61e0684	62	static I2C_HandleTypeDef* i2c_handles[I2C_NUM];
ganlikun	0:20e0c61e0684	63
ganlikun	0:20e0c61e0684	64	/* Timeout values are based on core clock and I2C clock.
ganlikun	0:20e0c61e0684	65	The BYTE_TIMEOUT is computed as twice the number of cycles it would
ganlikun	0:20e0c61e0684	66	take to send 10 bits over I2C. Most Flags should take less than that.
ganlikun	0:20e0c61e0684	67	This is for immediate FLAG or ACK check.
ganlikun	0:20e0c61e0684	68	*/
ganlikun	0:20e0c61e0684	69	#define BYTE_TIMEOUT ((SystemCoreClock / obj_s->hz) * 2 * 10)
ganlikun	0:20e0c61e0684	70	/* Timeout values based on I2C clock.
ganlikun	0:20e0c61e0684	71	The BYTE_TIMEOUT_US is computed as 3x the time in us it would
ganlikun	0:20e0c61e0684	72	take to send 10 bits over I2C. Most Flags should take less than that.
ganlikun	0:20e0c61e0684	73	This is for complete transfers check.
ganlikun	0:20e0c61e0684	74	*/
ganlikun	0:20e0c61e0684	75	#define BYTE_TIMEOUT_US ((SystemCoreClock / obj_s->hz) * 3 * 10)
ganlikun	0:20e0c61e0684	76	/* Timeout values for flags and events waiting loops. These timeouts are
ganlikun	0:20e0c61e0684	77	not based on accurate values, they just guarantee that the application will
ganlikun	0:20e0c61e0684	78	not remain stuck if the I2C communication is corrupted.
ganlikun	0:20e0c61e0684	79	*/
ganlikun	0:20e0c61e0684	80	#define FLAG_TIMEOUT ((int)0x1000)
ganlikun	0:20e0c61e0684	81
ganlikun	0:20e0c61e0684	82	/* GENERIC INIT and HELPERS FUNCTIONS */
ganlikun	0:20e0c61e0684	83
ganlikun	0:20e0c61e0684	84	#if defined(I2C1_BASE)
ganlikun	0:20e0c61e0684	85	static void i2c1_irq(void)
ganlikun	0:20e0c61e0684	86	{
ganlikun	0:20e0c61e0684	87	I2C_HandleTypeDef * handle = i2c_handles[0];
ganlikun	0:20e0c61e0684	88	HAL_I2C_EV_IRQHandler(handle);
ganlikun	0:20e0c61e0684	89	HAL_I2C_ER_IRQHandler(handle);
ganlikun	0:20e0c61e0684	90	}
ganlikun	0:20e0c61e0684	91	#endif
ganlikun	0:20e0c61e0684	92	#if defined(I2C2_BASE)
ganlikun	0:20e0c61e0684	93	static void i2c2_irq(void)
ganlikun	0:20e0c61e0684	94	{
ganlikun	0:20e0c61e0684	95	I2C_HandleTypeDef * handle = i2c_handles[1];
ganlikun	0:20e0c61e0684	96	HAL_I2C_EV_IRQHandler(handle);
ganlikun	0:20e0c61e0684	97	HAL_I2C_ER_IRQHandler(handle);
ganlikun	0:20e0c61e0684	98	}
ganlikun	0:20e0c61e0684	99	#endif
ganlikun	0:20e0c61e0684	100	#if defined(I2C3_BASE)
ganlikun	0:20e0c61e0684	101	static void i2c3_irq(void)
ganlikun	0:20e0c61e0684	102	{
ganlikun	0:20e0c61e0684	103	I2C_HandleTypeDef * handle = i2c_handles[2];
ganlikun	0:20e0c61e0684	104	HAL_I2C_EV_IRQHandler(handle);
ganlikun	0:20e0c61e0684	105	HAL_I2C_ER_IRQHandler(handle);
ganlikun	0:20e0c61e0684	106	}
ganlikun	0:20e0c61e0684	107	#endif
ganlikun	0:20e0c61e0684	108	#if defined(I2C4_BASE)
ganlikun	0:20e0c61e0684	109	static void i2c4_irq(void)
ganlikun	0:20e0c61e0684	110	{
ganlikun	0:20e0c61e0684	111	I2C_HandleTypeDef * handle = i2c_handles[3];
ganlikun	0:20e0c61e0684	112	HAL_I2C_EV_IRQHandler(handle);
ganlikun	0:20e0c61e0684	113	HAL_I2C_ER_IRQHandler(handle);
ganlikun	0:20e0c61e0684	114	}
ganlikun	0:20e0c61e0684	115	#endif
ganlikun	0:20e0c61e0684	116	#if defined(FMPI2C1_BASE)
ganlikun	0:20e0c61e0684	117	static void i2c5_irq(void)
ganlikun	0:20e0c61e0684	118	{
ganlikun	0:20e0c61e0684	119	I2C_HandleTypeDef * handle = i2c_handles[4];
ganlikun	0:20e0c61e0684	120	HAL_I2C_EV_IRQHandler(handle);
ganlikun	0:20e0c61e0684	121	HAL_I2C_ER_IRQHandler(handle);
ganlikun	0:20e0c61e0684	122	}
ganlikun	0:20e0c61e0684	123	#endif
ganlikun	0:20e0c61e0684	124
ganlikun	0:20e0c61e0684	125	void i2c_ev_err_enable(i2c_t *obj, uint32_t handler) {
ganlikun	0:20e0c61e0684	126	struct i2c_s *obj_s = I2C_S(obj);
ganlikun	0:20e0c61e0684	127	IRQn_Type irq_event_n = obj_s->event_i2cIRQ;
ganlikun	0:20e0c61e0684	128	IRQn_Type irq_error_n = obj_s->error_i2cIRQ;
ganlikun	0:20e0c61e0684	129	/* default prio in master case is set to 2 */
ganlikun	0:20e0c61e0684	130	uint32_t prio = 2;
ganlikun	0:20e0c61e0684	131
ganlikun	0:20e0c61e0684	132	/* Set up ITs using IRQ and handler tables */
ganlikun	0:20e0c61e0684	133	NVIC_SetVector(irq_event_n, handler);
ganlikun	0:20e0c61e0684	134	NVIC_SetVector(irq_error_n, handler);
ganlikun	0:20e0c61e0684	135
ganlikun	0:20e0c61e0684	136	#if DEVICE_I2CSLAVE
ganlikun	0:20e0c61e0684	137	/* Set higher priority to slave device than master.
ganlikun	0:20e0c61e0684	138	* In case a device makes use of both master and slave, the
ganlikun	0:20e0c61e0684	139	* slave needs higher responsiveness.
ganlikun	0:20e0c61e0684	140	*/
ganlikun	0:20e0c61e0684	141	if (obj_s->slave) {
ganlikun	0:20e0c61e0684	142	prio = 1;
ganlikun	0:20e0c61e0684	143	}
ganlikun	0:20e0c61e0684	144	#endif
ganlikun	0:20e0c61e0684	145
ganlikun	0:20e0c61e0684	146	NVIC_SetPriority(irq_event_n, prio);
ganlikun	0:20e0c61e0684	147	NVIC_SetPriority(irq_error_n, prio);
ganlikun	0:20e0c61e0684	148	NVIC_EnableIRQ(irq_event_n);
ganlikun	0:20e0c61e0684	149	NVIC_EnableIRQ(irq_error_n);
ganlikun	0:20e0c61e0684	150	}
ganlikun	0:20e0c61e0684	151
ganlikun	0:20e0c61e0684	152	void i2c_ev_err_disable(i2c_t *obj) {
ganlikun	0:20e0c61e0684	153	struct i2c_s *obj_s = I2C_S(obj);
ganlikun	0:20e0c61e0684	154	IRQn_Type irq_event_n = obj_s->event_i2cIRQ;
ganlikun	0:20e0c61e0684	155	IRQn_Type irq_error_n = obj_s->error_i2cIRQ;
ganlikun	0:20e0c61e0684	156
ganlikun	0:20e0c61e0684	157	HAL_NVIC_DisableIRQ(irq_event_n);
ganlikun	0:20e0c61e0684	158	HAL_NVIC_DisableIRQ(irq_error_n);
ganlikun	0:20e0c61e0684	159	}
ganlikun	0:20e0c61e0684	160
ganlikun	0:20e0c61e0684	161	uint32_t i2c_get_irq_handler(i2c_t *obj)
ganlikun	0:20e0c61e0684	162	{
ganlikun	0:20e0c61e0684	163	struct i2c_s *obj_s = I2C_S(obj);
ganlikun	0:20e0c61e0684	164	I2C_HandleTypeDef *handle = &(obj_s->handle);
ganlikun	0:20e0c61e0684	165	uint32_t handler = 0;
ganlikun	0:20e0c61e0684	166
ganlikun	0:20e0c61e0684	167	switch (obj_s->index) {
ganlikun	0:20e0c61e0684	168	#if defined(I2C1_BASE)
ganlikun	0:20e0c61e0684	169	case 0:
ganlikun	0:20e0c61e0684	170	handler = (uint32_t)&i2c1_irq;
ganlikun	0:20e0c61e0684	171	break;
ganlikun	0:20e0c61e0684	172	#endif
ganlikun	0:20e0c61e0684	173	#if defined(I2C2_BASE)
ganlikun	0:20e0c61e0684	174	case 1:
ganlikun	0:20e0c61e0684	175	handler = (uint32_t)&i2c2_irq;
ganlikun	0:20e0c61e0684	176	break;
ganlikun	0:20e0c61e0684	177	#endif
ganlikun	0:20e0c61e0684	178	#if defined(I2C3_BASE)
ganlikun	0:20e0c61e0684	179	case 2:
ganlikun	0:20e0c61e0684	180	handler = (uint32_t)&i2c3_irq;
ganlikun	0:20e0c61e0684	181	break;
ganlikun	0:20e0c61e0684	182	#endif
ganlikun	0:20e0c61e0684	183	#if defined(I2C4_BASE)
ganlikun	0:20e0c61e0684	184	case 3:
ganlikun	0:20e0c61e0684	185	handler = (uint32_t)&i2c4_irq;
ganlikun	0:20e0c61e0684	186	break;
ganlikun	0:20e0c61e0684	187	#endif
ganlikun	0:20e0c61e0684	188	#if defined(FMPI2C1_BASE)
ganlikun	0:20e0c61e0684	189	case 4:
ganlikun	0:20e0c61e0684	190	handler = (uint32_t)&i2c5_irq;
ganlikun	0:20e0c61e0684	191	break;
ganlikun	0:20e0c61e0684	192	#endif
ganlikun	0:20e0c61e0684	193	}
ganlikun	0:20e0c61e0684	194
ganlikun	0:20e0c61e0684	195	i2c_handles[obj_s->index] = handle;
ganlikun	0:20e0c61e0684	196	return handler;
ganlikun	0:20e0c61e0684	197	}
ganlikun	0:20e0c61e0684	198
ganlikun	0:20e0c61e0684	199	void i2c_hw_reset(i2c_t *obj) {
ganlikun	0:20e0c61e0684	200	int timeout;
ganlikun	0:20e0c61e0684	201	struct i2c_s *obj_s = I2C_S(obj);
ganlikun	0:20e0c61e0684	202	I2C_HandleTypeDef *handle = &(obj_s->handle);
ganlikun	0:20e0c61e0684	203
