vos/ambiq-hal-sys/ambiq-sparkfun-sdk/devices/am_devices_mb85rs1mt.c

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2022-10-24 06:45:43 +00:00
//*****************************************************************************
//
//! @file am_devices_mb85rs1mt.c
//!
//! @brief Fujitsu 64K SPI FRAM driver.
//
//*****************************************************************************
//*****************************************************************************
//
// Copyright (c) 2020, Ambiq Micro
// All rights reserved.
//
// Redistribution and use in source and binary forms, with or without
// modification, are permitted provided that the following conditions are met:
//
// 1. Redistributions of source code must retain the above copyright notice,
// this list of conditions and the following disclaimer.
//
// 2. Redistributions in binary form must reproduce the above copyright
// notice, this list of conditions and the following disclaimer in the
// documentation and/or other materials provided with the distribution.
//
// 3. Neither the name of the copyright holder nor the names of its
// contributors may be used to endorse or promote products derived from this
// software without specific prior written permission.
//
// Third party software included in this distribution is subject to the
// additional license terms as defined in the /docs/licenses directory.
//
// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
// AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
// IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
// ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE
// LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
// CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
// SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
// INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
// CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
// ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
// POSSIBILITY OF SUCH DAMAGE.
//
// This is part of revision 2.4.2 of the AmbiqSuite Development Package.
//
//*****************************************************************************
#include "am_mcu_apollo.h"
#include "am_devices_mb85rs1mt.h"
#include "am_bsp.h"
//*****************************************************************************
//
// Global variables.
//
//*****************************************************************************
typedef struct
{
uint32_t ui32Module;
uint32_t ui32CS;
void *pIomHandle;
bool bOccupied;
} am_devices_iom_mb85rs1mt_t;
am_devices_iom_mb85rs1mt_t gAmMb85rs1mt[AM_DEVICES_MB85RS1MT_MAX_DEVICE_NUM];
am_hal_iom_config_t g_sIomMb85rs1mtCfg =
{
.eInterfaceMode = AM_HAL_IOM_SPI_MODE,
.ui32ClockFreq = AM_HAL_IOM_1MHZ,
.eSpiMode = AM_HAL_IOM_SPI_MODE_0,
.ui32NBTxnBufLength = 0,
.pNBTxnBuf = NULL,
};
//*****************************************************************************
//
// Generic Command Write function.
//
//*****************************************************************************
static uint32_t
am_device_command_write(void *pHandle, uint32_t ui32InstrLen, uint32_t ui32Instr,
uint32_t *pData, uint32_t ui32NumBytes)
{
am_hal_iom_transfer_t Transaction;
am_devices_iom_mb85rs1mt_t *pIom = (am_devices_iom_mb85rs1mt_t *)pHandle;
//
// Create the transaction.
//
Transaction.ui32InstrLen = ui32InstrLen;
Transaction.ui32Instr = ui32Instr;
Transaction.eDirection = AM_HAL_IOM_TX;
Transaction.ui32NumBytes = ui32NumBytes;
Transaction.pui32TxBuffer = pData;
Transaction.uPeerInfo.ui32SpiChipSelect = pIom->ui32CS;
Transaction.bContinue = false;
Transaction.ui8RepeatCount = 0;
Transaction.ui32PauseCondition = 0;
Transaction.ui32StatusSetClr = 0;
//
// Execute the transction over IOM.
//
if (am_hal_iom_blocking_transfer(pIom->pIomHandle, &Transaction))
{
return AM_DEVICES_MB85RS1MT_STATUS_ERROR;
}
return AM_DEVICES_MB85RS1MT_STATUS_SUCCESS;
}
static uint32_t
am_device_command_read(void *pHandle, uint32_t ui32InstrLen, uint32_t ui32Instr,
uint32_t *pData, uint32_t ui32NumBytes)
{
am_hal_iom_transfer_t Transaction;
am_devices_iom_mb85rs1mt_t *pIom = (am_devices_iom_mb85rs1mt_t *)pHandle;
//
// Create the transaction.
