From 1c3dac0f5908cbce08ae7cdcc82ff19b4827ecd6 Mon Sep 17 00:00:00 2001
From: Gary King <gking@nvidia.com>
Date: Thu, 1 Apr 2010 17:41:35 -0700
Subject: ARM/tegra: delete SDIO DDK and DDK-based MMC host driver

Change-Id: I30872e9905b7bdf1cca56e53089e5cfde7586798
Reviewed-on: http://git-master/r/1026
Reviewed-by: Gary King <gking@nvidia.com>
Tested-by: Gary King <gking@nvidia.com>
---
 arch/arm/mach-tegra/include/nvddk_sdio.h |  785 -------
 arch/arm/mach-tegra/nvddk/Makefile       |    1 -
 arch/arm/mach-tegra/nvddk/nvddk_sdio.c   | 3285 ------------------------------
 drivers/mmc/host/Kconfig                 |    8 -
 drivers/mmc/host/Makefile                |    2 +-
 drivers/mmc/host/tegra_sdio.c            |  578 ------
 6 files changed, 1 insertion(+), 4658 deletions(-)
 delete mode 100644 arch/arm/mach-tegra/include/nvddk_sdio.h
 delete mode 100644 arch/arm/mach-tegra/nvddk/nvddk_sdio.c
 delete mode 100644 drivers/mmc/host/tegra_sdio.c

diff --git a/arch/arm/mach-tegra/include/nvddk_sdio.h b/arch/arm/mach-tegra/include/nvddk_sdio.h
deleted file mode 100644
index bcbeea3a361b..000000000000
--- a/arch/arm/mach-tegra/include/nvddk_sdio.h
+++ /dev/null
@@ -1,785 +0,0 @@
-/*
- * Copyright (c) 2008-2009 NVIDIA Corporation.
- * All rights reserved.
- *
- * Redistribution and use in source and binary forms, with or without
- * modification, are permitted provided that the following conditions are met:
- *
- * Redistributions of source code must retain the above copyright notice,
- * this list of conditions and the following disclaimer.
- *
- * 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.
- *
- * Neither the name of the NVIDIA Corporation nor the names of its contributors
- * may be used to endorse or promote products derived from this software
- * without specific prior written permission.
- *
- * 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.
- *
- */
-
-
-/**
- * @file
- * <b> NVIDIA Driver Development Kit: SDIO Interface</b>
- *
- * @b Description: SD memory (standard capacity as well
- * as high capacity), SDIO, MMC interface.
- */
-
-/**
- * @defgroup nvddk_sdio SDIO Controller Interface
- * SD memory (standard capacity as well as high capacity), SDIO, MMC
- * interface for controlling and managing SD/SDIO/MMC cards present
- * in SD slots on handheld and embedded devices.
-
- * This interface provides methods to initialize the SD module, identify
- * the type of the card present in the slot, and read or write data to the
- * SD memory/SDIO card. NvDdkSdio also has power management capabilities
- *
- * @ingroup nvddk_modules
- *
- * @{
- */
-
-#ifndef INCLUDED_NVDDKSDIO_H
-#define INCLUDED_NVDDKSDIO_H
-
-#include "nvos.h"
-#include "nvrm_init.h"
-#include "nvrm_gpio.h"
-#include "nvrm_power.h"
-#include "nvddk_blockdev.h"
-
-#if defined(__cplusplus)
-extern "C"
-{
-#endif  /* __cplusplus */
-
-/**
- * Opaque handle for NvDdkSdio context.
- */
-typedef struct NvDdkSdioInfoRec *NvDdkSdioDeviceHandle;
-
-/**
- * Indicates the interface being used for the card,
- * i.e., number of data lines used for data transfer.
- */
-typedef enum
-{
-    /** Only D0 is used for the data transferl */
-    NvDdkSdioDataWidth_1Bit = 0,
-    /** Data Lines D0-D3 used for data transfer. */
-    NvDdkSdioDataWidth_4Bit,
-    /** Data Lines D0-D7 used for data transfer. */
-    NvDdkSdioDataWidth_8Bit,
-    /** Ignore -- Forces compilers to make 32-bit enums. */
-    NvDdkSdioDataWidth_Force32 = 0x7FFFFFFF
-} NvDdkSdioDataWidth;
-
-/**
- * Defines constants that indicate types of command
- * for SDMMC/MMC cards.
- */
-typedef enum
-{
-    /** Normal. */
-    NvDdkSdioCommandType_Normal = 0,
-    /** Suspend. */
-    NvDdkSdioCommandType_Suspend,
-    /** Resume. */
-    NvDdkSdioCommandType_Resume,
-    /** Abort data operations. */
-    NvDdkSdioCommandType_Abort,
-    /** Ignore -- Forces compilers to make 32-bit enums. */
-    NvDdkSdioCommandType_Force32 = 0x7FFFFFFF
-} NvDdkSdioCommandType;
-
-/**
- * Defines constants that indicate types of command
- * responses for SDMMC/MMC cards.
- */
-typedef enum
-{
-    /// No response type.
-    NvDdkSdioRespType_NoResp = 1,
-    /// R1 response type.
-    NvDdkSdioRespType_R1,
-    /// R1b response type.
-    NvDdkSdioRespType_R1b,
-    /// R2 response type.
-    NvDdkSdioRespType_R2,
-    /// R3 response type.
-    NvDdkSdioRespType_R3,
-    /** Responses R4 and R5 are applicable only to SDIO devices. */
-    NvDdkSdioRespType_R4,
-    /** Responses R4 and R5 are applicable only to SDIO devices. */
-    NvDdkSdioRespType_R5,
-    /// R6 response type.
-    NvDdkSdioRespType_R6,
-    /// R7 response type.
-    NvDdkSdioRespType_R7,
-    /// Ignore -- Forces compilers to make 32-bit enums.
-    NvDdkSdioRespType_Force32 = 0x7FFFFFFF
-} NvDdkSdioRespType;
-
-/**
- * Defines constants that indicate the bus voltage for
- * SDMMC card.
- */
-typedef enum
-{
-    /** Invalid. */
-    NvDdkSdioSDBusVoltage_invalid = 0,
-     /** 1.8 V. */
-    NvDdkSdioSDBusVoltage_1_8 = 5,
-     /** 3.0 V. */
-    NvDdkSdioSDBusVoltage_3_0 = 6,
-    /** 3.3 V. */
-    NvDdkSdioSDBusVoltage_3_3 = 7,
-    /** Ignore -- Forces compilers to make 32-bit enums. */
-    NvDdkSdioSDBusVoltage_Force32 = 0x7FFFFFFF
-} NvDdkSdioSDBusVoltage;
-
-/**
- * Defines constants that indicate status of the last sent
- * SD command/operation.
- */
-typedef enum
-{
-    /** No error. */
-    NvDdkSdioCommandStatus_None = 0,
-    /** Error.  */
-    NvDdkSdioCommandStatus_Error = 0x200,
-    /** Card interrupt. */
-    NvDdkSdioCommandStatus_Card = 0x100,
-    /** Card removal. */
-    NvDdkSdioCommandStatus_CardRemoval = 0x80,
-    /** Card insertion. */
-    NvDdkSdioCommandStatus_CardInsertion = 0x40,
-    /** Buffer read ready. */
-    NvDdkSdioCommandStatus_BufferReadReady = 0x20,
-    /** Buffer write ready. */
-    NvDdkSdioCommandStatus_BufferWriteReady = 0x10,
-    /** DMA boundary detected.  */
-    NvDdkSdioCommandStatus_DMA = 0x8,
-    /** Block gap event. */
-    NvDdkSdioCommandStatus_BlockGapEvent = 0x4,
-    /** Transfer complete. */
-    NvDdkSdioCommandStatus_TransferComplete = 0x2,
-    /** Command complete. */
-    NvDdkSdioCommandStatus_CommandComplete = 0x1,
-    /** Ignore -- Forces compilers to make 32-bit enums. */
-    NvDdkSdioCommandStatus_Force32 = 0x7FFFFFFF
-} NvDdkSdioControllerStatus;
-
-/**
- * Defines constants that indicate error status information as a result
- * of the last sent SD command/operation.
- */
- typedef enum
-{
-    /** No error. */
-    NvDdkSdioError_None = 0,
-    /** Error interrupt. */
-    NvDdkSdioError_Err = 0x8000,
-    /** Command timeout error. */
-    NvDdkSdioError_CommandTimeout = 0x10000,
-    /** Command CRC error. */
-    NvDdkSdioError_CommandCRC = 0x20000,
-    /** Command end bit error. */
-    NvDdkSdioError_CommandEndBit = 0x40000,
-    /** Command index error. */
-    NvDdkSdioError_CommandIndex  = 0x80000,
-    /** Data timeout error. */    
-    NvDdkSdioError_DataTimeout = 0x100000,
-    /** Data CRC error. */    
-    NvDdkSdioError_DataCRC = 0x200000,
-    /** Data endbit error. */
-    NvDdkSdioError_DataEndBit = 0x400000,
-    /** Current limit error. */
-    NvDdkSdioError_CurrentLimit = 0x800000,
-    /** Auto CMD12 error. */    
-    NvDdkSdioError_AutoCMD12 = 0x1000000,
-    /** ADMA error. */
-    NvDdkSdioError_ADMA = 0x2000000,
-    /** Target response error. */    
-    NvDdkSdioError_TargetResponse = 0x10000000,
-    /** Ceata error. */    
-    NvDdkSdioError_Ceata = 0x20000000,
-    /** Ignore -- Forces compilers to make 32-bit enums. */
-    NvDdkSdioError_Force32 = 0x7FFFFFFF
-} NvDdkSdioErrorStatus;
-
-/**
- * SD memory command contains the command-related information.
- * Will be passed from the upper layers using NvDdkSdio.
- */
- typedef struct
- {
-   /** Command code to be used for the current operation. */
-    NvU32 CommandCode;
-    /** Command type (normal/resume/abort/suspend, etc.)*/
-   NvDdkSdioCommandType CommandType;
-   /** Indicates whether this is a data/non-data command request. */
-    NvBool IsDataCommand;
-   /**
-    * Command argument: In case of memory cards, argument will consist
-    * the card address and in case of SDIO cards the argument will consist of
-    * the argument value to be sent along with the commands CMD52/CMD53.
-    */
-    NvU32 CmdArgument;
-    /**
-     * Command response: type of response expected to this command R1/R2/R3, etc.
-     * A response type also indicates the length of the reponse. For example,
-     * R1 type of response is 48 bits long.
-     */
-    NvDdkSdioRespType ResponseType;
-    /**
-     * Block size in bytes.
-     */
-    NvU32  BlockSize;
- } NvDdkSdioCommand;
-
-/**
- * SDIO status contains the read/write information.
- * Will be passed from the upper layers using NvDdkSdio while read/write.
- */
- typedef struct NvDdkSdioStatusRec
- {
-   /** Error information for the current read/write operation. It can contain
-   * multiple values.
-   */
-    volatile NvDdkSdioErrorStatus    SDErrorStatus;
-   /** Status Information for the current read/write operation. It can contain
-   * multiple values.
-   */
-    volatile NvDdkSdioControllerStatus  SDControllerStatus;
- } NvDdkSdioStatus;
-
-/**
- * Indicates the data block size.
- */
-typedef enum
-{
-    NvDdkSdioBlockSize_512Bytes = 0,
-    NvDdkSdioBlockSize_1024Bytes,
-    NvDdkSdioBlockSize_2048Bytes,
-    /** Ignore -- Forces compilers to make 32-bit enums. */
-    NvDdkSdioBlockSize_Force32 = 0x7FFFFFFF
-} NvDdkSdioBlockSize;
-
-/**
- * Indicates the timeout clock unit.
- */
-typedef enum
-{
-    NvDdkSdioTimeoutClk_KHz= 0,
-    NvDdkSdioTimeoutClk_MHz= 1,
-    /** Ignore -- Forces compilers to make 32-bit enums. */
-    NvDdkSdioTimeoutClkUnit_Force32 = 0x7FFFFFFF
-} NvDdkSdioTimeoutClkUnit;
-
-
-typedef enum
-{
-    NvDdkSdioClkDivider_DIV_BASE = 0x0,
-    /// Base clock divided by 2.
-    NvDdkSdioClkDivider_DIV_2 = 0x1,
-    /// Base clock divided by 4.
-    NvDdkSdioClkDivider_DIV_4 = 0x2,
-    /// Base clock divided by 6.
-    NvDdkSdioClkDivider_DIV_8 = 0x4,
-    /// Base clock divided by 16.
-    NvDdkSdioClkDivider_DIV_16 = 0x8,
-    /// Base clock divided by 32.
-    NvDdkSdioClkDivider_DIV_32 = 0x10,
-    /// Base clock divided by 64.
-    NvDdkSdioClkDivider_DIV_64 = 0x20,
-    /// Base clock divided by 128.
-    NvDdkSdioClkDivider_DIV_128 = 0x40,
-    /// Base clock divided by 256.
-    NvDdkSdioClkDivider_DIV_256 = 0x80
-}NvDdkSdioClkDivider;
-
-typedef enum
-{
-    NVDDK_SDIO_NORMAL_REQUEST = 0,
-    NVDDK_SDIO_MEMORY_ABORT_REQUEST,
-    NVDDK_SDIO_IO_ABORT_REQUEST,
-    NVDDK_SDIO_SUSPEND_REQUEST,
-    NVDDK_SDIO_RESUME_REQUEST
-} SdioRequestType;
-
-/**
- * SD host capabilities contains the information specific to the host controller 
- * implementation. The host controller may implement these values as fixed or
- * loaded from flash memory during power on initialization.
- */
- typedef struct NvDdkSdioHostCapabilitiesRec
- {
-    /// Holds the max instances supported.
-    NvU8 MaxInstances;   
-
-    NvBool IsAutoCMD12Supported;
-    /// Holds a flag indicating whether the instance is being powered from the AO domain.
-    NvBool AlwaysON;    
-    /// Holds a flag indicating whether the host controller is version 2.
-    NvBool IsSdControllerVersion2;
-    /// Holds teh bus voltage supported by the host controller.
-    NvDdkSdioSDBusVoltage BusVoltage;
-    /// Holds the maximum block size supported by the controller.
-    NvU32 MaxBlockLength;
- }NvDdkSdioHostCapabilities;
-
- typedef struct NvDdkSdioInterfaceCapabilitiesRec
-{
-    ///  Maximum bus width supported by the physical interface.
-    ///  Will be 2, 4, or 8 depending on the selected pin mux.
-    NvU32 MmcInterfaceWidth;
-
-    /// SDIO card HW settling time after reset, i.e. before reading the OCR.
-    NvU32 SDIOCardSettlingDelayMSec;
-} NvDdkSdioInterfaceCapabilities;
-
-/// Function to get log2 of a power of 2.
-/// When argument Val is not power of 2, log2 of the next 
-/// smaller power of 2 is returned
-NvU8 SdUtilGetLog2(NvU32 Val);
-
-/**
- * Get the SD host controller and SD interface capabilities.
- *
- * This API fills the SDIO host controller capabilities and
- * SDIO interface capabilities.
- *
- * @param hDevice       the Rm device handle
- * @param pHostCap      A pointer to SDIO host controlelr capabilities struct.
- * @param pInterfaceCap    A pointer to SDIO interface capabilities struct.
- * @param instance        The particular SDIO instance.
- * @retval NvSuccess                 Success.
- */
-NvError
-NvDdkSdioGetCapabilities(
-    NvRmDeviceHandle hDevice,
-    NvDdkSdioHostCapabilities *pHostCap,
-    NvDdkSdioInterfaceCapabilities *pInterfaceCap,
-    NvU32 instance);
-
-/**
- * Initializes the HW SD module.
- * Allocates the resources needed for the SD data transfer operations.
- * Allocates the device handle for subsequent use. This API can be called
- * multiple times, to open various instances of the SDIO controller. This API
- * associates an instance of the SDIO controller to an SDIO handle. After the
- * client acquires an SDIO handle, it can use it for all further operations.
- *
- * @see NvDdkSdioClose
- *
- * @pre This method must be called before any other NvDdkSdio APIs.
- *
- * @param  hDevice       The RM device handle.
- * @param hGpio          The GPIO device handle, used for card interrupts.
- * @param phSdio         A pointer to the device handle
- * @param pNotificationSema  A pointer to the sempahore that will be used by
- *                              SDIO module to signal notifications to the
- *                              client.
- * @param pCardEventsSema    A pointer to the semaphore that will be used by
- *                              the GPIO module to signal card events like
- *                              card insertion/removal.
- * @param Instance   The particular SDIO instance.
- * To the client, this covers command completion event, error event,
- * and card removal event notification to the client.
- *
- * @retval NvSuccess                          Open device successful.
- * @retval NvError_SdioInstanceTaken          The requested instance is
- *                                            already been taken.
- * @retval NvError_InsufficientMemory         Cannot allocate memory.
- */
-NvError
-NvDdkSdioOpen(
-    NvRmDeviceHandle hDevice,
-    NvRmGpioHandle hGpio,
-    NvDdkSdioDeviceHandle *phSdio,
-    NvOsSemaphoreHandle *pNotificationSema,
-    NvOsSemaphoreHandle *pCardEventsSema,
-    NvU8 Instance);
-
-/**
- * Deinitializes the HW SD module.
- * Closes all the opened handles and release all the allocated resources for SD.
- * @see NvDdkSdioOpen
- * @param hSdio The SDIO device handle.
- */
-void NvDdkSdioClose(NvDdkSdioDeviceHandle hSdio);
-
-/**
- * Sends non-data commands to the card. If the command is an abort
- * command, DAT and CMD lines will be reset using software reset register.
- * This command returns after succesfully sending a command. This API
- * waits until command inhibit (DAT) and command inhibit (CMD) both become
- * 0 and then sends the current command.
- * @param hSdio             The device handle.
- * @param pCommand           A pointer to the ::NvDdkSdioCommand struct,
- *                             which contains information like command index,
- *                               response type, argument, etc.
- * @param SdioStatus         The SDIO status.
- * @retval NvSuccess                 Success.
- * @retval NvError_SdioDeviceNotMounted Module not mounted. Need to
- *                                  call NvDdkSdioOpen() first.
- * @retval NvError_SdioCardNotPresent   Card not present in slot.
- */
-NvError
-NvDdkSdioSendCommand(
-        NvDdkSdioDeviceHandle hSdio,
-        NvDdkSdioCommand *pCommand,
-        NvU32* SdioStatus);
-
-/**
- * Reads the response from SDMMC controller.
- *
- * @param hSdio             The device handle.
- * @param CommandNumber     Command number.
- * @param ResponseType      Type of response.
- * @param pResponse         A pointer to  the response buffer.
- *
- * @retval NvSuccess                 Success.
- * @retval NvError_SdioDeviceNotMounted   Module not mounted. Need to
- *                                  call NvDdkSdioOpen() first.
- * @retval NvError_SdioCardNotPresent     Card not present in slot.
- */
-NvError
-NvDdkSdioGetCommandResponse(
-    NvDdkSdioDeviceHandle hSdio,
-    NvU32 CommandNumber,
-    NvDdkSdioRespType ResponseType,
-    NvU32 *pResponse);
-
-/**
- * Reads the data from SD/SDIO card into \a pReadBuffer.