ganlikun	0:20e0c61e0684	204	handle->Instance = (I2C_TypeDef *)(obj_s->i2c);
ganlikun	0:20e0c61e0684	205
ganlikun	0:20e0c61e0684	206	// wait before reset
ganlikun	0:20e0c61e0684	207	timeout = BYTE_TIMEOUT;
ganlikun	0:20e0c61e0684	208	while ((__HAL_I2C_GET_FLAG(handle, I2C_FLAG_BUSY)) && (--timeout != 0));
ganlikun	0:20e0c61e0684	209	#if defined I2C1_BASE
ganlikun	0:20e0c61e0684	210	if (obj_s->i2c == I2C_1) {
ganlikun	0:20e0c61e0684	211	__HAL_RCC_I2C1_FORCE_RESET();
ganlikun	0:20e0c61e0684	212	__HAL_RCC_I2C1_RELEASE_RESET();
ganlikun	0:20e0c61e0684	213	}
ganlikun	0:20e0c61e0684	214	#endif
ganlikun	0:20e0c61e0684	215	#if defined I2C2_BASE
ganlikun	0:20e0c61e0684	216	if (obj_s->i2c == I2C_2) {
ganlikun	0:20e0c61e0684	217	__HAL_RCC_I2C2_FORCE_RESET();
ganlikun	0:20e0c61e0684	218	__HAL_RCC_I2C2_RELEASE_RESET();
ganlikun	0:20e0c61e0684	219	}
ganlikun	0:20e0c61e0684	220	#endif
ganlikun	0:20e0c61e0684	221	#if defined I2C3_BASE
ganlikun	0:20e0c61e0684	222	if (obj_s->i2c == I2C_3) {
ganlikun	0:20e0c61e0684	223	__HAL_RCC_I2C3_FORCE_RESET();
ganlikun	0:20e0c61e0684	224	__HAL_RCC_I2C3_RELEASE_RESET();
ganlikun	0:20e0c61e0684	225	}
ganlikun	0:20e0c61e0684	226	#endif
ganlikun	0:20e0c61e0684	227	#if defined I2C4_BASE
ganlikun	0:20e0c61e0684	228	if (obj_s->i2c == I2C_4) {
ganlikun	0:20e0c61e0684	229	__HAL_RCC_I2C4_FORCE_RESET();
ganlikun	0:20e0c61e0684	230	__HAL_RCC_I2C4_RELEASE_RESET();
ganlikun	0:20e0c61e0684	231	}
ganlikun	0:20e0c61e0684	232	#endif
ganlikun	0:20e0c61e0684	233	#if defined FMPI2C1_BASE
ganlikun	0:20e0c61e0684	234	if (obj_s->i2c == FMPI2C_1) {
ganlikun	0:20e0c61e0684	235	__HAL_RCC_FMPI2C1_FORCE_RESET();
ganlikun	0:20e0c61e0684	236	__HAL_RCC_FMPI2C1_RELEASE_RESET();
ganlikun	0:20e0c61e0684	237	}
ganlikun	0:20e0c61e0684	238	#endif
ganlikun	0:20e0c61e0684	239	}
ganlikun	0:20e0c61e0684	240
ganlikun	0:20e0c61e0684	241	void i2c_sw_reset(i2c_t *obj)
ganlikun	0:20e0c61e0684	242	{
ganlikun	0:20e0c61e0684	243	struct i2c_s *obj_s = I2C_S(obj);
ganlikun	0:20e0c61e0684	244	I2C_HandleTypeDef *handle = &(obj_s->handle);
ganlikun	0:20e0c61e0684	245	/* SW reset procedure:
ganlikun	0:20e0c61e0684	246	* PE must be kept low during at least 3 APB clock cycles
ganlikun	0:20e0c61e0684	247	* in order to perform the software reset.
ganlikun	0:20e0c61e0684	248	* This is ensured by writing the following software sequence:
ganlikun	0:20e0c61e0684	249	* - Write PE=0
ganlikun	0:20e0c61e0684	250	* - Check PE=0
ganlikun	0:20e0c61e0684	251	* - Write PE=1.
ganlikun	0:20e0c61e0684	252	*/
ganlikun	0:20e0c61e0684	253	handle->Instance->CR1 &= ~I2C_CR1_PE;
ganlikun	0:20e0c61e0684	254	while(handle->Instance->CR1 & I2C_CR1_PE);
ganlikun	0:20e0c61e0684	255	handle->Instance->CR1 \|= I2C_CR1_PE;
ganlikun	0:20e0c61e0684	256	}
ganlikun	0:20e0c61e0684	257
ganlikun	0:20e0c61e0684	258	void i2c_init(i2c_t *obj, PinName sda, PinName scl) {
ganlikun	0:20e0c61e0684	259
ganlikun	0:20e0c61e0684	260	struct i2c_s *obj_s = I2C_S(obj);
ganlikun	0:20e0c61e0684	261
ganlikun	0:20e0c61e0684	262	// Determine the I2C to use
ganlikun	0:20e0c61e0684	263	I2CName i2c_sda = (I2CName)pinmap_peripheral(sda, PinMap_I2C_SDA);
ganlikun	0:20e0c61e0684	264	I2CName i2c_scl = (I2CName)pinmap_peripheral(scl, PinMap_I2C_SCL);
ganlikun	0:20e0c61e0684	265	obj_s->sda = sda;
ganlikun	0:20e0c61e0684	266	obj_s->scl = scl;
ganlikun	0:20e0c61e0684	267
ganlikun	0:20e0c61e0684	268	obj_s->i2c = (I2CName)pinmap_merge(i2c_sda, i2c_scl);
ganlikun	0:20e0c61e0684	269	MBED_ASSERT(obj_s->i2c != (I2CName)NC);
ganlikun	0:20e0c61e0684	270
ganlikun	0:20e0c61e0684	271	#if defined I2C1_BASE
ganlikun	0:20e0c61e0684	272	// Enable I2C1 clock and pinout if not done
ganlikun	0:20e0c61e0684	273	if (obj_s->i2c == I2C_1) {
ganlikun	0:20e0c61e0684	274	obj_s->index = 0;
ganlikun	0:20e0c61e0684	275	__HAL_RCC_I2C1_CLK_ENABLE();
ganlikun	0:20e0c61e0684	276	// Configure I2C pins
ganlikun	0:20e0c61e0684	277	pinmap_pinout(sda, PinMap_I2C_SDA);
ganlikun	0:20e0c61e0684	278	pinmap_pinout(scl, PinMap_I2C_SCL);
ganlikun	0:20e0c61e0684	279	pin_mode(sda, OpenDrainPullUp);
ganlikun	0:20e0c61e0684	280	pin_mode(scl, OpenDrainPullUp);
ganlikun	0:20e0c61e0684	281	obj_s->event_i2cIRQ = I2C1_EV_IRQn;
ganlikun	0:20e0c61e0684	282	obj_s->error_i2cIRQ = I2C1_ER_IRQn;
ganlikun	0:20e0c61e0684	283	}
ganlikun	0:20e0c61e0684	284	#endif
ganlikun	0:20e0c61e0684	285	#if defined I2C2_BASE
ganlikun	0:20e0c61e0684	286	// Enable I2C2 clock and pinout if not done
ganlikun	0:20e0c61e0684	287	if (obj_s->i2c == I2C_2) {
ganlikun	0:20e0c61e0684	288	obj_s->index = 1;
ganlikun	0:20e0c61e0684	289	__HAL_RCC_I2C2_CLK_ENABLE();
ganlikun	0:20e0c61e0684	290	// Configure I2C pins
ganlikun	0:20e0c61e0684	291	pinmap_pinout(sda, PinMap_I2C_SDA);
ganlikun	0:20e0c61e0684	292	pinmap_pinout(scl, PinMap_I2C_SCL);
ganlikun	0:20e0c61e0684	293	pin_mode(sda, OpenDrainPullUp);
ganlikun	0:20e0c61e0684	294	pin_mode(scl, OpenDrainPullUp);
ganlikun	0:20e0c61e0684	295	obj_s->event_i2cIRQ = I2C2_EV_IRQn;
ganlikun	0:20e0c61e0684	296	obj_s->error_i2cIRQ = I2C2_ER_IRQn;
ganlikun	0:20e0c61e0684	297	}
ganlikun	0:20e0c61e0684	298	#endif
ganlikun	0:20e0c61e0684	299	#if defined I2C3_BASE
ganlikun	0:20e0c61e0684	300	// Enable I2C3 clock and pinout if not done
ganlikun	0:20e0c61e0684	301	if (obj_s->i2c == I2C_3) {
ganlikun	0:20e0c61e0684	302	obj_s->index = 2;
ganlikun	0:20e0c61e0684	303	__HAL_RCC_I2C3_CLK_ENABLE();
ganlikun	0:20e0c61e0684	304	// Configure I2C pins
ganlikun	0:20e0c61e0684	305	pinmap_pinout(sda, PinMap_I2C_SDA);
ganlikun	0:20e0c61e0684	306	pinmap_pinout(scl, PinMap_I2C_SCL);
ganlikun	0:20e0c61e0684	307	pin_mode(sda, OpenDrainPullUp);
ganlikun	0:20e0c61e0684	308	pin_mode(scl, OpenDrainPullUp);
ganlikun	0:20e0c61e0684	309	obj_s->event_i2cIRQ = I2C3_EV_IRQn;
ganlikun	0:20e0c61e0684	310	obj_s->error_i2cIRQ = I2C3_ER_IRQn;
ganlikun	0:20e0c61e0684	311	}
ganlikun	0:20e0c61e0684	312	#endif
ganlikun	0:20e0c61e0684	313	#if defined I2C4_BASE
ganlikun	0:20e0c61e0684	314	// Enable I2C3 clock and pinout if not done
ganlikun	0:20e0c61e0684	315	if (obj_s->i2c == I2C_4) {
ganlikun	0:20e0c61e0684	316	obj_s->index = 3;
ganlikun	0:20e0c61e0684	317	__HAL_RCC_I2C4_CLK_ENABLE();
ganlikun	0:20e0c61e0684	318	// Configure I2C pins
ganlikun	0:20e0c61e0684	319	pinmap_pinout(sda, PinMap_I2C_SDA);
ganlikun	0:20e0c61e0684	320	pinmap_pinout(scl, PinMap_I2C_SCL);
ganlikun	0:20e0c61e0684	321	pin_mode(sda, OpenDrainPullUp);
ganlikun	0:20e0c61e0684	322	pin_mode(scl, OpenDrainPullUp);
ganlikun	0:20e0c61e0684	323	obj_s->event_i2cIRQ = I2C4_EV_IRQn;
ganlikun	0:20e0c61e0684	324	obj_s->error_i2cIRQ = I2C4_ER_IRQn;
ganlikun	0:20e0c61e0684	325	}
ganlikun	0:20e0c61e0684	326	#endif
ganlikun	0:20e0c61e0684	327	#if defined FMPI2C1_BASE
ganlikun	0:20e0c61e0684	328	// Enable I2C3 clock and pinout if not done
ganlikun	0:20e0c61e0684	329	if (obj_s->i2c == FMPI2C_1) {
ganlikun	0:20e0c61e0684	330	obj_s->index = 4;
ganlikun	0:20e0c61e0684	331	__HAL_RCC_FMPI2C1_CLK_ENABLE();
ganlikun	0:20e0c61e0684	332	// Configure I2C pins
ganlikun	0:20e0c61e0684	333	pinmap_pinout(sda, PinMap_I2C_SDA);
ganlikun	0:20e0c61e0684	334	pinmap_pinout(scl, PinMap_I2C_SCL);
ganlikun	0:20e0c61e0684	335	pin_mode(sda, OpenDrainPullUp);
ganlikun	0:20e0c61e0684	336	pin_mode(scl, OpenDrainPullUp);
ganlikun	0:20e0c61e0684	337	obj_s->event_i2cIRQ = FMPI2C1_EV_IRQn;
ganlikun	0:20e0c61e0684	338	obj_s->error_i2cIRQ = FMPI2C1_ER_IRQn;
ganlikun	0:20e0c61e0684	339	}
ganlikun	0:20e0c61e0684	340	#endif
ganlikun	0:20e0c61e0684	341