//
Transaction.ui32InstrLen = ui32InstrLen;
Transaction.ui32Instr = ui32Instr;
Transaction.eDirection = AM_HAL_IOM_RX;
Transaction.ui32NumBytes = ui32NumBytes;
Transaction.pui32RxBuffer = pData;
Transaction.uPeerInfo.ui32SpiChipSelect = pIom->ui32CS;
Transaction.bContinue = false;
Transaction.ui8RepeatCount = 0;
Transaction.ui32PauseCondition = 0;
Transaction.ui32StatusSetClr = 0;
//
// Execute the transction over IOM.
//
if (am_hal_iom_blocking_transfer(pIom->pIomHandle, &Transaction))
{
return AM_DEVICES_MB85RS1MT_STATUS_ERROR;
}
return AM_DEVICES_MB85RS1MT_STATUS_SUCCESS;
}
//*****************************************************************************
//
//! @brief Initialize the mb85rs1mt driver.
//!
//! @param ui32Module - IOM Module#
//! @param psIOMSettings - IOM device structure describing the target spiflash.
//!
//! This function should be called before any other am_devices_mb85rs1mt
//! functions. It is used to set tell the other functions how to communicate
//! with the external spiflash hardware.
//!
//! @return Status.
//
//*****************************************************************************
uint32_t
am_devices_mb85rs1mt_init(uint32_t ui32Module, am_devices_mb85rs1mt_config_t *pDevConfig, void **ppHandle, void **ppIomHandle)
{
void *pIomHandle;
am_hal_iom_config_t stIOMMB85RS1MTSettings;
uint32_t g_CS[AM_REG_IOM_NUM_MODULES] =
{
AM_BSP_IOM0_CS_CHNL,
AM_BSP_IOM1_CS_CHNL,
#ifndef APOLLO3_FPGA
AM_BSP_IOM2_CS_CHNL,
AM_BSP_IOM3_CS_CHNL,
AM_BSP_IOM4_CS_CHNL,
AM_BSP_IOM5_CS_CHNL,
#endif
};
uint32_t ui32Index = 0;
// Allocate a vacant device handle
for ( ui32Index = 0; ui32Index < AM_DEVICES_MB85RS1MT_MAX_DEVICE_NUM; ui32Index++ )
{
if ( gAmMb85rs1mt[ui32Index].bOccupied == false )
{
break;
}
}
if ( ui32Index == AM_DEVICES_MB85RS1MT_MAX_DEVICE_NUM )
{
return AM_DEVICES_MB85RS1MT_STATUS_ERROR;
}
if ( (ui32Module > AM_REG_IOM_NUM_MODULES) || (pDevConfig == NULL) )
{
return AM_DEVICES_MB85RS1MT_STATUS_ERROR;
}
//
// Configure the IOM pins.
//
am_bsp_iom_pins_enable(ui32Module, AM_HAL_IOM_SPI_MODE);
//
// Enable fault detection.
//
#if AM_APOLLO3_MCUCTRL
am_hal_mcuctrl_control(AM_HAL_MCUCTRL_CONTROL_FAULT_CAPTURE_ENABLE, 0);
#else // AM_APOLLO3_MCUCTRL
am_hal_mcuctrl_fault_capture_enable();
#endif // AM_APOLLO3_MCUCTRL
stIOMMB85RS1MTSettings = g_sIomMb85rs1mtCfg;
stIOMMB85RS1MTSettings.ui32NBTxnBufLength = pDevConfig->ui32NBTxnBufLength;
stIOMMB85RS1MTSettings.pNBTxnBuf = pDevConfig->pNBTxnBuf;
stIOMMB85RS1MTSettings.ui32ClockFreq = pDevConfig->ui32ClockFreq;
//
// Initialize the IOM instance.
// Enable power to the IOM instance.
// Configure the IOM for Serial operation during initialization.
// Enable the IOM.
