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Location: therm/libraries/STM32L1xx_StdPeriph_Driver/src/stm32l1xx_fsmc.c - annotation

Ethan Zonca
Messing with SPI
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/**
  ******************************************************************************
  * @file    stm32l1xx_fsmc.c
  * @author  MCD Application Team
  * @version V1.2.0
  * @date    22-February-2013
  * @brief   This file provides firmware functions to manage the following 
  *          functionalities of the FSMC peripheral:
  *           + Initialization 
  *           + Interrupts and flags management
  *
  ******************************************************************************
  * @attention
  *
  * <h2><center>&copy; COPYRIGHT 2013 STMicroelectronics</center></h2>
  *
  * Licensed under MCD-ST Liberty SW License Agreement V2, (the "License");
  * You may not use this file except in compliance with the License.
  * You may obtain a copy of the License at:
  *
  *        http://www.st.com/software_license_agreement_liberty_v2
  *
  * Unless required by applicable law or agreed to in writing, software 
  * distributed under the License is distributed on an "AS IS" BASIS, 
  * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
  * See the License for the specific language governing permissions and
  * limitations under the License.
  *
  ******************************************************************************
  */

/* Includes ------------------------------------------------------------------*/
#include "stm32l1xx_fsmc.h"
#include "stm32l1xx_rcc.h"

/** @addtogroup STM32L1xx_StdPeriph_Driver
  * @{
  */

/** @defgroup FSMC 
  * @brief FSMC driver modules
  * @{
  */ 

/* Private typedef -----------------------------------------------------------*/
/* Private define ------------------------------------------------------------*/
/* Private macro -------------------------------------------------------------*/
/* Private variables ---------------------------------------------------------*/
/* Private function prototypes -----------------------------------------------*/
/* Private functions ---------------------------------------------------------*/

/** @defgroup FSMC_Private_Functions
  * @{
  */

/** @defgroup FSMC_Group1 NOR/SRAM Controller functions
 *  @brief   NOR/SRAM Controller functions 
 *
  @verbatim
  ==============================================================================
                  ##### NOR-SRAM Controller functions #####
  ==============================================================================
    [..] The following sequence should be followed to configure the FSMC to 
         interface with SRAM, PSRAM, NOR or OneNAND memory connected to the 
         NOR/SRAM Bank: 
    (#) Enable the clock for the FSMC and associated GPIOs using the following 
        functions: 
        (++)RCC_AHBPeriphClockCmd(RCC_AHBPeriph_FSMC, ENABLE); 
        (++)RCC_AHBPeriphClockCmd(RCC_AHBPeriph_GPIOx, ENABLE); 
    (#) FSMC pins configuration  
        (++) Connect the involved FSMC pins to AF12 using the following function  
             GPIO_PinAFConfig(GPIOx, GPIO_PinSourcex, GPIO_AF_FSMC);
        (++) Configure these FSMC pins in alternate function mode by calling the
             function GPIO_Init();
    (#) Declare a FSMC_NORSRAMInitTypeDef structure, for example: 
        FSMC_NORSRAMInitTypeDef  FSMC_NORSRAMInitStructure; and fill the 
        FSMC_NORSRAMInitStructure variable with the allowed values of the 
        structure member.
    (#) Initialize the NOR/SRAM Controller by calling the function 
        FSMC_NORSRAMInit(&FSMC_NORSRAMInitStructure);  
    (#) Then enable the NOR/SRAM Bank, for example: 
        FSMC_NORSRAMCmd(FSMC_Bank1_NORSRAM2, ENABLE);   
    (#) At this stage you can read/write from/to the memory connected to the 
        NOR/SRAM Bank.
   