ganlikun	0:20e0c61e0684	342	// I2C configuration
ganlikun	0:20e0c61e0684	343	// Default hz value used for timeout computation
ganlikun	0:20e0c61e0684	344	if(!obj_s->hz)
ganlikun	0:20e0c61e0684	345	obj_s->hz = 100000; // 100 kHz per default
ganlikun	0:20e0c61e0684	346
ganlikun	0:20e0c61e0684	347	// Reset to clear pending flags if any
ganlikun	0:20e0c61e0684	348	i2c_hw_reset(obj);
ganlikun	0:20e0c61e0684	349	i2c_frequency(obj, obj_s->hz );
ganlikun	0:20e0c61e0684	350
ganlikun	0:20e0c61e0684	351	#if DEVICE_I2CSLAVE
ganlikun	0:20e0c61e0684	352	// I2C master by default
ganlikun	0:20e0c61e0684	353	obj_s->slave = 0;
ganlikun	0:20e0c61e0684	354	obj_s->pending_slave_tx_master_rx = 0;
ganlikun	0:20e0c61e0684	355	obj_s->pending_slave_rx_maxter_tx = 0;
ganlikun	0:20e0c61e0684	356	#endif
ganlikun	0:20e0c61e0684	357
ganlikun	0:20e0c61e0684	358	// I2C Xfer operation init
ganlikun	0:20e0c61e0684	359	obj_s->event = 0;
ganlikun	0:20e0c61e0684	360	obj_s->XferOperation = I2C_FIRST_AND_LAST_FRAME;
ganlikun	0:20e0c61e0684	361	#ifdef I2C_IP_VERSION_V2
ganlikun	0:20e0c61e0684	362	obj_s->pending_start = 0;
ganlikun	0:20e0c61e0684	363	#endif
ganlikun	0:20e0c61e0684	364	}
ganlikun	0:20e0c61e0684	365
ganlikun	0:20e0c61e0684	366	void i2c_frequency(i2c_t *obj, int hz)
ganlikun	0:20e0c61e0684	367	{
ganlikun	0:20e0c61e0684	368	int timeout;
ganlikun	0:20e0c61e0684	369	struct i2c_s *obj_s = I2C_S(obj);
ganlikun	0:20e0c61e0684	370	I2C_HandleTypeDef *handle = &(obj_s->handle);
ganlikun	0:20e0c61e0684	371
ganlikun	0:20e0c61e0684	372	// wait before init
ganlikun	0:20e0c61e0684	373	timeout = BYTE_TIMEOUT;
ganlikun	0:20e0c61e0684	374	while ((__HAL_I2C_GET_FLAG(handle, I2C_FLAG_BUSY)) && (--timeout != 0));
ganlikun	0:20e0c61e0684	375
ganlikun	0:20e0c61e0684	376	#ifdef I2C_IP_VERSION_V1
ganlikun	0:20e0c61e0684	377	handle->Init.ClockSpeed = hz;
ganlikun	0:20e0c61e0684	378	handle->Init.DutyCycle = I2C_DUTYCYCLE_2;
ganlikun	0:20e0c61e0684	379	#endif
ganlikun	0:20e0c61e0684	380	#ifdef I2C_IP_VERSION_V2
ganlikun	0:20e0c61e0684	381	/* Only predefined timing for below frequencies are supported */
ganlikun	0:20e0c61e0684	382	MBED_ASSERT((hz == 100000) \|\| (hz == 400000) \|\| (hz == 1000000));
ganlikun	0:20e0c61e0684	383	handle->Init.Timing = get_i2c_timing(hz);
ganlikun	0:20e0c61e0684	384
ganlikun	0:20e0c61e0684	385	// Enable the Fast Mode Plus capability
ganlikun	0:20e0c61e0684	386	if (hz == 1000000) {
ganlikun	0:20e0c61e0684	387	#if defined(I2C1_BASE) && defined(__HAL_SYSCFG_FASTMODEPLUS_ENABLE) && defined (I2C_FASTMODEPLUS_I2C1)
ganlikun	0:20e0c61e0684	388	if (obj_s->i2c == I2C_1) {
ganlikun	0:20e0c61e0684	389	HAL_I2CEx_EnableFastModePlus(I2C_FASTMODEPLUS_I2C1);
ganlikun	0:20e0c61e0684	390	}
ganlikun	0:20e0c61e0684	391	#endif
ganlikun	0:20e0c61e0684	392	#if defined(I2C2_BASE) && defined(__HAL_SYSCFG_FASTMODEPLUS_ENABLE) && defined (I2C_FASTMODEPLUS_I2C2)
ganlikun	0:20e0c61e0684	393	if (obj_s->i2c == I2C_2) {
ganlikun	0:20e0c61e0684	394	HAL_I2CEx_EnableFastModePlus(I2C_FASTMODEPLUS_I2C2);
ganlikun	0:20e0c61e0684	395	}
ganlikun	0:20e0c61e0684	396	#endif
ganlikun	0:20e0c61e0684	397	#if defined(I2C3_BASE) && defined(__HAL_SYSCFG_FASTMODEPLUS_ENABLE) && defined (I2C_FASTMODEPLUS_I2C3)
ganlikun	0:20e0c61e0684	398	if (obj_s->i2c == I2C_3) {
ganlikun	0:20e0c61e0684	399	HAL_I2CEx_EnableFastModePlus(I2C_FASTMODEPLUS_I2C3);
ganlikun	0:20e0c61e0684	400	}
ganlikun	0:20e0c61e0684	401	#endif
ganlikun	0:20e0c61e0684	402	#if defined(I2C4_BASE) && defined(__HAL_SYSCFG_FASTMODEPLUS_ENABLE) && defined (I2C_FASTMODEPLUS_I2C4)
ganlikun	0:20e0c61e0684	403	if (obj_s->i2c == I2C_4) {
ganlikun	0:20e0c61e0684	404	HAL_I2CEx_EnableFastModePlus(I2C_FASTMODEPLUS_I2C4);
ganlikun	0:20e0c61e0684	405	}
ganlikun	0:20e0c61e0684	406	#endif
ganlikun	0:20e0c61e0684	407	}
ganlikun	0:20e0c61e0684	408	#endif //I2C_IP_VERSION_V2
ganlikun	0:20e0c61e0684	409
ganlikun	0:20e0c61e0684	410	/##-1- Configure the I2C clock source. The clock is derived from the SYSCLK #/
ganlikun	0:20e0c61e0684	411	#if defined(I2C1_BASE) && defined (__HAL_RCC_I2C1_CONFIG)
ganlikun	0:20e0c61e0684	412	if (obj_s->i2c == I2C_1) {
ganlikun	0:20e0c61e0684	413	__HAL_RCC_I2C1_CONFIG(I2CAPI_I2C1_CLKSRC);
ganlikun	0:20e0c61e0684	414	}
ganlikun	0:20e0c61e0684	415	#endif
ganlikun	0:20e0c61e0684	416	#if defined(I2C2_BASE) && defined(__HAL_RCC_I2C2_CONFIG)
ganlikun	0:20e0c61e0684	417	if (obj_s->i2c == I2C_2) {
ganlikun	0:20e0c61e0684	418	__HAL_RCC_I2C2_CONFIG(I2CAPI_I2C2_CLKSRC);
ganlikun	0:20e0c61e0684	419	}
ganlikun	0:20e0c61e0684	420	#endif
ganlikun	0:20e0c61e0684	421	#if defined(I2C3_BASE) && defined(__HAL_RCC_I2C3_CONFIG)
ganlikun	0:20e0c61e0684	422	if (obj_s->i2c == I2C_3) {
ganlikun	0:20e0c61e0684	423	__HAL_RCC_I2C3_CONFIG(I2CAPI_I2C3_CLKSRC);
ganlikun	0:20e0c61e0684	424	}
ganlikun	0:20e0c61e0684	425	#endif
ganlikun	0:20e0c61e0684	426	#if defined(I2C4_BASE) && defined(__HAL_RCC_I2C4_CONFIG)
ganlikun	0:20e0c61e0684	427	if (obj_s->i2c == I2C_4) {
ganlikun	0:20e0c61e0684	428	__HAL_RCC_I2C4_CONFIG(I2CAPI_I2C4_CLKSRC);
ganlikun	0:20e0c61e0684	429	}
ganlikun	0:20e0c61e0684	430	#endif
ganlikun	0:20e0c61e0684	431
ganlikun	0:20e0c61e0684	432	#ifdef I2C_ANALOGFILTER_ENABLE
ganlikun	0:20e0c61e0684	433	/* Enable the Analog I2C Filter */
ganlikun	0:20e0c61e0684	434	HAL_I2CEx_AnalogFilter_Config(handle,I2C_ANALOGFILTER_ENABLE);
ganlikun	0:20e0c61e0684	435	#endif
ganlikun	0:20e0c61e0684	436
ganlikun	0:20e0c61e0684	437	// I2C configuration
ganlikun	0:20e0c61e0684	438	handle->Init.AddressingMode = I2C_ADDRESSINGMODE_7BIT;
ganlikun	0:20e0c61e0684	439	handle->Init.DualAddressMode = I2C_DUALADDRESS_DISABLE;
ganlikun	0:20e0c61e0684	440	handle->Init.GeneralCallMode = I2C_GENERALCALL_DISABLE;
ganlikun	0:20e0c61e0684	441	handle->Init.NoStretchMode = I2C_NOSTRETCH_DISABLE;
ganlikun	0:20e0c61e0684	442	handle->Init.OwnAddress1 = 0;
ganlikun	0:20e0c61e0684	443	handle->Init.OwnAddress2 = 0;
ganlikun	0:20e0c61e0684	444	HAL_I2C_Init(handle);
ganlikun	0:20e0c61e0684	445
ganlikun	0:20e0c61e0684	446	/* store frequency for timeout computation */
ganlikun	0:20e0c61e0684	447	obj_s->hz = hz;
ganlikun	0:20e0c61e0684	448	}
ganlikun	0:20e0c61e0684	449
ganlikun	0:20e0c61e0684	450	i2c_t get_i2c_obj(I2C_HandleTypeDef hi2c){
ganlikun	0:20e0c61e0684	451	/* Aim of the function is to get i2c_s pointer using hi2c pointer */
ganlikun	0:20e0c61e0684	452	/* Highly inspired from magical linux kernel's "container_of" */
ganlikun	0:20e0c61e0684	453	/* (which was not directly used since not compatible with IAR toolchain) */
ganlikun	0:20e0c61e0684	454	struct i2c_s *obj_s;
ganlikun	0:20e0c61e0684	455	i2c_t *obj;
ganlikun	0:20e0c61e0684	456
ganlikun	0:20e0c61e0684	457	obj_s = (struct i2c_s )( (char )hi2c - offsetof(struct i2c_s,handle));
ganlikun	0:20e0c61e0684	458	obj = (i2c_t )( (char )obj_s - offsetof(i2c_t,i2c));
ganlikun	0:20e0c61e0684	459
ganlikun	0:20e0c61e0684	460	return (obj);
ganlikun	0:20e0c61e0684	461	}
ganlikun	0:20e0c61e0684	462
ganlikun	0:20e0c61e0684	463	void i2c_reset(i2c_t *obj) {
ganlikun	0:20e0c61e0684	464	struct i2c_s *obj_s = I2C_S(obj);
ganlikun	0:20e0c61e0684	465	/* As recommended in i2c_api.h, mainly send stop */
ganlikun	0:20e0c61e0684	466	i2c_stop(obj);
ganlikun	0:20e0c61e0684	467	/* then re-init */
ganlikun	0:20e0c61e0684	468	i2c_init(obj, obj_s->sda, obj_s->scl);
ganlikun	0:20e0c61e0684	469	}
ganlikun	0:20e0c61e0684	470
ganlikun	0:20e0c61e0684	471	/*
ganlikun	0:20e0c61e0684	472	* UNITARY APIS.
