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targets/cmsis/TARGET_STM/TARGET_STM32F4/stm32f4xx_hal_nand.c@380:510f0c3515e3, 2014-11-03 (annotated)

Committer:: mbed_official
Date:: Mon Nov 03 10:15:07 2014 +0000
Revision:: 380:510f0c3515e3
Parent:: targets/cmsis/TARGET_STM/TARGET_NUCLEO_F401RE/stm32f4xx_hal_nand.c@369:2e96f1b71984
Child:: 384:ef87175507f1

Synchronized with git revision 417f470ba9f4882d7079611cbc576afd9c49b0ef

Full URL: https://github.com/mbedmicro/mbed/commit/417f470ba9f4882d7079611cbc576afd9c49b0ef/

Targets: Factorisation of NUCLEO_F401RE and F411RE cmsis folders

Who changed what in which revision?

User	Revision	Line number	New contents of line
mbed_official	87:085cde657901	1	/**
mbed_official	87:085cde657901	2	******************************************************************************
mbed_official	87:085cde657901	3	* @file stm32f4xx_hal_nand.c
mbed_official	87:085cde657901	4	* @author MCD Application Team
mbed_official	369:2e96f1b71984	5	* @version V1.1.0
mbed_official	369:2e96f1b71984	6	* @date 19-June-2014
mbed_official	87:085cde657901	7	* @brief NAND HAL module driver.
mbed_official	87:085cde657901	8	* This file provides a generic firmware to drive NAND memories mounted
mbed_official	87:085cde657901	9	* as external device.
mbed_official	87:085cde657901	10	*
mbed_official	87:085cde657901	11	@verbatim
mbed_official	87:085cde657901	12	==============================================================================
mbed_official	87:085cde657901	13	##### How to use this driver #####
mbed_official	87:085cde657901	14	==============================================================================
mbed_official	87:085cde657901	15	[..]
mbed_official	87:085cde657901	16	This driver is a generic layered driver which contains a set of APIs used to
mbed_official	87:085cde657901	17	control NAND flash memories. It uses the FMC/FSMC layer functions to interface
mbed_official	87:085cde657901	18	with NAND devices. This driver is used as follows:
mbed_official	87:085cde657901	19
mbed_official	87:085cde657901	20	(+) NAND flash memory configuration sequence using the function HAL_NAND_Init()
mbed_official	87:085cde657901	21	with control and timing parameters for both common and attribute spaces.
mbed_official	87:085cde657901	22
mbed_official	87:085cde657901	23	(+) Read NAND flash memory maker and device IDs using the function
mbed_official	87:085cde657901	24	HAL_NAND_Read_ID(). The read information is stored in the NAND_ID_TypeDef
mbed_official	87:085cde657901	25	structure declared by the function caller.
mbed_official	87:085cde657901	26
mbed_official	87:085cde657901	27	(+) Access NAND flash memory by read/write operations using the functions
mbed_official	87:085cde657901	28	HAL_NAND_Read_Page()/HAL_NAND_Read_SpareArea(), HAL_NAND_Write_Page()/HAL_NAND_Write_SpareArea()
mbed_official	87:085cde657901	29	to read/write page(s)/spare area(s). These functions use specific device
mbed_official	87:085cde657901	30	information (Block, page size..) predefined by the user in the HAL_NAND_Info_TypeDef
mbed_official	87:085cde657901	31	structure. The read/write address information is contained by the Nand_Address_Typedef
mbed_official	87:085cde657901	32	structure passed as parameter.
mbed_official	87:085cde657901	33
mbed_official	87:085cde657901	34	(+) Perform NAND flash Reset chip operation using the function HAL_NAND_Reset().
mbed_official	87:085cde657901	35
mbed_official	87:085cde657901	36	(+) Perform NAND flash erase block operation using the function HAL_NAND_Erase_Block().
mbed_official	87:085cde657901	37	The erase block address information is contained in the Nand_Address_Typedef
mbed_official	87:085cde657901	38	structure passed as parameter.
mbed_official	87:085cde657901	39
mbed_official	87:085cde657901	40	(+) Read the NAND flash status operation using the function HAL_NAND_Read_Status().
mbed_official	87:085cde657901	41
mbed_official	87:085cde657901	42	(+) You can also control the NAND device by calling the control APIs HAL_NAND_ECC_Enable()/
mbed_official	87:085cde657901	43	HAL_NAND_ECC_Disable() to respectively enable/disable the ECC code correction
mbed_official	87:085cde657901	44	feature or the function HAL_NAND_GetECC() to get the ECC correction code.
mbed_official	87:085cde657901	45
mbed_official	87:085cde657901	46	(+) You can monitor the NAND device HAL state by calling the function
mbed_official	87:085cde657901	47	HAL_NAND_GetState()
mbed_official	87:085cde657901	48
mbed_official	87:085cde657901	49	[..]
mbed_official	87:085cde657901	50	(@) This driver is a set of generic APIs which handle standard NAND flash operations.
mbed_official	87:085cde657901	51	If a NAND flash device contains different operations and/or implementations,
mbed_official	87:085cde657901	52	it should be implemented separately.
mbed_official	87:085cde657901	53
mbed_official	87:085cde657901	54	@endverbatim
mbed_official	87:085cde657901	55	******************************************************************************
mbed_official	87:085cde657901	56	* @attention
mbed_official	87:085cde657901	57	*
mbed_official	87:085cde657901	58	* <h2><center>© COPYRIGHT(c) 2014 STMicroelectronics</center></h2>
mbed_official	87:085cde657901	59	*
mbed_official	87:085cde657901	60	* Redistribution and use in source and binary forms, with or without modification,
mbed_official	87:085cde657901	61	* are permitted provided that the following conditions are met:
mbed_official	87:085cde657901	62	* 1. Redistributions of source code must retain the above copyright notice,
mbed_official	87:085cde657901	63	* this list of conditions and the following disclaimer.
mbed_official	87:085cde657901	64	* 2. Redistributions in binary form must reproduce the above copyright notice,
mbed_official	87:085cde657901	65	* this list of conditions and the following disclaimer in the documentation
mbed_official	87:085cde657901	66	* and/or other materials provided with the distribution.
mbed_official	87:085cde657901	67	* 3. Neither the name of STMicroelectronics nor the names of its contributors
mbed_official	87:085cde657901	68	* may be used to endorse or promote products derived from this software
mbed_official	87:085cde657901	69	* without specific prior written permission.
mbed_official	87:085cde657901	70	*
mbed_official	87:085cde657901	71	* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
mbed_official	87:085cde657901	72	* AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
mbed_official	87:085cde657901	73	* IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
mbed_official	87:085cde657901	74	* DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE
mbed_official	87:085cde657901	75	* FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
mbed_official	87:085cde657901	76	* DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR
mbed_official	87:085cde657901	77	* SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER
mbed_official	87:085cde657901	78	* CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY,
mbed_official	87:085cde657901	79	* OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
mbed_official	87:085cde657901	80	* OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
mbed_official	87:085cde657901	81	*
mbed_official	87:085cde657901	82	******************************************************************************
mbed_official	87:085cde657901	83	*/
mbed_official	87:085cde657901	84
mbed_official	87:085cde657901	85	/* Includes ------------------------------------------------------------------*/
mbed_official	87:085cde657901	86	#include "stm32f4xx_hal.h"
mbed_official	87:085cde657901	87
mbed_official	87:085cde657901	88	/** @addtogroup STM32F4xx_HAL_Driver
mbed_official	87:085cde657901	89	* @{
mbed_official	87:085cde657901	90	*/
mbed_official	87:085cde657901	91
mbed_official	87:085cde657901	92	/** @defgroup NAND
mbed_official	87:085cde657901	93	* @brief NAND driver modules
mbed_official	87:085cde657901	94	* @{
mbed_official	87:085cde657901	95	*/
mbed_official	87:085cde657901	96	#ifdef HAL_NAND_MODULE_ENABLED
mbed_official	87:085cde657901	97
mbed_official	87:085cde657901	98	#if defined(STM32F405xx) \|\| defined(STM32F415xx) \|\| defined(STM32F407xx) \|\| defined(STM32F417xx) \|\| defined(STM32F427xx) \|\| defined(STM32F437xx) \|\| defined(STM32F429xx) \|\| defined(STM32F439xx)
mbed_official	87:085cde657901	99
mbed_official	87:085cde657901	100	/* Private typedef -----------------------------------------------------------*/
mbed_official	87:085cde657901	101	/* Private define ------------------------------------------------------------*/
mbed_official	87:085cde657901	102	/* Private macro -------------------------------------------------------------*/
mbed_official	87:085cde657901	103	/* Private variables ---------------------------------------------------------*/
mbed_official	87:085cde657901	104	/* Private function prototypes -----------------------------------------------*/
mbed_official	87:085cde657901	105	/* Private functions ---------------------------------------------------------*/
mbed_official	87:085cde657901	106
mbed_official	87:085cde657901	107	/** @defgroup NAND_Private_Functions
mbed_official	87:085cde657901	108	* @{
mbed_official	87:085cde657901	109	*/
mbed_official	87:085cde657901	110
mbed_official	87:085cde657901	111	/** @defgroup NAND_Group1 Initialization and de-initialization functions
mbed_official	87:085cde657901	112	* @brief Initialization and Configuration functions
mbed_official	87:085cde657901	113	*
mbed_official	87:085cde657901	114	@verbatim
mbed_official	87:085cde657901	115	==============================================================================
mbed_official	87:085cde657901	116	##### NAND Initialization and de-initialization functions #####
mbed_official	87:085cde657901	117	==============================================================================
mbed_official	87:085cde657901	118	[..]