@endverbatim

  * @{
  */

/**
  * @brief  Deinitializes the FSMC NOR/SRAM Banks registers to their default 
  *   reset values.
  * @param  FSMC_Bank: specifies the FSMC Bank to be used
  *   This parameter can be one of the following values:
  *     @arg FSMC_Bank1_NORSRAM1: FSMC Bank1 NOR/SRAM1  
  *     @arg FSMC_Bank1_NORSRAM2: FSMC Bank1 NOR/SRAM2 
  *     @arg FSMC_Bank1_NORSRAM3: FSMC Bank1 NOR/SRAM3 
  *     @arg FSMC_Bank1_NORSRAM4: FSMC Bank1 NOR/SRAM4 
  * @retval None
  */
void FSMC_NORSRAMDeInit(uint32_t FSMC_Bank)
{
  /* Check the parameter */
  assert_param(IS_FSMC_NORSRAM_BANK(FSMC_Bank));
  
  /* FSMC_Bank1_NORSRAM1 */
  if(FSMC_Bank == FSMC_Bank1_NORSRAM1)
  {
    FSMC_Bank1->BTCR[FSMC_Bank] = 0x000030DB;    
  }
  /* FSMC_Bank1_NORSRAM2,  FSMC_Bank1_NORSRAM3 or FSMC_Bank1_NORSRAM4 */
  else
  {   
    FSMC_Bank1->BTCR[FSMC_Bank] = 0x000030D2; 
  }
  FSMC_Bank1->BTCR[FSMC_Bank + 1] = 0x0FFFFFFF;
  FSMC_Bank1E->BWTR[FSMC_Bank] = 0x0FFFFFFF;  
}

/**
  * @brief  Initializes the FSMC NOR/SRAM Banks according to the specified
  *   parameters in the FSMC_NORSRAMInitStruct.
  * @param  FSMC_NORSRAMInitStruct : pointer to a FSMC_NORSRAMInitTypeDef
  *   structure that contains the configuration information for 
  *   the FSMC NOR/SRAM specified Banks.                       
  * @retval None
  */
void FSMC_NORSRAMInit(FSMC_NORSRAMInitTypeDef* FSMC_NORSRAMInitStruct)
{ 
  /* Check the parameters */
  assert_param(IS_FSMC_NORSRAM_BANK(FSMC_NORSRAMInitStruct->FSMC_Bank));
  assert_param(IS_FSMC_MUX(FSMC_NORSRAMInitStruct->FSMC_DataAddressMux));
  assert_param(IS_FSMC_MEMORY(FSMC_NORSRAMInitStruct->FSMC_MemoryType));
  assert_param(IS_FSMC_MEMORY_WIDTH(FSMC_NORSRAMInitStruct->FSMC_MemoryDataWidth));
  assert_param(IS_FSMC_BURSTMODE(FSMC_NORSRAMInitStruct->FSMC_BurstAccessMode));
  assert_param(IS_FSMC_ASYNWAIT(FSMC_NORSRAMInitStruct->FSMC_AsynchronousWait));
  assert_param(IS_FSMC_WAIT_POLARITY(FSMC_NORSRAMInitStruct->FSMC_WaitSignalPolarity));
  assert_param(IS_FSMC_WRAP_MODE(FSMC_NORSRAMInitStruct->FSMC_WrapMode));
  assert_param(IS_FSMC_WAIT_SIGNAL_ACTIVE(FSMC_NORSRAMInitStruct->FSMC_WaitSignalActive));
  assert_param(IS_FSMC_WRITE_OPERATION(FSMC_NORSRAMInitStruct->FSMC_WriteOperation));
  assert_param(IS_FSMC_WAITE_SIGNAL(FSMC_NORSRAMInitStruct->FSMC_WaitSignal));
  assert_param(IS_FSMC_EXTENDED_MODE(FSMC_NORSRAMInitStruct->FSMC_ExtendedMode));
  assert_param(IS_FSMC_WRITE_BURST(FSMC_NORSRAMInitStruct->FSMC_WriteBurst));  
  assert_param(IS_FSMC_ADDRESS_SETUP_TIME(FSMC_NORSRAMInitStruct->FSMC_ReadWriteTimingStruct->FSMC_AddressSetupTime));
  assert_param(IS_FSMC_ADDRESS_HOLD_TIME(FSMC_NORSRAMInitStruct->FSMC_ReadWriteTimingStruct->FSMC_AddressHoldTime));
  assert_param(IS_FSMC_DATASETUP_TIME(FSMC_NORSRAMInitStruct->FSMC_ReadWriteTimingStruct->FSMC_DataSetupTime));
  assert_param(IS_FSMC_TURNAROUND_TIME(FSMC_NORSRAMInitStruct->FSMC_ReadWriteTimingStruct->FSMC_BusTurnAroundDuration));
  assert_param(IS_FSMC_CLK_DIV(FSMC_NORSRAMInitStruct->FSMC_ReadWriteTimingStruct->FSMC_CLKDivision));
  assert_param(IS_FSMC_DATA_LATENCY(FSMC_NORSRAMInitStruct->FSMC_ReadWriteTimingStruct->FSMC_DataLatency));
  assert_param(IS_FSMC_ACCESS_MODE(FSMC_NORSRAMInitStruct->FSMC_ReadWriteTimingStruct->FSMC_AccessMode)); 
  