ganlikun	0:20e0c61e0684	473	* For very basic operations, direct registers access is needed
ganlikun	0:20e0c61e0684	474	* There are 2 different IPs version that need to be supported
ganlikun	0:20e0c61e0684	475	*/
ganlikun	0:20e0c61e0684	476	#ifdef I2C_IP_VERSION_V1
ganlikun	0:20e0c61e0684	477	int i2c_start(i2c_t *obj) {
ganlikun	0:20e0c61e0684	478
ganlikun	0:20e0c61e0684	479	int timeout;
ganlikun	0:20e0c61e0684	480	struct i2c_s *obj_s = I2C_S(obj);
ganlikun	0:20e0c61e0684	481	I2C_HandleTypeDef *handle = &(obj_s->handle);
ganlikun	0:20e0c61e0684	482
ganlikun	0:20e0c61e0684	483	// Clear Acknowledge failure flag
ganlikun	0:20e0c61e0684	484	__HAL_I2C_CLEAR_FLAG(handle, I2C_FLAG_AF);
ganlikun	0:20e0c61e0684	485
ganlikun	0:20e0c61e0684	486	// Wait the STOP condition has been previously correctly sent
ganlikun	0:20e0c61e0684	487	// This timeout can be avoid in some specific cases by simply clearing the STOP bit
ganlikun	0:20e0c61e0684	488	timeout = FLAG_TIMEOUT;
ganlikun	0:20e0c61e0684	489	while ((handle->Instance->CR1 & I2C_CR1_STOP) == I2C_CR1_STOP) {
ganlikun	0:20e0c61e0684	490	if ((timeout--) == 0) {
ganlikun	0:20e0c61e0684	491	return 1;
ganlikun	0:20e0c61e0684	492	}
ganlikun	0:20e0c61e0684	493	}
ganlikun	0:20e0c61e0684	494
ganlikun	0:20e0c61e0684	495	// Generate the START condition
ganlikun	0:20e0c61e0684	496	handle->Instance->CR1 \|= I2C_CR1_START;
ganlikun	0:20e0c61e0684	497
ganlikun	0:20e0c61e0684	498	// Wait the START condition has been correctly sent
ganlikun	0:20e0c61e0684	499	timeout = FLAG_TIMEOUT;
ganlikun	0:20e0c61e0684	500	while (__HAL_I2C_GET_FLAG(handle, I2C_FLAG_SB) == RESET) {
ganlikun	0:20e0c61e0684	501	if ((timeout--) == 0) {
ganlikun	0:20e0c61e0684	502	return 1;
ganlikun	0:20e0c61e0684	503	}
ganlikun	0:20e0c61e0684	504	}
ganlikun	0:20e0c61e0684	505
ganlikun	0:20e0c61e0684	506	return 0;
ganlikun	0:20e0c61e0684	507	}
ganlikun	0:20e0c61e0684	508
ganlikun	0:20e0c61e0684	509	int i2c_stop(i2c_t *obj) {
ganlikun	0:20e0c61e0684	510	struct i2c_s *obj_s = I2C_S(obj);
ganlikun	0:20e0c61e0684	511	I2C_TypeDef i2c = (I2C_TypeDef )obj_s->i2c;
ganlikun	0:20e0c61e0684	512
ganlikun	0:20e0c61e0684	513	// Generate the STOP condition
ganlikun	0:20e0c61e0684	514	i2c->CR1 \|= I2C_CR1_STOP;
ganlikun	0:20e0c61e0684	515
ganlikun	0:20e0c61e0684	516	/* In case of mixed usage of the APIs (unitary + SYNC)
ganlikun	0:20e0c61e0684	517	* re-init HAL state
ganlikun	0:20e0c61e0684	518	*/
ganlikun	0:20e0c61e0684	519	if(obj_s->XferOperation != I2C_FIRST_AND_LAST_FRAME)
ganlikun	0:20e0c61e0684	520	i2c_init(obj, obj_s->sda, obj_s->scl);
ganlikun	0:20e0c61e0684	521
ganlikun	0:20e0c61e0684	522	return 0;
ganlikun	0:20e0c61e0684	523	}
ganlikun	0:20e0c61e0684	524
ganlikun	0:20e0c61e0684	525	int i2c_byte_read(i2c_t *obj, int last) {
ganlikun	0:20e0c61e0684	526
ganlikun	0:20e0c61e0684	527	int timeout;
ganlikun	0:20e0c61e0684	528	struct i2c_s *obj_s = I2C_S(obj);
ganlikun	0:20e0c61e0684	529	I2C_HandleTypeDef *handle = &(obj_s->handle);
ganlikun	0:20e0c61e0684	530
ganlikun	0:20e0c61e0684	531	if (last) {
ganlikun	0:20e0c61e0684	532	// Don't acknowledge the last byte
ganlikun	0:20e0c61e0684	533	handle->Instance->CR1 &= ~I2C_CR1_ACK;
ganlikun	0:20e0c61e0684	534	} else {
ganlikun	0:20e0c61e0684	535	// Acknowledge the byte
ganlikun	0:20e0c61e0684	536	handle->Instance->CR1 \|= I2C_CR1_ACK;
ganlikun	0:20e0c61e0684	537	}
ganlikun	0:20e0c61e0684	538
ganlikun	0:20e0c61e0684	539	// Wait until the byte is received
ganlikun	0:20e0c61e0684	540	timeout = FLAG_TIMEOUT;
ganlikun	0:20e0c61e0684	541	while (__HAL_I2C_GET_FLAG(handle, I2C_FLAG_RXNE) == RESET) {
ganlikun	0:20e0c61e0684	542	if ((timeout--) == 0) {
ganlikun	0:20e0c61e0684	543	return -1;
ganlikun	0:20e0c61e0684	544	}
ganlikun	0:20e0c61e0684	545	}
ganlikun	0:20e0c61e0684	546
ganlikun	0:20e0c61e0684	547	return (int)handle->Instance->DR;
ganlikun	0:20e0c61e0684	548	}
ganlikun	0:20e0c61e0684	549
ganlikun	0:20e0c61e0684	550	int i2c_byte_write(i2c_t *obj, int data) {
ganlikun	0:20e0c61e0684	551
ganlikun	0:20e0c61e0684	552	int timeout;
ganlikun	0:20e0c61e0684	553	struct i2c_s *obj_s = I2C_S(obj);
ganlikun	0:20e0c61e0684	554	I2C_HandleTypeDef *handle = &(obj_s->handle);
ganlikun	0:20e0c61e0684	555
ganlikun	0:20e0c61e0684	556	handle->Instance->DR = (uint8_t)data;
ganlikun	0:20e0c61e0684	557
ganlikun	0:20e0c61e0684	558	// Wait until the byte (might be the address) is transmitted
ganlikun	0:20e0c61e0684	559	timeout = FLAG_TIMEOUT;
ganlikun	0:20e0c61e0684	560	while ((__HAL_I2C_GET_FLAG(handle, I2C_FLAG_TXE) == RESET) &&
ganlikun	0:20e0c61e0684	561	(__HAL_I2C_GET_FLAG(handle, I2C_FLAG_BTF) == RESET) &&
ganlikun	0:20e0c61e0684	562	(__HAL_I2C_GET_FLAG(handle, I2C_FLAG_ADDR) == RESET)) {
ganlikun	0:20e0c61e0684	563	if ((timeout--) == 0) {
ganlikun	0:20e0c61e0684	564	return 2;
ganlikun	0:20e0c61e0684	565	}
ganlikun	0:20e0c61e0684	566	}
ganlikun	0:20e0c61e0684	567
ganlikun	0:20e0c61e0684	568	if (__HAL_I2C_GET_FLAG(handle, I2C_FLAG_ADDR) != RESET)
ganlikun	0:20e0c61e0684	569	{
ganlikun	0:20e0c61e0684	570	__HAL_I2C_CLEAR_ADDRFLAG(handle);
ganlikun	0:20e0c61e0684	571	}
ganlikun	0:20e0c61e0684	572
ganlikun	0:20e0c61e0684	573	return 1;
ganlikun	0:20e0c61e0684	574	}
ganlikun	0:20e0c61e0684	575	#endif //I2C_IP_VERSION_V1
ganlikun	0:20e0c61e0684	576	#ifdef I2C_IP_VERSION_V2
ganlikun	0:20e0c61e0684	577
ganlikun	0:20e0c61e0684	578	int i2c_start(i2c_t *obj) {
ganlikun	0:20e0c61e0684	579	struct i2c_s *obj_s = I2C_S(obj);
ganlikun	0:20e0c61e0684	580	/* This I2C IP doesn't */
ganlikun	0:20e0c61e0684	581	obj_s->pending_start = 1;
ganlikun	0:20e0c61e0684	582	return 0;
ganlikun	0:20e0c61e0684	583	}
ganlikun	0:20e0c61e0684	584
ganlikun	0:20e0c61e0684	585	int i2c_stop(i2c_t *obj) {
ganlikun	0:20e0c61e0684	586	struct i2c_s *obj_s = I2C_S(obj);
ganlikun	0:20e0c61e0684	587	I2C_HandleTypeDef *handle = &(obj_s->handle);
ganlikun	0:20e0c61e0684	588	int timeout = FLAG_TIMEOUT;
ganlikun	0:20e0c61e0684	589	#if DEVICE_I2CSLAVE
ganlikun	0:20e0c61e0684	590	if (obj_s->slave) {
ganlikun	0:20e0c61e0684	591	/* re-init slave when stop is requested */
ganlikun	0:20e0c61e0684	592	i2c_init(obj, obj_s->sda, obj_s->scl);
ganlikun	0:20e0c61e0684	593	return 0;
ganlikun	0:20e0c61e0684	594	}
ganlikun	0:20e0c61e0684	595	#endif
ganlikun	0:20e0c61e0684	596	// Disable reload mode
ganlikun	0:20e0c61e0684	597	handle->Instance->CR2 &= (uint32_t)~I2C_CR2_RELOAD;
ganlikun	0:20e0c61e0684	598	// Generate the STOP condition
ganlikun	0:20e0c61e0684	599	handle->Instance->CR2 \|= I2C_CR2_STOP;
ganlikun	0:20e0c61e0684	600
ganlikun	0:20e0c61e0684	601	timeout = FLAG_TIMEOUT;
ganlikun	0:20e0c61e0684	602	while (!__HAL_I2C_GET_FLAG(handle, I2C_FLAG_STOPF)) {
ganlikun	0:20e0c61e0684	603	if ((timeout--) == 0) {
ganlikun	0:20e0c61e0684	604	return I2C_ERROR_BUS_BUSY;
ganlikun	0:20e0c61e0684	605	}
ganlikun	0:20e0c61e0684	606	}
ganlikun	0:20e0c61e0684	607
ganlikun	0:20e0c61e0684	608	/* Clear STOP Flag */
ganlikun	0:20e0c61e0684	609	__HAL_I2C_CLEAR_FLAG(handle, I2C_FLAG_STOPF);
ganlikun	0:20e0c61e0684	610
ganlikun	0:20e0c61e0684	611	/* Erase slave address, this wiil be used as a marker
ganlikun	0:20e0c61e0684	612	* to know when we need to prepare next start */
ganlikun	0:20e0c61e0684	613	handle->Instance->CR2 &= ~I2C_CR2_SADD;
ganlikun	0:20e0c61e0684	614
ganlikun	0:20e0c61e0684	615	/*
ganlikun	0:20e0c61e0684	616	* V2 IP is meant for automatic STOP, not user STOP
ganlikun	0:20e0c61e0684	617	* SW reset the IP state machine before next transaction