// HAL Success return is 0
//
if (am_hal_iom_initialize(ui32Module, &pIomHandle) ||
am_hal_iom_power_ctrl(pIomHandle, AM_HAL_SYSCTRL_WAKE, false) ||
am_hal_iom_configure(pIomHandle, &stIOMMB85RS1MTSettings) ||
am_hal_iom_enable(pIomHandle))
{
return AM_DEVICES_MB85RS1MT_STATUS_ERROR;
}
else
{
gAmMb85rs1mt[ui32Index].bOccupied = true;
gAmMb85rs1mt[ui32Index].ui32Module = ui32Module;
gAmMb85rs1mt[ui32Index].ui32CS = g_CS[ui32Module];
*ppIomHandle = gAmMb85rs1mt[ui32Index].pIomHandle = pIomHandle;
*ppHandle = (void *)&gAmMb85rs1mt[ui32Index];
//
// Return the status.
//
return AM_DEVICES_MB85RS1MT_STATUS_SUCCESS;
}
}
//*****************************************************************************
//
//! @brief De-Initialize the mb85rs1mt driver.
//!
//! @param ui32Module - IOM Module#
//!
//! This function reverses the initialization
//!
//! @return Status.
//
//*****************************************************************************
uint32_t
am_devices_mb85rs1mt_term(void *pHandle)
{
am_devices_iom_mb85rs1mt_t *pIom = (am_devices_iom_mb85rs1mt_t *)pHandle;
if ( pIom->ui32Module > AM_REG_IOM_NUM_MODULES )
{
return AM_DEVICES_MB85RS1MT_STATUS_ERROR;
}
// Disable the pins
am_bsp_iom_pins_disable(pIom->ui32Module, AM_HAL_IOM_SPI_MODE);
//
// Disable the IOM.
//
am_hal_iom_disable(pIom->pIomHandle);
//
// Disable power to and uninitialize the IOM instance.
//
am_hal_iom_power_ctrl(pIom->pIomHandle, AM_HAL_SYSCTRL_DEEPSLEEP, false);
am_hal_iom_uninitialize(pIom->pIomHandle);
// Free this device handle
pIom->bOccupied = false;
//
// Return the status.
//
return AM_DEVICES_MB85RS1MT_STATUS_SUCCESS;
}
//*****************************************************************************
//
//! @brief Reads the ID of the external flash and returns the value.
//!
//! @param pDeviceID - Pointer to the return buffer for the Device ID.
//!
//! This function reads the device ID register of the external flash, and returns
//! the result as an 32-bit unsigned integer value.
//!
//! @return 32-bit status
//
//*****************************************************************************
uint32_t
am_devices_mb85rs1mt_read_id(void *pHandle, uint32_t *pDeviceID)
{
//
// Send the command sequence to read the Device ID.
//
if (am_device_command_read(pHandle, 1, AM_DEVICES_MB85RS1MT_READ_DEVICE_ID, pDeviceID, 4))
{
return AM_DEVICES_MB85RS1MT_STATUS_ERROR;
}
return AM_DEVICES_MB85RS1MT_STATUS_SUCCESS;
}
//*****************************************************************************
//
//! @brief Reads the current status of the external flash
//!
//! This function reads the status register of the external flash, and returns
//! the result as an 8-bit unsigned integer value. The processor will block
//! during the data transfer process, but will return as soon as the status
//! register had been read.
//!
//! Macro definitions for interpreting the contents of the status register are
//! included in the header file.
//!
//! @return 8-bit status register contents
//
//*****************************************************************************
uint32_t
am_devices_mb85rs1mt_status_get(void *pHandle, uint32_t *pStatus)
{
//
// Send the command sequence to read the device status.
//
if (am_device_command_read(pHandle, 1, AM_DEVICES_MB85RS1MT_READ_STATUS, pStatus, 1))
{
return AM_DEVICES_MB85RS1MT_STATUS_ERROR;
}
return AM_DEVICES_MB85RS1MT_STATUS_SUCCESS;
}
//*****************************************************************************
//
//! @brief Sends a specific command to the device (blocking).
//!
//! ui32Cmd = AM_DEVICES_CMD_WREN
//! AM_DEVICES_CMD_WRDI
//
//! @return 32-bit status
//
//*****************************************************************************
uint32_t
am_devices_mb85rs1mt_command_send(void *pHandle, uint32_t ui32Cmd)
{
uint32_t Dummy;
if ( ui32Cmd == AM_DEVICES_MB85RS1MT_CMD_WREN )
{
//
// Send the command to enable writing.