  /* Bank1 NOR/SRAM control register configuration */ 
  FSMC_Bank1->BTCR[FSMC_NORSRAMInitStruct->FSMC_Bank] = 
            (uint32_t)FSMC_NORSRAMInitStruct->FSMC_DataAddressMux |
            FSMC_NORSRAMInitStruct->FSMC_MemoryType |
            FSMC_NORSRAMInitStruct->FSMC_MemoryDataWidth |
            FSMC_NORSRAMInitStruct->FSMC_BurstAccessMode |
            FSMC_NORSRAMInitStruct->FSMC_AsynchronousWait |
            FSMC_NORSRAMInitStruct->FSMC_WaitSignalPolarity |
            FSMC_NORSRAMInitStruct->FSMC_WrapMode |
            FSMC_NORSRAMInitStruct->FSMC_WaitSignalActive |
            FSMC_NORSRAMInitStruct->FSMC_WriteOperation |
            FSMC_NORSRAMInitStruct->FSMC_WaitSignal |
            FSMC_NORSRAMInitStruct->FSMC_ExtendedMode |
            FSMC_NORSRAMInitStruct->FSMC_WriteBurst;

  if(FSMC_NORSRAMInitStruct->FSMC_MemoryType == FSMC_MemoryType_NOR)
  {
    FSMC_Bank1->BTCR[FSMC_NORSRAMInitStruct->FSMC_Bank] |= (uint32_t)FSMC_BCR1_FACCEN;
  }
  
  /* Bank1 NOR/SRAM timing register configuration */
  FSMC_Bank1->BTCR[FSMC_NORSRAMInitStruct->FSMC_Bank+1] = 
            (uint32_t)FSMC_NORSRAMInitStruct->FSMC_ReadWriteTimingStruct->FSMC_AddressSetupTime |
            (FSMC_NORSRAMInitStruct->FSMC_ReadWriteTimingStruct->FSMC_AddressHoldTime << 4) |
            (FSMC_NORSRAMInitStruct->FSMC_ReadWriteTimingStruct->FSMC_DataSetupTime << 8) |
            (FSMC_NORSRAMInitStruct->FSMC_ReadWriteTimingStruct->FSMC_BusTurnAroundDuration << 16) |
            (FSMC_NORSRAMInitStruct->FSMC_ReadWriteTimingStruct->FSMC_CLKDivision << 20) |
            (FSMC_NORSRAMInitStruct->FSMC_ReadWriteTimingStruct->FSMC_DataLatency << 24) |
             FSMC_NORSRAMInitStruct->FSMC_ReadWriteTimingStruct->FSMC_AccessMode;
            