ganlikun	0:20e0c61e0684	618	*/
ganlikun	0:20e0c61e0684	619	i2c_sw_reset(obj);
ganlikun	0:20e0c61e0684	620
ganlikun	0:20e0c61e0684	621	/* In case of mixed usage of the APIs (unitary + SYNC)
ganlikun	0:20e0c61e0684	622	* re-init HAL state */
ganlikun	0:20e0c61e0684	623	if (obj_s->XferOperation != I2C_FIRST_AND_LAST_FRAME) {
ganlikun	0:20e0c61e0684	624	i2c_init(obj, obj_s->sda, obj_s->scl);
ganlikun	0:20e0c61e0684	625	}
ganlikun	0:20e0c61e0684	626
ganlikun	0:20e0c61e0684	627	return 0;
ganlikun	0:20e0c61e0684	628	}
ganlikun	0:20e0c61e0684	629
ganlikun	0:20e0c61e0684	630	int i2c_byte_read(i2c_t *obj, int last) {
ganlikun	0:20e0c61e0684	631	struct i2c_s *obj_s = I2C_S(obj);
ganlikun	0:20e0c61e0684	632	I2C_HandleTypeDef *handle = &(obj_s->handle);
ganlikun	0:20e0c61e0684	633	int timeout = FLAG_TIMEOUT;
ganlikun	0:20e0c61e0684	634	uint32_t tmpreg = handle->Instance->CR2;
ganlikun	0:20e0c61e0684	635	char data;
ganlikun	0:20e0c61e0684	636	#if DEVICE_I2CSLAVE
ganlikun	0:20e0c61e0684	637	if (obj_s->slave) {
ganlikun	0:20e0c61e0684	638	return i2c_slave_read(obj, &data, 1);
ganlikun	0:20e0c61e0684	639	}
ganlikun	0:20e0c61e0684	640	#endif
ganlikun	0:20e0c61e0684	641	/* Then send data when there's room in the TX fifo */
ganlikun	0:20e0c61e0684	642	if ((tmpreg & I2C_CR2_RELOAD) != 0) {
ganlikun	0:20e0c61e0684	643	while (!__HAL_I2C_GET_FLAG(handle, I2C_FLAG_TCR)) {
ganlikun	0:20e0c61e0684	644	if ((timeout--) == 0) {
ganlikun	0:20e0c61e0684	645	DEBUG_PRINTF("timeout in byte_read\r\n");
ganlikun	0:20e0c61e0684	646	return -1;
ganlikun	0:20e0c61e0684	647	}
ganlikun	0:20e0c61e0684	648	}
ganlikun	0:20e0c61e0684	649	}
ganlikun	0:20e0c61e0684	650
ganlikun	0:20e0c61e0684	651	/* Enable reload mode as we don't know how many bytes will be sent */
ganlikun	0:20e0c61e0684	652	/* and set transfer size to 1 */
ganlikun	0:20e0c61e0684	653	tmpreg \|= I2C_CR2_RELOAD \| (I2C_CR2_NBYTES & (1 << 16));
ganlikun	0:20e0c61e0684	654	/* Set the prepared configuration */
ganlikun	0:20e0c61e0684	655	handle->Instance->CR2 = tmpreg;
ganlikun	0:20e0c61e0684	656
ganlikun	0:20e0c61e0684	657	timeout = FLAG_TIMEOUT;
ganlikun	0:20e0c61e0684	658	while (!__HAL_I2C_GET_FLAG(handle, I2C_FLAG_RXNE)) {
ganlikun	0:20e0c61e0684	659	if ((timeout--) == 0) {
ganlikun	0:20e0c61e0684	660	return -1;
ganlikun	0:20e0c61e0684	661	}
ganlikun	0:20e0c61e0684	662	}
ganlikun	0:20e0c61e0684	663
ganlikun	0:20e0c61e0684	664	/* Then Get Byte */
ganlikun	0:20e0c61e0684	665	data = handle->Instance->RXDR;
ganlikun	0:20e0c61e0684	666
ganlikun	0:20e0c61e0684	667	if (last) {
ganlikun	0:20e0c61e0684	668	/* Disable Address Acknowledge */
ganlikun	0:20e0c61e0684	669	handle->Instance->CR2 \|= I2C_CR2_NACK;
ganlikun	0:20e0c61e0684	670	}
ganlikun	0:20e0c61e0684	671
ganlikun	0:20e0c61e0684	672	return data;
ganlikun	0:20e0c61e0684	673	}
ganlikun	0:20e0c61e0684	674
ganlikun	0:20e0c61e0684	675	int i2c_byte_write(i2c_t *obj, int data) {
ganlikun	0:20e0c61e0684	676	struct i2c_s *obj_s = I2C_S(obj);
ganlikun	0:20e0c61e0684	677	I2C_HandleTypeDef *handle = &(obj_s->handle);
ganlikun	0:20e0c61e0684	678	int timeout = FLAG_TIMEOUT;
ganlikun	0:20e0c61e0684	679	uint32_t tmpreg = handle->Instance->CR2;
ganlikun	0:20e0c61e0684	680	#if DEVICE_I2CSLAVE
ganlikun	0:20e0c61e0684	681	if (obj_s->slave) {
ganlikun	0:20e0c61e0684	682	return i2c_slave_write(obj, (char *) &data, 1);
ganlikun	0:20e0c61e0684	683	}
ganlikun	0:20e0c61e0684	684	#endif
ganlikun	0:20e0c61e0684	685	if (obj_s->pending_start) {
ganlikun	0:20e0c61e0684	686	obj_s->pending_start = 0;
ganlikun	0:20e0c61e0684	687	//* First byte after the start is the address */
ganlikun	0:20e0c61e0684	688	tmpreg \|= (uint32_t)((uint32_t)data & I2C_CR2_SADD);
ganlikun	0:20e0c61e0684	689	if (data & 0x01) {
ganlikun	0:20e0c61e0684	690	tmpreg \|= I2C_CR2_START \| I2C_CR2_RD_WRN;
ganlikun	0:20e0c61e0684	691	} else {
ganlikun	0:20e0c61e0684	692	tmpreg \|= I2C_CR2_START;
ganlikun	0:20e0c61e0684	693	tmpreg &= ~I2C_CR2_RD_WRN;
ganlikun	0:20e0c61e0684	694	}
ganlikun	0:20e0c61e0684	695	/* Disable reload first to use it later */
ganlikun	0:20e0c61e0684	696	tmpreg &= ~I2C_CR2_RELOAD;
ganlikun	0:20e0c61e0684	697	/* Disable Autoend */
ganlikun	0:20e0c61e0684	698	tmpreg &= ~I2C_CR2_AUTOEND;
ganlikun	0:20e0c61e0684	699	/* Do not set any transfer size for now */
ganlikun	0:20e0c61e0684	700	tmpreg \|= (I2C_CR2_NBYTES & (1 << 16));
ganlikun	0:20e0c61e0684	701	/* Set the prepared configuration */
ganlikun	0:20e0c61e0684	702	handle->Instance->CR2 = tmpreg;
ganlikun	0:20e0c61e0684	703	} else {
ganlikun	0:20e0c61e0684	704	/* Set the prepared configuration */
ganlikun	0:20e0c61e0684	705	tmpreg = handle->Instance->CR2;
ganlikun	0:20e0c61e0684	706
ganlikun	0:20e0c61e0684	707	/* Then send data when there's room in the TX fifo */
ganlikun	0:20e0c61e0684	708	if ((tmpreg & I2C_CR2_RELOAD) != 0) {
ganlikun	0:20e0c61e0684	709	while (!__HAL_I2C_GET_FLAG(handle, I2C_FLAG_TCR)) {
ganlikun	0:20e0c61e0684	710	if ((timeout--) == 0) {
ganlikun	0:20e0c61e0684	711	DEBUG_PRINTF("timeout in byte_write\r\n");
ganlikun	0:20e0c61e0684	712	return 2;
ganlikun	0:20e0c61e0684	713	}
ganlikun	0:20e0c61e0684	714	}
ganlikun	0:20e0c61e0684	715	}
ganlikun	0:20e0c61e0684	716	/* Enable reload mode as we don't know how many bytes will eb sent */
ganlikun	0:20e0c61e0684	717	tmpreg \|= I2C_CR2_RELOAD;
ganlikun	0:20e0c61e0684	718	/* Set transfer size to 1 */
ganlikun	0:20e0c61e0684	719	tmpreg \|= (I2C_CR2_NBYTES & (1 << 16));
ganlikun	0:20e0c61e0684	720	/* Set the prepared configuration */
ganlikun	0:20e0c61e0684	721	handle->Instance->CR2 = tmpreg;
ganlikun	0:20e0c61e0684	722	/* Prepare next write */
ganlikun	0:20e0c61e0684	723	timeout = FLAG_TIMEOUT;
ganlikun	0:20e0c61e0684	724	while (!__HAL_I2C_GET_FLAG(handle, I2C_FLAG_TXE)) {
ganlikun	0:20e0c61e0684	725	if ((timeout--) == 0) {
ganlikun	0:20e0c61e0684	726	return 2;
ganlikun	0:20e0c61e0684	727	}
ganlikun	0:20e0c61e0684	728	}
ganlikun	0:20e0c61e0684	729	/* Write byte */
ganlikun	0:20e0c61e0684	730	handle->Instance->TXDR = data;
ganlikun	0:20e0c61e0684	731	}
ganlikun	0:20e0c61e0684	732
ganlikun	0:20e0c61e0684	733	return 1;
ganlikun	0:20e0c61e0684	734	}
ganlikun	0:20e0c61e0684	735	#endif //I2C_IP_VERSION_V2
ganlikun	0:20e0c61e0684	736
ganlikun	0:20e0c61e0684	737	/*
ganlikun	0:20e0c61e0684	738	* SYNC APIS
ganlikun	0:20e0c61e0684	739	*/
ganlikun	0:20e0c61e0684	740	int i2c_read(i2c_t obj, int address, char data, int length, int stop) {
ganlikun	0:20e0c61e0684	741	struct i2c_s *obj_s = I2C_S(obj);
ganlikun	0:20e0c61e0684	742	I2C_HandleTypeDef *handle = &(obj_s->handle);
ganlikun	0:20e0c61e0684	743	int count = I2C_ERROR_BUS_BUSY, ret = 0;
ganlikun	0:20e0c61e0684	744	uint32_t timeout = 0;
ganlikun	0:20e0c61e0684	745
ganlikun	0:20e0c61e0684	746	if ((obj_s->XferOperation == I2C_FIRST_AND_LAST_FRAME) \|\|
ganlikun	0:20e0c61e0684	747	(obj_s->XferOperation == I2C_LAST_FRAME)) {
ganlikun	0:20e0c61e0684	748	if (stop)
ganlikun	0:20e0c61e0684	749	obj_s->XferOperation = I2C_FIRST_AND_LAST_FRAME;
ganlikun	0:20e0c61e0684	750	else
ganlikun	0:20e0c61e0684	751	obj_s->XferOperation = I2C_FIRST_FRAME;
ganlikun	0:20e0c61e0684	752	} else if ((obj_s->XferOperation == I2C_FIRST_FRAME) \|\|
ganlikun	0:20e0c61e0684	753	(obj_s->XferOperation == I2C_NEXT_FRAME)) {
ganlikun	0:20e0c61e0684	754	if (stop)
ganlikun	0:20e0c61e0684	755	obj_s->XferOperation = I2C_LAST_FRAME;
ganlikun	0:20e0c61e0684	756	else
ganlikun	0:20e0c61e0684	757	obj_s->XferOperation = I2C_NEXT_FRAME;