mbed_official	87:085cde657901	119	This section provides functions allowing to initialize/de-initialize
mbed_official	87:085cde657901	120	the NAND memory
mbed_official	87:085cde657901	121
mbed_official	87:085cde657901	122	@endverbatim
mbed_official	87:085cde657901	123	* @{
mbed_official	87:085cde657901	124	*/
mbed_official	87:085cde657901	125
mbed_official	87:085cde657901	126	/**
mbed_official	87:085cde657901	127	* @brief Perform NAND memory Initialization sequence
mbed_official	226:b062af740e40	128	* @param hnand: pointer to a NAND_HandleTypeDef structure that contains
mbed_official	226:b062af740e40	129	* the configuration information for NAND module.
mbed_official	87:085cde657901	130	* @param ComSpace_Timing: pointer to Common space timing structure
mbed_official	87:085cde657901	131	* @param AttSpace_Timing: pointer to Attribute space timing structure
mbed_official	87:085cde657901	132	* @retval HAL status
mbed_official	87:085cde657901	133	*/
mbed_official	87:085cde657901	134	HAL_StatusTypeDef HAL_NAND_Init(NAND_HandleTypeDef hnand, FMC_NAND_PCC_TimingTypeDef ComSpace_Timing, FMC_NAND_PCC_TimingTypeDef *AttSpace_Timing)
mbed_official	87:085cde657901	135	{
mbed_official	87:085cde657901	136	/* Check the NAND handle state */
mbed_official	87:085cde657901	137	if(hnand == NULL)
mbed_official	87:085cde657901	138	{
mbed_official	87:085cde657901	139	return HAL_ERROR;
mbed_official	87:085cde657901	140	}
mbed_official	87:085cde657901	141
mbed_official	87:085cde657901	142	if(hnand->State == HAL_NAND_STATE_RESET)
mbed_official	87:085cde657901	143	{
mbed_official	87:085cde657901	144	/* Initialize the low level hardware (MSP) */
mbed_official	87:085cde657901	145	HAL_NAND_MspInit(hnand);
mbed_official	87:085cde657901	146	}
mbed_official	87:085cde657901	147
mbed_official	87:085cde657901	148	/* Initialize NAND control Interface */
mbed_official	87:085cde657901	149	FMC_NAND_Init(hnand->Instance, &(hnand->Init));
mbed_official	87:085cde657901	150
mbed_official	87:085cde657901	151	/* Initialize NAND common space timing Interface */
mbed_official	87:085cde657901	152	FMC_NAND_CommonSpace_Timing_Init(hnand->Instance, ComSpace_Timing, hnand->Init.NandBank);
mbed_official	87:085cde657901	153
mbed_official	87:085cde657901	154	/* Initialize NAND attribute space timing Interface */
mbed_official	87:085cde657901	155	FMC_NAND_AttributeSpace_Timing_Init(hnand->Instance, AttSpace_Timing, hnand->Init.NandBank);
mbed_official	87:085cde657901	156
mbed_official	87:085cde657901	157	/* Enable the NAND device */
mbed_official	106:ced8cbb51063	158	__FMC_NAND_ENABLE(hnand->Instance, hnand->Init.NandBank);
mbed_official	87:085cde657901	159
mbed_official	87:085cde657901	160	/* Update the NAND controller state */
mbed_official	106:ced8cbb51063	161	hnand->State = HAL_NAND_STATE_READY;
mbed_official	106:ced8cbb51063	162
mbed_official	87:085cde657901	163	return HAL_OK;
mbed_official	87:085cde657901	164	}
mbed_official	87:085cde657901	165
mbed_official	87:085cde657901	166	/**
mbed_official	87:085cde657901	167	* @brief Perform NAND memory De-Initialization sequence
mbed_official	226:b062af740e40	168	* @param hnand: pointer to a NAND_HandleTypeDef structure that contains
mbed_official	226:b062af740e40	169	* the configuration information for NAND module.
mbed_official	87:085cde657901	170	* @retval HAL status
mbed_official	87:085cde657901	171	*/
mbed_official	87:085cde657901	172	HAL_StatusTypeDef HAL_NAND_DeInit(NAND_HandleTypeDef *hnand)
mbed_official	87:085cde657901	173	{
mbed_official	87:085cde657901	174	/* Initialize the low level hardware (MSP) */
mbed_official	87:085cde657901	175	HAL_NAND_MspDeInit(hnand);
mbed_official	106:ced8cbb51063	176
mbed_official	87:085cde657901	177	/* Configure the NAND registers with their reset values */
mbed_official	87:085cde657901	178	FMC_NAND_DeInit(hnand->Instance, hnand->Init.NandBank);
mbed_official	87:085cde657901	179
mbed_official	106:ced8cbb51063	180	/* Reset the NAND controller state */
mbed_official	106:ced8cbb51063	181	hnand->State = HAL_NAND_STATE_RESET;
mbed_official	106:ced8cbb51063	182
mbed_official	106:ced8cbb51063	183	/* Release Lock */
mbed_official	106:ced8cbb51063	184	__HAL_UNLOCK(hnand);
mbed_official	106:ced8cbb51063	185
mbed_official	106:ced8cbb51063	186	return HAL_OK;
mbed_official	87:085cde657901	187	}
mbed_official	87:085cde657901	188
mbed_official	87:085cde657901	189	/**
mbed_official	87:085cde657901	190	* @brief NAND MSP Init
mbed_official	226:b062af740e40	191	* @param hnand: pointer to a NAND_HandleTypeDef structure that contains
mbed_official	226:b062af740e40	192	* the configuration information for NAND module.
mbed_official	87:085cde657901	193	* @retval None
mbed_official	87:085cde657901	194	*/
mbed_official	87:085cde657901	195	__weak void HAL_NAND_MspInit(NAND_HandleTypeDef *hnand)
mbed_official	87:085cde657901	196	{
mbed_official	87:085cde657901	197	/* NOTE : This function Should not be modified, when the callback is needed,
mbed_official	87:085cde657901	198	the HAL_NAND_MspInit could be implemented in the user file
mbed_official	87:085cde657901	199	*/
mbed_official	87:085cde657901	200	}
mbed_official	87:085cde657901	201
mbed_official	87:085cde657901	202	/**
mbed_official	87:085cde657901	203	* @brief NAND MSP DeInit
mbed_official	226:b062af740e40	204	* @param hnand: pointer to a NAND_HandleTypeDef structure that contains
mbed_official	226:b062af740e40	205	* the configuration information for NAND module.
mbed_official	87:085cde657901	206	* @retval None
mbed_official	87:085cde657901	207	*/
mbed_official	87:085cde657901	208	__weak void HAL_NAND_MspDeInit(NAND_HandleTypeDef *hnand)
mbed_official	87:085cde657901	209	{
mbed_official	87:085cde657901	210	/* NOTE : This function Should not be modified, when the callback is needed,
mbed_official	87:085cde657901	211	the HAL_NAND_MspDeInit could be implemented in the user file
mbed_official	87:085cde657901	212	*/
mbed_official	87:085cde657901	213	}
mbed_official	87:085cde657901	214
mbed_official	87:085cde657901	215
mbed_official	87:085cde657901	216	/**
mbed_official	87:085cde657901	217	* @brief This function handles NAND device interrupt request.
mbed_official	226:b062af740e40	218	* @param hnand: pointer to a NAND_HandleTypeDef structure that contains
mbed_official	226:b062af740e40	219	* the configuration information for NAND module.
mbed_official	87:085cde657901	220	* @retval HAL status
mbed_official	87:085cde657901	221	*/
mbed_official	87:085cde657901	222	void HAL_NAND_IRQHandler(NAND_HandleTypeDef *hnand)
mbed_official	87:085cde657901	223	{
mbed_official	87:085cde657901	224	/* Check NAND interrupt Rising edge flag */
mbed_official	87:085cde657901	225	if(__FMC_NAND_GET_FLAG(hnand->Instance, hnand->Init.NandBank, FMC_FLAG_RISING_EDGE))
mbed_official	87:085cde657901	226	{
mbed_official	87:085cde657901	227	/* NAND interrupt callback*/
mbed_official	87:085cde657901	228	HAL_NAND_ITCallback(hnand);
mbed_official	87:085cde657901	229
mbed_official	87:085cde657901	230	/* Clear NAND interrupt Rising edge pending bit */
mbed_official	87:085cde657901	231	__FMC_NAND_CLEAR_FLAG(hnand->Instance, hnand->Init.NandBank, FMC_FLAG_RISING_EDGE);
mbed_official	87:085cde657901	232	}
mbed_official	87:085cde657901	233
mbed_official	87:085cde657901	234	/* Check NAND interrupt Level flag */
mbed_official	87:085cde657901	235	if(__FMC_NAND_GET_FLAG(hnand->Instance, hnand->Init.NandBank, FMC_FLAG_LEVEL))
mbed_official	87:085cde657901	236	{
mbed_official	87:085cde657901	237	/* NAND interrupt callback*/
mbed_official	87:085cde657901	238	HAL_NAND_ITCallback(hnand);
mbed_official	87:085cde657901	239
mbed_official	87:085cde657901	240	/* Clear NAND interrupt Level pending bit */
mbed_official	87:085cde657901	241	__FMC_NAND_CLEAR_FLAG(hnand->Instance, hnand->Init.NandBank, FMC_FLAG_LEVEL);
mbed_official	87:085cde657901	242	}
mbed_official	87:085cde657901	243
mbed_official	87:085cde657901	244	/* Check NAND interrupt Falling edge flag */
mbed_official	87:085cde657901	245	if(__FMC_NAND_GET_FLAG(hnand->Instance, hnand->Init.NandBank, FMC_FLAG_FALLING_EDGE))
mbed_official	87:085cde657901	246	{
mbed_official	87:085cde657901	247	/* NAND interrupt callback*/
mbed_official	87:085cde657901	248	HAL_NAND_ITCallback(hnand);
mbed_official	87:085cde657901	249
mbed_official	87:085cde657901	250	/* Clear NAND interrupt Falling edge pending bit */
mbed_official	87:085cde657901	251	__FMC_NAND_CLEAR_FLAG(hnand->Instance, hnand->Init.NandBank, FMC_FLAG_FALLING_EDGE);
mbed_official	87:085cde657901	252	}
mbed_official	87:085cde657901	253
mbed_official	87:085cde657901	254	/* Check NAND interrupt FIFO empty flag */
mbed_official	87:085cde657901	255	if(__FMC_NAND_GET_FLAG(hnand->Instance, hnand->Init.NandBank, FMC_FLAG_FEMPT))
mbed_official	87:085cde657901	256	{
mbed_official	87:085cde657901	257	/* NAND interrupt callback*/
mbed_official	87:085cde657901	258	HAL_NAND_ITCallback(hnand);
mbed_official	87:085cde657901	259
mbed_official	87:085cde657901	260	/* Clear NAND interrupt FIFO empty pending bit */
mbed_official	87:085cde657901	261	__FMC_NAND_CLEAR_FLAG(hnand->Instance, hnand->Init.NandBank, FMC_FLAG_FEMPT);
mbed_official	87:085cde657901	262	}
mbed_official	87:085cde657901	263
mbed_official	87:085cde657901	264	}
mbed_official	87:085cde657901	265
mbed_official	87:085cde657901	266	/**
mbed_official	87:085cde657901	267	* @brief NAND interrupt feature callback
mbed_official	226:b062af740e40	268	* @param hnand: pointer to a NAND_HandleTypeDef structure that contains
mbed_official	226:b062af740e40	269	* the configuration information for NAND module.