    
  /* Bank1 NOR/SRAM timing register for write configuration, if extended mode is used */
  if(FSMC_NORSRAMInitStruct->FSMC_ExtendedMode == FSMC_ExtendedMode_Enable)
  {
    assert_param(IS_FSMC_ADDRESS_SETUP_TIME(FSMC_NORSRAMInitStruct->FSMC_WriteTimingStruct->FSMC_AddressSetupTime));
    assert_param(IS_FSMC_ADDRESS_HOLD_TIME(FSMC_NORSRAMInitStruct->FSMC_WriteTimingStruct->FSMC_AddressHoldTime));
    assert_param(IS_FSMC_DATASETUP_TIME(FSMC_NORSRAMInitStruct->FSMC_WriteTimingStruct->FSMC_DataSetupTime));
    assert_param(IS_FSMC_CLK_DIV(FSMC_NORSRAMInitStruct->FSMC_WriteTimingStruct->FSMC_CLKDivision));
    assert_param(IS_FSMC_DATA_LATENCY(FSMC_NORSRAMInitStruct->FSMC_WriteTimingStruct->FSMC_DataLatency));
    assert_param(IS_FSMC_ACCESS_MODE(FSMC_NORSRAMInitStruct->FSMC_WriteTimingStruct->FSMC_AccessMode));
    FSMC_Bank1E->BWTR[FSMC_NORSRAMInitStruct->FSMC_Bank] = 
              (uint32_t)FSMC_NORSRAMInitStruct->FSMC_WriteTimingStruct->FSMC_AddressSetupTime |
              (FSMC_NORSRAMInitStruct->FSMC_WriteTimingStruct->FSMC_AddressHoldTime << 4 )|
              (FSMC_NORSRAMInitStruct->FSMC_WriteTimingStruct->FSMC_DataSetupTime << 8) |
              (FSMC_NORSRAMInitStruct->FSMC_WriteTimingStruct->FSMC_CLKDivision << 20) |
              (FSMC_NORSRAMInitStruct->FSMC_WriteTimingStruct->FSMC_DataLatency << 24) |
               FSMC_NORSRAMInitStruct->FSMC_WriteTimingStruct->FSMC_AccessMode;
  }
  else
  {
    FSMC_Bank1E->BWTR[FSMC_NORSRAMInitStruct->FSMC_Bank] = 0x0FFFFFFF;
  }
}