ganlikun	0:20e0c61e0684	758	}
ganlikun	0:20e0c61e0684	759
ganlikun	0:20e0c61e0684	760	obj_s->event = 0;
ganlikun	0:20e0c61e0684	761
ganlikun	0:20e0c61e0684	762	/* Activate default IRQ handlers for sync mode
ganlikun	0:20e0c61e0684	763	* which would be overwritten in async mode
ganlikun	0:20e0c61e0684	764	*/
ganlikun	0:20e0c61e0684	765	i2c_ev_err_enable(obj, i2c_get_irq_handler(obj));
ganlikun	0:20e0c61e0684	766
ganlikun	0:20e0c61e0684	767	ret = HAL_I2C_Master_Sequential_Receive_IT(handle, address, (uint8_t *) data, length, obj_s->XferOperation);
ganlikun	0:20e0c61e0684	768
ganlikun	0:20e0c61e0684	769	if(ret == HAL_OK) {
ganlikun	0:20e0c61e0684	770	timeout = BYTE_TIMEOUT_US * (length + 1);
ganlikun	0:20e0c61e0684	771	/* transfer started : wait completion or timeout */
ganlikun	0:20e0c61e0684	772	while(!(obj_s->event & I2C_EVENT_ALL) && (--timeout != 0)) {
ganlikun	0:20e0c61e0684	773	wait_us(1);
ganlikun	0:20e0c61e0684	774	}
ganlikun	0:20e0c61e0684	775
ganlikun	0:20e0c61e0684	776	i2c_ev_err_disable(obj);
ganlikun	0:20e0c61e0684	777
ganlikun	0:20e0c61e0684	778	if((timeout == 0) \|\| (obj_s->event != I2C_EVENT_TRANSFER_COMPLETE)) {
ganlikun	0:20e0c61e0684	779	DEBUG_PRINTF(" TIMEOUT or error in i2c_read\r\n");
ganlikun	0:20e0c61e0684	780	/* re-init IP to try and get back in a working state */
ganlikun	0:20e0c61e0684	781	i2c_init(obj, obj_s->sda, obj_s->scl);
ganlikun	0:20e0c61e0684	782	} else {
ganlikun	0:20e0c61e0684	783	count = length;
ganlikun	0:20e0c61e0684	784	}
ganlikun	0:20e0c61e0684	785	} else {
ganlikun	0:20e0c61e0684	786	DEBUG_PRINTF("ERROR in i2c_read:%d\r\n", ret);
ganlikun	0:20e0c61e0684	787	}
ganlikun	0:20e0c61e0684	788
ganlikun	0:20e0c61e0684	789	return count;
ganlikun	0:20e0c61e0684	790	}
ganlikun	0:20e0c61e0684	791
ganlikun	0:20e0c61e0684	792	int i2c_write(i2c_t obj, int address, const char data, int length, int stop) {
ganlikun	0:20e0c61e0684	793	struct i2c_s *obj_s = I2C_S(obj);
ganlikun	0:20e0c61e0684	794	I2C_HandleTypeDef *handle = &(obj_s->handle);
ganlikun	0:20e0c61e0684	795	int count = I2C_ERROR_BUS_BUSY, ret = 0;
ganlikun	0:20e0c61e0684	796	uint32_t timeout = 0;
ganlikun	0:20e0c61e0684	797
ganlikun	0:20e0c61e0684	798	if ((obj_s->XferOperation == I2C_FIRST_AND_LAST_FRAME) \|\|
ganlikun	0:20e0c61e0684	799	(obj_s->XferOperation == I2C_LAST_FRAME)) {
ganlikun	0:20e0c61e0684	800	if (stop)
ganlikun	0:20e0c61e0684	801	obj_s->XferOperation = I2C_FIRST_AND_LAST_FRAME;
ganlikun	0:20e0c61e0684	802	else
ganlikun	0:20e0c61e0684	803	obj_s->XferOperation = I2C_FIRST_FRAME;
ganlikun	0:20e0c61e0684	804	} else if ((obj_s->XferOperation == I2C_FIRST_FRAME) \|\|
ganlikun	0:20e0c61e0684	805	(obj_s->XferOperation == I2C_NEXT_FRAME)) {
ganlikun	0:20e0c61e0684	806	if (stop)
ganlikun	0:20e0c61e0684	807	obj_s->XferOperation = I2C_LAST_FRAME;
ganlikun	0:20e0c61e0684	808	else
ganlikun	0:20e0c61e0684	809	obj_s->XferOperation = I2C_NEXT_FRAME;
ganlikun	0:20e0c61e0684	810	}
ganlikun	0:20e0c61e0684	811
ganlikun	0:20e0c61e0684	812	obj_s->event = 0;
ganlikun	0:20e0c61e0684	813
ganlikun	0:20e0c61e0684	814	i2c_ev_err_enable(obj, i2c_get_irq_handler(obj));
ganlikun	0:20e0c61e0684	815
ganlikun	0:20e0c61e0684	816	ret = HAL_I2C_Master_Sequential_Transmit_IT(handle, address, (uint8_t *) data, length, obj_s->XferOperation);
ganlikun	0:20e0c61e0684	817
ganlikun	0:20e0c61e0684	818	if(ret == HAL_OK) {
ganlikun	0:20e0c61e0684	819	timeout = BYTE_TIMEOUT_US * (length + 1);
ganlikun	0:20e0c61e0684	820	/* transfer started : wait completion or timeout */
ganlikun	0:20e0c61e0684	821	while(!(obj_s->event & I2C_EVENT_ALL) && (--timeout != 0)) {
ganlikun	0:20e0c61e0684	822	wait_us(1);
ganlikun	0:20e0c61e0684	823	}
ganlikun	0:20e0c61e0684	824
ganlikun	0:20e0c61e0684	825	i2c_ev_err_disable(obj);
ganlikun	0:20e0c61e0684	826
ganlikun	0:20e0c61e0684	827	if((timeout == 0) \|\| (obj_s->event != I2C_EVENT_TRANSFER_COMPLETE)) {
ganlikun	0:20e0c61e0684	828	DEBUG_PRINTF(" TIMEOUT or error in i2c_write\r\n");
ganlikun	0:20e0c61e0684	829	/* re-init IP to try and get back in a working state */
ganlikun	0:20e0c61e0684	830	i2c_init(obj, obj_s->sda, obj_s->scl);
ganlikun	0:20e0c61e0684	831	} else {
ganlikun	0:20e0c61e0684	832	count = length;
ganlikun	0:20e0c61e0684	833	}
ganlikun	0:20e0c61e0684	834	} else {
ganlikun	0:20e0c61e0684	835	DEBUG_PRINTF("ERROR in i2c_read\r\n");
ganlikun	0:20e0c61e0684	836	}
ganlikun	0:20e0c61e0684	837
ganlikun	0:20e0c61e0684	838	return count;
ganlikun	0:20e0c61e0684	839	}
ganlikun	0:20e0c61e0684	840
ganlikun	0:20e0c61e0684	841	void HAL_I2C_MasterTxCpltCallback(I2C_HandleTypeDef *hi2c){
ganlikun	0:20e0c61e0684	842	/* Get object ptr based on handler ptr */
ganlikun	0:20e0c61e0684	843	i2c_t *obj = get_i2c_obj(hi2c);
ganlikun	0:20e0c61e0684	844	struct i2c_s *obj_s = I2C_S(obj);
ganlikun	0:20e0c61e0684	845
ganlikun	0:20e0c61e0684	846	#if DEVICE_I2C_ASYNCH
ganlikun	0:20e0c61e0684	847	/* Handle potential Tx/Rx use case */
ganlikun	0:20e0c61e0684	848	if ((obj->tx_buff.length) && (obj->rx_buff.length)) {
ganlikun	0:20e0c61e0684	849	if (obj_s->stop) {
ganlikun	0:20e0c61e0684	850	obj_s->XferOperation = I2C_LAST_FRAME;
ganlikun	0:20e0c61e0684	851	} else {
ganlikun	0:20e0c61e0684	852	obj_s->XferOperation = I2C_NEXT_FRAME;
ganlikun	0:20e0c61e0684	853	}
ganlikun	0:20e0c61e0684	854
ganlikun	0:20e0c61e0684	855	HAL_I2C_Master_Sequential_Receive_IT(hi2c, obj_s->address, (uint8_t*)obj->rx_buff.buffer , obj->rx_buff.length, obj_s->XferOperation);
ganlikun	0:20e0c61e0684	856	}
ganlikun	0:20e0c61e0684	857	else
ganlikun	0:20e0c61e0684	858	#endif
ganlikun	0:20e0c61e0684	859	{
ganlikun	0:20e0c61e0684	860	/* Set event flag */
ganlikun	0:20e0c61e0684	861	obj_s->event = I2C_EVENT_TRANSFER_COMPLETE;
ganlikun	0:20e0c61e0684	862	}
ganlikun	0:20e0c61e0684	863	}
ganlikun	0:20e0c61e0684	864
ganlikun	0:20e0c61e0684	865	void HAL_I2C_MasterRxCpltCallback(I2C_HandleTypeDef *hi2c){
ganlikun	0:20e0c61e0684	866	/* Get object ptr based on handler ptr */
ganlikun	0:20e0c61e0684	867	i2c_t *obj = get_i2c_obj(hi2c);
ganlikun	0:20e0c61e0684	868	struct i2c_s *obj_s = I2C_S(obj);
ganlikun	0:20e0c61e0684	869
ganlikun	0:20e0c61e0684	870	/* Set event flag */
ganlikun	0:20e0c61e0684	871	obj_s->event = I2C_EVENT_TRANSFER_COMPLETE;
ganlikun	0:20e0c61e0684	872	}
ganlikun	0:20e0c61e0684	873
ganlikun	0:20e0c61e0684	874	void HAL_I2C_ErrorCallback(I2C_HandleTypeDef *hi2c){
ganlikun	0:20e0c61e0684	875	/* Get object ptr based on handler ptr */
ganlikun	0:20e0c61e0684	876	i2c_t *obj = get_i2c_obj(hi2c);
ganlikun	0:20e0c61e0684	877	struct i2c_s *obj_s = I2C_S(obj);
ganlikun	0:20e0c61e0684	878	#if DEVICE_I2CSLAVE
ganlikun	0:20e0c61e0684	879	I2C_HandleTypeDef *handle = &(obj_s->handle);
ganlikun	0:20e0c61e0684	880	uint32_t address = 0;
ganlikun	0:20e0c61e0684	881	/* Store address to handle it after reset */
ganlikun	0:20e0c61e0684	882	if(obj_s->slave)
ganlikun	0:20e0c61e0684	883	address = handle->Init.OwnAddress1;
ganlikun	0:20e0c61e0684	884	#endif
ganlikun	0:20e0c61e0684	885
ganlikun	0:20e0c61e0684	886	DEBUG_PRINTF("HAL_I2C_ErrorCallback:%d, index=%d\r\n", (int) hi2c->ErrorCode, obj_s->index);
ganlikun	0:20e0c61e0684	887
ganlikun	0:20e0c61e0684	888	/* re-init IP to try and get back in a working state */
ganlikun	0:20e0c61e0684	889	i2c_init(obj, obj_s->sda, obj_s->scl);
ganlikun	0:20e0c61e0684	890
ganlikun	0:20e0c61e0684	891	#if DEVICE_I2CSLAVE
ganlikun	0:20e0c61e0684	892	/* restore slave address */