- *
- * @pre The SD module must be mounted using NvDdkSdioOpen() before
- * using this method.
- *
- * @param hSdio                 The device handle.
- * @param NumOfBytesToRead      Number of bytes to read from the card.
- * @param pReadBuffer           A pointer to the application buffer in which data
- *                                 is read.
- * @param pRWRequest            A pointer to SD RW request struct.
- * @param HWAutoCMD12Enable     Flag to indicate if auto CMD12 is to be used.
- *                                 This flag can be ignored for SDIO cards.
- * @param SdioStatus         The SDIO status.
- * @retval NvSuccess                 Identification successful.
- * @retval NvError_SdioDeviceNotMounted   Module not mounted. Need to
- *                                  call NvDdkSdioOpen() first.
- * @retval NvError_SdioCardNotPresent     Card not present in slot.
- */
-NvError
-NvDdkSdioRead(
-    NvDdkSdioDeviceHandle hSdio,
-    NvU32 NumOfBytesToRead,
-    void  *pReadBuffer,
-    NvDdkSdioCommand *pRWRequest,
-    NvBool HWAutoCMD12Enable,
-    NvU32* SdioStatus);
-
-/**
- * Used to write data from \a pWriteBuffer on SD/SDIO card.
- * 
- * @pre The SD module needs to be mounted using NvDdkSdioOpen() before
- * using this method.
- *
- * @param hSdio                 The device handle.
- * @param NumOfBytesToWrite     Number of bytes to write.
- * @param pWriteBuffer          A pointer to the application buffer from which
- *                                 data is taken and written on card.
- * @param pRWCommand            A pointer to SD read/write command.
- * @param HWAutoCMD12Enable     Flag to indicate if auto CMD12 is to be used.
- *                                 This flag can be ignored for SDIO cards.
- * @param SdioStatus         The SDIO status.
- * @retval NvSuccess                 Identification successful.
- * @retval NvError_SdioDeviceNotMounted   Module not mounted. Need to
- *                                  call NvDdkSdioOpen first().
- * @retval NvError_SdioCardNotPresent     Card not present in slot.
- * @retval NvError_SdioCardWriteProtected Card is write protected
- *                                  (for SD memory cards only).
- */
-NvError
-NvDdkSdioWrite(
-    NvDdkSdioDeviceHandle hSdio,
-    NvU32 NumOfBytesToWrite,
-    void *pWriteBuffer,
-    NvDdkSdioCommand *pRWCommand,
-    NvBool HWAutoCMD12Enable,
-    NvU32* SdioStatus);
-
-/**
- * Gets write protect status (for memory/combo cards only).
- * There is a write protect switch present for SD memory cards
- * or mini/micro SD card adapters. These switches are used to restrict
- * writes to the memory card. The upper layers using NvDdkSdio have to
- * use this function to see whether the memory card is write-protected.
- * @param hSdio            The device handle.
- * @param hGpio              The GPIO device handle.
- * @param IsWriteprotected   A pointer to information whether the card is
- *                               write protected (NV_TRUE)
-                                 or write enabled (NV_FALSE).
- * @retval NvSuccess                      Operation successful.
- * @retval NvError_SdioCardNotPresent     Card not present in slot.
- */
-NvError
-NvDdkSdioIsWriteProtected(
-        NvDdkSdioDeviceHandle hSdio,
-        NvRmGpioHandle hGpio,
-        NvBool *IsWriteprotected);
-
-
-/**
- * Set the voltage level for the card
- * operations.
- * @param hSdio            The device handle.
- * @param Voltage          Enum for voltage.
- * @retval NvSuccess                 Success.
- * @retval NvError_SdioDeviceNotMounted   Module not mounted. Need to
- *                                  call NvDdkSdioOpen() first.
- * @retval NvError_SdioCardNotPresent     Card not present in slot.
- */
-NvError
-NvDdkSdioSetSDBusVoltage(
-    NvDdkSdioDeviceHandle hSdio,
-    NvDdkSdioSDBusVoltage Voltage);
-
-/**
- * Enables high speed mode for SD high speed card
- * operations. Before setting this bit, the host driver shall check the high
- * speed support in the capabilities register. if this bit is set to 0
- * (default), the host controller outputs CMD line and DAT lines at the falling
- * edge of the SD clock (up to 25 MHz). If this bit is set to 1, the host
- * controller outputs CMD line and DAT lines at the rising edge of the SD clock
- * (up to 50 MHz).
- * @param hSdio            The device handle.
- * @retval NvSuccess                 Success.
- * @retval NvError_SdioDeviceNotMounted   Module not mounted. Need to
- *                                  call NvDdkSdioOpen() first.
- * @retval NvError_SdioCardNotPresent     Card not present in slot.
- */
-NvError NvDdkSdioHighSpeedEnable(NvDdkSdioDeviceHandle hSdio);
-
-/**
- * Disables high speed mode for SD high speed cards.
- * The host controller outputs CMD line and DAT lines at the falling
- * edge of the SD Clock (up to 25 MHz).
- *
- * @param hSdio            The device handle.
- * @retval NvSuccess                 Success.
- * @retval NvError_SdioDeviceNotMounted   Module not mounted. Need to
- *                                  call NvDdkSdioOpen() first.
- * @retval NvError_SdioCardNotPresent     Card not present in slot.
- */
-NvError NvDdkSdioHighSpeedDisable(NvDdkSdioDeviceHandle hSdio);
-
-/**
- * Set clock rate for the card. Upper layers using
- * NvDdkSdio have to use this function to set the clock rate
- * to be used for subsequent data transfer
- * operations.
- * @param hSdio            The device handle.
- * @param FrequencyKHz   SD Clock Frequency to be configured.
- * @param pConfiguredFrequencyKHz This field is updated with the
- * actual frequency configured by the driver..
- * @retval NvSuccess                 Success
- * @retval NvError_SdioDeviceNotMounted   Module not mounted. Need to
- *                                  call NvDdkSdioOpen() first.
- * @retval NvError_SdioCardNotPresent     Card not present in slot.
- */
-NvError
-NvDdkSdioSetClockFrequency(
-    NvDdkSdioDeviceHandle hSdio,
-    NvRmFreqKHz FrequencyKHz,
-    NvRmFreqKHz* pConfiguredFrequencyKHz);
-
-/**
- * Sets host controller bus width for the subsequent data operations.
- * By default the bus width is set to 1-bit mode.
- * SD Memory card is set to 4-bit mode when the it has to go in the
- * data transfer mode for fast data transfer.
- * Low speed SDIO cards do not support high data rate operations
- * (4-bit data mode) and so card capability must
- * be checked to see if card is a low speed card before setting the bus
- * width for the card to 4 bits. If a card does not support 4-bit mode
- * and this API is used to set its bus width to 4 bit mode,
- * assert is encountered in debug mode.
- *
- *
- * @param hSdio              The device handle.
- * @param CardDataWidth      1 or 4 bit mode.
- * @retval NvSuccess                Success.
- * @retval NvError_SdioDeviceNotMounted   Module not mounted. Need to
- *                                  call NvDdkSdioOpen() first.
- * @retval NvError_SdioCardNotPresent     Card not present in slot.
- */
-NvError
-NvDdkSdioSetHostBusWidth(
-    NvDdkSdioDeviceHandle hSdio,
-    NvDdkSdioDataWidth CardDataWidth);
-
-/**
- * Checks the present state register to see if the card has been
- * actually inserted. If NV_TRUE is returned, then it is safe to apply SD clock
- * to the card.
- * @param hSdio                 The device handle.
- * @param IsCardInserted    A pointer to information whether the card is
- *                                          inserted (NV_TRUE)
-                                            or removed (NV_FALSE).
- * @retval NvSuccess        Card detect feature present.
- * @retval NvError_SdioCardAlwaysPresent   Card is soldered on the board.
- * @retval NvError_SdioAutoDetectCard Auto detect the card by sending the commands.
- */
-NvError
-NvDdkSdioIsCardInserted(
-        NvDdkSdioDeviceHandle hSdio,
-        NvBool *IsCardInserted);
-
-/**
- * Resets the host controller by setting the software reset
- * for all bit in the software reset register.
- * @param hSdio            The device handle.
- */
-void NvDdkSdioResetController(NvDdkSdioDeviceHandle hSdio);
-
-/**
- * Sets the blocksize of the host controller.
- * This API should be called after the blocksize is set on the SD device
- * using CMD16.
- *
- * @param hSdio                  The device handle.
- * @param Blocksize              The blocksize to be set in bytes.
- *
- * @retval  NvSuccess Indicates the operation succeeded.
- * @retval  NvError_NotInitialized Indicates that the SDIO was not opened.
- * @retval  NvError_SdioControllerBusy Indicates the controller is busy carrying out
- *                               read/write operation.
- */
-NvError NvDdkSdioSetBlocksize(NvDdkSdioDeviceHandle hSdio, NvU32 Blocksize);
-
-/**
- * Enables the SDIO host controller to accept the events generated by the I/O card.
- *
- * @param hSdio                  The device handle.
- * @param IsAcceptCardEvents     Flag to know whether or not to accept the card
- *                                   events.
- */
-void
-    NvDdkSdioEnableIoMode(
-        NvDdkSdioDeviceHandle hSdio,
-        NvBool IsAcceptCardEvents);
-
-/**
- * Part of static power management, call this API to put the SDIO controller
- * into suspend state. This API is a mechanism for the client to augment OS power
- * management policy.
- *
- * The H/W context of the SDIO controller is saved. Clock is disabled and power 
- * is also disabled to the controller.
- *
- *
- * @param hSdio             The SDIO device handle.
- * @param SwitchOffSDDevice      If NV_TRUE, switches off the voltage to the SD device.
- * (like sd card or wifi module). If NV_FALSE, does not switch off the voltage to the SD device.
- *
- */
-void NvDdkSdioSuspend(NvDdkSdioDeviceHandle hSdio, NvBool SwitchOffSDDevice);
-
-
-/**
- * Part of static power management, call this API to wake the SDIO controller
- * from suspend state. This API is a mechanism for the client to augment OS
- * power management policy.
- *
- * The H/W context of the SDIO controller is restored. Clock is enabled and power 
- * is also enabled to the controller.
- *
- *
- * @param hSdio             The SDIO device handle.
- * @param IsCardInserted      Flag to indicate whether the following is API is 
- * called during the card insertion or in normal operation.
- * @param SwitchOnSDDevice      If NV_TRUE, switches on the voltage to the SD device.
- * (like SD card or Wi-Fi module). If NV_FALSE, does not change the voltage to the SD device.
- *
- * @retval NvSuccess                 Success.
- */
-NvError
-NvDdkSdioResume(
-    NvDdkSdioDeviceHandle hSdio,
-    NvBool IsCardInserted,
-    NvBool SwitchOnSDDevice);
-
-/**
- * Aborts the SDIO memory or I/O operation.
- *
- * @param hSdio            The SDIO device handle.
- * @param RequestType      The type of abort request.
- * @param FunctionNumber   Function number of the SDIO module.
- */
- void
-NvDdkSdioAbort(
-    NvDdkSdioDeviceHandle hSdio,
-    SdioRequestType RequestType,
-    NvU32 FunctionNumber);
-
-/**
- * Allocates the required resources, powers on the device, and
- * prepares the device for I/O operations.
- * Client gets a valid handle only if the device is found.
- * The same handle must be used for further operations.
- * The device can be opened by only one client at a time.
- *
- * @pre This method must be called once before using other 
- *           NvDdkBlockDev APIs.
- *
- * @param Instance Instance of specific device.
- * @param MinorInstance Minor instance of specific device.
- * @param phBlockDev Returns pointer to device handle.
- *
- * @retval NvSuccess Device is present and ready for I/O operations.
- * @retval NvError_BadParameter One or more of the arguments provided
- * are incorrect.
- * @retval NvError_SdioCardNotPresent SD card is not present or unsupported.
- * @retval NvError_NotSupported The requested instance is not supported.
- * @retval NvError_SdioCommandFailed SD card is not responding.
- * @retval NvError_SdioInstanceTaken The requested instance is unavailable
- * or already in use.
- * @retval NvError_InsufficientMemory Cannot allocate memory.
- */
-NvError 
-NvDdkSdBlockDevOpen(
-    NvU32 Instance, 
-    NvU32 MinorInstance,
-    NvDdkBlockDevHandle *phBlockDev);
-
-NvError
-NvDdkSdBlockDevInit(NvRmDeviceHandle hDevice);
-
-void
-NvDdkSdBlockDevDeinit(void);
-
-#if defined(__cplusplus)
-}
-#endif  /* __cplusplus */
-
-/** @} */
-
-#endif  /* INCLUDED_NVDDKSDIO_H */
-
diff --git a/arch/arm/mach-tegra/nvddk/Makefile b/arch/arm/mach-tegra/nvddk/Makefile
index 1716bf866abe..f1b5da42d5c8 100644
--- a/arch/arm/mach-tegra/nvddk/Makefile
+++ b/arch/arm/mach-tegra/nvddk/Makefile
@@ -18,5 +18,4 @@ endif
 
 obj-$(CONFIG_MTD_NAND_TEGRA)	+= nvddk_nand.o
 
-obj-$(CONFIG_MMC_TEGRA_SDIO)	+= nvddk_sdio.o
 obj-$(CONFIG_TEGRA_SNOR)	+= nvsnor_controller.o
diff --git a/arch/arm/mach-tegra/nvddk/nvddk_sdio.c b/arch/arm/mach-tegra/nvddk/nvddk_sdio.c
deleted file mode 100644
index 3f51dbe9b1a2..000000000000
--- a/arch/arm/mach-tegra/nvddk/nvddk_sdio.c
+++ /dev/null
@@ -1,3285 +0,0 @@
-/*
- * Copyright (c) 2007-2009 NVIDIA Corporation.
- * All rights reserved.
- *
- * Redistribution and use in source and binary forms, with or without
- * modification, are permitted provided that the following conditions are met:
- *
- * Redistributions of source code must retain the above copyright notice,
- * this list of conditions and the following disclaimer.
- *
- * 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.
- *
- * Neither the name of the NVIDIA Corporation nor the names of its contributors
- * may be used to endorse or promote products derived from this software
- * without specific prior written permission.
- *
- * 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.
- *
- */
-
-/**
- * @file
- * @brief <b>NVIDIA Driver Development Kit:
- *                 NvDDK SDIO Driver Implementation</b>
- *
- * @b Description: Implementation of the NvDDK SDIO API.
- *
- */
-
-#include "nvddk_sdio.h"
-#include "ap20/arsdmmc.h"
-#include "ap20/arclk_rst.h"
-#include "nvrm_drf.h"
-#include "nvrm_hardware_access.h"
-#include "nvodm_query_pinmux.h"
-#include "nvrm_interrupt.h"
-#include "nvassert.h"
-#include "nvrm_memmgr.h"
-#include "nvrm_pinmux.h"
-#include "nvos.h"
-#include "nvodm_pmu.h"
-#include "nvodm_query_discovery.h"
-#include "nvodm_query_gpio.h"
-#include "nvrm_pmu.h"
-#include "nvodm_sdio.h"
-#include "nvodm_query.h"
-
-#define ENABLE_DEBUG_PRINTS 0
-
-#if ENABLE_DEBUG_PRINTS
-#define SD_PRINT(x) NvOsDebugPrintf x
-#else
-#define SD_PRINT(x)
-#endif
-
-// Macro to get expression for modulo value that is power of 2
-// Expression: DIVIDEND % (pow(2, Log2X))
-#define MACRO_MOD_LOG2NUM(DIVIDEND, Log2X) \
-    ((DIVIDEND) & ((1 << (Log2X)) - 1))
-
-// Macro to get expression for multiply by number which is power of 2
-// Expression: VAL * (1 << Log2Num)
-#define MACRO_POW2_LOG2NUM(Log2Num) \
-    (1 << (Log2Num))
-
-// Macro to get expression for multiply by number which is power of 2
-// Expression: VAL * (1 << Log2Num)
-#define MACRO_MULT_POW2_LOG2NUM(VAL, Log2Num) \
-    ((VAL) << (Log2Num))
-
-// Macro to get expression for div by number that is power of 2
-// Expression: VAL / (1 << Log2Num)
-#define MACRO_DIV_POW2_LOG2NUM(VAL, Log2Num) \
-    ((VAL) >> (Log2Num))
-
-// The sdio controller needs a delay of 500 AHB clock cycles after
-// the soft reset. Assuming the minimum AHB clock frequency as 10MHz,
-// 500 AHB clock cycles will be equivalent to 50 USec. (refer Bug ID:  334872)
-#define SDMMC_SOFT_RESET_DELAY_USEC 50
-
-// Semaphore timeout for the sdio abort
-#define NVDDK_SDMMC_ABORT_TIMEOUT_MSEC 10
-
-// Delay required while doing sdio abort as per HW bug #371685.
-#define SDMMC_ABORT_DELAY_USEC 2000
-
-#define SDMMC_DMA_BUFFER_SIZE    \
-    SDMMC_BLOCK_SIZE_BLOCK_COUNT_0_HOST_DMA_BUFFER_SIZE_DMA16K
-#define SDMMC_DMA_TRANSFER_SIZE      (1 << (12 + SDMMC_DMA_BUFFER_SIZE))
-
-// Size of the memory buffer size
-#define SDMMC_MEMORY_BUFFER_SIZE ((SDMMC_DMA_TRANSFER_SIZE) * (2))
-
-// Maximum sdio transfer size using polling method
-#define SDMMC_MAX_POLLING_SIZE   4096
-
-// Maximum polling time for completing the sdio transfer
-#define SDMMC_MIN_POLLING_TIME_USEC 1500000
-
-// Mmc erase command and timeout
-#define MMC_ERASE_COMMAND 38
-#define MMC_ERASE_COMMAND_MIN_POLLING_TIME_USEC 10000000
-
-
-// Polling size(1MB) for timeout calculation
-#define SDMMC_TIMEOUT_CALCULATION_SIZE (1024*1024)
-// Delay between polling the interrupt status register
-#define SDMMC_POLLING_DELAY_USEC  50
-
-#define SDMMC_ERROR_STATUS_VALUE     0xFFFF0000
-#define SDMMC_DEBOUNCE_TIME_MS 5
-
-/* Minimum system frequency of 100MHz used in case of busy hints */
-#define SDMMC_HW_MIN_SYSTEM_FREQ_KH   100000
-#define SDMMC_EMC_MIN_SYSTEM_FREQ_KH 166000
-
-// Frequency of the sdio controller when sdio controller is suspended
-#define SDMMC_LOW_POWER_FREQ_KHZ 100
-
-// Enable the following flag to enable the read busy hints.