/**
  * @brief  Fills each FSMC_NORSRAMInitStruct member with its default value.
  * @param  FSMC_NORSRAMInitStruct: pointer to a FSMC_NORSRAMInitTypeDef 
  *   structure which will be initialized.
  * @retval None
  */
void FSMC_NORSRAMStructInit(FSMC_NORSRAMInitTypeDef* FSMC_NORSRAMInitStruct)
{  
  /* Reset NOR/SRAM Init structure parameters values */
  FSMC_NORSRAMInitStruct->FSMC_Bank = FSMC_Bank1_NORSRAM1;
  FSMC_NORSRAMInitStruct->FSMC_DataAddressMux = FSMC_DataAddressMux_Enable;
  FSMC_NORSRAMInitStruct->FSMC_MemoryType = FSMC_MemoryType_SRAM;
  FSMC_NORSRAMInitStruct->FSMC_MemoryDataWidth = FSMC_MemoryDataWidth_8b;
  FSMC_NORSRAMInitStruct->FSMC_BurstAccessMode = FSMC_BurstAccessMode_Disable;
  FSMC_NORSRAMInitStruct->FSMC_AsynchronousWait = FSMC_AsynchronousWait_Disable;
  FSMC_NORSRAMInitStruct->FSMC_WaitSignalPolarity = FSMC_WaitSignalPolarity_Low;
  FSMC_NORSRAMInitStruct->FSMC_WrapMode = FSMC_WrapMode_Disable;
  FSMC_NORSRAMInitStruct->FSMC_WaitSignalActive = FSMC_WaitSignalActive_BeforeWaitState;
  FSMC_NORSRAMInitStruct->FSMC_WriteOperation = FSMC_WriteOperation_Enable;
  FSMC_NORSRAMInitStruct->FSMC_WaitSignal = FSMC_WaitSignal_Enable;
  FSMC_NORSRAMInitStruct->FSMC_ExtendedMode = FSMC_ExtendedMode_Disable;
  FSMC_NORSRAMInitStruct->FSMC_WriteBurst = FSMC_WriteBurst_Disable;
  FSMC_NORSRAMInitStruct->FSMC_ReadWriteTimingStruct->FSMC_AddressSetupTime = 0xF;
  FSMC_NORSRAMInitStruct->FSMC_ReadWriteTimingStruct->FSMC_AddressHoldTime = 0xF;
  FSMC_NORSRAMInitStruct->FSMC_ReadWriteTimingStruct->FSMC_DataSetupTime = 0xFF;
  FSMC_NORSRAMInitStruct->FSMC_ReadWriteTimingStruct->FSMC_BusTurnAroundDuration = 0xF;
  FSMC_NORSRAMInitStruct->FSMC_ReadWriteTimingStruct->FSMC_CLKDivision = 0xF;
  FSMC_NORSRAMInitStruct->FSMC_ReadWriteTimingStruct->FSMC_DataLatency = 0xF;
  FSMC_NORSRAMInitStruct->FSMC_ReadWriteTimingStruct->FSMC_AccessMode = FSMC_AccessMode_A; 
  FSMC_NORSRAMInitStruct->FSMC_WriteTimingStruct->FSMC_AddressSetupTime = 0xF;
  FSMC_NORSRAMInitStruct->FSMC_WriteTimingStruct->FSMC_AddressHoldTime = 0xF;
  FSMC_NORSRAMInitStruct->FSMC_WriteTimingStruct->FSMC_DataSetupTime = 0xFF;
  FSMC_NORSRAMInitStruct->FSMC_WriteTimingStruct->FSMC_BusTurnAroundDuration = 0xF;
  FSMC_NORSRAMInitStruct->FSMC_WriteTimingStruct->FSMC_CLKDivision = 0xF;
  FSMC_NORSRAMInitStruct->FSMC_WriteTimingStruct->FSMC_DataLatency = 0xF;
  FSMC_NORSRAMInitStruct->FSMC_WriteTimingStruct->FSMC_AccessMode = FSMC_AccessMode_A;
}

/**
  * @brief  Enables or disables the specified NOR/SRAM Memory Bank.
  * @param  FSMC_Bank: specifies the FSMC Bank to be used
  *   This parameter can be one of the following values:
  *     @arg FSMC_Bank1_NORSRAM1: FSMC Bank1 NOR/SRAM1  
  *     @arg FSMC_Bank1_NORSRAM2: FSMC Bank1 NOR/SRAM2 
  *     @arg FSMC_Bank1_NORSRAM3: FSMC Bank1 NOR/SRAM3 
  *     @arg FSMC_Bank1_NORSRAM4: FSMC Bank1 NOR/SRAM4 
  * @param  NewState: new state of the FSMC_Bank. This parameter can be: ENABLE or DISABLE.
  * @retval None
  */
void FSMC_NORSRAMCmd(uint32_t FSMC_Bank, FunctionalState NewState)
{
  assert_param(IS_FSMC_NORSRAM_BANK(FSMC_Bank));
  assert_param(IS_FUNCTIONAL_STATE(NewState));
  
  if (NewState != DISABLE)
  {
    /* Enable the selected NOR/SRAM Bank by setting the MBKEN bit in the BCRx register */
    FSMC_Bank1->BTCR[FSMC_Bank] |= FSMC_BCR1_MBKEN;
  }
  else
  {
    /* Disable the selected NOR/SRAM Bank by clearing the MBKEN bit in the BCRx register */
    FSMC_Bank1->BTCR[FSMC_Bank] &= (uint32_t)(~FSMC_BCR1_MBKEN);
  }
}

/**
  * @}
  */ 

/**
  * @}
  */

/**
  * @}
  */

/************************ (C) COPYRIGHT STMicroelectronics *****END OF FILE****/