//
if (am_device_command_write(pHandle, 1, AM_DEVICES_MB85RS1MT_WRITE_ENABLE, &Dummy, 0))
{
return AM_DEVICES_MB85RS1MT_STATUS_ERROR;
}
}
else if ( ui32Cmd == AM_DEVICES_MB85RS1MT_CMD_WRDI )
{
//
// Send the command to enable writing.
//
if (am_device_command_write(pHandle, 1, AM_DEVICES_MB85RS1MT_WRITE_DISABLE, &Dummy, 0))
{
return AM_DEVICES_MB85RS1MT_STATUS_ERROR;
}
}
else
{
return AM_DEVICES_MB85RS1MT_STATUS_ERROR;
}
return AM_DEVICES_MB85RS1MT_STATUS_SUCCESS;
}
//*****************************************************************************
//
//! @brief Programs the given range of flash addresses.
//!
//! @param ui32DeviceNumber - Device number of the external flash
//! @param pui8TxBuffer - Buffer to write the external flash data from
//! @param ui32WriteAddress - Address to write to in the external flash
//! @param ui32NumBytes - Number of bytes to write to the external flash
//!
//! This function uses the data in the provided pui8TxBuffer and copies it to
//! the external flash at the address given by ui32WriteAddress. It will copy
//! exactly ui32NumBytes of data from the original pui8TxBuffer pointer. The
//! user is responsible for ensuring that they do not overflow the target flash
//! memory or underflow the pui8TxBuffer array
//
//! @return 32-bit status
//
//*****************************************************************************
uint32_t
am_devices_mb85rs1mt_blocking_write(void *pHandle, uint8_t *pui8TxBuffer,
uint32_t ui32WriteAddress,
uint32_t ui32NumBytes)
{
am_hal_iom_transfer_t Transaction;
uint32_t Dummy;
am_devices_iom_mb85rs1mt_t *pIom = (am_devices_iom_mb85rs1mt_t *)pHandle;
//
// Send the WRITE ENABLE command to enable writing.
//
if (am_device_command_write(pHandle, 1, AM_DEVICES_MB85RS1MT_WRITE_ENABLE, &Dummy, 0))
{
return AM_DEVICES_MB85RS1MT_STATUS_ERROR;
}
Transaction.ui8RepeatCount = 0;
Transaction.ui32PauseCondition = 0;
Transaction.ui32StatusSetClr = 0;
//
// Write the command to the device.
//
Transaction.eDirection = AM_HAL_IOM_TX;
Transaction.ui32InstrLen = 1;
Transaction.ui32Instr = AM_DEVICES_MB85RS1MT_WRITE;
Transaction.ui32NumBytes = 0;
Transaction.pui32TxBuffer = (uint32_t *)pui8TxBuffer;
Transaction.uPeerInfo.ui32SpiChipSelect = pIom->ui32CS;
Transaction.bContinue = true;
//
// Start the transaction.
//
if (am_hal_iom_blocking_transfer(pIom->pIomHandle, &Transaction))
{
return AM_DEVICES_MB85RS1MT_STATUS_ERROR;
}
//
// Write the offset (24 bits) to the device.
//
Transaction.eDirection = AM_HAL_IOM_TX;
Transaction.ui32InstrLen = 3;
Transaction.ui32Instr = ui32WriteAddress & 0x00FFFFFF;
Transaction.ui32NumBytes = ui32NumBytes;
Transaction.pui32TxBuffer = (uint32_t *)pui8TxBuffer;
Transaction.uPeerInfo.ui32SpiChipSelect = pIom->ui32CS;
Transaction.bContinue = false;
//
// Start the transaction.
//
if (am_hal_iom_blocking_transfer(pIom->pIomHandle, &Transaction))
{
return AM_DEVICES_MB85RS1MT_STATUS_ERROR;
}
//
// Send the command to disable writing.
//
if (am_device_command_write(pHandle, 1, AM_DEVICES_MB85RS1MT_WRITE_DISABLE, &Dummy, 0))
{
return AM_DEVICES_MB85RS1MT_STATUS_ERROR;
}
//
// Return the status.