-#define ENABLE_READ_BUSY_HINTS  0
-
-// Delay after issuing the abort
-#define NVDDK_SDMMC_DELAY_AFTER_ABORT_USEC   40
-// sdio interrupts used by the driver
-#define SDIO_INTERRUPTS     0x7F000F
-// sdio error interrupts
-#define SDIO_ERROR_INTERRUPTS   0x7F0000
-
-
-//Sdio command errors
-#define SDIO_CMD_ERROR_INTERRUPTS  0xF0000
-#define SDMMC_MAX_NUMBER_OF_BLOCKS   65536
-
-enum
-{
-    SdioNormalModeMinFreq = 100,       // 100Khz
-    SdioNormalModeMaxFreq = 25000,     // 25Mhz
-    SdioHighSpeedModeMaxFreq = 52000
-};
-
-enum { SDMMC_INTERNAL_CLOCK_TIMEOUT_STEP_USEC = 10 };
-enum { SDMMC_INTERNAL_CLOCK_TIMEOUT_USEC = 100 };
-
-enum { SW_RESET_TIMEOUT_CTRL_CLOCK_CONTROL_STEP_USEC = 10 };
-enum { SW_RESET_TIMEOUT_CTRL_CLOCK_CONTROL_USEC = 100 };
-
-enum { SW_CONTROLLER_BUSY_TIMEOUT_STEP_USEC = 10 };
-enum { SW_CONTROLLER_BUSY_TIMEOUT_USEC = 1000 };
-
-enum
-{
-    SDMMC_MAX_BLOCK_SIZE_512 = 512,
-    SDMMC_MAX_BLOCK_SIZE_1024 = 1024,
-    SDMMC_MAX_BLOCK_SIZE_2048 = 2048
-};
-
-// Defines various MMC card specific command types
-
-#define SDMMC_REGR(pSdioHwRegsVirtBaseAdd, reg) \
-        NV_READ32((pSdioHwRegsVirtBaseAdd) + ((SDMMC_##reg##_0)/4))
-
-#define SDMMC_REGW(pSdioHwRegsVirtBaseAdd, reg, val) \
-    do\
-    {\
-        NV_WRITE32((((pSdioHwRegsVirtBaseAdd) + ((SDMMC_##reg##_0)/4))), (val));\
-    }while (0)
-    #define DIFF_FREQ(x, y) \
-    (x>y)?(x-y):(y-x)
-
-enum { SDMMC_ENABLE_ALL_INTERRUPTS = 0x000000FF };
-
-#define NVDDK_SDMMC_COMMAND_TIMEOUT_MSEC 1000
-#define NVDDK_SDMMC_DATA_TIMEOUT_MSEC 1000
-
-/**
- * @brief Contains the sdio instance details . This information is shared
- * between the thread and the isr
- */
-typedef struct NvDdkSdioInfoRec
-{
-    // Nvrm device handle
-    NvRmDeviceHandle hRm;
-    // Instance of the SDMMC module
-    NvU32 Instance;
-    // SDMMC configuration pin-map.
-    NvOdmSdioPinMap PinMap;
-    // Physical base address of the specific sdio instance
-    NvRmPhysAddr SdioPhysicalAddress;
-    // Virtual base address of the specific sdio instance
-    NvU32* pSdioVirtualAddress;
-    // size of the sdio register map
-    NvU32 SdioBankSize;
-   /**
-    * @brief Semaphore to signal any notification to the sdio client modules.
-    * The notifications include error conditions, Command complete,
-    * read/write transfer complete, card related events etc.
-    * The client is supposed to call the NvDdkSdioGetAsyncStatus API after
-    * receiving a notification, to get the details of a particular event.
-    */
-    NvOsSemaphoreHandle NotificationSema;
-    /** Card insertion/removal semaphore handle received from the client */
-    NvOsSemaphoreHandle CardEventsSema;
-    NvRmGpioHandle hGpio;
-    // Bus width
-    NvU32 BusWidth;
-    // Bus voltage
-    NvU32 BusVoltage;
-    // High speed mode
-    NvU32 IsHighSpeedEnabled;
-    // Clock frequency
-    NvRmFreqKHz ConfiguredFrequency;
-    // flag to indicate sd memory or sdio mode
-    NvBool IsAcceptCardEvents;
-    // Indicates whether it is a read or a write transaction
-    NvBool IsRead;
-    // Request Type
-    SdioRequestType RequestType;
-    // Semaphore handle used for internal handshaking between the calling thread
-    // and the isr
-    NvOsSemaphoreHandle PrivSdioSema;
-    // Rmmemory Handle of the buffer allocated
-    NvRmMemHandle hRmMemHandle;
-    // Physical Buffer Address of the memory
-    NvU32 pPhysBuffer;
-    // Virtual Buffer Address
-    void* pVirtBuffer;
-    // Interrupt handle
-    NvRmGpioInterruptHandle GpioIntrHandle;
-    NvDdkSdioStatus* ControllerStatus;
-    NvRmGpioPinHandle WriteProtectPin;
-    NvRmGpioPinHandle CardDetectPin;
-    NvOsSemaphoreHandle SdioPowerMgtSema;
-    NvU32 SdioRmPowerClientId;
-    const NvOdmGpioPinInfo *GpioPinInfo;
-    // Maximum block size supported by the controller
-    NvU32 MaxBlockLength;
-    NvOdmSdioHandle SdioOdmHandle;
-    NvOsInterruptHandle InterruptHandle;
-    NvBool ISControllerSuspended;
-    NvBool IsSdControllerVersion2;
-    NvOsIntrMutexHandle SdioThreadSafetyMutex;
-}NvDdkSdioInfo;
-
-typedef enum
-{
-    // data time out frequency = TMCLK/8K
-    SdioDataTimeout_COUNTER_8K = 0,
-    // data time out frequency = TMCLK/16K
-    SdioDataTimeout_COUNTER_16K,
-    // data time out frequency = TMCLK/32K
-    SdioDataTimeout_COUNTER_32K,
-    // data time out frequency = TMCLK/64K
-    SdioDataTimeout_COUNTER_64K,
-    // data time out frequency = TMCLK/128K
-    SdioDataTimeout_COUNTER_128K,
-    // data time out frequency = TMCLK/256K
-    SdioDataTimeout_COUNTER_256K,
-    // data time out frequency = TMCLK/512K
-    SdioDataTimeout_COUNTER_512K,
-    // data time out frequency = TMCLK/1M
-    SdioDataTimeout_COUNTER_1M,
-    // data time out frequency = TMCLK/2M
-    SdioDataTimeout_COUNTER_2M,
-    // data time out frequency = TMCLK/4M
-    SdioDataTimeout_COUNTER_4M,
-    // data time out frequency = TMCLK/8M
-    SdioDataTimeout_COUNTER_8M,
-    // data time out frequency = TMCLK/16M
-    SdioDataTimeout_COUNTER_16M,
-    // data time out frequency = TMCLK/32M
-    SdioDataTimeout_COUNTER_32M,
-    // data time out frequency = TMCLK/64M
-    SdioDataTimeout_COUNTER_64M,
-    // data time out frequency = TMCLK/128M
-    SdioDataTimeout_COUNTER_128M,
-    // data time out frequency = TMCLK/256M
-    SdioDataTimeout_COUNTER_256M
-}SdioDataTimeout;
-
-// This is the default block size set whenever the nvddk sdio driver is open
-enum { SDMMC_DEFAULT_BLOCK_SIZE = 512 };
-
-static NvBool SdioEnableInternalClock(NvDdkSdioDeviceHandle hSdio);
-static NvBool SdioIsReset(NvDdkSdioDeviceHandle hSdio);
-static NvError SdioEnableBusPower(NvDdkSdioDeviceHandle hSdio);
-static void ConfigureInterrupts(NvDdkSdioDeviceHandle hSdio, NvU32 IntrEnableMask, NvU32 IntrDisableMask, NvU32 IntrStatusEnableMask);
-static void PrivSdioAbort(NvDdkSdioDeviceHandle hSdio);
-void PrivSdioErrorRecovery(NvDdkSdioDeviceHandle hSdio);
-NvError SdioEnableCardClock(NvDdkSdioDeviceHandle hSdio, NvBool IsEnable);
-
-static NvError
-SdioSetSlotClockRate(
-    NvDdkSdioDeviceHandle hSdio,
-    NvDdkSdioClkDivider Divider);
-
-static NvError
-    SdioSetDataTimeout(
-        NvDdkSdioDeviceHandle hSdio,
-        SdioDataTimeout SdioDataToCounter);
-
-static NvU32
-SdioIsControllerBusy(
-    NvDdkSdioDeviceHandle hSdio,
-    NvBool IsDataCommand);
-static NvError
-SdioRegisterInterrupts(
-    NvRmDeviceHandle hRm,
-    NvDdkSdioDeviceHandle hSdio);
-
-static void SdioIsr(void* args);
-
-static void GpioInterruptHandler(void *arg);
-
-NvError SdioConfigureCardClock(NvDdkSdioDeviceHandle hSdio, NvBool IsEnable);
-
-NvError
-    SdioGetPhysAdd(
-        NvRmDeviceHandle hRmDevice,
-       NvRmMemHandle* hRmMemHandle,
-        void** pVirtBuffer,
-        NvU32 size,
-        NvU32* pPhysBuffer);
-
-static NvError SdioBlockTransfer(
-    NvDdkSdioDeviceHandle hSdio,
-    NvU32 NumOfRWBytes,
-    NvU32 pReadBuffer,
-    NvDdkSdioCommand *pRWRequest,
-    NvBool HWAutoCMD12Enable,
-    NvBool IsRead);
-
-static NvError
-PrivSdioPollingRead(
-    NvDdkSdioDeviceHandle hSdio,
-    NvU32 NumOfBytesToRead,
-    void  *pReadBuffer,
-    NvDdkSdioCommand *pRWCommand,
-    NvBool HWAutoCMD12Enable,
-    NvU32* SdioStatus);
-
-static NvError
-PrivSdioPollingWrite(
-    NvDdkSdioDeviceHandle hSdio,
-    NvU32 NumOfBytesToWrite,
-    void *pWriteBuffer,
-    NvDdkSdioCommand *pRWCommand,
-    NvBool HWAutoCMD12Enable,
-    NvU32* SdioStatus);
-
-void PrivSdioReset(NvDdkSdioDeviceHandle hSdio);
-
-NvError
-PrivSdioSendCommandPolling(
-        NvDdkSdioDeviceHandle hSdio,
-        NvDdkSdioCommand *pCommand,
-        NvU32* SdioStatus);
-
-void
-PrivSdioGetCaps(
-    NvRmDeviceHandle hDevice,
-    NvDdkSdioHostCapabilities *pHostCap,
-    NvU32 instance);
-
-// function to check power of 2
-static NvBool
-UtilCheckPowerOf2(NvU32 Num)
-{
-    // A power of 2 satisfies condition (N & (N - 1)) == (2 * N - 1)
-    if ((Num & (Num - 1)) == 0)
-        return NV_TRUE;
-    else
-        return NV_FALSE;
-}
-
-// Simple function to get log2, assumed value power of 2, else return 
-// returns log2 of immediately smaller number
-NvU8
-SdUtilGetLog2(NvU32 Val)
-{
-    NvU8 Log2Val = 0;
-    NvU32 i;
-    // Value should be non-zero
-    NV_ASSERT(Val > 0);
-    if (UtilCheckPowerOf2(Val) == NV_FALSE)
-    {
-        NvOsDebugPrintf("\nCalling simple log2 with value which is "
-            "not power of 2 ");
-        // In case of values that are not power of 2 we return the 
-        // integer part of the result of log2
-    }
-    // Value is power of 2
-    if (Val > 0)
-    {
-        // Assumed that Val is NvU32
-        for (i = 0; i < 32; i++)
-        {
-            // divide by 2
-            Val = MACRO_DIV_POW2_LOG2NUM(Val, 1);
-            if (Val == 0)
-            {
-                // Return 0 when Val is 1
-                break;
-            }
-            Log2Val++;
-        }
-    }
-    return Log2Val;
-}
-
-
-
-NvError NvDdkSdioOpen(
-    NvRmDeviceHandle hDevice,
-    NvRmGpioHandle hGpio,
-    NvDdkSdioDeviceHandle *phSdio,
-    NvOsSemaphoreHandle *pNotificationSema,
-    NvOsSemaphoreHandle *pCardEventsSema,
-    NvU8 Instance)
-{
-
-    NvError e = NvSuccess;
-    NvBool IsReset = NV_TRUE;
-    NvBool IsClkStable = NV_FALSE;
-    NvDdkSdioDeviceHandle hSdio = NULL;
-    NvRmFreqKHz pConfiguredFrequencyKHz = 0;
-    NvDdkSdioStatus* ControllerStatus = NULL;
-    NvU32 val = 0;
-    NvU32 capabilities = 0;
-    NvU32 MaxInstances = 0;
-    NvBool IsCardInserted = NV_TRUE;
-    NvDdkSdioHostCapabilities HostCap;
-
-#if !NV_OAL
-    NvU32 PinCount = 0;
-    NvOsInterruptHandler IntrHandler = (NvOsInterruptHandler)GpioInterruptHandler;
-
-    NV_ASSERT(hGpio);
-#endif
-
-    NV_ASSERT(pNotificationSema);
-    NV_ASSERT(pCardEventsSema);
-
-    MaxInstances = NvRmModuleGetNumInstances(hDevice, NvRmModuleID_Sdio);
-    // Validate the instance number
-    if (Instance >= MaxInstances)
-    {
-        return NvError_SdioInstanceTaken;
-    }
-
-    if (NvRmSetModuleTristate(hDevice,
-        NVRM_MODULE_ID(NvRmModuleID_Sdio,Instance), NV_FALSE)!=NvSuccess)
-        return NvError_NotSupported;
-
-    hSdio = NvOsAlloc(sizeof(NvDdkSdioInfo));
-
-    if (!hSdio)
-    {
-        return NvError_InsufficientMemory;
-    }
-
-    NvOsMemset(hSdio, 0, sizeof(NvDdkSdioInfo));
-
-    // initialise the members of the NvDdkSdioDeviceHandle struct
-    hSdio->hRm = hDevice;
-    hSdio->Instance = Instance;
-    hSdio->NotificationSema = *pNotificationSema;
-    hSdio->ConfiguredFrequency = SdioNormalModeMinFreq;
-    hSdio->CardEventsSema = *pCardEventsSema;
-    hSdio->IsSdControllerVersion2 = NV_FALSE;
-    hSdio->ISControllerSuspended = NV_FALSE;
-
-    NvRmModuleGetBaseAddress(
-        hDevice,
-        NVRM_MODULE_ID(NvRmModuleID_Sdio, Instance),
-        &hSdio->SdioPhysicalAddress,
-        &hSdio->SdioBankSize);
-
-    NV_CHECK_ERROR_CLEANUP(NvRmPhysicalMemMap(
-        hSdio->SdioPhysicalAddress,
-        hSdio->SdioBankSize, NVOS_MEM_READ_WRITE,
-        NvOsMemAttribute_Uncached,
-        (void **)&hSdio->pSdioVirtualAddress));
-
-    ControllerStatus = NvOsAlloc(sizeof(NvDdkSdioStatus));
-    if (NULL == ControllerStatus)
-    {
-        e = NvError_InsufficientMemory;
-        goto fail;
-    }
-
-    e = NvOsIntrMutexCreate(&hSdio->SdioThreadSafetyMutex);
-    if (e != NvError_Success)
-    {
-        goto fail;
-    }
-
-    ControllerStatus->SDControllerStatus = NvDdkSdioCommandStatus_None;
-    ControllerStatus->SDErrorStatus = NvDdkSdioError_None;
-    hSdio->ControllerStatus = ControllerStatus;
-
-     // Event sema to register with the rm_power module
-    NV_CHECK_ERROR_CLEANUP(NvOsSemaphoreCreate(&hSdio->PrivSdioSema, 0));
-
-     // Event sema to register with the rm_power module
-    NV_CHECK_ERROR_CLEANUP(NvOsSemaphoreCreate(&hSdio->SdioPowerMgtSema, 0));
-
-    // register with the rm_power manager
-    hSdio->SdioRmPowerClientId = NVRM_POWER_CLIENT_TAG('S','D','I','O');
-    NV_CHECK_ERROR_CLEANUP(NvRmPowerRegister(hSdio->hRm,
-                                             hSdio->SdioPowerMgtSema,
-                                             &hSdio->SdioRmPowerClientId));
-
-    hSdio->SdioOdmHandle = NvOdmSdioOpen(Instance);
-    if (!hSdio->SdioOdmHandle)
-    {
-        e = NvError_NotSupported;
-        goto fail;
-    }
-
-    // enable power
-    NV_CHECK_ERROR_CLEANUP(NvRmPowerVoltageControl(hSdio->hRm,
-                                                   NVRM_MODULE_ID(NvRmModuleID_Sdio, Instance),
-                                                   hSdio->SdioRmPowerClientId,
-                                                   NvRmVoltsUnspecified,
-                                                   NvRmVoltsUnspecified,
-                                                   NULL,
-                                                   0,
-                                                   NULL));
-
-    // now enable clock to sdio controller
-    NV_CHECK_ERROR_CLEANUP(NvRmPowerModuleClockControl(hSdio->hRm,
-                                                       NVRM_MODULE_ID(NvRmModuleID_Sdio, Instance),
-                                                       hSdio->SdioRmPowerClientId,
-                                                       NV_TRUE));
-
-
-
-    // reset controller
-    NvRmModuleReset(hSdio->hRm, NVRM_MODULE_ID(NvRmModuleID_Sdio, Instance));
-
-    IsReset = SdioIsReset(hSdio);
-    if (IsReset != NV_TRUE)
-    {
-        goto fail;
-    }
-
-    // enable internal clock to sdio
-    IsClkStable = SdioEnableInternalClock(hSdio);
-    if (IsClkStable != NV_TRUE)
-    {
-        goto fail;
-    }
-