mbed_official	87:085cde657901	270	* @retval None
mbed_official	87:085cde657901	271	*/
mbed_official	87:085cde657901	272	__weak void HAL_NAND_ITCallback(NAND_HandleTypeDef *hnand)
mbed_official	87:085cde657901	273	{
mbed_official	87:085cde657901	274	/* NOTE : This function Should not be modified, when the callback is needed,
mbed_official	87:085cde657901	275	the HAL_NAND_ITCallback could be implemented in the user file
mbed_official	87:085cde657901	276	*/
mbed_official	87:085cde657901	277	}
mbed_official	87:085cde657901	278
mbed_official	87:085cde657901	279	/**
mbed_official	87:085cde657901	280	* @}
mbed_official	87:085cde657901	281	*/
mbed_official	87:085cde657901	282
mbed_official	87:085cde657901	283	/** @defgroup NAND_Group2 Input and Output functions
mbed_official	87:085cde657901	284	* @brief Input Output and memory control functions
mbed_official	87:085cde657901	285	*
mbed_official	87:085cde657901	286	@verbatim
mbed_official	87:085cde657901	287	==============================================================================
mbed_official	87:085cde657901	288	##### NAND Input and Output functions #####
mbed_official	87:085cde657901	289	==============================================================================
mbed_official	87:085cde657901	290	[..]
mbed_official	87:085cde657901	291	This section provides functions allowing to use and control the NAND
mbed_official	87:085cde657901	292	memory
mbed_official	87:085cde657901	293
mbed_official	87:085cde657901	294	@endverbatim
mbed_official	87:085cde657901	295	* @{
mbed_official	87:085cde657901	296	*/
mbed_official	87:085cde657901	297
mbed_official	87:085cde657901	298	/**
mbed_official	87:085cde657901	299	* @brief Read the NAND memory electronic signature
mbed_official	226:b062af740e40	300	* @param hnand: pointer to a NAND_HandleTypeDef structure that contains
mbed_official	226:b062af740e40	301	* the configuration information for NAND module.
mbed_official	87:085cde657901	302	* @param pNAND_ID: NAND ID structure
mbed_official	87:085cde657901	303	* @retval HAL status
mbed_official	87:085cde657901	304	*/
mbed_official	87:085cde657901	305	HAL_StatusTypeDef HAL_NAND_Read_ID(NAND_HandleTypeDef hnand, NAND_IDTypeDef pNAND_ID)
mbed_official	87:085cde657901	306	{
mbed_official	87:085cde657901	307	__IO uint32_t data = 0;
mbed_official	87:085cde657901	308	uint32_t deviceAddress = 0;
mbed_official	87:085cde657901	309
mbed_official	87:085cde657901	310	/* Process Locked */
mbed_official	87:085cde657901	311	__HAL_LOCK(hnand);
mbed_official	87:085cde657901	312
mbed_official	87:085cde657901	313	/* Check the NAND controller state */
mbed_official	87:085cde657901	314	if(hnand->State == HAL_NAND_STATE_BUSY)
mbed_official	87:085cde657901	315	{
mbed_official	87:085cde657901	316	return HAL_BUSY;
mbed_official	87:085cde657901	317	}
mbed_official	87:085cde657901	318
mbed_official	87:085cde657901	319	/* Identify the device address */
mbed_official	87:085cde657901	320	if(hnand->Init.NandBank == FMC_NAND_BANK2)
mbed_official	87:085cde657901	321	{
mbed_official	87:085cde657901	322	deviceAddress = NAND_DEVICE1;
mbed_official	87:085cde657901	323	}
mbed_official	87:085cde657901	324	else
mbed_official	87:085cde657901	325	{
mbed_official	87:085cde657901	326	deviceAddress = NAND_DEVICE2;
mbed_official	87:085cde657901	327	}
mbed_official	87:085cde657901	328
mbed_official	87:085cde657901	329	/* Update the NAND controller state */
mbed_official	87:085cde657901	330	hnand->State = HAL_NAND_STATE_BUSY;
mbed_official	87:085cde657901	331
mbed_official	87:085cde657901	332	/* Send Read ID command sequence */
mbed_official	369:2e96f1b71984	333	(__IO uint8_t )((uint32_t)(deviceAddress \| CMD_AREA)) = NAND_CMD_READID;
mbed_official	87:085cde657901	334	(__IO uint8_t )((uint32_t)(deviceAddress \| ADDR_AREA)) = 0x00;
mbed_official	87:085cde657901	335
mbed_official	87:085cde657901	336	/* Read the electronic signature from NAND flash */
mbed_official	87:085cde657901	337	data = (__IO uint32_t )deviceAddress;
mbed_official	87:085cde657901	338
mbed_official	87:085cde657901	339	/* Return the data read */
mbed_official	369:2e96f1b71984	340	pNAND_ID->Maker_Id = __ADDR_1st_CYCLE(data);
mbed_official	369:2e96f1b71984	341	pNAND_ID->Device_Id = __ADDR_2nd_CYCLE(data);
mbed_official	369:2e96f1b71984	342	pNAND_ID->Third_Id = __ADDR_3rd_CYCLE(data);
mbed_official	369:2e96f1b71984	343	pNAND_ID->Fourth_Id = __ADDR_4th_CYCLE(data);
mbed_official	87:085cde657901	344
mbed_official	87:085cde657901	345	/* Update the NAND controller state */
mbed_official	87:085cde657901	346	hnand->State = HAL_NAND_STATE_READY;
mbed_official	87:085cde657901	347
mbed_official	87:085cde657901	348	/* Process unlocked */
mbed_official	87:085cde657901	349	__HAL_UNLOCK(hnand);
mbed_official	87:085cde657901	350
mbed_official	87:085cde657901	351	return HAL_OK;
mbed_official	87:085cde657901	352	}
mbed_official	87:085cde657901	353
mbed_official	87:085cde657901	354	/**
mbed_official	87:085cde657901	355	* @brief NAND memory reset
mbed_official	226:b062af740e40	356	* @param hnand: pointer to a NAND_HandleTypeDef structure that contains
mbed_official	226:b062af740e40	357	* the configuration information for NAND module.
mbed_official	87:085cde657901	358	* @retval HAL status
mbed_official	87:085cde657901	359	*/
mbed_official	87:085cde657901	360	HAL_StatusTypeDef HAL_NAND_Reset(NAND_HandleTypeDef *hnand)
mbed_official	87:085cde657901	361	{
mbed_official	87:085cde657901	362	uint32_t deviceAddress = 0;
mbed_official	87:085cde657901	363
mbed_official	87:085cde657901	364	/* Process Locked */
mbed_official	87:085cde657901	365	__HAL_LOCK(hnand);
mbed_official	87:085cde657901	366
mbed_official	87:085cde657901	367	/* Check the NAND controller state */
mbed_official	87:085cde657901	368	if(hnand->State == HAL_NAND_STATE_BUSY)
mbed_official	87:085cde657901	369	{
mbed_official	87:085cde657901	370	return HAL_BUSY;
mbed_official	87:085cde657901	371	}
mbed_official	87:085cde657901	372
mbed_official	87:085cde657901	373	/* Identify the device address */
mbed_official	87:085cde657901	374	if(hnand->Init.NandBank == FMC_NAND_BANK2)
mbed_official	87:085cde657901	375	{
mbed_official	87:085cde657901	376	deviceAddress = NAND_DEVICE1;
mbed_official	87:085cde657901	377	}
mbed_official	87:085cde657901	378	else
mbed_official	87:085cde657901	379	{
mbed_official	87:085cde657901	380	deviceAddress = NAND_DEVICE2;
mbed_official	87:085cde657901	381	}
mbed_official	87:085cde657901	382
mbed_official	87:085cde657901	383	/* Update the NAND controller state */
mbed_official	87:085cde657901	384	hnand->State = HAL_NAND_STATE_BUSY;
mbed_official	87:085cde657901	385
mbed_official	87:085cde657901	386	/* Send NAND reset command */
mbed_official	87:085cde657901	387	(__IO uint8_t )((uint32_t)(deviceAddress \| CMD_AREA)) = 0xFF;
mbed_official	87:085cde657901	388
mbed_official	87:085cde657901	389
mbed_official	87:085cde657901	390	/* Update the NAND controller state */
mbed_official	87:085cde657901	391	hnand->State = HAL_NAND_STATE_READY;
mbed_official	87:085cde657901	392
mbed_official	87:085cde657901	393	/* Process unlocked */
mbed_official	87:085cde657901	394	__HAL_UNLOCK(hnand);
mbed_official	87:085cde657901	395
mbed_official	87:085cde657901	396	return HAL_OK;
mbed_official	87:085cde657901	397
mbed_official	87:085cde657901	398	}
mbed_official	87:085cde657901	399
mbed_official	87:085cde657901	400
mbed_official	87:085cde657901	401	/**
mbed_official	87:085cde657901	402	* @brief Read Page(s) from NAND memory block
mbed_official	226:b062af740e40	403	* @param hnand: pointer to a NAND_HandleTypeDef structure that contains
mbed_official	226:b062af740e40	404	* the configuration information for NAND module.