ganlikun	0:20e0c61e0684	893	if (address != 0) {
ganlikun	0:20e0c61e0684	894	obj_s->slave = 1;
ganlikun	0:20e0c61e0684	895	i2c_slave_address(obj, 0, address, 0);
ganlikun	0:20e0c61e0684	896	}
ganlikun	0:20e0c61e0684	897	#endif
ganlikun	0:20e0c61e0684	898
ganlikun	0:20e0c61e0684	899	/* Keep Set event flag */
ganlikun	0:20e0c61e0684	900	obj_s->event = I2C_EVENT_ERROR;
ganlikun	0:20e0c61e0684	901	}
ganlikun	0:20e0c61e0684	902
ganlikun	0:20e0c61e0684	903	#if DEVICE_I2CSLAVE
ganlikun	0:20e0c61e0684	904	/* SLAVE API FUNCTIONS */
ganlikun	0:20e0c61e0684	905	void i2c_slave_address(i2c_t *obj, int idx, uint32_t address, uint32_t mask) {
ganlikun	0:20e0c61e0684	906	struct i2c_s *obj_s = I2C_S(obj);
ganlikun	0:20e0c61e0684	907	I2C_HandleTypeDef *handle = &(obj_s->handle);
ganlikun	0:20e0c61e0684	908
ganlikun	0:20e0c61e0684	909	// I2C configuration
ganlikun	0:20e0c61e0684	910	handle->Init.OwnAddress1 = address;
ganlikun	0:20e0c61e0684	911	HAL_I2C_Init(handle);
ganlikun	0:20e0c61e0684	912
ganlikun	0:20e0c61e0684	913	i2c_ev_err_enable(obj, i2c_get_irq_handler(obj));
ganlikun	0:20e0c61e0684	914
ganlikun	0:20e0c61e0684	915	HAL_I2C_EnableListen_IT(handle);
ganlikun	0:20e0c61e0684	916	}
ganlikun	0:20e0c61e0684	917
ganlikun	0:20e0c61e0684	918	void i2c_slave_mode(i2c_t *obj, int enable_slave) {
ganlikun	0:20e0c61e0684	919
ganlikun	0:20e0c61e0684	920	struct i2c_s *obj_s = I2C_S(obj);
ganlikun	0:20e0c61e0684	921	I2C_HandleTypeDef *handle = &(obj_s->handle);
ganlikun	0:20e0c61e0684	922
ganlikun	0:20e0c61e0684	923	if (enable_slave) {
ganlikun	0:20e0c61e0684	924	obj_s->slave = 1;
ganlikun	0:20e0c61e0684	925	HAL_I2C_EnableListen_IT(handle);
ganlikun	0:20e0c61e0684	926	} else {
ganlikun	0:20e0c61e0684	927	obj_s->slave = 0;
ganlikun	0:20e0c61e0684	928	HAL_I2C_DisableListen_IT(handle);
ganlikun	0:20e0c61e0684	929	}
ganlikun	0:20e0c61e0684	930	}
ganlikun	0:20e0c61e0684	931
ganlikun	0:20e0c61e0684	932	// See I2CSlave.h
ganlikun	0:20e0c61e0684	933	#define NoData 0 // the slave has not been addressed
ganlikun	0:20e0c61e0684	934	#define ReadAddressed 1 // the master has requested a read from this slave (slave = transmitter)
ganlikun	0:20e0c61e0684	935	#define WriteGeneral 2 // the master is writing to all slave
ganlikun	0:20e0c61e0684	936	#define WriteAddressed 3 // the master is writing to this slave (slave = receiver)
ganlikun	0:20e0c61e0684	937
ganlikun	0:20e0c61e0684	938
ganlikun	0:20e0c61e0684	939	void HAL_I2C_AddrCallback(I2C_HandleTypeDef *hi2c, uint8_t TransferDirection, uint16_t AddrMatchCode) {
ganlikun	0:20e0c61e0684	940	/* Get object ptr based on handler ptr */
ganlikun	0:20e0c61e0684	941	i2c_t *obj = get_i2c_obj(hi2c);
ganlikun	0:20e0c61e0684	942	struct i2c_s *obj_s = I2C_S(obj);
ganlikun	0:20e0c61e0684	943
ganlikun	0:20e0c61e0684	944	/* Transfer direction in HAL is from Master point of view */
ganlikun	0:20e0c61e0684	945	if(TransferDirection == I2C_DIRECTION_RECEIVE) {
ganlikun	0:20e0c61e0684	946	obj_s->pending_slave_tx_master_rx = 1;
ganlikun	0:20e0c61e0684	947	}
ganlikun	0:20e0c61e0684	948
ganlikun	0:20e0c61e0684	949	if(TransferDirection == I2C_DIRECTION_TRANSMIT) {
ganlikun	0:20e0c61e0684	950	obj_s->pending_slave_rx_maxter_tx = 1;
ganlikun	0:20e0c61e0684	951	}
ganlikun	0:20e0c61e0684	952	}
ganlikun	0:20e0c61e0684	953
ganlikun	0:20e0c61e0684	954	void HAL_I2C_SlaveTxCpltCallback(I2C_HandleTypeDef *I2cHandle){
ganlikun	0:20e0c61e0684	955	/* Get object ptr based on handler ptr */
ganlikun	0:20e0c61e0684	956	i2c_t *obj = get_i2c_obj(I2cHandle);
ganlikun	0:20e0c61e0684	957	struct i2c_s *obj_s = I2C_S(obj);
ganlikun	0:20e0c61e0684	958	obj_s->pending_slave_tx_master_rx = 0;
ganlikun	0:20e0c61e0684	959	}
ganlikun	0:20e0c61e0684	960
ganlikun	0:20e0c61e0684	961	void HAL_I2C_SlaveRxCpltCallback(I2C_HandleTypeDef *I2cHandle){
ganlikun	0:20e0c61e0684	962	/* Get object ptr based on handler ptr */
ganlikun	0:20e0c61e0684	963	i2c_t *obj = get_i2c_obj(I2cHandle);
ganlikun	0:20e0c61e0684	964	struct i2c_s *obj_s = I2C_S(obj);
ganlikun	0:20e0c61e0684	965	obj_s->pending_slave_rx_maxter_tx = 0;
ganlikun	0:20e0c61e0684	966	}
ganlikun	0:20e0c61e0684	967
ganlikun	0:20e0c61e0684	968	void HAL_I2C_ListenCpltCallback(I2C_HandleTypeDef *hi2c)
ganlikun	0:20e0c61e0684	969	{
ganlikun	0:20e0c61e0684	970	/* restart listening for master requests */
ganlikun	0:20e0c61e0684	971	HAL_I2C_EnableListen_IT(hi2c);
ganlikun	0:20e0c61e0684	972	}
ganlikun	0:20e0c61e0684	973
ganlikun	0:20e0c61e0684	974	int i2c_slave_receive(i2c_t *obj) {
ganlikun	0:20e0c61e0684	975
ganlikun	0:20e0c61e0684	976	struct i2c_s *obj_s = I2C_S(obj);
ganlikun	0:20e0c61e0684	977	int retValue = NoData;
ganlikun	0:20e0c61e0684	978
ganlikun	0:20e0c61e0684	979	if(obj_s->pending_slave_rx_maxter_tx) {
ganlikun	0:20e0c61e0684	980	retValue = WriteAddressed;
ganlikun	0:20e0c61e0684	981	}
ganlikun	0:20e0c61e0684	982
ganlikun	0:20e0c61e0684	983	if(obj_s->pending_slave_tx_master_rx) {
ganlikun	0:20e0c61e0684	984	retValue = ReadAddressed;
ganlikun	0:20e0c61e0684	985	}
ganlikun	0:20e0c61e0684	986
ganlikun	0:20e0c61e0684	987	return (retValue);
ganlikun	0:20e0c61e0684	988	}
ganlikun	0:20e0c61e0684	989
ganlikun	0:20e0c61e0684	990	int i2c_slave_read(i2c_t obj, char data, int length) {
ganlikun	0:20e0c61e0684	991	struct i2c_s *obj_s = I2C_S(obj);
ganlikun	0:20e0c61e0684	992	I2C_HandleTypeDef *handle = &(obj_s->handle);
ganlikun	0:20e0c61e0684	993	int count = 0;
ganlikun	0:20e0c61e0684	994	int ret = 0;
ganlikun	0:20e0c61e0684	995	uint32_t timeout = 0;
ganlikun	0:20e0c61e0684	996
ganlikun	0:20e0c61e0684	997	/* Always use I2C_NEXT_FRAME as slave will just adapt to master requests */
ganlikun	0:20e0c61e0684	998	ret = HAL_I2C_Slave_Sequential_Receive_IT(handle, (uint8_t *) data, length, I2C_NEXT_FRAME);
ganlikun	0:20e0c61e0684	999
ganlikun	0:20e0c61e0684	1000	if(ret == HAL_OK) {
ganlikun	0:20e0c61e0684	1001	timeout = BYTE_TIMEOUT_US * (length + 1);
ganlikun	0:20e0c61e0684	1002	while(obj_s->pending_slave_rx_maxter_tx && (--timeout != 0)) {
ganlikun	0:20e0c61e0684	1003	wait_us(1);
ganlikun	0:20e0c61e0684	1004	}
ganlikun	0:20e0c61e0684	1005
ganlikun	0:20e0c61e0684	1006	if(timeout != 0) {
ganlikun	0:20e0c61e0684	1007	count = length;
ganlikun	0:20e0c61e0684	1008	} else {
ganlikun	0:20e0c61e0684	1009	DEBUG_PRINTF("TIMEOUT or error in i2c_slave_read\r\n");
ganlikun	0:20e0c61e0684	1010	}
ganlikun	0:20e0c61e0684	1011	}
ganlikun	0:20e0c61e0684	1012	return count;
ganlikun	0:20e0c61e0684	1013	}
ganlikun	0:20e0c61e0684	1014
ganlikun	0:20e0c61e0684	1015	int i2c_slave_write(i2c_t obj, const char data, int length) {
ganlikun	0:20e0c61e0684	1016	struct i2c_s *obj_s = I2C_S(obj);
ganlikun	0:20e0c61e0684	1017	I2C_HandleTypeDef *handle = &(obj_s->handle);
ganlikun	0:20e0c61e0684	1018	int count = 0;
ganlikun	0:20e0c61e0684	1019	int ret = 0;
ganlikun	0:20e0c61e0684	1020	uint32_t timeout = 0;
ganlikun	0:20e0c61e0684	1021
ganlikun	0:20e0c61e0684	1022	/* Always use I2C_NEXT_FRAME as slave will just adapt to master requests */
ganlikun	0:20e0c61e0684	1023	ret = HAL_I2C_Slave_Sequential_Transmit_IT(handle, (uint8_t *) data, length, I2C_NEXT_FRAME);
ganlikun	0:20e0c61e0684	1024
ganlikun	0:20e0c61e0684	1025	if(ret == HAL_OK) {
ganlikun	0:20e0c61e0684	1026	timeout = BYTE_TIMEOUT_US * (length + 1);
ganlikun	0:20e0c61e0684	1027	while(obj_s->pending_slave_tx_master_rx && (--timeout != 0)) {
ganlikun	0:20e0c61e0684	1028	wait_us(1);
ganlikun	0:20e0c61e0684	1029	}
ganlikun	0:20e0c61e0684	1030