-    // Configure the clock frequency
-    NV_CHECK_ERROR_CLEANUP(NvDdkSdioSetClockFrequency(hSdio,
-                                                      hSdio->ConfiguredFrequency,
-                                                      &pConfiguredFrequencyKHz));
-
-    PrivSdioGetCaps(hDevice, &HostCap, Instance);
-    hSdio->IsSdControllerVersion2 = HostCap.IsSdControllerVersion2;
-
-    capabilities = SDMMC_REGR(hSdio->pSdioVirtualAddress, CAPABILITIES);
-    val = NV_DRF_VAL(SDMMC, CAPABILITIES, MAX_BLOCK_LENGTH, capabilities);
-    switch (val)
-    {
-      case SDMMC_CAPABILITIES_0_MAX_BLOCK_LENGTH_BYTE512:
-           hSdio->MaxBlockLength = SDMMC_MAX_BLOCK_SIZE_512;
-           break;
-
-      case SDMMC_CAPABILITIES_0_MAX_BLOCK_LENGTH_BYTE1024:
-           hSdio->MaxBlockLength = SDMMC_MAX_BLOCK_SIZE_1024;
-           break;
-
-      case SDMMC_CAPABILITIES_0_MAX_BLOCK_LENGTH_BYTE2048:
-           hSdio->MaxBlockLength = SDMMC_MAX_BLOCK_SIZE_2048;
-           break;
-
-     default:
-           hSdio->MaxBlockLength = SDMMC_DEFAULT_BLOCK_SIZE;
-           break;
-    }
-    HostCap.MaxBlockLength = hSdio->MaxBlockLength;
-    
-    // Set the block size
-    NvDdkSdioSetBlocksize(hSdio, SDMMC_DEFAULT_BLOCK_SIZE);
-
-    val = NV_DRF_VAL(SDMMC, CAPABILITIES, VOLTAGE_SUPPORT_3_3_V, capabilities);
-    if (val)
-    {
-        HostCap.BusVoltage = NvDdkSdioSDBusVoltage_3_3;
-    }
-    else
-    {
-        val = NV_DRF_VAL(SDMMC, CAPABILITIES, VOLTAGE_SUPPORT_3_0_V, capabilities);
-        if (val)
-        {
-                HostCap.BusVoltage = NvDdkSdioSDBusVoltage_3_0;
-        }
-        else
-        {
-            val = NV_DRF_VAL(SDMMC, CAPABILITIES, VOLTAGE_SUPPORT_1_8_V, capabilities);
-            if (val)
-            {
-                HostCap.BusVoltage = NvDdkSdioSDBusVoltage_1_8;
-            }
-            else
-            {
-                // Invalid bus voltage
-                NV_ASSERT(0);
-            }
-        }
-    }
-    
-    // set sd bus voltage
-    NvDdkSdioSetSDBusVoltage(hSdio, HostCap.BusVoltage);
-
-
-    // enable sd bus power
-    SdioEnableBusPower(hSdio);
-
-    // set data timeout counter value
-    SdioSetDataTimeout(hSdio, SdioDataTimeout_COUNTER_128M);
-
-    // register interrupt handler
-    NV_CHECK_ERROR_CLEANUP(SdioRegisterInterrupts(hDevice, hSdio));
-
-#if !NV_OAL
-    hSdio->hGpio = hGpio;
-
-    hSdio->GpioPinInfo = NvOdmQueryGpioPinMap(NvOdmGpioPinGroup_Sdio,
-                                              hSdio->Instance, &PinCount);
-
-    if (hSdio->GpioPinInfo != NULL)
-    {
-        // Check whether the write protect gpio pin is supported or not
-        if (PinCount == 1)
-        {
-            NvRmGpioAcquirePinHandle(hGpio, hSdio->GpioPinInfo[0].Port,
-                    hSdio->GpioPinInfo[0].Pin, &hSdio->CardDetectPin);
-        }
-        else if (PinCount == 2)
-        {
-            NvRmGpioAcquirePinHandle(hGpio, hSdio->GpioPinInfo[0].Port,
-                    hSdio->GpioPinInfo[0].Pin, &hSdio->CardDetectPin);
-
-            NvRmGpioAcquirePinHandle(hGpio, hSdio->GpioPinInfo[1].Port,
-                    hSdio->GpioPinInfo[1].Pin, &hSdio->WriteProtectPin);
-
-            NV_CHECK_ERROR_CLEANUP(NvRmGpioConfigPins(hGpio, &hSdio->WriteProtectPin, 1,
-                NvRmGpioPinMode_InputData));
-        }
-
-        e = NvRmGpioInterruptRegister(hGpio, hDevice, hSdio->CardDetectPin,
-                IntrHandler, NvRmGpioPinMode_InputInterruptAny,
-                hSdio, &hSdio->GpioIntrHandle, SDMMC_DEBOUNCE_TIME_MS);
-        if (e != NvError_Success)
-        {
-            goto fail;
-        }
-
-        e = NvRmGpioInterruptEnable(hSdio->GpioIntrHandle);
-        if (e != NvError_Success)
-        {
-            goto fail;
-        }
-    }
-#endif
-
-    // Enable ALL important Normal interrupts
-    ConfigureInterrupts(hSdio, SDIO_INTERRUPTS, ~SDIO_INTERRUPTS, 0);
-
-
-    *phSdio = hSdio;
-    SdioConfigureCardClock(hSdio, NV_FALSE);
-
-    // Allocate memory for sdio data transfers
-    NV_CHECK_ERROR_CLEANUP(SdioGetPhysAdd(hSdio->hRm, &hSdio->hRmMemHandle,
-                        &hSdio->pVirtBuffer, SDMMC_MEMORY_BUFFER_SIZE, &hSdio->pPhysBuffer));
-
-    // Disable power to the slot if the card is not inserted
-    e = NvDdkSdioIsCardInserted(hSdio, &IsCardInserted);
-    if (e == NvSuccess)
-    {
-        if (!IsCardInserted)
-        {
-            NvOdmSdioSuspend(hSdio->SdioOdmHandle);
-        }
-    }
-
-    return NvSuccess;
-
-fail:
-    NvOsIntrMutexDestroy(hSdio->SdioThreadSafetyMutex);
-    hSdio->SdioThreadSafetyMutex = NULL;
-    if (hSdio->SdioOdmHandle)
-    {
-        NvOdmSdioClose(hSdio->SdioOdmHandle);
-    }
-
-    if (hSdio->hRmMemHandle != NULL)
-    {
-#if !NV_OAL
-        NvRmMemUnmap(hSdio->hRmMemHandle, hSdio->pVirtBuffer, SDMMC_MEMORY_BUFFER_SIZE);
-#endif
-        NvRmMemUnpin(hSdio->hRmMemHandle);
-        NvRmMemHandleFree(hSdio->hRmMemHandle);
-    }
-
-     // disable power
-    NV_ASSERT_SUCCESS(NvRmPowerVoltageControl(hSdio->hRm,
-                            NVRM_MODULE_ID(NvRmModuleID_Sdio, Instance),
-                            hSdio->SdioRmPowerClientId,
-                            NvRmVoltsOff,
-                            NvRmVoltsOff,
-                            NULL,
-                            0,
-                            NULL));
-
-     // unregister with the power manager
-    NvRmPowerUnRegister(hSdio->hRm, hSdio->SdioRmPowerClientId);
-
-    // unregister/disable interrupt handler
-    NvRmInterruptUnregister(hDevice, hSdio->InterruptHandle);
-    hSdio->InterruptHandle = NULL;
-
-    if (hSdio != NULL)
-    {
-        // destory the internal sdio abort semaphore
-        NvOsSemaphoreDestroy(hSdio->PrivSdioSema);
-        hSdio->PrivSdioSema = NULL;
-
-        NvRmPhysicalMemUnmap(hSdio->pSdioVirtualAddress, hSdio->SdioBankSize);
-    }
-
-    NvOsFree(ControllerStatus);
-    ControllerStatus = NULL;
-    hSdio->ControllerStatus = NULL;
-    NvOsSemaphoreDestroy(hSdio->SdioPowerMgtSema);
-    hSdio->SdioPowerMgtSema = NULL;
-    NvOsFree(hSdio);
-    hSdio = NULL;
-    *phSdio = NULL;
-    NV_ASSERT_SUCCESS(NvRmSetModuleTristate(hDevice,
-        NVRM_MODULE_ID(NvRmModuleID_Sdio,Instance), NV_TRUE));
-    return e;
-}
-
-NvError
-NvDdkSdioSendCommand(
-        NvDdkSdioDeviceHandle hSdio,
-        NvDdkSdioCommand *pCommand,
-        NvU32* SdioStatus)
-{
-    NvU32 val = 0;
-    NvBool IsCrcCheckEnable = NV_FALSE;
-    NvBool IsIndexCheckEnable = NV_FALSE;
-    NvU32 IsControllerBusy = 0;
-    NvError status;
-    NvDdkSdioStatus* ControllerStatus = NULL;
-
-    NV_ASSERT(hSdio);
-    NV_ASSERT(pCommand);
-
-    ControllerStatus = hSdio->ControllerStatus;
-
-    // clear the previous status if any
-    ControllerStatus->SDControllerStatus = NvDdkSdioCommandStatus_None;
-    ControllerStatus->SDErrorStatus = NvDdkSdioError_None;
-    hSdio->RequestType = NVDDK_SDIO_NORMAL_REQUEST;
-
-#if NV_OAL
-    status = PrivSdioSendCommandPolling(hSdio, pCommand, SdioStatus);
-    return status;
-#endif
-
-    // Commands with response type as R1b will generate transfer complete.
-    // Check if the command response is R1b. If the response is R1b we will get
-    // transfer complete interrupt.
-    if (pCommand->ResponseType == NvDdkSdioRespType_R1b && pCommand->CommandCode != 12)
-    {
-        // Disable command complete and enable transfer complete
-        ConfigureInterrupts(hSdio, SDIO_INTERRUPTS, NvDdkSdioCommandStatus_CommandComplete, 0);
-    }
-    else
-    {
-        // Enable command complete and disable transfer complete
-        ConfigureInterrupts(hSdio, SDIO_INTERRUPTS, NvDdkSdioCommandStatus_TransferComplete, 0);
-    }
-
-    val = SDMMC_REGR(hSdio->pSdioVirtualAddress, CMD_XFER_MODE);
-
-    // set the command number
-    val = NV_FLD_SET_DRF_NUM(SDMMC, CMD_XFER_MODE, COMMAND_INDEX,
-                             pCommand->CommandCode, val);
-
-    // check if any data transfer is involved in the command
-    val = NV_FLD_SET_DRF_NUM(SDMMC, CMD_XFER_MODE, DATA_PRESENT_SELECT,
-                             pCommand->IsDataCommand, val);
-    val = NV_FLD_SET_DRF_NUM(SDMMC, CMD_XFER_MODE, COMMAND_TYPE,
-                                pCommand->CommandType, val);
-    /* set the response type */
-    switch (pCommand->ResponseType)
-    {
-        case NvDdkSdioRespType_NoResp:
-             IsCrcCheckEnable = NV_FALSE;
-             IsIndexCheckEnable = NV_FALSE;
-             val = NV_FLD_SET_DRF_DEF(SDMMC, CMD_XFER_MODE, RESP_TYPE_SELECT,
-                                      NO_RESPONSE, val);
-            break;
-
-        case NvDdkSdioRespType_R1:
-        case NvDdkSdioRespType_R5:
-        case NvDdkSdioRespType_R6:
-             IsCrcCheckEnable = NV_TRUE;
-             IsIndexCheckEnable = NV_TRUE;
-             val = NV_FLD_SET_DRF_DEF(SDMMC, CMD_XFER_MODE, RESP_TYPE_SELECT,
-                                      RESP_LENGTH_48, val);
-            break;
-
-        case NvDdkSdioRespType_R2:
-             IsCrcCheckEnable = NV_TRUE;
-             IsIndexCheckEnable = NV_FALSE;
-             val = NV_FLD_SET_DRF_DEF(SDMMC, CMD_XFER_MODE, RESP_TYPE_SELECT,
-                                      RESP_LENGTH_136, val);
-            break;
-
-        case NvDdkSdioRespType_R3:
-        case NvDdkSdioRespType_R4:
-             IsCrcCheckEnable = NV_FALSE;
-             IsIndexCheckEnable = NV_FALSE;
-             val = NV_FLD_SET_DRF_DEF(SDMMC, CMD_XFER_MODE, RESP_TYPE_SELECT,
-                                      RESP_LENGTH_48, val);
-            break;
-
-        case NvDdkSdioRespType_R1b:
-             IsCrcCheckEnable = NV_TRUE;
-             IsIndexCheckEnable = NV_TRUE;
-             val = NV_FLD_SET_DRF_DEF(SDMMC, CMD_XFER_MODE, RESP_TYPE_SELECT,
-                                      RESP_LENGTH_48BUSY, val);
-            break;
-
-        case NvDdkSdioRespType_R7:
-             IsCrcCheckEnable = NV_TRUE;
-             IsIndexCheckEnable = NV_FALSE;
-             val = NV_FLD_SET_DRF_DEF(SDMMC, CMD_XFER_MODE, RESP_TYPE_SELECT,
-                                      RESP_LENGTH_48, val);
-            break;
-
-        default:
-            NV_ASSERT(0);
-    }
-
-    // set the is indexed
-    val = NV_FLD_SET_DRF_NUM(SDMMC, CMD_XFER_MODE, CMD_INDEX_CHECK_EN,
-                             IsIndexCheckEnable, val);
-
-    // set the is crc
-    val = NV_FLD_SET_DRF_NUM(SDMMC, CMD_XFER_MODE, CMD_CRC_CHECK_EN,
-                             IsCrcCheckEnable, val);
-
-    IsControllerBusy = SdioIsControllerBusy(hSdio, pCommand->IsDataCommand);
-    if (IsControllerBusy)
-    {
-        return NvError_SdioControllerBusy;
-    }
-
-    // now write to the command argument register
-    SDMMC_REGW(hSdio->pSdioVirtualAddress, ARGUMENT, pCommand->CmdArgument);
-
-    SdioConfigureCardClock(hSdio, NV_TRUE);
-
-    // now write to the command xfer register
-    SDMMC_REGW(hSdio->pSdioVirtualAddress, CMD_XFER_MODE, val);
-
-    status = NvOsSemaphoreWaitTimeout(hSdio->PrivSdioSema, NVDDK_SDMMC_COMMAND_TIMEOUT_MSEC);
-
-    if (status == NvSuccess)
-    {
-        // if there is a Command timeout because of the previous command, reset CMD line
-        if (ControllerStatus->SDErrorStatus & NvDdkSdioError_CommandTimeout)
-        {
-            NvOsWaitUS(SDMMC_SOFT_RESET_DELAY_USEC);
-            val = SDMMC_REGR(hSdio->pSdioVirtualAddress,
-                                    SW_RESET_TIMEOUT_CTRL_CLOCK_CONTROL);
-            val = NV_DRF_VAL(SDMMC, SW_RESET_TIMEOUT_CTRL_CLOCK_CONTROL,
-                                    SW_RESET_FOR_CMD_LINE, val);
-            NV_ASSERT(val == 0);
-        }
-
-        // if there is a data timeout because of the previous command, reset DAT line
-        if (ControllerStatus->SDErrorStatus & NvDdkSdioError_DataTimeout)
-        {
-            NvOsWaitUS(SDMMC_SOFT_RESET_DELAY_USEC);
-            val = SDMMC_REGR(hSdio->pSdioVirtualAddress,
-                                    SW_RESET_TIMEOUT_CTRL_CLOCK_CONTROL);
-            val = NV_DRF_VAL(SDMMC, SW_RESET_TIMEOUT_CTRL_CLOCK_CONTROL,
-                                    SW_RESET_FOR_DAT_LINE, val);
-            NV_ASSERT(val == 0);
-        }
-    }
-
-    SdioConfigureCardClock(hSdio, NV_FALSE);
-
-    *SdioStatus = ControllerStatus->SDErrorStatus;
-    return status;
-}
-
-NvError
-PrivSdioSendCommandPolling(
-        NvDdkSdioDeviceHandle hSdio,
-        NvDdkSdioCommand *pCommand,
-        NvU32* SdioStatus)
-{
-    NvU32 val = 0;
-    NvBool IsCrcCheckEnable = NV_FALSE;
-    NvBool IsIndexCheckEnable = NV_FALSE;
-    NvU32 IsControllerBusy = 0;
-    NvError status = NvSuccess;
-    NvDdkSdioStatus* ControllerStatus = NULL;
-    NvU32 PollTime = 0;
-    NvU32 TotalPollingTime = SDMMC_MIN_POLLING_TIME_USEC;
-
-    if (pCommand->CommandCode == MMC_ERASE_COMMAND)
-    {
-        TotalPollingTime = MMC_ERASE_COMMAND_MIN_POLLING_TIME_USEC;
-    }
-
-    NV_ASSERT(hSdio);
-    NV_ASSERT(pCommand);
-
-    ControllerStatus = hSdio->ControllerStatus;
-
-    // clear the previous status if any
-    ControllerStatus->SDControllerStatus = NvDdkSdioCommandStatus_None;
-    ControllerStatus->SDErrorStatus = NvDdkSdioError_None;
-    hSdio->RequestType = NVDDK_SDIO_NORMAL_REQUEST;
-
-    // Commands with response type as R1b will generate transfer complete.
-    // Check if the command response is R1b. If the response is R1b we will get
-    // transfer complete interrupt.
-    // Commands with response type as R1b will generate transfer complete.
-    // Check if the command response is R1b. If the response is R1b we will get
-    // transfer complete interrupt.