mbed_official	87:085cde657901	405	* @param pAddress : pointer to NAND address structure
mbed_official	87:085cde657901	406	* @param pBuffer : pointer to destination read buffer
mbed_official	87:085cde657901	407	* @param NumPageToRead : number of pages to read from block
mbed_official	87:085cde657901	408	* @retval HAL status
mbed_official	87:085cde657901	409	*/
mbed_official	87:085cde657901	410	HAL_StatusTypeDef HAL_NAND_Read_Page(NAND_HandleTypeDef hnand, NAND_AddressTypedef pAddress, uint8_t *pBuffer, uint32_t NumPageToRead)
mbed_official	87:085cde657901	411	{
mbed_official	87:085cde657901	412	__IO uint32_t index = 0;
mbed_official	369:2e96f1b71984	413	uint32_t deviceAddress = 0, numPagesRead = 0, nandAddress = 0, addressStatus = NAND_VALID_ADDRESS;
mbed_official	87:085cde657901	414
mbed_official	87:085cde657901	415	/* Process Locked */
mbed_official	87:085cde657901	416	__HAL_LOCK(hnand);
mbed_official	87:085cde657901	417
mbed_official	87:085cde657901	418	/* Check the NAND controller state */
mbed_official	87:085cde657901	419	if(hnand->State == HAL_NAND_STATE_BUSY)
mbed_official	87:085cde657901	420	{
mbed_official	87:085cde657901	421	return HAL_BUSY;
mbed_official	87:085cde657901	422	}
mbed_official	87:085cde657901	423
mbed_official	87:085cde657901	424	/* Identify the device address */
mbed_official	87:085cde657901	425	if(hnand->Init.NandBank == FMC_NAND_BANK2)
mbed_official	87:085cde657901	426	{
mbed_official	87:085cde657901	427	deviceAddress = NAND_DEVICE1;
mbed_official	87:085cde657901	428	}
mbed_official	87:085cde657901	429	else
mbed_official	87:085cde657901	430	{
mbed_official	87:085cde657901	431	deviceAddress = NAND_DEVICE2;
mbed_official	87:085cde657901	432	}
mbed_official	87:085cde657901	433
mbed_official	87:085cde657901	434	/* Update the NAND controller state */
mbed_official	87:085cde657901	435	hnand->State = HAL_NAND_STATE_BUSY;
mbed_official	87:085cde657901	436
mbed_official	369:2e96f1b71984	437	/* Page(s) read loop */
mbed_official	369:2e96f1b71984	438	while((NumPageToRead != 0) && (addressStatus == NAND_VALID_ADDRESS))
mbed_official	87:085cde657901	439	{
mbed_official	369:2e96f1b71984	440	/* NAND raw address calculation */
mbed_official	369:2e96f1b71984	441	nandAddress = __ARRAY_ADDRESS(pAddress, hnand);
mbed_official	87:085cde657901	442
mbed_official	87:085cde657901	443	/* Send read page command sequence */
mbed_official	87:085cde657901	444	(__IO uint8_t )((uint32_t)(deviceAddress \| CMD_AREA)) = NAND_CMD_AREA_A;
mbed_official	87:085cde657901	445
mbed_official	87:085cde657901	446	(__IO uint8_t )((uint32_t)(deviceAddress \| ADDR_AREA)) = 0x00;
mbed_official	369:2e96f1b71984	447	(__IO uint8_t )((uint32_t)(deviceAddress \| ADDR_AREA)) = __ADDR_1st_CYCLE(nandAddress);
mbed_official	369:2e96f1b71984	448	(__IO uint8_t )((uint32_t)(deviceAddress \| ADDR_AREA)) = __ADDR_2nd_CYCLE(nandAddress);
mbed_official	369:2e96f1b71984	449	(__IO uint8_t )((uint32_t)(deviceAddress \| ADDR_AREA)) = __ADDR_3rd_CYCLE(nandAddress);
mbed_official	87:085cde657901	450
mbed_official	87:085cde657901	451	/* for 512 and 1 GB devices, 4th cycle is required */
mbed_official	369:2e96f1b71984	452	if(hnand->Info.BlockNbr > 1024)
mbed_official	87:085cde657901	453	{
mbed_official	369:2e96f1b71984	454	(__IO uint8_t )((uint32_t)(deviceAddress \| ADDR_AREA)) = __ADDR_4th_CYCLE(nandAddress);
mbed_official	87:085cde657901	455	}
mbed_official	87:085cde657901	456
mbed_official	369:2e96f1b71984	457	(__IO uint8_t )((uint32_t)(deviceAddress \| CMD_AREA)) = NAND_CMD_AREA_TRUE1;
mbed_official	87:085cde657901	458
mbed_official	87:085cde657901	459	/* Get Data into Buffer */
mbed_official	369:2e96f1b71984	460	for(index = 0 ; index < hnand->Info.PageSize; index++)
mbed_official	87:085cde657901	461	{
mbed_official	87:085cde657901	462	(uint8_t )pBuffer++ = (uint8_t )deviceAddress;
mbed_official	87:085cde657901	463	}
mbed_official	87:085cde657901	464
mbed_official	87:085cde657901	465	/* Increment read pages number */
mbed_official	87:085cde657901	466	numPagesRead++;
mbed_official	87:085cde657901	467
mbed_official	87:085cde657901	468	/* Decrement pages to read */
mbed_official	87:085cde657901	469	NumPageToRead--;
mbed_official	87:085cde657901	470
mbed_official	87:085cde657901	471	/* Increment the NAND address */
mbed_official	369:2e96f1b71984	472	HAL_NAND_Address_Inc(hnand, pAddress);
mbed_official	87:085cde657901	473
mbed_official	87:085cde657901	474	}
mbed_official	87:085cde657901	475
mbed_official	87:085cde657901	476	/* Update the NAND controller state */
mbed_official	87:085cde657901	477	hnand->State = HAL_NAND_STATE_READY;
mbed_official	87:085cde657901	478
mbed_official	87:085cde657901	479	/* Process unlocked */
mbed_official	87:085cde657901	480	__HAL_UNLOCK(hnand);
mbed_official	87:085cde657901	481
mbed_official	87:085cde657901	482	return HAL_OK;
mbed_official	87:085cde657901	483
mbed_official	87:085cde657901	484	}
mbed_official	87:085cde657901	485
mbed_official	87:085cde657901	486	/**
mbed_official	87:085cde657901	487	* @brief Write Page(s) to NAND memory block
mbed_official	226:b062af740e40	488	* @param hnand: pointer to a NAND_HandleTypeDef structure that contains
mbed_official	226:b062af740e40	489	* the configuration information for NAND module.