//
return AM_DEVICES_MB85RS1MT_STATUS_SUCCESS;
}
//*****************************************************************************
//
//! @brief Programs the given range of flash addresses.
//!
//! @param ui32DeviceNumber - Device number of the external flash
//! @param pui8TxBuffer - Buffer to write the external flash data from
//! @param ui32WriteAddress - Address to write to in the external flash
//! @param ui32NumBytes - Number of bytes to write to the external flash
//!
//! This function uses the data in the provided pui8TxBuffer and copies it to
//! the external flash at the address given by ui32WriteAddress. It will copy
//! exactly ui32NumBytes of data from the original pui8TxBuffer pointer. The
//! user is responsible for ensuring that they do not overflow the target flash
//! memory or underflow the pui8TxBuffer array
//
//! @return 32-bit status
//
//*****************************************************************************
uint32_t
am_devices_mb85rs1mt_nonblocking_write_adv(void *pHandle, uint8_t *pui8TxBuffer,
uint32_t ui32WriteAddress,
uint32_t ui32NumBytes,
uint32_t ui32PauseCondition,
uint32_t ui32StatusSetClr,
am_hal_iom_callback_t pfnCallback,
void *pCallbackCtxt)
{
am_hal_iom_transfer_t Transaction;
am_devices_iom_mb85rs1mt_t *pIom = (am_devices_iom_mb85rs1mt_t *)pHandle;
//
// Common transaction parameters
//
Transaction.ui8Priority = 1; // High priority for now.
Transaction.uPeerInfo.ui32SpiChipSelect = pIom->ui32CS;
Transaction.ui8RepeatCount = 0;
Transaction.ui32PauseCondition = ui32PauseCondition;
//
// Set up the IOM transaction to send the WREN device command.
//
Transaction.eDirection = AM_HAL_IOM_TX;
Transaction.ui32InstrLen = 1; // Sending 1 offset byte
Transaction.ui32Instr = AM_DEVICES_MB85RS1MT_WRITE_ENABLE;
Transaction.ui32NumBytes = 0; // WREN CMD is sent as the offset
Transaction.pui32TxBuffer = (uint32_t *)pui8TxBuffer; // Not used for this CMD
Transaction.bContinue = false;
Transaction.ui32StatusSetClr = 0;
//
// Start the transaction (no callback).
//
if (am_hal_iom_nonblocking_transfer(pIom->pIomHandle, &Transaction, 0, 0))
{
return AM_DEVICES_MB85RS1MT_STATUS_ERROR;
}
//
// Set up the IOM transaction to write the FRAM command to the device.
// This one needs to keep CE asserted (via continue).
//
Transaction.eDirection = AM_HAL_IOM_TX;
Transaction.ui32InstrLen = 1;
Transaction.ui32Instr = AM_DEVICES_MB85RS1MT_WRITE;
Transaction.ui32NumBytes = 0;
Transaction.pui32TxBuffer = (uint32_t *)pui8TxBuffer;
Transaction.ui32PauseCondition = 0;
Transaction.ui32StatusSetClr = 0;
Transaction.bContinue = true;
//
// Start the transaction (no callback).
//
if (am_hal_iom_nonblocking_transfer(pIom->pIomHandle, &Transaction, 0, 0))
{
return AM_DEVICES_MB85RS1MT_STATUS_ERROR;
}
if (ui32NumBytes)
{
//
// Set up the IOM transaction to write the offset (address) and data.
//
Transaction.eDirection = AM_HAL_IOM_TX;
Transaction.ui32InstrLen = 3;
Transaction.ui32Instr = ui32WriteAddress & 0x00FFFFFF;
Transaction.ui32NumBytes = ui32NumBytes;
Transaction.pui32TxBuffer = (uint32_t *)pui8TxBuffer;
Transaction.bContinue = false;
Transaction.ui32PauseCondition = 0;
// Now set the post processing condition
Transaction.ui32StatusSetClr = ui32StatusSetClr;
//
// Start the transaction
//
if (am_hal_iom_nonblocking_transfer(pIom->pIomHandle, &Transaction, pfnCallback, pCallbackCtxt))
{
return AM_DEVICES_MB85RS1MT_STATUS_ERROR;
}
}
// No Need to issue AM_DEVICES_MB85RS1MT_WRITE_DISABLE, as WEL gets deasserted
// following the WRITE transaction
//
// Return the status.