-    if (pCommand->ResponseType == NvDdkSdioRespType_R1b && pCommand->CommandCode != 12)
-    {
-        // Disable all interrupts
-        ConfigureInterrupts(hSdio, 0, SDIO_INTERRUPTS,
-                    (SDIO_ERROR_INTERRUPTS|NvDdkSdioCommandStatus_TransferComplete));
-    }
-    else
-    {
-        // Enable command complete and disable transfer complete
-        ConfigureInterrupts(hSdio, 0, SDIO_INTERRUPTS,
-                (SDIO_ERROR_INTERRUPTS | NvDdkSdioCommandStatus_CommandComplete));
-    }
-
-    // set the command number
-    val |= NV_DRF_NUM(SDMMC, CMD_XFER_MODE, COMMAND_INDEX,
-                             pCommand->CommandCode);
-    // check if any data transfer is involved in the command
-    val |= NV_DRF_NUM(SDMMC, CMD_XFER_MODE, DATA_PRESENT_SELECT,
-                             pCommand->IsDataCommand);
-    val |= NV_DRF_NUM(SDMMC, CMD_XFER_MODE, COMMAND_TYPE,
-                             pCommand->CommandType);
-    /* set the response type */
-    switch (pCommand->ResponseType)
-    {
-        case NvDdkSdioRespType_NoResp:
-             IsCrcCheckEnable = NV_FALSE;
-             IsIndexCheckEnable = NV_FALSE;
-             val = NV_FLD_SET_DRF_DEF(SDMMC, CMD_XFER_MODE, RESP_TYPE_SELECT,
-                                      NO_RESPONSE, val);
-            break;
-
-        case NvDdkSdioRespType_R1:
-        case NvDdkSdioRespType_R5:
-        case NvDdkSdioRespType_R6:
-             IsCrcCheckEnable = NV_TRUE;
-             IsIndexCheckEnable = NV_TRUE;
-             val |= NV_DRF_DEF(SDMMC, CMD_XFER_MODE, RESP_TYPE_SELECT,
-                                      RESP_LENGTH_48);
-            break;
-
-        case NvDdkSdioRespType_R2:
-             IsCrcCheckEnable = NV_TRUE;
-             IsIndexCheckEnable = NV_FALSE;
-             val |= NV_DRF_DEF(SDMMC, CMD_XFER_MODE, RESP_TYPE_SELECT,
-                                      RESP_LENGTH_136);
-            break;
-
-        case NvDdkSdioRespType_R3:
-        case NvDdkSdioRespType_R4:
-             IsCrcCheckEnable = NV_FALSE;
-             IsIndexCheckEnable = NV_FALSE;
-             val |= NV_DRF_DEF(SDMMC, CMD_XFER_MODE, RESP_TYPE_SELECT,
-                                      RESP_LENGTH_48);
-            break;
-
-        case NvDdkSdioRespType_R1b:
-             IsCrcCheckEnable = NV_TRUE;
-             IsIndexCheckEnable = NV_TRUE;
-             val |= NV_DRF_DEF(SDMMC, CMD_XFER_MODE, RESP_TYPE_SELECT,
-                                      RESP_LENGTH_48BUSY);
-            break;
-
-        case NvDdkSdioRespType_R7:
-             IsCrcCheckEnable = NV_TRUE;
-             IsIndexCheckEnable = NV_FALSE;
-             val |= NV_DRF_DEF(SDMMC, CMD_XFER_MODE, RESP_TYPE_SELECT,
-                                      RESP_LENGTH_48);
-            break;
-
-        default:
-            NV_ASSERT(0);
-    }
-
-    // set the is indexed
-    val |= NV_DRF_NUM(SDMMC, CMD_XFER_MODE, CMD_INDEX_CHECK_EN,
-                             IsIndexCheckEnable);
-
-    // set the is crc
-    val |= NV_DRF_NUM(SDMMC, CMD_XFER_MODE, CMD_CRC_CHECK_EN,
-                             IsCrcCheckEnable);
-
-    IsControllerBusy = SdioIsControllerBusy(hSdio, pCommand->IsDataCommand);
-    if (IsControllerBusy)
-    {
-        return NvError_SdioControllerBusy;
-    }
-
-    *SdioStatus = NvDdkSdioError_None;
-
-    // now write to the command argument register
-    SDMMC_REGW(hSdio->pSdioVirtualAddress, ARGUMENT, pCommand->CmdArgument);
-
-    SdioConfigureCardClock(hSdio, NV_TRUE);
-
-    // now write to the command xfer register
-    SDMMC_REGW(hSdio->pSdioVirtualAddress, CMD_XFER_MODE, val);
-
-    // poll for the transfer or command complete interrupt
-    while (PollTime < TotalPollingTime)
-    {
-        val = SDMMC_REGR(hSdio->pSdioVirtualAddress, INTERRUPT_STATUS);
-        if (val & SDMMC_ERROR_STATUS_VALUE)
-        {
-            val &= SDMMC_ERROR_STATUS_VALUE;
-            SDMMC_REGW(hSdio->pSdioVirtualAddress, INTERRUPT_STATUS, val);
-            *SdioStatus = val;
-            PrivSdioReset(hSdio);
-            status = NvSuccess;
-            break;
-        }
-        else if (NV_DRF_VAL(SDMMC, INTERRUPT_STATUS, XFER_COMPLETE, val))
-        {
-            val = NV_DRF_DEF(SDMMC, INTERRUPT_STATUS, XFER_COMPLETE, GEN_INT);
-            SDMMC_REGW(hSdio->pSdioVirtualAddress, INTERRUPT_STATUS, val);
-            status = NvSuccess;
-            break;
-        }
-        else if (NV_DRF_VAL(SDMMC, INTERRUPT_STATUS, CMD_COMPLETE, val))
-        {
-            val = NV_DRF_DEF(SDMMC, INTERRUPT_STATUS, CMD_COMPLETE, GEN_INT);
-            SDMMC_REGW(hSdio->pSdioVirtualAddress, INTERRUPT_STATUS, val);
-            status = NvSuccess;
-            break;
-        }
-        NvOsWaitUS(SDMMC_POLLING_DELAY_USEC);
-        PollTime += SDMMC_POLLING_DELAY_USEC;
-    }
-    if (PollTime >= TotalPollingTime)
-    {
-        PrivSdioReset(hSdio);
-        status = NvError_Timeout;
-    }
-
-    SdioConfigureCardClock(hSdio, NV_FALSE);
-    return status;
-}
-
-NvError
-NvDdkSdioGetCommandResponse(
-    NvDdkSdioDeviceHandle hSdio,
-    NvU32 CommandNumber,
-    NvDdkSdioRespType ResponseType,
-    NvU32 *pResponse)
-{
-    NvU32 *pTemp;
-
-    NV_ASSERT(hSdio);
-    NV_ASSERT(pResponse);
-
-    pTemp = pResponse;
-    /* set the response type */
-    switch (ResponseType)
-    {
-        case NvDdkSdioRespType_NoResp:
-             *pTemp = 0;
-             return NvSuccess;
-
-        // SDMMC_RESP_LENGTH_48
-        case NvDdkSdioRespType_R1:
-        case NvDdkSdioRespType_R1b:
-        case NvDdkSdioRespType_R3:
-        case NvDdkSdioRespType_R4:
-        case NvDdkSdioRespType_R5:
-        case NvDdkSdioRespType_R6:
-        case NvDdkSdioRespType_R7:
-             *pTemp = SDMMC_REGR(hSdio->pSdioVirtualAddress, RESPONSE_R0_R1);
-             *(++pTemp) = SDMMC_REGR(hSdio->pSdioVirtualAddress, RESPONSE_R2_R3);
-             break;
-
-        // SDMMC_RESP_LENGTH_136
-        case NvDdkSdioRespType_R2:
-             *pTemp = SDMMC_REGR(hSdio->pSdioVirtualAddress, RESPONSE_R0_R1);
-             *(++pTemp) = SDMMC_REGR(hSdio->pSdioVirtualAddress, RESPONSE_R2_R3);
-             *(++pTemp) = SDMMC_REGR(hSdio->pSdioVirtualAddress, RESPONSE_R4_R5);
-             *(++pTemp) = SDMMC_REGR(hSdio->pSdioVirtualAddress, RESPONSE_R6_R7);
-             break;
-
-        default:
-             NV_ASSERT(0);
-    }
-
-    return NvSuccess;
-}
-
-static NvError
-PrivSdioPollingRead(
-    NvDdkSdioDeviceHandle hSdio,
-    NvU32 NumOfBytesToRead,
-    void  *pReadBuffer,
-    NvDdkSdioCommand *pRWCommand,
-    NvBool HWAutoCMD12Enable,
-    NvU32* SdioStatus)
-{
-    NvU32 val = 0;
-    NvU32 PollTime = 0;
-    NvU8* VirtAddr = (NvU8*)hSdio->pVirtBuffer;
-    NvError Error = NvError_SdioReadFailed;
-    NvU32 BytesReceived = 0;
-    NvU32 BytesToBeCopied = 0;
-    NvU32 BytesToBeReceived = 0;
-    NvU8* ReadPtr = (NvU8*)pReadBuffer;
-    NvU32 PhysAddr = hSdio->pPhysBuffer;
-    NvBool IsTransferCompleted = NV_FALSE;
-    NvU32 IntrStatus = 0;
-    NvU32 PollingTimeOut = 0;
-
-    BytesToBeReceived = (NumOfBytesToRead > SDMMC_DMA_TRANSFER_SIZE) ?
-                  SDMMC_DMA_TRANSFER_SIZE : NumOfBytesToRead;
-
-    PollingTimeOut = (NumOfBytesToRead > SDMMC_TIMEOUT_CALCULATION_SIZE) ?
-                  (SDMMC_MIN_POLLING_TIME_USEC * (NumOfBytesToRead/
-                  SDMMC_TIMEOUT_CALCULATION_SIZE)) : SDMMC_MIN_POLLING_TIME_USEC;
-    if (NumOfBytesToRead > SDMMC_DMA_TRANSFER_SIZE)
-    {
-        ConfigureInterrupts(hSdio, 0, SDIO_INTERRUPTS,
-                    (SDIO_ERROR_INTERRUPTS|NvDdkSdioCommandStatus_TransferComplete|
-                                                               NvDdkSdioCommandStatus_DMA));
-    }
-    else
-    {
-        ConfigureInterrupts(hSdio, 0, SDIO_INTERRUPTS, (SDIO_ERROR_INTERRUPTS|
-                                                                NvDdkSdioCommandStatus_TransferComplete));
-    }
-    /* this turns on the sdio clock */
-    Error = SdioBlockTransfer(hSdio,
-                    NumOfBytesToRead,
-                    hSdio->pPhysBuffer,
-                    pRWCommand,
-                    HWAutoCMD12Enable,
-                    NV_TRUE);
-    if (Error == NvSuccess)
-    {
-        // poll for the transfer complete interrupt
-        while (PollTime < PollingTimeOut)
-        {
-            IntrStatus = SDMMC_REGR(hSdio->pSdioVirtualAddress, INTERRUPT_STATUS);
-            if (IntrStatus & SDMMC_ERROR_STATUS_VALUE)
-            {
-                // Disable the error interrupts
-                ConfigureInterrupts(hSdio, 0, SDIO_ERROR_INTERRUPTS, 0);
-
-                // check if there are any command errors
-                if (IntrStatus & SDIO_CMD_ERROR_INTERRUPTS)
-                {
-                    // Rest the cmd line if there are any command related errors
-                    val = SDMMC_REGR(hSdio->pSdioVirtualAddress,
-                                        SW_RESET_TIMEOUT_CTRL_CLOCK_CONTROL);
-                    val = NV_FLD_SET_DRF_DEF(SDMMC, SW_RESET_TIMEOUT_CTRL_CLOCK_CONTROL,
-                                        SW_RESET_FOR_CMD_LINE, RESETED, val);
-                    SDMMC_REGW(hSdio->pSdioVirtualAddress,
-                                        SW_RESET_TIMEOUT_CTRL_CLOCK_CONTROL, val);
-                }
-                else
-                {
-                    // reset the dat line if there are any data transfer errors
-                   val = SDMMC_REGR(hSdio->pSdioVirtualAddress,
-                                    SW_RESET_TIMEOUT_CTRL_CLOCK_CONTROL);
-                    val = NV_FLD_SET_DRF_DEF(SDMMC, SW_RESET_TIMEOUT_CTRL_CLOCK_CONTROL,
-                                    SW_RESET_FOR_DAT_LINE, RESETED, val);
-                    SDMMC_REGW(hSdio->pSdioVirtualAddress,
-                                    SW_RESET_TIMEOUT_CTRL_CLOCK_CONTROL, val);
-                }
-
-                // clear the error interrupts
-                IntrStatus &= SDMMC_ERROR_STATUS_VALUE;
-                SDMMC_REGW(hSdio->pSdioVirtualAddress, INTERRUPT_STATUS, IntrStatus);
-                *SdioStatus = IntrStatus;
-
-                // Do the error recovery
-                PrivSdioErrorRecovery(hSdio);
-                Error = NvError_SdioReadFailed;
-                SD_PRINT(("SDIO_DDK polling read failed error[0x%x] \
-                        instance[%d]\n", *SdioStatus, hSdio->Instance));
-                break;
-            }
-            else if (NV_DRF_VAL(SDMMC, INTERRUPT_STATUS, DMA_INTERRUPT, IntrStatus))
-            {
-                val = NV_DRF_DEF(SDMMC, INTERRUPT_STATUS, DMA_INTERRUPT, GEN_INT);
-                // clearing the DMA interrupt
-                SDMMC_REGW(hSdio->pSdioVirtualAddress, INTERRUPT_STATUS, val);
-            }
-            else if (NV_DRF_VAL(SDMMC, INTERRUPT_STATUS, XFER_COMPLETE, IntrStatus))
-            {
-                val = NV_DRF_DEF(SDMMC, INTERRUPT_STATUS, XFER_COMPLETE, GEN_INT);
-                SDMMC_REGW(hSdio->pSdioVirtualAddress, INTERRUPT_STATUS, val);
-                IsTransferCompleted = NV_TRUE;
-            }
-            else
-            {
-                NvOsWaitUS(SDMMC_POLLING_DELAY_USEC);
-                PollTime += SDMMC_POLLING_DELAY_USEC;
-                continue;
-            }
-
-            if (BytesToBeReceived)
-            {
-                BytesToBeCopied = BytesToBeReceived;
-                BytesReceived += BytesToBeReceived;
-                BytesToBeReceived = NumOfBytesToRead - BytesReceived;
-            }
-            if (BytesToBeReceived == 0)
-            {
-                if (IsTransferCompleted)
-                {
-                    NvOsMemcpy(ReadPtr, VirtAddr, BytesToBeCopied);
-                    break;
-                }
-                else
-                {
-                    NvOsWaitUS(SDMMC_POLLING_DELAY_USEC);
-                    PollTime += SDMMC_POLLING_DELAY_USEC;
-                    continue;
-                }
-            }
-            else if (BytesToBeReceived > SDMMC_DMA_TRANSFER_SIZE)
-            {
-                BytesToBeReceived = SDMMC_DMA_TRANSFER_SIZE;
-            }
-
-            if (PhysAddr == hSdio->pPhysBuffer)
-            {
-                PhysAddr += SDMMC_DMA_TRANSFER_SIZE;
-                // program the system start address
-                SDMMC_REGW(hSdio->pSdioVirtualAddress, SYSTEM_ADDRESS, PhysAddr);
-                NvOsMemcpy(ReadPtr, VirtAddr, BytesToBeCopied);
-                VirtAddr += SDMMC_DMA_TRANSFER_SIZE;
-            }
-            else
-            {
-                PhysAddr = hSdio->pPhysBuffer;
-                // program the system start address
-                SDMMC_REGW(hSdio->pSdioVirtualAddress, SYSTEM_ADDRESS, hSdio->pPhysBuffer);
-                NvOsMemcpy(ReadPtr, VirtAddr, BytesToBeCopied);
-                VirtAddr = hSdio->pVirtBuffer;
-            }
-            ReadPtr += BytesToBeCopied;
-            NvOsWaitUS(SDMMC_POLLING_DELAY_USEC);
-            PollTime += SDMMC_POLLING_DELAY_USEC;
-        }
-        if (PollTime >= PollingTimeOut)
-        {
-            PrivSdioReset(hSdio);
-            Error = NvError_SdioReadFailed;
-           SD_PRINT(("SDIO_DDK polling read timeout Instance[%d]\n",
-                            hSdio->Instance));
-        }
-        SdioConfigureCardClock(hSdio, NV_FALSE);
-    }
-    return Error;
-}
-
-NvError
-NvDdkSdioRead(
-    NvDdkSdioDeviceHandle hSdio,
-    NvU32 NumOfBytesToRead,
-    void  *pReadBuffer,
-    NvDdkSdioCommand *pRWCommand,
-    NvBool HWAutoCMD12Enable,
-    NvU32* SdioStatus)
-{
-    NvError Error = NvError_SdioReadFailed;
-    NvDdkSdioStatus* ControllerStatus = NULL;
-    NvU32 BytesToBeReceived = 0;
-    NvU32 BytesReceived = 0;
-    NvU8* ReadPtr = (NvU8*)pReadBuffer;
-    NvU32 BytesToBeCopied = 0;
-    NvU8* VirtAddr = (NvU8*)hSdio->pVirtBuffer;
-    NvU32 PhysAddr = hSdio->pPhysBuffer;
-
-#if !NV_OAL
-#if ENABLE_READ_BUSY_HINTS
-    // Enable pulse mode
-    NvRmDfsBusyHint pMultiHintOff[3] = {
-        {NvRmDfsClockId_Emc, 0, 0, NV_TRUE},
-        {NvRmDfsClockId_System, 0, 0, NV_TRUE},
-        {NvRmDfsClockId_Cpu, 0, 0, NV_TRUE} };
-
-    NvRmDfsBusyHint pMultiHintOn[3] = {
-        {NvRmDfsClockId_Emc, NV_WAIT_INFINITE, 80000, NV_TRUE},
-        {NvRmDfsClockId_System, NV_WAIT_INFINITE, 80000, NV_TRUE},
-        {NvRmDfsClockId_Cpu, NV_WAIT_INFINITE, 240000, NV_TRUE} };
-#endif
-#endif
-
-    NV_ASSERT(hSdio);
-    NV_ASSERT(pReadBuffer);
-    NV_ASSERT(pRWCommand);
-
-    *SdioStatus = NvDdkSdioError_None;
-#if NV_OAL
-    Error = PrivSdioPollingRead(hSdio, NumOfBytesToRead, pReadBuffer,
-                        pRWCommand, HWAutoCMD12Enable, SdioStatus);
-    return Error;
-#endif
-
-    // To get better performance, use polling (to eliminate interrupt latency) for lower transfer sizes.
-    if (NumOfBytesToRead <= SDMMC_MAX_POLLING_SIZE)
-    {
-        Error = PrivSdioPollingRead(hSdio, NumOfBytesToRead, pReadBuffer,
-                            pRWCommand, HWAutoCMD12Enable, SdioStatus);
-        return Error;
-    }
-
-#if !NV_OAL
-#if ENABLE_READ_BUSY_HINTS
-    // Enable busy hints
-    NV_ASSERT_SUCCESS(
-    NvRmPowerBusyHintMulti(hSdio->hRm,
-         hSdio->SdioRmPowerClientId,
-         pMultiHintOn,
-         3,
-         NvRmDfsBusyHintSyncMode_Async));
-#endif
-#endif
-
-    ControllerStatus = hSdio->ControllerStatus;
-
-    BytesToBeReceived = (NumOfBytesToRead > SDMMC_DMA_TRANSFER_SIZE) ?
-                          SDMMC_DMA_TRANSFER_SIZE : NumOfBytesToRead;
-    if (NumOfBytesToRead == SDMMC_DMA_TRANSFER_SIZE)
-    {
-        ConfigureInterrupts(hSdio, SDIO_INTERRUPTS, (NvDdkSdioCommandStatus_CommandComplete|NvDdkSdioCommandStatus_DMA), 0);
-    }
-    else
-    {
-        ConfigureInterrupts(hSdio, SDIO_INTERRUPTS, NvDdkSdioCommandStatus_CommandComplete, 0);
-    }
-
-    /* this function turns on the sdio clock */
-    Error = SdioBlockTransfer(hSdio,
-                              NumOfBytesToRead,
-                              PhysAddr,
-                              pRWCommand,
-                              HWAutoCMD12Enable,
-                              NV_TRUE);
-    if (Error == NvSuccess)
-    {
-        // loop till we receive all the requested bytes
-        while (BytesReceived != NumOfBytesToRead)
-        {
-            Error = NvOsSemaphoreWaitTimeout(hSdio->PrivSdioSema, NVDDK_SDMMC_DATA_TIMEOUT_MSEC);
-            if (Error == NvSuccess)
-            {
-                if (ControllerStatus->SDErrorStatus != NvDdkSdioError_None)
-                {
-#if !NV_OAL
-#if ENABLE_READ_BUSY_HINTS
-                    // Disable busy hints
-                    NV_ASSERT_SUCCESS(
-                        NvRmPowerBusyHintMulti(hSdio->hRm,
-                         hSdio->SdioRmPowerClientId,
-                         pMultiHintOff,
-                         3,
-                         NvRmDfsBusyHintSyncMode_Async));
-#endif
-#endif
-                    *SdioStatus = ControllerStatus->SDErrorStatus;
-                    if (ControllerStatus->SDErrorStatus & NvDdkSdioError_DataCRC)
-                    {
-                        NV_DEBUG_PRINTF(("NvDdkSdio Read Error Status: Data CRC error occured \n"));
-                        PrivSdioErrorRecovery(hSdio);
-                    }
-                    else
-                    {
-                        PrivSdioReset(hSdio);
-                    }
-                    SdioConfigureCardClock(hSdio, NV_FALSE);
-                    return Error;
-                }
-                else
-                {
-                    BytesToBeCopied = BytesToBeReceived;
-                    BytesReceived += BytesToBeReceived;
-                    BytesToBeReceived = NumOfBytesToRead - BytesReceived;
-                    if (BytesToBeReceived == 0)
-                    {
-                        NvOsMemcpy(ReadPtr, VirtAddr, BytesToBeCopied);
-                        break;
-                    }
-                    else if (BytesToBeReceived == SDMMC_DMA_TRANSFER_SIZE)
-                    {
-                        ConfigureInterrupts(hSdio, SDIO_INTERRUPTS, (NvDdkSdioCommandStatus_DMA|NvDdkSdioCommandStatus_CommandComplete), 0);
-                    }
-                    else if (BytesToBeReceived > SDMMC_DMA_TRANSFER_SIZE)
-                    {
-                        BytesToBeReceived = SDMMC_DMA_TRANSFER_SIZE;
-                    }
-
-                    if (PhysAddr == hSdio->pPhysBuffer)
-                    {
-                        PhysAddr += SDMMC_DMA_TRANSFER_SIZE;
-                        // program the system start address
-                        SDMMC_REGW(hSdio->pSdioVirtualAddress, SYSTEM_ADDRESS, PhysAddr);
-                        NvOsMemcpy(ReadPtr, VirtAddr, BytesToBeCopied);
-                        VirtAddr += SDMMC_DMA_TRANSFER_SIZE;
-                    }
-                    else
-                    {
-                        PhysAddr = hSdio->pPhysBuffer;
-                        // program the system start address
-                        SDMMC_REGW(hSdio->pSdioVirtualAddress, SYSTEM_ADDRESS, hSdio->pPhysBuffer);
-                        NvOsMemcpy(ReadPtr, VirtAddr, BytesToBeCopied);
-                        VirtAddr = hSdio->pVirtBuffer;
-                    }
-                    ReadPtr += BytesToBeCopied;
-                }
-            }
-            else
-            {
-#if !NV_OAL
-#if ENABLE_READ_BUSY_HINTS
-                 // Disable busy hints
-                NV_ASSERT_SUCCESS(
-                    NvRmPowerBusyHintMulti(hSdio->hRm,
-                     hSdio->SdioRmPowerClientId,
-                     pMultiHintOff,
-                     3,
-                     NvRmDfsBusyHintSyncMode_Async));
-#endif
-#endif
-                // break if there is any timeout
-                *SdioStatus = ControllerStatus->SDErrorStatus;
-                // !!! JN: don't leave the clock togging in case of an error.