mbed_official	87:085cde657901	490	* @param pAddress : pointer to NAND address structure
mbed_official	87:085cde657901	491	* @param pBuffer : pointer to source buffer to write
mbed_official	87:085cde657901	492	* @param NumPageToWrite : number of pages to write to block
mbed_official	87:085cde657901	493	* @retval HAL status
mbed_official	87:085cde657901	494	*/
mbed_official	87:085cde657901	495	HAL_StatusTypeDef HAL_NAND_Write_Page(NAND_HandleTypeDef hnand, NAND_AddressTypedef pAddress, uint8_t *pBuffer, uint32_t NumPageToWrite)
mbed_official	87:085cde657901	496	{
mbed_official	369:2e96f1b71984	497	__IO uint32_t index = 0;
mbed_official	369:2e96f1b71984	498	uint32_t tickstart = 0;
mbed_official	369:2e96f1b71984	499	uint32_t deviceAddress = 0 , numPagesWritten = 0, nandAddress = 0, addressStatus = NAND_VALID_ADDRESS;
mbed_official	87:085cde657901	500
mbed_official	87:085cde657901	501	/* Process Locked */
mbed_official	87:085cde657901	502	__HAL_LOCK(hnand);
mbed_official	87:085cde657901	503
mbed_official	87:085cde657901	504	/* Check the NAND controller state */
mbed_official	87:085cde657901	505	if(hnand->State == HAL_NAND_STATE_BUSY)
mbed_official	87:085cde657901	506	{
mbed_official	87:085cde657901	507	return HAL_BUSY;
mbed_official	87:085cde657901	508	}
mbed_official	87:085cde657901	509
mbed_official	87:085cde657901	510	/* Identify the device address */
mbed_official	87:085cde657901	511	if(hnand->Init.NandBank == FMC_NAND_BANK2)
mbed_official	87:085cde657901	512	{
mbed_official	87:085cde657901	513	deviceAddress = NAND_DEVICE1;
mbed_official	87:085cde657901	514	}
mbed_official	87:085cde657901	515	else
mbed_official	87:085cde657901	516	{
mbed_official	87:085cde657901	517	deviceAddress = NAND_DEVICE2;
mbed_official	87:085cde657901	518	}
mbed_official	87:085cde657901	519
mbed_official	87:085cde657901	520	/* Update the NAND controller state */
mbed_official	87:085cde657901	521	hnand->State = HAL_NAND_STATE_BUSY;
mbed_official	87:085cde657901	522
mbed_official	87:085cde657901	523	/* Page(s) write loop */
mbed_official	369:2e96f1b71984	524	while((NumPageToWrite != 0) && (addressStatus == NAND_VALID_ADDRESS))
mbed_official	87:085cde657901	525	{
mbed_official	369:2e96f1b71984	526	/* NAND raw address calculation */
mbed_official	369:2e96f1b71984	527	nandAddress = __ARRAY_ADDRESS(pAddress, hnand);
mbed_official	87:085cde657901	528
mbed_official	87:085cde657901	529	/* Send write page command sequence */
mbed_official	87:085cde657901	530	(__IO uint8_t )((uint32_t)(deviceAddress \| CMD_AREA)) = NAND_CMD_AREA_A;
mbed_official	369:2e96f1b71984	531	(__IO uint8_t )((uint32_t)(deviceAddress \| CMD_AREA)) = NAND_CMD_WRITE0;
mbed_official	87:085cde657901	532
mbed_official	87:085cde657901	533	(__IO uint8_t )((uint32_t)(deviceAddress \| ADDR_AREA)) = 0x00;
mbed_official	369:2e96f1b71984	534	(__IO uint8_t )((uint32_t)(deviceAddress \| ADDR_AREA)) = __ADDR_1st_CYCLE(nandAddress);
mbed_official	369:2e96f1b71984	535	(__IO uint8_t )((uint32_t)(deviceAddress \| ADDR_AREA)) = __ADDR_2nd_CYCLE(nandAddress);
mbed_official	369:2e96f1b71984	536	(__IO uint8_t )((uint32_t)(deviceAddress \| ADDR_AREA)) = __ADDR_3rd_CYCLE(nandAddress);
mbed_official	87:085cde657901	537
mbed_official	87:085cde657901	538	/* for 512 and 1 GB devices, 4th cycle is required */
mbed_official	369:2e96f1b71984	539	if(hnand->Info.BlockNbr > 1024)
mbed_official	87:085cde657901	540	{
mbed_official	369:2e96f1b71984	541	(__IO uint8_t )((uint32_t)(deviceAddress \| ADDR_AREA)) = __ADDR_4th_CYCLE(nandAddress);
mbed_official	87:085cde657901	542	}
mbed_official	87:085cde657901	543
mbed_official	87:085cde657901	544	/* Write data to memory */
mbed_official	369:2e96f1b71984	545	for(index = 0 ; index < hnand->Info.PageSize; index++)
mbed_official	87:085cde657901	546	{
mbed_official	87:085cde657901	547	(__IO uint8_t )deviceAddress = (uint8_t )pBuffer++;
mbed_official	87:085cde657901	548	}
mbed_official	87:085cde657901	549
mbed_official	369:2e96f1b71984	550	(__IO uint8_t )((uint32_t)(deviceAddress \| CMD_AREA)) = NAND_CMD_WRITE_TRUE1;
mbed_official	87:085cde657901	551
mbed_official	87:085cde657901	552	/* Read status until NAND is ready */
mbed_official	87:085cde657901	553	while(HAL_NAND_Read_Status(hnand) != NAND_READY)
mbed_official	87:085cde657901	554	{
mbed_official	369:2e96f1b71984	555	/* Get tick */
mbed_official	369:2e96f1b71984	556	tickstart = HAL_GetTick();
mbed_official	87:085cde657901	557
mbed_official	369:2e96f1b71984	558	if((HAL_GetTick() - tickstart ) > NAND_WRITE_TIMEOUT)
mbed_official	87:085cde657901	559	{
mbed_official	87:085cde657901	560	return HAL_TIMEOUT;
mbed_official	87:085cde657901	561	}
mbed_official	87:085cde657901	562	}
mbed_official	87:085cde657901	563
mbed_official	87:085cde657901	564	/* Increment written pages number */
mbed_official	87:085cde657901	565	numPagesWritten++;
mbed_official	87:085cde657901	566
mbed_official	87:085cde657901	567	/* Decrement pages to write */
mbed_official	87:085cde657901	568	NumPageToWrite--;
mbed_official	87:085cde657901	569
mbed_official	87:085cde657901	570	/* Increment the NAND address */
mbed_official	369:2e96f1b71984	571	HAL_NAND_Address_Inc(hnand, pAddress);
mbed_official	87:085cde657901	572
mbed_official	87:085cde657901	573	}
mbed_official	87:085cde657901	574
mbed_official	87:085cde657901	575	/* Update the NAND controller state */
mbed_official	87:085cde657901	576	hnand->State = HAL_NAND_STATE_READY;
mbed_official	87:085cde657901	577
mbed_official	87:085cde657901	578	/* Process unlocked */
mbed_official	87:085cde657901	579	__HAL_UNLOCK(hnand);
mbed_official	87:085cde657901	580
mbed_official	87:085cde657901	581	return HAL_OK;
mbed_official	87:085cde657901	582	}
mbed_official	87:085cde657901	583
mbed_official	87:085cde657901	584
mbed_official	87:085cde657901	585	/**
mbed_official	87:085cde657901	586	* @brief Read Spare area(s) from NAND memory
mbed_official	226:b062af740e40	587	* @param hnand: pointer to a NAND_HandleTypeDef structure that contains
mbed_official	226:b062af740e40	588	* the configuration information for NAND module.
mbed_official	87:085cde657901	589	* @param pAddress : pointer to NAND address structure
mbed_official	87:085cde657901	590	* @param pBuffer: pointer to source buffer to write
mbed_official	87:085cde657901	591	* @param NumSpareAreaToRead: Number of spare area to read
mbed_official	87:085cde657901	592	* @retval HAL status
mbed_official	87:085cde657901	593	*/
mbed_official	87:085cde657901	594	HAL_StatusTypeDef HAL_NAND_Read_SpareArea(NAND_HandleTypeDef hnand, NAND_AddressTypedef pAddress, uint8_t *pBuffer, uint32_t NumSpareAreaToRead)
mbed_official	87:085cde657901	595	{
mbed_official	87:085cde657901	596	__IO uint32_t index = 0;
mbed_official	369:2e96f1b71984	597	uint32_t deviceAddress = 0, numSpareAreaRead = 0, nandAddress = 0, addressStatus = NAND_VALID_ADDRESS;
mbed_official	87:085cde657901	598
mbed_official	87:085cde657901	599	/* Process Locked */
mbed_official	87:085cde657901	600	__HAL_LOCK(hnand);
mbed_official	87:085cde657901	601
mbed_official	87:085cde657901	602	/* Check the NAND controller state */
mbed_official	87:085cde657901	603	if(hnand->State == HAL_NAND_STATE_BUSY)
mbed_official	87:085cde657901	604	{
mbed_official	87:085cde657901	605	return HAL_BUSY;
mbed_official	87:085cde657901	606	}
mbed_official	87:085cde657901	607
mbed_official	87:085cde657901	608	/* Identify the device address */
mbed_official	87:085cde657901	609	if(hnand->Init.NandBank == FMC_NAND_BANK2)
mbed_official	87:085cde657901	610	{
mbed_official	87:085cde657901	611	deviceAddress = NAND_DEVICE1;
mbed_official	87:085cde657901	612	}
mbed_official	87:085cde657901	613	else
mbed_official	87:085cde657901	614	{
mbed_official	87:085cde657901	615	deviceAddress = NAND_DEVICE2;
mbed_official	87:085cde657901	616	}
mbed_official	87:085cde657901	617
mbed_official	87:085cde657901	618	/* Update the NAND controller state */
mbed_official	369:2e96f1b71984	619	hnand->State = HAL_NAND_STATE_BUSY;
mbed_official	87:085cde657901	620
mbed_official	87:085cde657901	621	/* Spare area(s) read loop */
mbed_official	369:2e96f1b71984	622	while((NumSpareAreaToRead != 0) && (addressStatus == NAND_VALID_ADDRESS))
mbed_official	369:2e96f1b71984	623	{
mbed_official	369:2e96f1b71984	624	/* NAND raw address calculation */
mbed_official	369:2e96f1b71984	625	nandAddress = __ARRAY_ADDRESS(pAddress, hnand);
mbed_official	369:2e96f1b71984	626
mbed_official	87:085cde657901	627	/* Send read spare area command sequence */
mbed_official	87:085cde657901	628	(__IO uint8_t )((uint32_t)(deviceAddress \| CMD_AREA)) = NAND_CMD_AREA_C;
mbed_official	369:2e96f1b71984	629
mbed_official	87:085cde657901	630	(__IO uint8_t )((uint32_t)(deviceAddress \| ADDR_AREA)) = 0x00;
mbed_official	369:2e96f1b71984	631	(__IO uint8_t )((uint32_t)(deviceAddress \| ADDR_AREA)) = __ADDR_1st_CYCLE(nandAddress);
mbed_official	369:2e96f1b71984	632	(__IO uint8_t )((uint32_t)(deviceAddress \| ADDR_AREA)) = __ADDR_2nd_CYCLE(nandAddress);
mbed_official	369:2e96f1b71984	633	(__IO uint8_t )((uint32_t)(deviceAddress \| ADDR_AREA)) = __ADDR_3rd_CYCLE(nandAddress);
mbed_official	87:085cde657901	634
mbed_official	87:085cde657901	635	/* for 512 and 1 GB devices, 4th cycle is required */
mbed_official	369:2e96f1b71984	636	if(hnand->Info.BlockNbr > 1024)
mbed_official	87:085cde657901	637	{
mbed_official	369:2e96f1b71984	638	(__IO uint8_t )((uint32_t)(deviceAddress \| ADDR_AREA)) = __ADDR_4th_CYCLE(nandAddress);
mbed_official	87:085cde657901	639	}
mbed_official	87:085cde657901	640
mbed_official	369:2e96f1b71984	641	(__IO uint8_t )((uint32_t)(deviceAddress \| CMD_AREA)) = NAND_CMD_AREA_TRUE1;
mbed_official	87:085cde657901	642
mbed_official	87:085cde657901	643	/* Get Data into Buffer */
mbed_official	369:2e96f1b71984	644	for(index = 0 ; index < hnand->Info.SpareAreaSize; index++)
mbed_official	87:085cde657901	645	{
mbed_official	87:085cde657901	646	(uint8_t )pBuffer++ = (uint8_t )deviceAddress;
mbed_official	87:085cde657901	647	}
mbed_official	87:085cde657901	648
mbed_official	87:085cde657901	649	/* Increment read spare areas number */
mbed_official	87:085cde657901	650	numSpareAreaRead++;
mbed_official	87:085cde657901	651
mbed_official	87:085cde657901	652	/* Decrement spare areas to read */
mbed_official	87:085cde657901	653	NumSpareAreaToRead--;
mbed_official	87:085cde657901	654
mbed_official	87:085cde657901	655	/* Increment the NAND address */
mbed_official	369:2e96f1b71984	656	HAL_NAND_Address_Inc(hnand, pAddress);
mbed_official	87:085cde657901	657	}
mbed_official	87:085cde657901	658
mbed_official	87:085cde657901	659	/* Update the NAND controller state */
mbed_official	87:085cde657901	660	hnand->State = HAL_NAND_STATE_READY;
mbed_official	87:085cde657901	661
mbed_official	87:085cde657901	662	/* Process unlocked */
mbed_official	87:085cde657901	663	__HAL_UNLOCK(hnand);
mbed_official	87:085cde657901	664
mbed_official	87:085cde657901	665	return HAL_OK;
mbed_official	87:085cde657901	666	}
mbed_official	87:085cde657901	667
mbed_official	87:085cde657901	668	/**
mbed_official	87:085cde657901	669	* @brief Write Spare area(s) to NAND memory
mbed_official	226:b062af740e40	670	* @param hnand: pointer to a NAND_HandleTypeDef structure that contains
mbed_official	226:b062af740e40	671	* the configuration information for NAND module.