//
return AM_DEVICES_MB85RS1MT_STATUS_SUCCESS;
}
//*****************************************************************************
//
//! @brief Programs the given range of flash addresses.
//!
//! @param ui32DeviceNumber - Device number of the external flash
//! @param pui8TxBuffer - Buffer to write the external flash data from
//! @param ui32WriteAddress - Address to write to in the external flash
//! @param ui32NumBytes - Number of bytes to write to the external flash
//!
//! This function uses the data in the provided pui8TxBuffer and copies it to
//! the external flash at the address given by ui32WriteAddress. It will copy
//! exactly ui32NumBytes of data from the original pui8TxBuffer pointer. The
//! user is responsible for ensuring that they do not overflow the target flash
//! memory or underflow the pui8TxBuffer array
//
//! @return 32-bit status
//
//*****************************************************************************
uint32_t
am_devices_mb85rs1mt_nonblocking_write(void *pHandle, uint8_t *pui8TxBuffer,
uint32_t ui32WriteAddress,
uint32_t ui32NumBytes,
am_hal_iom_callback_t pfnCallback,
void *pCallbackCtxt)
{
#if 0
am_hal_iom_transfer_t Transaction;
//
// Common transaction parameters
//
Transaction.ui8Priority = 1; // High priority for now.
Transaction.uPeerInfo.ui32SpiChipSelect = g_MB85RS1MTCS;
Transaction.ui8RepeatCount = 0;
Transaction.ui32PauseCondition = 0;
Transaction.ui32StatusSetClr = 0;
#if 0
//
// Set up the IOM transaction to send the WREN device command.
//
Transaction.eDirection = AM_HAL_IOM_TX;
Transaction.ui32InstrLen = 1; // Sending 1 offset byte
Transaction.ui32Instr = AM_DEVICES_MB85RS1MT_WRITE_ENABLE;
Transaction.ui32NumBytes = 0; // WREN CMD is sent as the offset
Transaction.pui32TxBuffer = (uint32_t *)pui8TxBuffer; // Not used for this CMD
Transaction.bContinue = false;
//
// Start the transaction (no callback).
//
if (am_hal_iom_nonblocking_transfer(pHandle, &Transaction, 0, 0))
{
return AM_DEVICES_MB85RS1MT_STATUS_ERROR;
}
#endif
// Do the transaction (no callback).
if (am_devices_mb85rs1mt_nonblocking_write_adv(pui8TxBuffer,
ui32WriteAddress,
ui32NumBytes,
0, 0, 0, 0))
{
return AM_DEVICES_MB85RS1MT_STATUS_ERROR;
}
//
// Set up the IOM transaction to send the WRDI (write disable) device command.
//
Transaction.eDirection = AM_HAL_IOM_TX;
Transaction.ui32InstrLen = 1; // Sending 1 offset byte
Transaction.ui32Instr = AM_DEVICES_MB85RS1MT_WRITE_DISABLE;
Transaction.ui32NumBytes = 0; // WRDI CMD is sent as the offset
Transaction.pui32TxBuffer = (uint32_t *)pui8TxBuffer; // Not used for this CMD
Transaction.bContinue = false;
//
// Start the transaction, sending the callback.
//
if (am_hal_iom_nonblocking_transfer(pHandle, &Transaction, pfnCallback, pCallbackCtxt))
{
return AM_DEVICES_MB85RS1MT_STATUS_ERROR;
}
//
// Return the status.
//
return AM_DEVICES_MB85RS1MT_STATUS_SUCCESS;
#else
return (am_devices_mb85rs1mt_nonblocking_write_adv(pHandle, pui8TxBuffer,
ui32WriteAddress,
ui32NumBytes,
0, 0, pfnCallback, pCallbackCtxt));
#endif
}
//*****************************************************************************
//
//! @brief Reads the contents of the fram into a buffer.