ganlikun	0:20e0c61e0684	1031	if(timeout != 0) {
ganlikun	0:20e0c61e0684	1032	count = length;
ganlikun	0:20e0c61e0684	1033	} else {
ganlikun	0:20e0c61e0684	1034	DEBUG_PRINTF("TIMEOUT or error in i2c_slave_write\r\n");
ganlikun	0:20e0c61e0684	1035	}
ganlikun	0:20e0c61e0684	1036	}
ganlikun	0:20e0c61e0684	1037
ganlikun	0:20e0c61e0684	1038	return count;
ganlikun	0:20e0c61e0684	1039	}
ganlikun	0:20e0c61e0684	1040	#endif // DEVICE_I2CSLAVE
ganlikun	0:20e0c61e0684	1041
ganlikun	0:20e0c61e0684	1042	#if DEVICE_I2C_ASYNCH
ganlikun	0:20e0c61e0684	1043	/* ASYNCH MASTER API FUNCTIONS */
ganlikun	0:20e0c61e0684	1044	void HAL_I2C_AbortCpltCallback(I2C_HandleTypeDef *hi2c){
ganlikun	0:20e0c61e0684	1045	/* Get object ptr based on handler ptr */
ganlikun	0:20e0c61e0684	1046	i2c_t *obj = get_i2c_obj(hi2c);
ganlikun	0:20e0c61e0684	1047	struct i2c_s *obj_s = I2C_S(obj);
ganlikun	0:20e0c61e0684	1048	I2C_HandleTypeDef *handle = &(obj_s->handle);
ganlikun	0:20e0c61e0684	1049
ganlikun	0:20e0c61e0684	1050	/* Disable IT. Not always done before calling macro */
ganlikun	0:20e0c61e0684	1051	__HAL_I2C_DISABLE_IT(handle, I2C_IT_ALL);
ganlikun	0:20e0c61e0684	1052	i2c_ev_err_disable(obj);
ganlikun	0:20e0c61e0684	1053
ganlikun	0:20e0c61e0684	1054	/* Set event flag */
ganlikun	0:20e0c61e0684	1055	obj_s->event = I2C_EVENT_ERROR;
ganlikun	0:20e0c61e0684	1056	}
ganlikun	0:20e0c61e0684	1057
ganlikun	0:20e0c61e0684	1058	void i2c_transfer_asynch(i2c_t obj, const void tx, size_t tx_length, void *rx, size_t rx_length, uint32_t address, uint32_t stop, uint32_t handler, uint32_t event, DMAUsage hint) {
ganlikun	0:20e0c61e0684	1059
ganlikun	0:20e0c61e0684	1060	// TODO: DMA usage is currently ignored by this way
ganlikun	0:20e0c61e0684	1061	(void) hint;
ganlikun	0:20e0c61e0684	1062
ganlikun	0:20e0c61e0684	1063	struct i2c_s *obj_s = I2C_S(obj);
ganlikun	0:20e0c61e0684	1064	I2C_HandleTypeDef *handle = &(obj_s->handle);
ganlikun	0:20e0c61e0684	1065
ganlikun	0:20e0c61e0684	1066	/* Update object */
ganlikun	0:20e0c61e0684	1067	obj->tx_buff.buffer = (void *)tx;
ganlikun	0:20e0c61e0684	1068	obj->tx_buff.length = tx_length;
ganlikun	0:20e0c61e0684	1069	obj->tx_buff.pos = 0;
ganlikun	0:20e0c61e0684	1070	obj->tx_buff.width = 8;
ganlikun	0:20e0c61e0684	1071
ganlikun	0:20e0c61e0684	1072	obj->rx_buff.buffer = (void *)rx;
ganlikun	0:20e0c61e0684	1073	obj->rx_buff.length = rx_length;
ganlikun	0:20e0c61e0684	1074	obj->rx_buff.pos = SIZE_MAX;
ganlikun	0:20e0c61e0684	1075	obj->rx_buff.width = 8;
ganlikun	0:20e0c61e0684	1076
ganlikun	0:20e0c61e0684	1077	obj_s->available_events = event;
ganlikun	0:20e0c61e0684	1078	obj_s->event = 0;
ganlikun	0:20e0c61e0684	1079	obj_s->address = address;
ganlikun	0:20e0c61e0684	1080	obj_s->stop = stop;
ganlikun	0:20e0c61e0684	1081
ganlikun	0:20e0c61e0684	1082	i2c_ev_err_enable(obj, handler);
ganlikun	0:20e0c61e0684	1083
ganlikun	0:20e0c61e0684	1084	/* Set operation step depending if stop sending required or not */
ganlikun	0:20e0c61e0684	1085	if ((tx_length && !rx_length) \|\| (!tx_length && rx_length)) {
ganlikun	0:20e0c61e0684	1086	if ((obj_s->XferOperation == I2C_FIRST_AND_LAST_FRAME) \|\|
ganlikun	0:20e0c61e0684	1087	(obj_s->XferOperation == I2C_LAST_FRAME)) {
ganlikun	0:20e0c61e0684	1088	if (stop)
ganlikun	0:20e0c61e0684	1089	obj_s->XferOperation = I2C_FIRST_AND_LAST_FRAME;
ganlikun	0:20e0c61e0684	1090	else
ganlikun	0:20e0c61e0684	1091	obj_s->XferOperation = I2C_FIRST_FRAME;
ganlikun	0:20e0c61e0684	1092	} else if ((obj_s->XferOperation == I2C_FIRST_FRAME) \|\|
ganlikun	0:20e0c61e0684	1093	(obj_s->XferOperation == I2C_NEXT_FRAME)) {
ganlikun	0:20e0c61e0684	1094	if (stop)
ganlikun	0:20e0c61e0684	1095	obj_s->XferOperation = I2C_LAST_FRAME;
ganlikun	0:20e0c61e0684	1096	else
ganlikun	0:20e0c61e0684	1097	obj_s->XferOperation = I2C_NEXT_FRAME;
ganlikun	0:20e0c61e0684	1098	}
ganlikun	0:20e0c61e0684	1099
ganlikun	0:20e0c61e0684	1100	if (tx_length > 0) {
ganlikun	0:20e0c61e0684	1101	HAL_I2C_Master_Sequential_Transmit_IT(handle, address, (uint8_t*)tx, tx_length, obj_s->XferOperation);
ganlikun	0:20e0c61e0684	1102	}
ganlikun	0:20e0c61e0684	1103	if (rx_length > 0) {
ganlikun	0:20e0c61e0684	1104	HAL_I2C_Master_Sequential_Receive_IT(handle, address, (uint8_t*)rx, rx_length, obj_s->XferOperation);
ganlikun	0:20e0c61e0684	1105	}
ganlikun	0:20e0c61e0684	1106	}
ganlikun	0:20e0c61e0684	1107	else if (tx_length && rx_length) {
ganlikun	0:20e0c61e0684	1108	/* Two steps operation, don't modify XferOperation, keep it for next step */
ganlikun	0:20e0c61e0684	1109	if ((obj_s->XferOperation == I2C_FIRST_AND_LAST_FRAME) \|\|
ganlikun	0:20e0c61e0684	1110	(obj_s->XferOperation == I2C_LAST_FRAME)) {
ganlikun	0:20e0c61e0684	1111	HAL_I2C_Master_Sequential_Transmit_IT(handle, address, (uint8_t*)tx, tx_length, I2C_FIRST_FRAME);
ganlikun	0:20e0c61e0684	1112	} else if ((obj_s->XferOperation == I2C_FIRST_FRAME) \|\|
ganlikun	0:20e0c61e0684	1113	(obj_s->XferOperation == I2C_NEXT_FRAME)) {
ganlikun	0:20e0c61e0684	1114	HAL_I2C_Master_Sequential_Transmit_IT(handle, address, (uint8_t*)tx, tx_length, I2C_NEXT_FRAME);
ganlikun	0:20e0c61e0684	1115	}
ganlikun	0:20e0c61e0684	1116	}
ganlikun	0:20e0c61e0684	1117	}
ganlikun	0:20e0c61e0684	1118
ganlikun	0:20e0c61e0684	1119
ganlikun	0:20e0c61e0684	1120	uint32_t i2c_irq_handler_asynch(i2c_t *obj) {
ganlikun	0:20e0c61e0684	1121
ganlikun	0:20e0c61e0684	1122	struct i2c_s *obj_s = I2C_S(obj);
ganlikun	0:20e0c61e0684	1123	I2C_HandleTypeDef *handle = &(obj_s->handle);
ganlikun	0:20e0c61e0684	1124
ganlikun	0:20e0c61e0684	1125	HAL_I2C_EV_IRQHandler(handle);
ganlikun	0:20e0c61e0684	1126	HAL_I2C_ER_IRQHandler(handle);
ganlikun	0:20e0c61e0684	1127
ganlikun	0:20e0c61e0684	1128	/* Return I2C event status */
ganlikun	0:20e0c61e0684	1129	return (obj_s->event & obj_s->available_events);
ganlikun	0:20e0c61e0684	1130	}
ganlikun	0:20e0c61e0684	1131
ganlikun	0:20e0c61e0684	1132	uint8_t i2c_active(i2c_t *obj) {
ganlikun	0:20e0c61e0684	1133
ganlikun	0:20e0c61e0684	1134	struct i2c_s *obj_s = I2C_S(obj);
ganlikun	0:20e0c61e0684	1135	I2C_HandleTypeDef *handle = &(obj_s->handle);
ganlikun	0:20e0c61e0684	1136
ganlikun	0:20e0c61e0684	1137	if (handle->State == HAL_I2C_STATE_READY) {
ganlikun	0:20e0c61e0684	1138	return 0;
ganlikun	0:20e0c61e0684	1139	}
ganlikun	0:20e0c61e0684	1140	else {
ganlikun	0:20e0c61e0684	1141	return 1;
ganlikun	0:20e0c61e0684	1142	}
ganlikun	0:20e0c61e0684	1143	}
ganlikun	0:20e0c61e0684	1144
ganlikun	0:20e0c61e0684	1145	void i2c_abort_asynch(i2c_t *obj) {
ganlikun	0:20e0c61e0684	1146
ganlikun	0:20e0c61e0684	1147	struct i2c_s *obj_s = I2C_S(obj);
ganlikun	0:20e0c61e0684	1148	I2C_HandleTypeDef *handle = &(obj_s->handle);
ganlikun	0:20e0c61e0684	1149
ganlikun	0:20e0c61e0684	1150	/* Abort HAL requires DevAddress, but is not used. Use Dummy */
ganlikun	0:20e0c61e0684	1151	uint16_t Dummy_DevAddress = 0x00;
ganlikun	0:20e0c61e0684	1152
ganlikun	0:20e0c61e0684	1153	HAL_I2C_Master_Abort_IT(handle, Dummy_DevAddress);
ganlikun	0:20e0c61e0684	1154	}
ganlikun	0:20e0c61e0684	1155
ganlikun	0:20e0c61e0684	1156	#endif // DEVICE_I2C_ASYNCH
ganlikun	0:20e0c61e0684	1157
ganlikun	0:20e0c61e0684	1158	#endif // DEVICE_I2C
ganlikun	0:20e0c61e0684	1159

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Type:	Library
Created:	23 Jun 2022
Imports:	3
Forks:	0
Commits:	1
Dependents:	0
Dependencies:	0
Followers:	1

targets/TARGET_STM/i2c_api.c@0:20e0c61e0684, 2022-06-23 (annotated)

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