mbed_official	87:085cde657901	672	* @param pAddress : pointer to NAND address structure
mbed_official	87:085cde657901	673	* @param pBuffer : pointer to source buffer to write
mbed_official	87:085cde657901	674	* @param NumSpareAreaTowrite : number of spare areas to write to block
mbed_official	87:085cde657901	675	* @retval HAL status
mbed_official	87:085cde657901	676	*/
mbed_official	87:085cde657901	677	HAL_StatusTypeDef HAL_NAND_Write_SpareArea(NAND_HandleTypeDef hnand, NAND_AddressTypedef pAddress, uint8_t *pBuffer, uint32_t NumSpareAreaTowrite)
mbed_official	87:085cde657901	678	{
mbed_official	87:085cde657901	679	__IO uint32_t index = 0;
mbed_official	369:2e96f1b71984	680	uint32_t tickstart = 0;
mbed_official	369:2e96f1b71984	681	uint32_t deviceAddress = 0, numSpareAreaWritten = 0, nandAddress = 0, addressStatus = NAND_VALID_ADDRESS;
mbed_official	87:085cde657901	682
mbed_official	87:085cde657901	683	/* Process Locked */
mbed_official	87:085cde657901	684	__HAL_LOCK(hnand);
mbed_official	87:085cde657901	685
mbed_official	87:085cde657901	686	/* Check the NAND controller state */
mbed_official	87:085cde657901	687	if(hnand->State == HAL_NAND_STATE_BUSY)
mbed_official	87:085cde657901	688	{
mbed_official	87:085cde657901	689	return HAL_BUSY;
mbed_official	87:085cde657901	690	}
mbed_official	87:085cde657901	691
mbed_official	87:085cde657901	692	/* Identify the device address */
mbed_official	87:085cde657901	693	if(hnand->Init.NandBank == FMC_NAND_BANK2)
mbed_official	87:085cde657901	694	{
mbed_official	87:085cde657901	695	deviceAddress = NAND_DEVICE1;
mbed_official	87:085cde657901	696	}
mbed_official	87:085cde657901	697	else
mbed_official	87:085cde657901	698	{
mbed_official	87:085cde657901	699	deviceAddress = NAND_DEVICE2;
mbed_official	87:085cde657901	700	}
mbed_official	87:085cde657901	701
mbed_official	87:085cde657901	702	/* Update the FMC_NAND controller state */
mbed_official	369:2e96f1b71984	703	hnand->State = HAL_NAND_STATE_BUSY;
mbed_official	87:085cde657901	704
mbed_official	87:085cde657901	705	/* Spare area(s) write loop */
mbed_official	369:2e96f1b71984	706	while((NumSpareAreaTowrite != 0) && (addressStatus == NAND_VALID_ADDRESS))
mbed_official	87:085cde657901	707	{
mbed_official	369:2e96f1b71984	708	/* NAND raw address calculation */
mbed_official	369:2e96f1b71984	709	nandAddress = __ARRAY_ADDRESS(pAddress, hnand);
mbed_official	369:2e96f1b71984	710
mbed_official	87:085cde657901	711	/* Send write Spare area command sequence */
mbed_official	87:085cde657901	712	(__IO uint8_t )((uint32_t)(deviceAddress \| CMD_AREA)) = NAND_CMD_AREA_C;
mbed_official	369:2e96f1b71984	713	(__IO uint8_t )((uint32_t)(deviceAddress \| CMD_AREA)) = NAND_CMD_WRITE0;
mbed_official	87:085cde657901	714
mbed_official	87:085cde657901	715	(__IO uint8_t )((uint32_t)(deviceAddress \| ADDR_AREA)) = 0x00;
mbed_official	369:2e96f1b71984	716	(__IO uint8_t )((uint32_t)(deviceAddress \| ADDR_AREA)) = __ADDR_1st_CYCLE(nandAddress);
mbed_official	369:2e96f1b71984	717	(__IO uint8_t )((uint32_t)(deviceAddress \| ADDR_AREA)) = __ADDR_2nd_CYCLE(nandAddress);
mbed_official	369:2e96f1b71984	718	(__IO uint8_t )((uint32_t)(deviceAddress \| ADDR_AREA)) = __ADDR_3rd_CYCLE(nandAddress);
mbed_official	87:085cde657901	719
mbed_official	87:085cde657901	720	/* for 512 and 1 GB devices, 4th cycle is required */
mbed_official	87:085cde657901	721	if(hnand->Info.BlockNbr >= 1024)
mbed_official	87:085cde657901	722	{
mbed_official	369:2e96f1b71984	723	(__IO uint8_t )((uint32_t)(deviceAddress \| ADDR_AREA)) = __ADDR_4th_CYCLE(nandAddress);
mbed_official	87:085cde657901	724	}
mbed_official	87:085cde657901	725
mbed_official	87:085cde657901	726	/* Write data to memory */
mbed_official	369:2e96f1b71984	727	for(index = 0 ; index < hnand->Info.SpareAreaSize; index++)
mbed_official	87:085cde657901	728	{
mbed_official	87:085cde657901	729	(__IO uint8_t )deviceAddress = (uint8_t )pBuffer++;
mbed_official	87:085cde657901	730	}
mbed_official	87:085cde657901	731
mbed_official	369:2e96f1b71984	732	(__IO uint8_t )((uint32_t)(deviceAddress \| CMD_AREA)) = NAND_CMD_WRITE_TRUE1;
mbed_official	87:085cde657901	733
mbed_official	87:085cde657901	734
mbed_official	87:085cde657901	735	/* Read status until NAND is ready */
mbed_official	87:085cde657901	736	while(HAL_NAND_Read_Status(hnand) != NAND_READY)
mbed_official	87:085cde657901	737	{
mbed_official	369:2e96f1b71984	738	/* Get tick */
mbed_official	369:2e96f1b71984	739	tickstart = HAL_GetTick();
mbed_official	87:085cde657901	740
mbed_official	369:2e96f1b71984	741	if((HAL_GetTick() - tickstart ) > NAND_WRITE_TIMEOUT)
mbed_official	87:085cde657901	742	{
mbed_official	87:085cde657901	743	return HAL_TIMEOUT;
mbed_official	87:085cde657901	744	}
mbed_official	87:085cde657901	745	}
mbed_official	87:085cde657901	746
mbed_official	87:085cde657901	747	/* Increment written spare areas number */
mbed_official	87:085cde657901	748	numSpareAreaWritten++;
mbed_official	87:085cde657901	749
mbed_official	87:085cde657901	750	/* Decrement spare areas to write */
mbed_official	87:085cde657901	751	NumSpareAreaTowrite--;
mbed_official	87:085cde657901	752
mbed_official	87:085cde657901	753	/* Increment the NAND address */
mbed_official	369:2e96f1b71984	754	HAL_NAND_Address_Inc(hnand, pAddress);
mbed_official	87:085cde657901	755
mbed_official	87:085cde657901	756	}
mbed_official	87:085cde657901	757
mbed_official	87:085cde657901	758	/* Update the NAND controller state */
mbed_official	87:085cde657901	759	hnand->State = HAL_NAND_STATE_READY;
mbed_official	87:085cde657901	760
mbed_official	87:085cde657901	761	/* Process unlocked */
mbed_official	87:085cde657901	762	__HAL_UNLOCK(hnand);
mbed_official	87:085cde657901	763
mbed_official	87:085cde657901	764	return HAL_OK;
mbed_official	87:085cde657901	765	}
mbed_official	87:085cde657901	766
mbed_official	87:085cde657901	767	/**
mbed_official	87:085cde657901	768	* @brief NAND memory Block erase
mbed_official	226:b062af740e40	769	* @param hnand: pointer to a NAND_HandleTypeDef structure that contains
mbed_official	226:b062af740e40	770	* the configuration information for NAND module.