//!
//! @param pui8RxBuffer - Buffer to store the received data from the flash
//! @param ui32ReadAddress - Address of desired data in external flash
//! @param ui32NumBytes - Number of bytes to read from external flash
//!
//! This function reads the external flash at the provided address and stores
//! the received data into the provided buffer location. This function will
//! only store ui32NumBytes worth of data.
//
//! @return 32-bit status
//
//*****************************************************************************
uint32_t
am_devices_mb85rs1mt_blocking_read(void *pHandle, uint8_t *pui8RxBuffer,
uint32_t ui32ReadAddress,
uint32_t ui32NumBytes)
{
am_hal_iom_transfer_t Transaction;
am_devices_iom_mb85rs1mt_t *pIom = (am_devices_iom_mb85rs1mt_t *)pHandle;
Transaction.ui8RepeatCount = 0;
Transaction.ui32PauseCondition = 0;
Transaction.ui32StatusSetClr = 0;
//
// Write the command to the device.
//
Transaction.eDirection = AM_HAL_IOM_RX;
Transaction.ui32InstrLen = 1;
Transaction.ui32Instr = AM_DEVICES_MB85RS1MT_READ;
Transaction.ui32NumBytes = 0;
Transaction.pui32TxBuffer = (uint32_t *)pui8RxBuffer;
Transaction.uPeerInfo.ui32SpiChipSelect = pIom->ui32CS;
Transaction.bContinue = true;
//
// Start the transaction.
//
if (am_hal_iom_blocking_transfer(pIom->pIomHandle, &Transaction))
{
return AM_DEVICES_MB85RS1MT_STATUS_ERROR;
}
//
// Set up the IOM transaction to write to the device with offset address.
//
Transaction.eDirection = AM_HAL_IOM_RX;
Transaction.ui32InstrLen = 3;
Transaction.ui32Instr = ui32ReadAddress & 0x00FFFFFF;
Transaction.ui32NumBytes = ui32NumBytes;
Transaction.pui32RxBuffer = (uint32_t *)pui8RxBuffer;
Transaction.uPeerInfo.ui32SpiChipSelect = pIom->ui32CS;
Transaction.bContinue = false;
//
// Start the transaction.
//
if (am_hal_iom_blocking_transfer(pIom->pIomHandle, &Transaction))
{
return AM_DEVICES_MB85RS1MT_STATUS_ERROR;
}
//
// Return the status.
//
return AM_DEVICES_MB85RS1MT_STATUS_SUCCESS;
}
//*****************************************************************************
//
//! @brief Reads the contents of the fram into a buffer.
//!
//! @param pui8RxBuffer - Buffer to store the received data from the flash
//! @param ui32ReadAddress - Address of desired data in external flash
//! @param ui32NumBytes - Number of bytes to read from external flash
//!
//! This function reads the external flash at the provided address and stores
//! the received data into the provided buffer location. This function will
//! only store ui32NumBytes worth of data.
//
//! @return 32-bit status
//
//*****************************************************************************
uint32_t
am_devices_mb85rs1mt_nonblocking_read(void *pHandle, uint8_t *pui8RxBuffer,
uint32_t ui32ReadAddress,
uint32_t ui32NumBytes,
am_hal_iom_callback_t pfnCallback,
void *pCallbackCtxt)
{
am_hal_iom_transfer_t Transaction;
am_devices_iom_mb85rs1mt_t *pIom = (am_devices_iom_mb85rs1mt_t *)pHandle;
Transaction.ui8RepeatCount = 0;
Transaction.ui32PauseCondition = 0;
Transaction.ui32StatusSetClr = 0;
//
// Set up the IOM transaction to write the FRAM command to the device.
// This one needs to keep CE asserted (via continue).
//
Transaction.eDirection = AM_HAL_IOM_RX;
Transaction.ui32InstrLen = 1;
Transaction.ui32Instr = AM_DEVICES_MB85RS1MT_READ;
Transaction.ui32NumBytes = 0;
Transaction.pui32TxBuffer = (uint32_t *)pui8RxBuffer;
Transaction.uPeerInfo.ui32SpiChipSelect = pIom->ui32CS;
Transaction.bContinue = true;
//
// Start the transaction (no callback).