-                //         probably should do a reset or something here, not sure?
-                PrivSdioReset(hSdio);
-                SdioConfigureCardClock(hSdio, NV_FALSE);
-                SD_PRINT(("SDIO_DDK normal read timeout Instance[%d]\n",
-                                    hSdio->Instance));
-                return Error;
-            }
-        }
-    }
-
-#if !NV_OAL
-#if ENABLE_READ_BUSY_HINTS
-    // Disable Multihint
-    NV_ASSERT_SUCCESS(
-        NvRmPowerBusyHintMulti(hSdio->hRm,
-             hSdio->SdioRmPowerClientId,
-             pMultiHintOff,
-             3,
-             NvRmDfsBusyHintSyncMode_Async));
-#endif
-#endif
-
-    SdioConfigureCardClock(hSdio, NV_FALSE);
-
-    *SdioStatus = ControllerStatus->SDErrorStatus;
-    return Error;
-}
-
-static NvError
-PrivSdioPollingWrite(
-    NvDdkSdioDeviceHandle hSdio,
-    NvU32 NumOfBytesToWrite,
-    void *pWriteBuffer,
-    NvDdkSdioCommand *pRWCommand,
-    NvBool HWAutoCMD12Enable,
-    NvU32* SdioStatus)
-{
-    NvU32 val = 0;
-    NvU32 PollTime = 0;
-    NvU8* VirtAddr = (NvU8*)hSdio->pVirtBuffer;
-    NvError Error = NvError_SdioWriteFailed;
-    NvU32 BytesToBeSent = 0;
-    NvU32 BytesSent = 0;
-    NvU8* WritePtr = (NvU8*)pWriteBuffer;
-    NvU32 PhysAddr = hSdio->pPhysBuffer;
-    NvBool IsTransferCompleted = NV_FALSE;
-    NvU32 IntrStatus = 0;
-    NvBool IsDmaStarted = NV_FALSE;
-    NvU32 PollingTimeOut = 0;
-
-    BytesToBeSent = (NumOfBytesToWrite > SDMMC_DMA_TRANSFER_SIZE) ?
-                          SDMMC_DMA_TRANSFER_SIZE : NumOfBytesToWrite;
-
-    PollingTimeOut = (NumOfBytesToWrite > SDMMC_TIMEOUT_CALCULATION_SIZE) ?
-                  (SDMMC_MIN_POLLING_TIME_USEC * (NumOfBytesToWrite/
-                  SDMMC_TIMEOUT_CALCULATION_SIZE)) : SDMMC_MIN_POLLING_TIME_USEC;
-    if (NumOfBytesToWrite > SDMMC_DMA_TRANSFER_SIZE)
-    {
-        ConfigureInterrupts(hSdio, 0, SDIO_INTERRUPTS,
-                    (SDIO_ERROR_INTERRUPTS|NvDdkSdioCommandStatus_TransferComplete|
-                                                               NvDdkSdioCommandStatus_DMA));
-    }
-    else
-    {
-        ConfigureInterrupts(hSdio, 0, SDIO_INTERRUPTS, (SDIO_ERROR_INTERRUPTS|
-                                                                NvDdkSdioCommandStatus_TransferComplete));
-    }
-
-    NvOsMemcpy(VirtAddr, pWriteBuffer, BytesToBeSent);
-
-    /* this function enables the sdio clock */
-    Error = SdioBlockTransfer(hSdio,
-                    NumOfBytesToWrite,
-                    hSdio->pPhysBuffer,
-                    pRWCommand,
-                    HWAutoCMD12Enable,
-                    NV_FALSE);
-    if (Error == NvSuccess)
-    {
-        IsDmaStarted = NV_TRUE;
-        // poll for the transfer complete interrupt
-        while (PollTime < PollingTimeOut)
-        {
-            if (IsDmaStarted)
-            {
-                WritePtr += BytesToBeSent;
-                BytesSent += BytesToBeSent;
-                BytesToBeSent = NumOfBytesToWrite - BytesSent;
-
-                BytesToBeSent =
-                    (BytesToBeSent > SDMMC_DMA_TRANSFER_SIZE) ? SDMMC_DMA_TRANSFER_SIZE : BytesToBeSent;
-
-                if (BytesToBeSent)
-                {
-                    PhysAddr =
-                        (PhysAddr == hSdio->pPhysBuffer) ? (PhysAddr + SDMMC_DMA_TRANSFER_SIZE) : hSdio->pPhysBuffer;
-
-                    VirtAddr =
-                        (VirtAddr == hSdio->pVirtBuffer) ? (VirtAddr + SDMMC_DMA_TRANSFER_SIZE) : hSdio->pVirtBuffer;
-
-                    NvOsMemcpy(VirtAddr, WritePtr, BytesToBeSent);
-                }
-                IsDmaStarted = NV_FALSE;
-            }
-            IntrStatus = SDMMC_REGR(hSdio->pSdioVirtualAddress, INTERRUPT_STATUS);
-            if (IntrStatus & SDMMC_ERROR_STATUS_VALUE)
-            {
-                // Disable the error interrupts
-                ConfigureInterrupts(hSdio, 0, SDIO_ERROR_INTERRUPTS, 0);
-
-                // check if there are any command errors
-                if (IntrStatus & SDIO_CMD_ERROR_INTERRUPTS)
-                {
-                    // Rest the cmd line if there are any command related errors
-                    val = SDMMC_REGR(hSdio->pSdioVirtualAddress,
-                                        SW_RESET_TIMEOUT_CTRL_CLOCK_CONTROL);
-                    val = NV_FLD_SET_DRF_DEF(SDMMC, SW_RESET_TIMEOUT_CTRL_CLOCK_CONTROL,
-                                        SW_RESET_FOR_CMD_LINE, RESETED, val);
-                    SDMMC_REGW(hSdio->pSdioVirtualAddress,
-                                        SW_RESET_TIMEOUT_CTRL_CLOCK_CONTROL, val);
-                }
-                else
-                {
-                    // reset the dat line if there are any data transfer errors
-                   val = SDMMC_REGR(hSdio->pSdioVirtualAddress,
-                                    SW_RESET_TIMEOUT_CTRL_CLOCK_CONTROL);
-                    val = NV_FLD_SET_DRF_DEF(SDMMC, SW_RESET_TIMEOUT_CTRL_CLOCK_CONTROL,
-                                    SW_RESET_FOR_DAT_LINE, RESETED, val);
-                    SDMMC_REGW(hSdio->pSdioVirtualAddress,
-                                    SW_RESET_TIMEOUT_CTRL_CLOCK_CONTROL, val);
-                }
-
-                // Clear the error interrupts
-                IntrStatus &= SDMMC_ERROR_STATUS_VALUE;
-                SDMMC_REGW(hSdio->pSdioVirtualAddress, INTERRUPT_STATUS, IntrStatus);
-                *SdioStatus = IntrStatus;
-
-                // Do the error recovery
-                PrivSdioErrorRecovery(hSdio);
-                Error = NvError_SdioWriteFailed;
-                SD_PRINT(("SDIO_DDK polling write failed error[0x%x] \
-                            Instance[%d]\n", *SdioStatus, hSdio->Instance));
-                break;
-            }
-        else if (NV_DRF_VAL(SDMMC, INTERRUPT_STATUS, DMA_INTERRUPT, IntrStatus))
-        {
-            val = NV_DRF_DEF(SDMMC, INTERRUPT_STATUS, DMA_INTERRUPT, GEN_INT);
-            // clearing the DMA interrupt
-            SDMMC_REGW(hSdio->pSdioVirtualAddress, INTERRUPT_STATUS, val);
-        }
-        else if (NV_DRF_VAL(SDMMC, INTERRUPT_STATUS, XFER_COMPLETE, IntrStatus))
-        {
-            val = NV_DRF_DEF(SDMMC, INTERRUPT_STATUS, XFER_COMPLETE, GEN_INT);
-            SDMMC_REGW(hSdio->pSdioVirtualAddress, INTERRUPT_STATUS, val);
-            IsTransferCompleted = NV_TRUE;
-        }
-        else
-        {
-            NvOsWaitUS(SDMMC_POLLING_DELAY_USEC);
-            PollTime += SDMMC_POLLING_DELAY_USEC;
-            continue;
-        }
-
-        if (BytesToBeSent)
-        {
-           SDMMC_REGW(hSdio->pSdioVirtualAddress, SYSTEM_ADDRESS, PhysAddr);
-           IsDmaStarted = NV_TRUE;
-        }
-        else if (IsTransferCompleted)
-        {
-            break;
-        }
-        NvOsWaitUS(SDMMC_POLLING_DELAY_USEC);
-        PollTime += SDMMC_POLLING_DELAY_USEC;
-        }
-        if (PollTime >= PollingTimeOut)
-        {
-            PrivSdioReset(hSdio);
-            Error = NvError_SdioWriteFailed;
-            SD_PRINT(("SDIO_DDK polling write timeout Instance[%d]\n",
-                            hSdio->Instance));
-        }
-    }
-    /* turn off the sdio clock */
-    SdioConfigureCardClock(hSdio, NV_FALSE);
-    return Error;
-}
-
-NvError
-NvDdkSdioWrite(
-    NvDdkSdioDeviceHandle hSdio,
-    NvU32 NumOfBytesToWrite,
-    void *pWriteBuffer,
-    NvDdkSdioCommand *pRWCommand,
-    NvBool HWAutoCMD12Enable,
-    NvU32* SdioStatus)
-{
-    NvError Error = NvError_SdioWriteFailed;
-    NvDdkSdioStatus* ControllerStatus = NULL;
-    NvU32 BytesToBeSent = 0;
-    NvU32 BytesSent = 0;
-    NvU8* WritePtr = (NvU8*)pWriteBuffer;
-    NvU8* VirtAddr = (NvU8*)hSdio->pVirtBuffer;
-    NvU32 PhysAddr = hSdio->pPhysBuffer;
-    NvBool IsDisableDmaInterrupt = NV_FALSE;
-
-    // Disable pulse mode, since performance is hit if pulse mode is used in Write
-    NvRmDfsBusyHint pMultiHintOff[3] = {
-        {NvRmDfsClockId_Emc, 0, 0, NV_FALSE},
-        {NvRmDfsClockId_System, 0, 0, NV_FALSE},
-        {NvRmDfsClockId_Cpu, 0, 0, NV_FALSE} };
-
-    NvRmDfsBusyHint pMultiHintOn[3] = {
-        {NvRmDfsClockId_Emc, NV_WAIT_INFINITE, 80000, NV_FALSE},
-        {NvRmDfsClockId_System, NV_WAIT_INFINITE, 80000, NV_FALSE},
-        {NvRmDfsClockId_Cpu, NV_WAIT_INFINITE, 450000, NV_FALSE} };
-
-    NV_ASSERT(hSdio);
-    NV_ASSERT(pWriteBuffer);
-    NV_ASSERT(pRWCommand);
-
-    *SdioStatus = NvDdkSdioError_None;
-#if NV_OAL
-        Error = PrivSdioPollingWrite(hSdio, NumOfBytesToWrite, pWriteBuffer,
-                            pRWCommand, HWAutoCMD12Enable, SdioStatus);
-        return Error;
-#endif
-
-    // To get better performance, use polling (to eliminate interrupt latency) for lower transfer sizes.
-    if (NumOfBytesToWrite <= SDMMC_MAX_POLLING_SIZE)
-    {
-        Error = PrivSdioPollingWrite(hSdio, NumOfBytesToWrite, pWriteBuffer,
-                            pRWCommand, HWAutoCMD12Enable, SdioStatus);
-        return Error;
-    }
-
-     // Enable busy hints
-    NV_ASSERT_SUCCESS(
-    NvRmPowerBusyHintMulti(hSdio->hRm,
-         hSdio->SdioRmPowerClientId,
-         pMultiHintOn,
-         3,
-         NvRmDfsBusyHintSyncMode_Async));
-
-    ControllerStatus = hSdio->ControllerStatus;
-    BytesToBeSent = (NumOfBytesToWrite > SDMMC_DMA_TRANSFER_SIZE) ?