mbed_official	87:085cde657901	771	* @param pAddress : pointer to NAND address structure
mbed_official	87:085cde657901	772	* @retval HAL status
mbed_official	87:085cde657901	773	*/
mbed_official	87:085cde657901	774	HAL_StatusTypeDef HAL_NAND_Erase_Block(NAND_HandleTypeDef hnand, NAND_AddressTypedef pAddress)
mbed_official	87:085cde657901	775	{
mbed_official	87:085cde657901	776	uint32_t DeviceAddress = 0;
mbed_official	87:085cde657901	777
mbed_official	87:085cde657901	778	/* Process Locked */
mbed_official	87:085cde657901	779	__HAL_LOCK(hnand);
mbed_official	87:085cde657901	780
mbed_official	87:085cde657901	781	/* Check the NAND controller state */
mbed_official	87:085cde657901	782	if(hnand->State == HAL_NAND_STATE_BUSY)
mbed_official	87:085cde657901	783	{
mbed_official	87:085cde657901	784	return HAL_BUSY;
mbed_official	87:085cde657901	785	}
mbed_official	87:085cde657901	786
mbed_official	87:085cde657901	787	/* Identify the device address */
mbed_official	87:085cde657901	788	if(hnand->Init.NandBank == FMC_NAND_BANK2)
mbed_official	87:085cde657901	789	{
mbed_official	87:085cde657901	790	DeviceAddress = NAND_DEVICE1;
mbed_official	87:085cde657901	791	}
mbed_official	87:085cde657901	792	else
mbed_official	87:085cde657901	793	{
mbed_official	87:085cde657901	794	DeviceAddress = NAND_DEVICE2;
mbed_official	87:085cde657901	795	}
mbed_official	87:085cde657901	796
mbed_official	87:085cde657901	797	/* Update the NAND controller state */
mbed_official	87:085cde657901	798	hnand->State = HAL_NAND_STATE_BUSY;
mbed_official	87:085cde657901	799
mbed_official	87:085cde657901	800	/* Send Erase block command sequence */
mbed_official	369:2e96f1b71984	801	(__IO uint8_t )((uint32_t)(DeviceAddress \| CMD_AREA)) = NAND_CMD_ERASE0;
mbed_official	87:085cde657901	802
mbed_official	369:2e96f1b71984	803	(__IO uint8_t )((uint32_t)(DeviceAddress \| ADDR_AREA)) = __ADDR_1st_CYCLE(__ARRAY_ADDRESS(pAddress, hnand));
mbed_official	369:2e96f1b71984	804	(__IO uint8_t )((uint32_t)(DeviceAddress \| ADDR_AREA)) = __ADDR_2nd_CYCLE(__ARRAY_ADDRESS(pAddress, hnand));
mbed_official	369:2e96f1b71984	805	(__IO uint8_t )((uint32_t)(DeviceAddress \| ADDR_AREA)) = __ADDR_3rd_CYCLE(__ARRAY_ADDRESS(pAddress, hnand));
mbed_official	87:085cde657901	806
mbed_official	87:085cde657901	807	/* for 512 and 1 GB devices, 4th cycle is required */
mbed_official	87:085cde657901	808	if(hnand->Info.BlockNbr >= 1024)
mbed_official	87:085cde657901	809	{
mbed_official	369:2e96f1b71984	810	(__IO uint8_t )((uint32_t)(DeviceAddress \| ADDR_AREA)) = __ADDR_4th_CYCLE(__ARRAY_ADDRESS(pAddress, hnand));
mbed_official	87:085cde657901	811	}
mbed_official	87:085cde657901	812
mbed_official	369:2e96f1b71984	813	(__IO uint8_t )((uint32_t)(DeviceAddress \| CMD_AREA)) = NAND_CMD_ERASE1;
mbed_official	87:085cde657901	814
mbed_official	87:085cde657901	815	/* Update the NAND controller state */
mbed_official	87:085cde657901	816	hnand->State = HAL_NAND_STATE_READY;
mbed_official	87:085cde657901	817
mbed_official	87:085cde657901	818	/* Process unlocked */
mbed_official	87:085cde657901	819	__HAL_UNLOCK(hnand);
mbed_official	87:085cde657901	820
mbed_official	87:085cde657901	821	return HAL_OK;
mbed_official	87:085cde657901	822	}
mbed_official	87:085cde657901	823
mbed_official	87:085cde657901	824
mbed_official	87:085cde657901	825	/**
mbed_official	87:085cde657901	826	* @brief NAND memory read status
mbed_official	226:b062af740e40	827	* @param hnand: pointer to a NAND_HandleTypeDef structure that contains
mbed_official	226:b062af740e40	828	* the configuration information for NAND module.
mbed_official	87:085cde657901	829	* @retval NAND status
mbed_official	87:085cde657901	830	*/
mbed_official	87:085cde657901	831	uint32_t HAL_NAND_Read_Status(NAND_HandleTypeDef *hnand)
mbed_official	87:085cde657901	832	{
mbed_official	87:085cde657901	833	uint32_t data = 0;
mbed_official	87:085cde657901	834	uint32_t DeviceAddress = 0;
mbed_official	87:085cde657901	835
mbed_official	87:085cde657901	836	/* Identify the device address */
mbed_official	87:085cde657901	837	if(hnand->Init.NandBank == FMC_NAND_BANK2)
mbed_official	87:085cde657901	838	{
mbed_official	87:085cde657901	839	DeviceAddress = NAND_DEVICE1;
mbed_official	87:085cde657901	840	}
mbed_official	87:085cde657901	841	else
mbed_official	87:085cde657901	842	{
mbed_official	87:085cde657901	843	DeviceAddress = NAND_DEVICE2;
mbed_official	87:085cde657901	844	}
mbed_official	87:085cde657901	845
mbed_official	87:085cde657901	846	/* Send Read status operation command */
mbed_official	369:2e96f1b71984	847	(__IO uint8_t )((uint32_t)(DeviceAddress \| CMD_AREA)) = NAND_CMD_STATUS;
mbed_official	87:085cde657901	848
mbed_official	87:085cde657901	849	/* Read status register data */
mbed_official	87:085cde657901	850	data = (__IO uint8_t )DeviceAddress;
mbed_official	87:085cde657901	851
mbed_official	87:085cde657901	852	/* Return the status */
mbed_official	87:085cde657901	853	if((data & NAND_ERROR) == NAND_ERROR)
mbed_official	87:085cde657901	854	{
mbed_official	87:085cde657901	855	return NAND_ERROR;
mbed_official	87:085cde657901	856	}
mbed_official	87:085cde657901	857	else if((data & NAND_READY) == NAND_READY)
mbed_official	87:085cde657901	858	{
mbed_official	87:085cde657901	859	return NAND_READY;
mbed_official	87:085cde657901	860	}
mbed_official	87:085cde657901	861
mbed_official	87:085cde657901	862	return NAND_BUSY;
mbed_official	87:085cde657901	863
mbed_official	87:085cde657901	864	}
mbed_official	87:085cde657901	865
mbed_official	87:085cde657901	866	/**
mbed_official	87:085cde657901	867	* @brief Increment the NAND memory address
mbed_official	226:b062af740e40	868	* @param hnand: pointer to a NAND_HandleTypeDef structure that contains
mbed_official	226:b062af740e40	869	* the configuration information for NAND module.
mbed_official	87:085cde657901	870	* @param pAddress: pointer to NAND adress structure
mbed_official	87:085cde657901	871	* @retval The new status of the increment address operation. It can be:
mbed_official	87:085cde657901	872	* - NAND_VALID_ADDRESS: When the new address is valid address
mbed_official	87:085cde657901	873	* - NAND_INVALID_ADDRESS: When the new address is invalid address
mbed_official	87:085cde657901	874	*/
mbed_official	87:085cde657901	875	uint32_t HAL_NAND_Address_Inc(NAND_HandleTypeDef hnand, NAND_AddressTypedef pAddress)
mbed_official	87:085cde657901	876	{
mbed_official	87:085cde657901	877	uint32_t status = NAND_VALID_ADDRESS;
mbed_official	87:085cde657901	878
mbed_official	87:085cde657901	879	/* Increment page address */
mbed_official	87:085cde657901	880	pAddress->Page++;
mbed_official	87:085cde657901	881
mbed_official	87:085cde657901	882	/* Check NAND address is valid */
mbed_official	87:085cde657901	883	if(pAddress->Page == hnand->Info.BlockSize)
mbed_official	87:085cde657901	884	{
mbed_official	87:085cde657901	885	pAddress->Page = 0;
mbed_official	87:085cde657901	886	pAddress->Block++;
mbed_official	87:085cde657901	887
mbed_official	87:085cde657901	888	if(pAddress->Block == hnand->Info.ZoneSize)
mbed_official	87:085cde657901	889	{
mbed_official	87:085cde657901	890	pAddress->Block = 0;
mbed_official	87:085cde657901	891	pAddress->Zone++;
mbed_official	87:085cde657901	892
mbed_official	87:085cde657901	893	if(pAddress->Zone == (hnand->Info.ZoneSize/ hnand->Info.BlockNbr))
mbed_official	87:085cde657901	894	{
mbed_official	87:085cde657901	895	status = NAND_INVALID_ADDRESS;
mbed_official	87:085cde657901	896	}
mbed_official	87:085cde657901	897	}
mbed_official	87:085cde657901	898	}
mbed_official	87:085cde657901	899
mbed_official	87:085cde657901	900	return (status);
mbed_official	87:085cde657901	901	}
mbed_official	87:085cde657901	902
mbed_official	87:085cde657901	903
mbed_official	87:085cde657901	904	/**
mbed_official	87:085cde657901	905	* @}
mbed_official	87:085cde657901	906	*/
mbed_official	87:085cde657901	907
mbed_official	87:085cde657901	908	/** @defgroup NAND_Group3 Control functions
mbed_official	87:085cde657901	909	* @brief management functions
mbed_official	87:085cde657901	910	*
mbed_official	87:085cde657901	911	@verbatim
mbed_official	87:085cde657901	912	==============================================================================
mbed_official	87:085cde657901	913	##### NAND Control functions #####
mbed_official	87:085cde657901	914	==============================================================================
mbed_official	87:085cde657901	915	[..]