//
if (am_hal_iom_nonblocking_transfer(pIom->pIomHandle, &Transaction, 0, 0))
{
return AM_DEVICES_MB85RS1MT_STATUS_ERROR;
}
//
// Set up the IOM transaction.
//
Transaction.ui8Priority = 1; // High priority for now.
Transaction.eDirection = AM_HAL_IOM_RX;
Transaction.ui32InstrLen = 3;
Transaction.ui32Instr = ui32ReadAddress & 0x00FFFFFF;
Transaction.ui32NumBytes = ui32NumBytes;
Transaction.pui32RxBuffer = (uint32_t *)pui8RxBuffer;
Transaction.uPeerInfo.ui32SpiChipSelect = pIom->ui32CS;
Transaction.bContinue = false;
//
// Start the transaction.
//
if (am_hal_iom_nonblocking_transfer(pIom->pIomHandle, &Transaction, pfnCallback, pCallbackCtxt))
{
return AM_DEVICES_MB85RS1MT_STATUS_ERROR;
}
//
// Return the status.
//
return AM_DEVICES_MB85RS1MT_STATUS_SUCCESS;
}
//*****************************************************************************
//
//! @brief Reads the contents of the fram into a buffer.
//!
//! @param pui8RxBuffer - Buffer to store the received data from the flash
//! @param ui32ReadAddress - Address of desired data in external flash
//! @param ui32NumBytes - Number of bytes to read from external flash
//!
//! This function reads the external flash at the provided address and stores
//! the received data into the provided buffer location. This function will
//! only store ui32NumBytes worth of data.
//
//! @return 32-bit status
//
//*****************************************************************************
uint32_t
am_devices_mb85rs1mt_nonblocking_read_hiprio(void *pHandle, uint8_t *pui8RxBuffer,
uint32_t ui32ReadAddress,
uint32_t ui32NumBytes,
am_hal_iom_callback_t pfnCallback,
void *pCallbackCtxt)
{
am_hal_iom_transfer_t Transaction;
am_devices_iom_mb85rs1mt_t *pIom = (am_devices_iom_mb85rs1mt_t *)pHandle;
Transaction.ui8RepeatCount = 0;
Transaction.ui32PauseCondition = 0;
Transaction.ui32StatusSetClr = 0;
//
// Set up the IOM transaction to write the FRAM command to the device.
// This one needs to keep CE asserted (via continue).
//
Transaction.eDirection = AM_HAL_IOM_TX;
Transaction.ui32InstrLen = 1;
Transaction.ui32Instr = AM_DEVICES_MB85RS1MT_READ;
Transaction.ui32NumBytes = 0;
Transaction.pui32TxBuffer = (uint32_t *)pui8RxBuffer;
Transaction.uPeerInfo.ui32SpiChipSelect = pIom->ui32CS;
Transaction.bContinue = true;
//
// Start the transaction (no callback).
//
if (am_hal_iom_highprio_transfer(pIom->pIomHandle, &Transaction, 0, 0))
{
return AM_DEVICES_MB85RS1MT_STATUS_ERROR;
}
//
// Set up the IOM transaction.
//
Transaction.ui8Priority = 1; // High priority for now.
Transaction.eDirection = AM_HAL_IOM_RX;
Transaction.ui32InstrLen = 3;
Transaction.ui32Instr = ui32ReadAddress & 0x00FFFFFF;
Transaction.ui32NumBytes = ui32NumBytes;
Transaction.pui32RxBuffer = (uint32_t *)pui8RxBuffer;
Transaction.uPeerInfo.ui32SpiChipSelect = pIom->ui32CS;
Transaction.bContinue = false;
//
// Start the transaction.
//
if (am_hal_iom_highprio_transfer(pIom->pIomHandle, &Transaction, pfnCallback, pCallbackCtxt))
{
return AM_DEVICES_MB85RS1MT_STATUS_ERROR;
}
//
// Return the status.
//
return AM_DEVICES_MB85RS1MT_STATUS_SUCCESS;
}