-                          SDMMC_DMA_TRANSFER_SIZE : NumOfBytesToWrite;
-
-    if (NumOfBytesToWrite == SDMMC_DMA_TRANSFER_SIZE)
-    {
-        ConfigureInterrupts(hSdio, SDIO_INTERRUPTS, (NvDdkSdioCommandStatus_CommandComplete|NvDdkSdioCommandStatus_DMA), 0);
-    }
-    else
-    {
-        ConfigureInterrupts(hSdio, SDIO_INTERRUPTS, NvDdkSdioCommandStatus_CommandComplete, 0);
-    }
-
-    NvOsMemcpy(VirtAddr, WritePtr, BytesToBeSent);
-
-    /* this enables the sdio clock */
-    Error = SdioBlockTransfer(hSdio,
-                              NumOfBytesToWrite,
-                              PhysAddr,
-                              pRWCommand,
-                              HWAutoCMD12Enable,
-                              NV_FALSE);
-    if (Error == NvSuccess)
-    {
-        // loop till we receive all the requested bytes
-        while (BytesSent != NumOfBytesToWrite)
-        {
-            WritePtr += BytesToBeSent;
-            BytesSent += BytesToBeSent;
-            BytesToBeSent = NumOfBytesToWrite - BytesSent;
-            if (BytesToBeSent == 0)
-            {
-                Error = NvOsSemaphoreWaitTimeout(hSdio->PrivSdioSema,
-                                                                    NVDDK_SDMMC_DATA_TIMEOUT_MSEC);
-                break;
-            }
-            else if (BytesToBeSent == SDMMC_DMA_TRANSFER_SIZE)
-            {
-                IsDisableDmaInterrupt = NV_TRUE;
-            }
-            else if (BytesToBeSent > SDMMC_DMA_TRANSFER_SIZE)
-            {
-                BytesToBeSent = SDMMC_DMA_TRANSFER_SIZE;
-            }
-
-            if (PhysAddr == hSdio->pPhysBuffer)
-            {
-                PhysAddr += SDMMC_DMA_TRANSFER_SIZE;
-                VirtAddr += SDMMC_DMA_TRANSFER_SIZE;
-            }
-            else
-            {
-                 PhysAddr = hSdio->pPhysBuffer;
-                 VirtAddr = hSdio->pVirtBuffer;
-            }
-            NvOsMemcpy(VirtAddr, WritePtr, BytesToBeSent);
-            Error = NvOsSemaphoreWaitTimeout(hSdio->PrivSdioSema,
-                                                                    NVDDK_SDMMC_DATA_TIMEOUT_MSEC);
-
-            // issue abort incase of error
-            if (ControllerStatus->SDErrorStatus != NvDdkSdioError_None)
-            {
-                 // Disable busy hints
-                NV_ASSERT_SUCCESS(
-                    NvRmPowerBusyHintMulti(hSdio->hRm,
-                     hSdio->SdioRmPowerClientId,
-                     pMultiHintOff,
-                     3,
-                     NvRmDfsBusyHintSyncMode_Async));
-                *SdioStatus = ControllerStatus->SDErrorStatus;
-                if (ControllerStatus->SDErrorStatus & NvDdkSdioError_DataCRC)
-                {
-                    NV_DEBUG_PRINTF(("NvDdkSdio Write Error Status: Data CRC error occured \n"));
-                    PrivSdioErrorRecovery(hSdio);
-                }
-                else
-                {
-                    PrivSdioReset(hSdio);
-                }
-                // !!! JN: don't leave the clock toggling if there is an error
-                SdioConfigureCardClock(hSdio, NV_FALSE);
-                SD_PRINT(("SDIO_DDK normal write failed error[0x%x] \
-                            Instance[%d]\n", *SdioStatus, hSdio->Instance));
-                return Error;
-            }
-            else
-            {
-                if (IsDisableDmaInterrupt)
-                {
-                    ConfigureInterrupts(hSdio, SDIO_INTERRUPTS, (NvDdkSdioCommandStatus_DMA|NvDdkSdioCommandStatus_CommandComplete), 0);
-                }
-               SDMMC_REGW(hSdio->pSdioVirtualAddress, SYSTEM_ADDRESS, PhysAddr);
-            }
-        }
-    }
-
-    // Disable busy hints
-    NV_ASSERT_SUCCESS(
-        NvRmPowerBusyHintMulti(hSdio->hRm,
-         hSdio->SdioRmPowerClientId,
-         pMultiHintOff,
-         3,
-         NvRmDfsBusyHintSyncMode_Async));
-    SdioConfigureCardClock(hSdio, NV_FALSE);
-    *SdioStatus = ControllerStatus->SDErrorStatus;
-    return Error;
-}
-
-void PrivSdioErrorRecovery(NvDdkSdioDeviceHandle hSdio)
-{
-
-    NvU32 val = 0;
-
-    // Issue soft reset
-    PrivSdioReset(hSdio);
-
-    // For read commands disable AutoCMD12
-    if (hSdio->IsRead && (!hSdio->IsSdControllerVersion2))
-    {
-        val = SDMMC_REGR(hSdio->pSdioVirtualAddress, CMD_XFER_MODE);
-        val = NV_FLD_SET_DRF_DEF(SDMMC, CMD_XFER_MODE, AUTO_CMD12_EN, DISABLE, val);
-        SDMMC_REGW(hSdio->pSdioVirtualAddress, CMD_XFER_MODE, val);
-    }
-
-    // Issue abort
-    PrivSdioAbort(hSdio);
-
-    if (!hSdio->IsSdControllerVersion2)
-    {
-        NvOsWaitUS(NVDDK_SDMMC_DELAY_AFTER_ABORT_USEC);
-
-        // Issue soft reset
-        PrivSdioReset(hSdio);
-    }
-
-}
-
-NvError
-SdioGetPhysAdd(
-    NvRmDeviceHandle hRmDevice,
-    NvRmMemHandle* hRmMemHandle,
-    void** pVirtBuffer,
-    NvU32 size,
-    NvU32* pPhysBuffer)
-{
-    NvU32 SDMMC_ALIGNMENT_SIZE = SDMMC_DMA_TRANSFER_SIZE;
-    NvError Error = NvError_InvalidAddress;
-
-    // Initialise the handle to NULL
-    *pPhysBuffer = 0;
-    *hRmMemHandle = NULL;
-
-    // Create the Memory Handle
-    Error = NvRmMemHandleCreate(hRmDevice, hRmMemHandle, size);
-    if (Error != NvSuccess)
-    {
-        return Error;
-    }
-
-    // Allocate the memory
-    Error = NvRmMemAlloc(*hRmMemHandle, NULL, 0,
-                         SDMMC_ALIGNMENT_SIZE, NvOsMemAttribute_Uncached);
-    if (Error != NvSuccess)
-    {
-        NvRmMemHandleFree(*hRmMemHandle);
-        return Error;
-    }
-
-    // Pin the memory and Get Physical Address
-    *pPhysBuffer = NvRmMemPin(*hRmMemHandle);
-
-    Error = NvRmMemMap(*hRmMemHandle, 0, size, NVOS_MEM_READ_WRITE, pVirtBuffer);
-    if (Error != NvSuccess)
-    {
-        NvRmMemUnpin(*hRmMemHandle);
-        NvRmMemHandleFree(*hRmMemHandle);
-        return Error;
-    }
-
-    return NvSuccess;
-}
-
-NvError
-SdioBlockTransfer(
-    NvDdkSdioDeviceHandle hSdio,
-    NvU32 NumOfRWBytes,
-    NvU32 pReadBuffer,
-    NvDdkSdioCommand *pRWRequest,
-    NvBool HWAutoCMD12Enable,
-    NvBool IsRead)
-{
-    NvBool IsCrcCheckEnable = NV_FALSE;
-    NvBool IsIndexCheckEnable = NV_FALSE;
-    NvU32 IsControllerBusy = 0;
-    NvBool IsDataCommand = NV_TRUE;
-    NvU32 NumOfBlocks = 0;
-    NvU32 CmdXferReg = 0;
-    NvU32 BlkSizeCountReg = 0;
-    NvU32 SdioBlockSize = 512;
-    NvDdkSdioStatus* ControllerStatus = NULL;
-
-    if (pRWRequest->BlockSize > hSdio->MaxBlockLength)
-    {
-         return NvError_SdioBadBlockSize;
-    }
-
-    ControllerStatus = hSdio->ControllerStatus;
-    // clear the previous status if any
-    ControllerStatus->SDControllerStatus = NvDdkSdioCommandStatus_None;
-    ControllerStatus->SDErrorStatus = NvDdkSdioError_None;
-    hSdio->RequestType = NVDDK_SDIO_NORMAL_REQUEST;
-
-    hSdio->IsRead = IsRead;
-    SdioBlockSize = pRWRequest->BlockSize;
-    NumOfBlocks = NumOfRWBytes/SdioBlockSize;
-
-    if (NumOfBlocks > SDMMC_MAX_NUMBER_OF_BLOCKS)
-        return NvError_InvalidSize;
-    // set DMA (system) address
-    SDMMC_REGW(hSdio->pSdioVirtualAddress, SYSTEM_ADDRESS, pReadBuffer);
-
-    if (NumOfBlocks > 1)
-    {
-        // Enable multi block in Cmd xfer register
-        CmdXferReg |= NV_DRF_DEF(SDMMC, CMD_XFER_MODE, MULTI_BLOCK_SELECT, ENABLE);
-
-        // Enable Block Count (used in case of multi-block transfers)
-        CmdXferReg |= NV_DRF_DEF(SDMMC, CMD_XFER_MODE, BLOCK_COUNT_EN, ENABLE);
-
-        // set Auto CMD12 (stop transmission)
-        CmdXferReg |=
-            NV_DRF_NUM(SDMMC, CMD_XFER_MODE, AUTO_CMD12_EN, HWAutoCMD12Enable);
-    }
-
-    if ((SdioBlockSize >= 1) && (SdioBlockSize < 4096))
-    {
-        BlkSizeCountReg |=
-            NV_DRF_NUM(SDMMC, BLOCK_SIZE_BLOCK_COUNT, XFER_BLOCK_SIZE_12,
-                                                    NV_FALSE);
-    }
-    else
-    {
-        NV_ASSERT(SdioBlockSize && (SdioBlockSize < 8192));
-        // Transfer Block Size 12th bit. This bit is added to support 4Kb Data block transfer
-        BlkSizeCountReg |=
-            NV_DRF_NUM(SDMMC, BLOCK_SIZE_BLOCK_COUNT, XFER_BLOCK_SIZE_12,
-                                                    NV_TRUE);
-    }
-
-    BlkSizeCountReg |= NV_DRF_NUM(SDMMC, BLOCK_SIZE_BLOCK_COUNT, XFER_BLOCK_SIZE_11_0,
-                                                   SdioBlockSize);
-
-    // set number of blocks to be read/written (block count)
-    BlkSizeCountReg |=
-        NV_DRF_NUM(SDMMC, BLOCK_SIZE_BLOCK_COUNT, BLOCKS_COUNT, NumOfBlocks);
-
-    BlkSizeCountReg |= NV_DRF_NUM(SDMMC, BLOCK_SIZE_BLOCK_COUNT,
-                                        HOST_DMA_BUFFER_SIZE, SDMMC_DMA_BUFFER_SIZE);
-
-    SDMMC_REGW(hSdio->pSdioVirtualAddress, BLOCK_SIZE_BLOCK_COUNT, BlkSizeCountReg);
-
-    // set the command number
-    CmdXferReg |= NV_DRF_NUM(SDMMC, CMD_XFER_MODE, COMMAND_INDEX,
-                             pRWRequest->CommandCode);
-
-    // set the data command bit
-    CmdXferReg |= NV_DRF_NUM(SDMMC, CMD_XFER_MODE, DATA_PRESENT_SELECT,
-                             IsDataCommand);
-
-    // set the transfer direction
-    CmdXferReg |= NV_DRF_NUM(SDMMC, CMD_XFER_MODE, DATA_XFER_DIR_SEL, IsRead);
-
-    // enable DMA
-    CmdXferReg |= NV_DRF_DEF(SDMMC, CMD_XFER_MODE, DMA_EN, ENABLE);
-
-    // set the cmd type
-    CmdXferReg |=
-        NV_DRF_NUM(SDMMC, CMD_XFER_MODE, COMMAND_TYPE, pRWRequest->CommandType);
-
-    /* set the response type */
-    switch (pRWRequest->ResponseType)
-    {
-        case NvDdkSdioRespType_NoResp:
-             IsCrcCheckEnable = NV_FALSE;
-             IsIndexCheckEnable = NV_FALSE;
-             CmdXferReg |= NV_DRF_DEF(SDMMC, CMD_XFER_MODE, RESP_TYPE_SELECT,
-                                      NO_RESPONSE);
-            break;
-
-        case NvDdkSdioRespType_R1:
-        case NvDdkSdioRespType_R5:
-        case NvDdkSdioRespType_R6:
-             IsCrcCheckEnable = NV_TRUE;
-             IsIndexCheckEnable = NV_TRUE;
-             CmdXferReg |= NV_DRF_DEF(SDMMC, CMD_XFER_MODE, RESP_TYPE_SELECT,
-                                      RESP_LENGTH_48);
-             break;
-
-        case NvDdkSdioRespType_R2:
-             IsCrcCheckEnable = NV_TRUE;
-             IsIndexCheckEnable = NV_FALSE;
-             CmdXferReg |= NV_DRF_DEF(SDMMC, CMD_XFER_MODE, RESP_TYPE_SELECT,
-                                      RESP_LENGTH_136);
-             break;
-
-        case NvDdkSdioRespType_R3:
-        case NvDdkSdioRespType_R4:
-             IsCrcCheckEnable = NV_FALSE;
-             IsIndexCheckEnable = NV_FALSE;
-             CmdXferReg |= NV_DRF_DEF(SDMMC, CMD_XFER_MODE, RESP_TYPE_SELECT,
-                                      RESP_LENGTH_48);
-             break;
-
-        case NvDdkSdioRespType_R1b:
-             IsCrcCheckEnable = NV_TRUE;
-             IsIndexCheckEnable = NV_TRUE;
-             CmdXferReg |= NV_DRF_DEF(SDMMC, CMD_XFER_MODE, RESP_TYPE_SELECT,
-                                      RESP_LENGTH_48BUSY);
-             break;
-
-        case NvDdkSdioRespType_R7:
-             IsCrcCheckEnable = NV_TRUE;
-             IsIndexCheckEnable = NV_FALSE;
-             CmdXferReg |= NV_DRF_DEF(SDMMC, CMD_XFER_MODE, RESP_TYPE_SELECT,
-                                      RESP_LENGTH_48);
-             break;
-
-        default:
-             NV_ASSERT(0);
-    }
-
-    // set the is indexed
-    CmdXferReg |= NV_DRF_NUM(SDMMC, CMD_XFER_MODE, CMD_INDEX_CHECK_EN,
-                             IsIndexCheckEnable);
-
-    // set the is crc
-    CmdXferReg |= NV_DRF_NUM(SDMMC, CMD_XFER_MODE, CMD_CRC_CHECK_EN,
-                             IsCrcCheckEnable);
-
-    IsControllerBusy = SdioIsControllerBusy(hSdio, IsDataCommand);
-    if (IsControllerBusy)
-    {
-        NV_DEBUG_PRINTF(("controller is busy\n"));
-        return NvError_SdioControllerBusy;
-    }
-
-    ControllerStatus->SDControllerStatus = NvDdkSdioCommandStatus_None;
-    ControllerStatus->SDErrorStatus = NvDdkSdioError_None;
-
-    /* now write to the command argument register */
-    SDMMC_REGW(hSdio->pSdioVirtualAddress, ARGUMENT, pRWRequest->CmdArgument);
-
-    SdioConfigureCardClock(hSdio, NV_TRUE);
-
-    /* now write to the command xfer register */
-    SDMMC_REGW(hSdio->pSdioVirtualAddress, CMD_XFER_MODE, CmdXferReg);
-
-    return NvSuccess;
-}
-
-void
-PrivSdioGetCaps(
-    NvRmDeviceHandle hDevice,
-    NvDdkSdioHostCapabilities *pHostCap,
-    NvU32 instance)
-{
-    static NvDdkSdioHostCapabilities s_SdioCap[2];
-    static NvDdkSdioHostCapabilities* s_pSdioCap = NULL;
-
-    static NvRmModuleCapability s_SdioCaps[] =
-        {
-            {1, 0, 0, &s_SdioCap[0]},
-            {2, 0, 0, &s_SdioCap[1]},
-        };
-    NV_ASSERT(hDevice);
-    NV_ASSERT(pHostCap);
-
-    s_SdioCap[0].MaxInstances = NvRmModuleGetNumInstances(hDevice, NvRmModuleID_Sdio);
-    s_SdioCap[0].IsAutoCMD12Supported = NV_TRUE;
-    s_SdioCap[0].IsSdControllerVersion2 = NV_FALSE;
-    s_SdioCap[1].MaxInstances = NvRmModuleGetNumInstances(hDevice, NvRmModuleID_Sdio);
-    s_SdioCap[1].IsAutoCMD12Supported = NV_TRUE;
-    s_SdioCap[1].IsSdControllerVersion2 = NV_TRUE;
-
-    NV_ASSERT_SUCCESS(NvRmModuleGetCapabilities(hDevice,
-                      NVRM_MODULE_ID(NvRmModuleID_Sdio, instance),
-                      s_SdioCaps, NV_ARRAY_SIZE(s_SdioCaps), (void**)&s_pSdioCap));
-
-    // Fill the client capabilities structure.
-    NvOsMemcpy(pHostCap, s_pSdioCap, sizeof(NvDdkSdioHostCapabilities));
-}
-
-NvError
-NvDdkSdioGetCapabilities(
-    NvRmDeviceHandle hDevice,
-    NvDdkSdioHostCapabilities *pHostCap,
-    NvDdkSdioInterfaceCapabilities *pInterfaceCap,
-    NvU32 instance)
-{
-    NvRmModuleSdmmcInterfaceCaps SdioCaps;
-    NvError Error = NvSuccess;
-    const NvOdmQuerySdioInterfaceProperty* pSdioInterfaceCaps = NULL;
-
-    PrivSdioGetCaps(hDevice, pHostCap, instance);
-
-    Error = NvRmGetModuleInterfaceCapabilities(
-                                                hDevice,
-                                                NVRM_MODULE_ID(NvRmModuleID_Sdio, instance),
-                                                sizeof(NvRmModuleSdmmcInterfaceCaps),
-                                                &SdioCaps);
-
-    if (Error != NvSuccess)
-        return Error;
-
-    pInterfaceCap->SDIOCardSettlingDelayMSec = 0;
-    pSdioInterfaceCaps =  NvOdmQueryGetSdioInterfaceProperty(instance);
-    if (pSdioInterfaceCaps)
-    {
-        pInterfaceCap->SDIOCardSettlingDelayMSec =  pSdioInterfaceCaps->SDIOCardSettlingDelayMSec;
-        pInterfaceCap->MmcInterfaceWidth = SdioCaps.MmcInterfaceWidth;
-        pHostCap->AlwaysON = pSdioInterfaceCaps->AlwaysON;
-    }
-
-    return NvSuccess;
-}
-
-NvError
-NvDdkSdioSetHostBusWidth(
-    NvDdkSdioDeviceHandle hSdio,
-    NvDdkSdioDataWidth CardDataWidth)
-{
-    NvU32 DataWidthReg = 0;
-    NvRmModuleSdmmcInterfaceCaps SdioCaps;
-
-    NV_ASSERT(hSdio);
-
-    // set the buswidth
-    if (CardDataWidth != NvDdkSdioDataWidth_8Bit)
-    {
-        DataWidthReg = SDMMC_REGR(hSdio->pSdioVirtualAddress, POWER_CONTROL_HOST);
-        DataWidthReg = NV_FLD_SET_DRF_NUM(SDMMC, POWER_CONTROL_HOST, DATA_XFER_WIDTH,
-                                 CardDataWidth, DataWidthReg);
-        DataWidthReg = NV_FLD_SET_DRF_DEF(SDMMC, POWER_CONTROL_HOST,
-                            EXTENDED_DATA_TRANSFER_WIDTH, NOBIT_8, DataWidthReg);
-    }
-    else
-    {
-        NV_ASSERT_SUCCESS(NvRmGetModuleInterfaceCapabilities(
-                hSdio->hRm,
-                NVRM_MODULE_ID(NvRmModuleID_Sdio, hSdio->Instance),
-                sizeof(NvRmModuleSdmmcInterfaceCaps),
-                &SdioCaps));
-        // check if 8bit mode is supported
-        if (SdioCaps.MmcInterfaceWidth != 8)
-        {
-            return NvError_NotSupported;
-        }
-
-        DataWidthReg = SDMMC_REGR(hSdio->pSdioVirtualAddress, POWER_CONTROL_HOST);
-        DataWidthReg = NV_FLD_SET_DRF_NUM(SDMMC, POWER_CONTROL_HOST, DATA_XFER_WIDTH,
-                                 0, DataWidthReg);
-        DataWidthReg = NV_FLD_SET_DRF_DEF(SDMMC, POWER_CONTROL_HOST,
-                                EXTENDED_DATA_TRANSFER_WIDTH, BIT_8, DataWidthReg);
-    }
-
-
-    // now write to the power control host register
-    SDMMC_REGW(hSdio->pSdioVirtualAddress, POWER_CONTROL_HOST, DataWidthReg);
-
-    hSdio->BusWidth = CardDataWidth;
-
-    return NvSuccess;
-}
-
-NvError NvDdkSdioHighSpeedEnable(NvDdkSdioDeviceHandle hSdio)
-{
-    NvU32 val = 0;
-
-    NV_ASSERT(hSdio);
-
-    val = SDMMC_REGR(hSdio->pSdioVirtualAddress, CAPABILITIES);
-    val = NV_DRF_VAL(SDMMC, CAPABILITIES, HIGH_SPEED_SUPPORT, val);
-    if (val)
-    {
-        // set the high speed enable
-        val = SDMMC_REGR(hSdio->pSdioVirtualAddress, POWER_CONTROL_HOST);
-        val = NV_FLD_SET_DRF_DEF(SDMMC, POWER_CONTROL_HOST, HIGH_SPEED_EN,
-                                    HIGH_SPEED, val);
-        SDMMC_REGW(hSdio->pSdioVirtualAddress, POWER_CONTROL_HOST, val);
-    }
-
-    return NvSuccess;
-}
-
-NvError NvDdkSdioHighSpeedDisable(NvDdkSdioDeviceHandle hSdio)
-{
-    NvU32 val = 0;
-
-    NV_ASSERT(hSdio);
-
-    // disable high speed mode
-    val = SDMMC_REGR(hSdio->pSdioVirtualAddress, POWER_CONTROL_HOST);
-    val = NV_FLD_SET_DRF_DEF(SDMMC, POWER_CONTROL_HOST, HIGH_SPEED_EN,
-                            NORMAL_SPEED, val);
-    SDMMC_REGW(hSdio->pSdioVirtualAddress, POWER_CONTROL_HOST, val);
-
-    return NvSuccess;
-}
-
-void NvDdkSdioResetController(NvDdkSdioDeviceHandle hSdio)
-{
-    NvU32 val = 0;
-
-    NV_ASSERT(hSdio);
-
-    // reset the controller write (1) to the reset_all field.