mbed_official	87:085cde657901	916	This subsection provides a set of functions allowing to control dynamically
mbed_official	87:085cde657901	917	the NAND interface.
mbed_official	87:085cde657901	918
mbed_official	87:085cde657901	919	@endverbatim
mbed_official	87:085cde657901	920	* @{
mbed_official	87:085cde657901	921	*/
mbed_official	87:085cde657901	922
mbed_official	87:085cde657901	923
mbed_official	87:085cde657901	924	/**
mbed_official	87:085cde657901	925	* @brief Enables dynamically NAND ECC feature.
mbed_official	226:b062af740e40	926	* @param hnand: pointer to a NAND_HandleTypeDef structure that contains
mbed_official	226:b062af740e40	927	* the configuration information for NAND module.
mbed_official	87:085cde657901	928	* @retval HAL status
mbed_official	87:085cde657901	929	*/
mbed_official	87:085cde657901	930	HAL_StatusTypeDef HAL_NAND_ECC_Enable(NAND_HandleTypeDef *hnand)
mbed_official	87:085cde657901	931	{
mbed_official	87:085cde657901	932	/* Check the NAND controller state */
mbed_official	87:085cde657901	933	if(hnand->State == HAL_NAND_STATE_BUSY)
mbed_official	87:085cde657901	934	{
mbed_official	87:085cde657901	935	return HAL_BUSY;
mbed_official	87:085cde657901	936	}
mbed_official	87:085cde657901	937
mbed_official	87:085cde657901	938	/* Update the NAND state */
mbed_official	87:085cde657901	939	hnand->State = HAL_NAND_STATE_BUSY;
mbed_official	87:085cde657901	940
mbed_official	87:085cde657901	941	/* Enable ECC feature */
mbed_official	87:085cde657901	942	FMC_NAND_ECC_Enable(hnand->Instance, hnand->Init.NandBank);
mbed_official	87:085cde657901	943
mbed_official	87:085cde657901	944	/* Update the NAND state */
mbed_official	87:085cde657901	945	hnand->State = HAL_NAND_STATE_READY;
mbed_official	87:085cde657901	946
mbed_official	87:085cde657901	947	return HAL_OK;
mbed_official	87:085cde657901	948	}
mbed_official	87:085cde657901	949
mbed_official	87:085cde657901	950
mbed_official	87:085cde657901	951	/**
mbed_official	87:085cde657901	952	* @brief Disables dynamically FMC_NAND ECC feature.
mbed_official	226:b062af740e40	953	* @param hnand: pointer to a NAND_HandleTypeDef structure that contains
mbed_official	226:b062af740e40	954	* the configuration information for NAND module.
mbed_official	87:085cde657901	955	* @retval HAL status
mbed_official	87:085cde657901	956	*/
mbed_official	87:085cde657901	957	HAL_StatusTypeDef HAL_NAND_ECC_Disable(NAND_HandleTypeDef *hnand)
mbed_official	87:085cde657901	958	{
mbed_official	87:085cde657901	959	/* Check the NAND controller state */
mbed_official	87:085cde657901	960	if(hnand->State == HAL_NAND_STATE_BUSY)
mbed_official	87:085cde657901	961	{
mbed_official	87:085cde657901	962	return HAL_BUSY;
mbed_official	87:085cde657901	963	}
mbed_official	87:085cde657901	964
mbed_official	87:085cde657901	965	/* Update the NAND state */
mbed_official	87:085cde657901	966	hnand->State = HAL_NAND_STATE_BUSY;
mbed_official	87:085cde657901	967
mbed_official	87:085cde657901	968	/* Disable ECC feature */
mbed_official	87:085cde657901	969	FMC_NAND_ECC_Disable(hnand->Instance, hnand->Init.NandBank);
mbed_official	87:085cde657901	970
mbed_official	87:085cde657901	971	/* Update the NAND state */
mbed_official	87:085cde657901	972	hnand->State = HAL_NAND_STATE_READY;
mbed_official	87:085cde657901	973
mbed_official	87:085cde657901	974	return HAL_OK;
mbed_official	87:085cde657901	975	}
mbed_official	87:085cde657901	976
mbed_official	87:085cde657901	977	/**
mbed_official	87:085cde657901	978	* @brief Disables dynamically NAND ECC feature.
mbed_official	226:b062af740e40	979	* @param hnand: pointer to a NAND_HandleTypeDef structure that contains
mbed_official	226:b062af740e40	980	* the configuration information for NAND module.
mbed_official	87:085cde657901	981	* @param ECCval: pointer to ECC value
mbed_official	87:085cde657901	982	* @param Timeout: maximum timeout to wait
mbed_official	87:085cde657901	983	* @retval HAL status
mbed_official	87:085cde657901	984	*/
mbed_official	87:085cde657901	985	HAL_StatusTypeDef HAL_NAND_GetECC(NAND_HandleTypeDef hnand, uint32_t ECCval, uint32_t Timeout)
mbed_official	87:085cde657901	986	{
mbed_official	87:085cde657901	987	HAL_StatusTypeDef status = HAL_OK;
mbed_official	87:085cde657901	988
mbed_official	87:085cde657901	989	/* Check the NAND controller state */
mbed_official	87:085cde657901	990	if(hnand->State == HAL_NAND_STATE_BUSY)
mbed_official	87:085cde657901	991	{
mbed_official	87:085cde657901	992	return HAL_BUSY;
mbed_official	87:085cde657901	993	}
mbed_official	87:085cde657901	994
mbed_official	87:085cde657901	995	/* Update the NAND state */
mbed_official	87:085cde657901	996	hnand->State = HAL_NAND_STATE_BUSY;
mbed_official	87:085cde657901	997
mbed_official	87:085cde657901	998	/* Get NAND ECC value */
mbed_official	87:085cde657901	999	status = FMC_NAND_GetECC(hnand->Instance, ECCval, hnand->Init.NandBank, Timeout);
mbed_official	87:085cde657901	1000
mbed_official	87:085cde657901	1001	/* Update the NAND state */
mbed_official	87:085cde657901	1002	hnand->State = HAL_NAND_STATE_READY;
mbed_official	87:085cde657901	1003
mbed_official	87:085cde657901	1004	return status;
mbed_official	87:085cde657901	1005	}
mbed_official	87:085cde657901	1006
mbed_official	87:085cde657901	1007	/**
mbed_official	87:085cde657901	1008	* @}
mbed_official	87:085cde657901	1009	*/
mbed_official	87:085cde657901	1010
mbed_official	87:085cde657901	1011
mbed_official	87:085cde657901	1012	/** @defgroup NAND_Group4 State functions
mbed_official	87:085cde657901	1013	* @brief Peripheral State functions
mbed_official	87:085cde657901	1014	*
mbed_official	87:085cde657901	1015	@verbatim
mbed_official	87:085cde657901	1016	==============================================================================
mbed_official	87:085cde657901	1017	##### NAND State functions #####
mbed_official	87:085cde657901	1018	==============================================================================
mbed_official	87:085cde657901	1019	[..]
mbed_official	226:b062af740e40	1020	This subsection permits to get in run-time the status of the NAND controller
mbed_official	87:085cde657901	1021	and the data flow.
mbed_official	87:085cde657901	1022
mbed_official	87:085cde657901	1023	@endverbatim
mbed_official	87:085cde657901	1024	* @{
mbed_official	87:085cde657901	1025	*/
mbed_official	87:085cde657901	1026
mbed_official	87:085cde657901	1027	/**
mbed_official	87:085cde657901	1028	* @brief return the NAND state
mbed_official	226:b062af740e40	1029	* @param hnand: pointer to a NAND_HandleTypeDef structure that contains
mbed_official	226:b062af740e40	1030	* the configuration information for NAND module.
mbed_official	87:085cde657901	1031	* @retval HAL state
mbed_official	87:085cde657901	1032	*/
mbed_official	87:085cde657901	1033	HAL_NAND_StateTypeDef HAL_NAND_GetState(NAND_HandleTypeDef *hnand)
mbed_official	87:085cde657901	1034	{
mbed_official	87:085cde657901	1035	return hnand->State;
mbed_official	87:085cde657901	1036	}
mbed_official	87:085cde657901	1037
mbed_official	87:085cde657901	1038	/**
mbed_official	87:085cde657901	1039	* @}
mbed_official	87:085cde657901	1040	*/
mbed_official	87:085cde657901	1041
mbed_official	87:085cde657901	1042	/**
mbed_official	87:085cde657901	1043	* @}
mbed_official	87:085cde657901	1044	*/
mbed_official	87:085cde657901	1045	#endif /* STM32F405xx \|\| STM32F415xx \|\| STM32F407xx \|\| STM32F417xx \|\| STM32F427xx \|\| STM32F437xx \|\| STM32F429xx \|\| STM32F439xx */
mbed_official	87:085cde657901	1046	#endif /* HAL_NAND_MODULE_ENABLED */
mbed_official	87:085cde657901	1047
mbed_official	87:085cde657901	1048	/**
mbed_official	87:085cde657901	1049	* @}
mbed_official	87:085cde657901	1050	*/
mbed_official	87:085cde657901	1051
mbed_official	87:085cde657901	1052	/**
mbed_official	87:085cde657901	1053	* @}
mbed_official	87:085cde657901	1054	*/
mbed_official	87:085cde657901	1055
mbed_official	87:085cde657901	1056	/********************** (C) COPYRIGHT STMicroelectronics *END OF FILE**/