-    val = SDMMC_REGR(hSdio->pSdioVirtualAddress, SW_RESET_TIMEOUT_CTRL_CLOCK_CONTROL);
-    val = NV_FLD_SET_DRF_DEF(SDMMC, SW_RESET_TIMEOUT_CTRL_CLOCK_CONTROL,
-                             SW_RESET_FOR_ALL, RESETED, val);
-    SDMMC_REGW(hSdio->pSdioVirtualAddress, SW_RESET_TIMEOUT_CTRL_CLOCK_CONTROL, val);
-}
-
-void NvDdkSdioClose(NvDdkSdioDeviceHandle hSdio)
-{
-    if (NULL != hSdio)
-    {
-        NV_ASSERT_SUCCESS(NvRmSetModuleTristate(hSdio->hRm,
-            NVRM_MODULE_ID(NvRmModuleID_Sdio, hSdio->Instance), NV_TRUE));
-
-        /* disable power */
-        NV_ASSERT_SUCCESS(NvRmPowerVoltageControl(hSdio->hRm,
-            NVRM_MODULE_ID(NvRmModuleID_Sdio, hSdio->Instance),
-            hSdio->SdioRmPowerClientId,
-            NvRmVoltsOff,
-            NvRmVoltsOff,
-            NULL,
-            0,
-            NULL));
-#if !NV_OAL
-        NvRmMemUnmap(hSdio->hRmMemHandle, hSdio->pVirtBuffer, SDMMC_MEMORY_BUFFER_SIZE);
-#endif
-        NvRmMemUnpin(hSdio->hRmMemHandle);
-        NvRmMemHandleFree(hSdio->hRmMemHandle);
-
-        // disable clock to sdio controller
-        NvRmPowerModuleClockControl(hSdio->hRm,
-            NVRM_MODULE_ID(NvRmModuleID_Sdio, hSdio->Instance),
-            hSdio->SdioRmPowerClientId,
-            NV_FALSE);
-
-        // unregister with the power manager
-        NvRmPowerUnRegister(hSdio->hRm, hSdio->SdioRmPowerClientId);
-
-        // unregister/disable interrupt handler
-        NvRmInterruptUnregister(hSdio->hRm, hSdio->InterruptHandle);
-        hSdio->InterruptHandle = NULL;
-
-#if !NV_OAL
-        // unregister the gpio interrupt handler
-        NvRmGpioInterruptUnregister(hSdio->hGpio, hSdio->hRm, hSdio->GpioIntrHandle);
-#endif
-        // destory the internal sdio abort semaphore
-        NvOsSemaphoreDestroy(hSdio->PrivSdioSema);
-        hSdio->PrivSdioSema = NULL;
-
-        // Unmap the sdio register virtual address space
-        NvRmPhysicalMemUnmap(hSdio->pSdioVirtualAddress,
-                             hSdio->SdioBankSize);
-#if !NV_OAL
-        NvRmGpioConfigPins(hSdio->hGpio, &hSdio->CardDetectPin, 1,
-                           NvRmGpioPinMode_Inactive);
-#endif
-        if (hSdio->SdioOdmHandle)
-        {
-            NvOdmSdioClose(hSdio->SdioOdmHandle);
-        }
-        NvOsIntrMutexDestroy(hSdio->SdioThreadSafetyMutex);
-        hSdio->SdioThreadSafetyMutex = NULL;
-        NvOsFree(hSdio->ControllerStatus);
-        hSdio->ControllerStatus = NULL;
-        NvOsSemaphoreDestroy(hSdio->SdioPowerMgtSema);
-        hSdio->SdioPowerMgtSema = NULL;
-        NvOsFree(hSdio);
-        hSdio = NULL;
-  }
-}
-
-NvError
-NvDdkSdioIsCardInserted(
-        NvDdkSdioDeviceHandle hSdio,
-        NvBool *IscardInserted)
-{
-#if NV_OAL
-    *IscardInserted = NV_TRUE;
-    return NvError_SdioCardAlwaysPresent;
-#else
-    NvRmGpioPinState val = NvRmGpioPinState_Low;
-    NvU32 PinCount = 0;
-    const NvOdmGpioPinInfo *GpioPinInfo;
-    const NvOdmQuerySdioInterfaceProperty* hOdmSdioInterface = NULL;
-
-    GpioPinInfo = NvOdmQueryGpioPinMap(NvOdmGpioPinGroup_Sdio, hSdio->Instance, &PinCount);
-    if (GpioPinInfo)
-    {
-        NvRmGpioReadPins(hSdio->hGpio, &(hSdio->CardDetectPin), &val, 1);
-        if (val == GpioPinInfo[0].activeState)
-            *IscardInserted = NV_TRUE;
-        else
-            *IscardInserted = NV_FALSE;
-        return NvSuccess;
-    }
-    else
-    {
-        *IscardInserted = NV_FALSE;
-        hOdmSdioInterface = NvOdmQueryGetSdioInterfaceProperty(hSdio->Instance);
-        if (hOdmSdioInterface)
-        {
-            if (!hOdmSdioInterface->IsCardRemovable)
-            {
-                *IscardInserted = NV_TRUE;
-                return NvError_SdioCardAlwaysPresent;
-            }
-        }
-        return NvError_SdioAutoDetectCard;
-    }
-#endif
-}
-
-NvError
-NvDdkSdioIsWriteProtected(
-        NvDdkSdioDeviceHandle hSdio,
-        NvRmGpioHandle hGpio,
-        NvBool *IsWriteprotected)
-{
-#if !NV_OAL
-    NvRmGpioPinState val = NvRmGpioPinState_Low;
-    NvU32 PinCount = 0;
-    const NvOdmGpioPinInfo *GpioPinInfo;
-    NvBool IsCardInserted = NV_FALSE;
-
-    NV_ASSERT(hGpio);
-    NV_ASSERT(IsWriteprotected);
-
-    GpioPinInfo = NvOdmQueryGpioPinMap(NvOdmGpioPinGroup_Sdio, hSdio->Instance, &PinCount);
-    if (GpioPinInfo)
-    {
-        // Check whether the write protect gpio pin is supported or not
-        if (PinCount >= 2)
-        {
-            if (NvDdkSdioIsCardInserted(hSdio, &IsCardInserted))
-            {
-                return NvError_SdioCardNotPresent;
-            }
-            NvRmGpioReadPins(hGpio, &(hSdio->WriteProtectPin), &val, 1);
-            if (val == GpioPinInfo[1].activeState)
-                *IsWriteprotected = NV_TRUE;
-            else
-                *IsWriteprotected = NV_FALSE;
-            return NvSuccess;
-        }
-    }
-#endif
-        return NvError_NotSupported;
-}
-
-NvError
-SdioRegisterInterrupts(
-    NvRmDeviceHandle hRm,
-    NvDdkSdioDeviceHandle hSdio)
-{
-    NvU32 IrqList;
-    NvOsInterruptHandler IntHandlers;
-    if (hSdio->InterruptHandle)
-    {
-        return NvSuccess;
-    }
-    IrqList = NvRmGetIrqForLogicalInterrupt(
-        hRm, NVRM_MODULE_ID(NvRmModuleID_Sdio, hSdio->Instance), 0);
-    IntHandlers = SdioIsr;
-    return NvRmInterruptRegister(hRm, 1, &IrqList, &IntHandlers, hSdio,
-            &hSdio->InterruptHandle, NV_TRUE);
-}
-
-static void SdioIsr(void* args)
-{
-    NvDdkSdioDeviceHandle hSdio;
-    volatile NvU32 InterruptStatus = 0;
-    volatile NvU32 val = 0;
-    NvDdkSdioStatus* ControllerStatus = NULL;
-    NvBool IsClkStable = NV_FALSE;
-
-    hSdio = args;
-
-    if (hSdio->ISControllerSuspended && hSdio->IsSdControllerVersion2)
-    {
-        // enable clock to sdio controller
-        NvRmPowerModuleClockControl(hSdio->hRm,
-            NVRM_MODULE_ID(NvRmModuleID_Sdio, hSdio->Instance),
-            hSdio->SdioRmPowerClientId,
-            NV_TRUE);
-
-        // enable internal clock to sdio
-        IsClkStable = SdioEnableInternalClock(hSdio);
-        if (!IsClkStable)
-        {
-            NV_ASSERT(!"Sdio controller internal clock not stable");
-            SD_PRINT(("Sdio controller internal clock not stable\n"));
-        }
-
-        // Enable SDMMC_CLK bit in VENDOR_CLOCK_CONTROL register
-        val = SDMMC_REGR(hSdio->pSdioVirtualAddress, VENDOR_CLOCK_CNTRL);
-        val = NV_FLD_SET_DRF_DEF(SDMMC, VENDOR_CLOCK_CNTRL,
-                                    SDMMC_CLK, ENABLE, val);
-        SDMMC_REGW(hSdio->pSdioVirtualAddress, VENDOR_CLOCK_CNTRL, val);
-    }
-
-    // update the Controller status
-    InterruptStatus = SDMMC_REGR(hSdio->pSdioVirtualAddress, INTERRUPT_STATUS);
-
-    ControllerStatus = hSdio->ControllerStatus;
-    if (NV_DRF_VAL(SDMMC, INTERRUPT_STATUS, CARD_INTERRUPT, InterruptStatus))
-    {
-        if (hSdio->IsAcceptCardEvents == NV_TRUE)
-        {
-             // Disable the card interrupt
-            NvDdkSdioEnableIoMode(hSdio, NV_FALSE);
-            ControllerStatus->SDControllerStatus |= NvDdkSdioCommandStatus_Card;
-            NvOsSemaphoreSignal(hSdio->NotificationSema);
-        }
-        else
-        {
-             // Disable the card interrupt
-            NvDdkSdioEnableIoMode(hSdio, NV_FALSE);
-            ControllerStatus->SDControllerStatus |= NvDdkSdioCommandStatus_Card;
-        }
-    }
-    else if (NV_DRF_VAL(SDMMC, INTERRUPT_STATUS, BLOCK_GAP_EVENT, InterruptStatus))
-    {
-        // read transaction
-        if (hSdio->IsRead == NV_TRUE)
-        {
-            val = NV_DRF_DEF(SDMMC, INTERRUPT_STATUS, XFER_COMPLETE, GEN_INT);
-            val |= NV_DRF_DEF(SDMMC, INTERRUPT_STATUS, BLOCK_GAP_EVENT, GEN_INT);
-
-             // Disable card clock
-            SdioConfigureCardClock(hSdio, NV_FALSE);
-            NvOsWaitUS(SDMMC_ABORT_DELAY_USEC);
-            // Clearblock gap event and error interrupts if any
-            SDMMC_REGW(hSdio->pSdioVirtualAddress, INTERRUPT_STATUS,
-                                ((InterruptStatus & SDMMC_ERROR_STATUS_VALUE) | val));
-        }
-        // write transaction
-        else if (NV_DRF_VAL(SDMMC, INTERRUPT_STATUS, XFER_COMPLETE, InterruptStatus))
-        {
-            // transfer complete interrupt
-            val = NV_DRF_DEF(SDMMC, INTERRUPT_STATUS, XFER_COMPLETE, GEN_INT);
-            val |= NV_DRF_DEF(SDMMC, INTERRUPT_STATUS, BLOCK_GAP_EVENT, GEN_INT);
-
-            // Disable card clock
-            SdioConfigureCardClock(hSdio, NV_FALSE);
-            // Clear interrupts
-            SDMMC_REGW(hSdio->pSdioVirtualAddress, INTERRUPT_STATUS, val);
-        }
-        NvOsSemaphoreSignal(hSdio->PrivSdioSema);
-    }
-    else  if (NV_DRF_VAL(SDMMC, INTERRUPT_STATUS, ERR_INTERRUPT, InterruptStatus))
-    {
-        // Disable the error interrupts
-        ConfigureInterrupts(hSdio, 0, SDIO_ERROR_INTERRUPTS, 0);
-        ControllerStatus->SDErrorStatus = InterruptStatus & SDIO_ERROR_INTERRUPTS;
-
-        if (ControllerStatus->SDErrorStatus & (NvDdkSdioError_CommandTimeout |
-                                               NvDdkSdioError_CommandCRC |
-                                               NvDdkSdioError_CommandEndBit |
-                                               NvDdkSdioError_CommandIndex))
-        {
-            val = SDMMC_REGR(hSdio->pSdioVirtualAddress,
-                                SW_RESET_TIMEOUT_CTRL_CLOCK_CONTROL);
-            val = NV_FLD_SET_DRF_DEF(SDMMC, SW_RESET_TIMEOUT_CTRL_CLOCK_CONTROL,
-                                SW_RESET_FOR_CMD_LINE, RESETED, val);
-            SDMMC_REGW(hSdio->pSdioVirtualAddress,
-                                SW_RESET_TIMEOUT_CTRL_CLOCK_CONTROL, val);
-        }
-        if (ControllerStatus->SDErrorStatus & (NvDdkSdioError_DataTimeout |
-                                               NvDdkSdioError_DataCRC |
-                                               NvDdkSdioError_DataEndBit))
-        {
-           val = SDMMC_REGR(hSdio->pSdioVirtualAddress,
-                            SW_RESET_TIMEOUT_CTRL_CLOCK_CONTROL);
-            val = NV_FLD_SET_DRF_DEF(SDMMC, SW_RESET_TIMEOUT_CTRL_CLOCK_CONTROL,
-                            SW_RESET_FOR_DAT_LINE, RESETED, val);
-            SDMMC_REGW(hSdio->pSdioVirtualAddress,
-                            SW_RESET_TIMEOUT_CTRL_CLOCK_CONTROL, val);
-        }
-
-        // Clear the error interrupt
-        SDMMC_REGW(hSdio->pSdioVirtualAddress, INTERRUPT_STATUS,
-                                (InterruptStatus & SDMMC_ERROR_STATUS_VALUE));
-        NvOsSemaphoreSignal(hSdio->PrivSdioSema);
-    }
-    else
-    {
-        val = 0;
-        if (NV_DRF_VAL(SDMMC, INTERRUPT_STATUS, CMD_COMPLETE, InterruptStatus))
-        {
-             SdioConfigureCardClock(hSdio, NV_FALSE);
-             // command complete interrupt
-            val = NV_DRF_DEF(SDMMC, INTERRUPT_STATUS, CMD_COMPLETE, GEN_INT);
-            ControllerStatus->SDControllerStatus |=
-                                NvDdkSdioCommandStatus_CommandComplete;
-
-            // Clear the source of the interrupt
-            SDMMC_REGW(hSdio->pSdioVirtualAddress, INTERRUPT_STATUS, val);
-            NvOsSemaphoreSignal(hSdio->PrivSdioSema);
-        }
-        else if (NV_DRF_VAL(SDMMC, INTERRUPT_STATUS, DMA_INTERRUPT, InterruptStatus))
-        {
-            val = NV_DRF_DEF(SDMMC, INTERRUPT_STATUS, DMA_INTERRUPT, GEN_INT);
-            ControllerStatus->SDControllerStatus |= NvDdkSdioCommandStatus_DMA;
-            // clearing the DMA interrupt
-            SDMMC_REGW(hSdio->pSdioVirtualAddress, INTERRUPT_STATUS, val);
-            NvOsSemaphoreSignal(hSdio->PrivSdioSema);
-        }
-        else if (NV_DRF_VAL(SDMMC, INTERRUPT_STATUS, XFER_COMPLETE, InterruptStatus))
-        {
-            SdioConfigureCardClock(hSdio, NV_FALSE);
-             // transfer complete interrupt
-            val = NV_DRF_DEF(SDMMC, INTERRUPT_STATUS, XFER_COMPLETE, GEN_INT);
-            ControllerStatus->SDControllerStatus |=
-                                NvDdkSdioCommandStatus_TransferComplete;
-            // Clear the source of the interrupt
-            SDMMC_REGW(hSdio->pSdioVirtualAddress, INTERRUPT_STATUS, val);
-            NvOsSemaphoreSignal(hSdio->PrivSdioSema);
-        }
-        else
-        {
-            SD_PRINT(("Interrupt Status 0x%x Instance[%d]\n",
-                    InterruptStatus, hSdio->Instance));
-            //NV_ASSERT(!"SDIO_DDK Invalid Interrupt");
-        }
-    }
-
-    NvRmInterruptDone(hSdio->InterruptHandle);
-}
-
-NvError
-NvDdkSdioSetSDBusVoltage(
-    NvDdkSdioDeviceHandle hSdio,
-    NvDdkSdioSDBusVoltage Voltage)
-{
-    NvU32 val = 0;
-
-    NV_ASSERT(hSdio);
-
-    val = SDMMC_REGR(hSdio->pSdioVirtualAddress, POWER_CONTROL_HOST);
-    val |= NV_DRF_NUM(SDMMC, POWER_CONTROL_HOST, SD_BUS_VOLTAGE_SELECT, Voltage);
-    SDMMC_REGW(hSdio->pSdioVirtualAddress, POWER_CONTROL_HOST, val);
-    hSdio->BusVoltage = Voltage;
-    return NvSuccess;
-}
-
-static NvError
-SdioSetSlotClockRate(
-    NvDdkSdioDeviceHandle hSdio,
-    NvDdkSdioClkDivider Divider)
-{
-    NvU32 val = 0;
-
-    // disable clk
-    val = SDMMC_REGR(hSdio->pSdioVirtualAddress, SW_RESET_TIMEOUT_CTRL_CLOCK_CONTROL);
-    val = NV_FLD_SET_DRF_DEF(SDMMC, SW_RESET_TIMEOUT_CTRL_CLOCK_CONTROL,
-                             SD_CLOCK_EN, DISABLE, val);
-    SDMMC_REGW(hSdio->pSdioVirtualAddress,
-              SW_RESET_TIMEOUT_CTRL_CLOCK_CONTROL, val);
-
-    val = SDMMC_REGR(hSdio->pSdioVirtualAddress, SW_RESET_TIMEOUT_CTRL_CLOCK_CONTROL);
-    val = NV_FLD_SET_DRF_NUM(SDMMC, SW_RESET_TIMEOUT_CTRL_CLOCK_CONTROL,
-                                      SDCLK_FREQUENCYSELECT, Divider, val);
-    val = NV_FLD_SET_DRF_DEF(SDMMC, SW_RESET_TIMEOUT_CTRL_CLOCK_CONTROL,
-                             SD_CLOCK_EN, ENABLE, val);
-    SDMMC_REGW(hSdio->pSdioVirtualAddress, SW_RESET_TIMEOUT_CTRL_CLOCK_CONTROL, val);
-
-    return NvSuccess;
-}
-
-NvError
-NvDdkSdioSetClockFrequency(
-    NvDdkSdioDeviceHandle hSdio,
-    NvRmFreqKHz FrequencyKHz,
-    NvRmFreqKHz* pConfiguredFrequencyKHz)
-{
-    NvError Error = NvSuccess;
-    NvRmFreqKHz PrefFreqList[1];
-    NvRmFreqKHz CurrentFreq;
-    NvRmFreqKHz NewFreq;
-    NvU32 i, Divider = 0;
-    NvU32 Difference = 0xFFFFFFFF;
-    NV_ASSERT(hSdio);
-
-    PrefFreqList[0] = FrequencyKHz;
-
-    // first disable the clk
-    Error = NvRmPowerModuleClockControl(hSdio->hRm,
-                                        NVRM_MODULE_ID(NvRmModuleID_Sdio, hSdio->Instance),
-                                        hSdio->SdioRmPowerClientId,
-                                        NV_FALSE);
-    if (Error)
-    {
-        return Error;
-    }
-
-    // now enable clock to sdio controller
-    Error = NvRmPowerModuleClockControl(hSdio->hRm,
-                                        NVRM_MODULE_ID(NvRmModuleID_Sdio, hSdio->Instance),
-                                        hSdio->SdioRmPowerClientId,
-                                        NV_TRUE);
-    if (Error)
-    {
-        return Error;
-    }
-
-    // request for clk
-    Error = NvRmPowerModuleClockConfig(hSdio->hRm,
-                                       NVRM_MODULE_ID(NvRmModuleID_Sdio, hSdio->Instance),
-                                       hSdio->SdioRmPowerClientId,
-                                       SdioNormalModeMinFreq,
-                                       ((PrefFreqList[0] < SdioNormalModeMaxFreq) ? SdioNormalModeMaxFreq : 
-                                                    SdioHighSpeedModeMaxFreq),
-                                       PrefFreqList,
-                                       1,
-                                       &CurrentFreq, NvRmClockConfig_QuietOverClock);
-    if (Error)
-    {
-        return Error;
-    }
-    
-    if (PrefFreqList[0] < CurrentFreq)
-    {
-        for (i = 0; i < 9; i++)
-        {
-            NewFreq = (CurrentFreq >> i);
-            if ((DIFF_FREQ(PrefFreqList[0], NewFreq)) < Difference)
-            {
-                Difference = DIFF_FREQ(PrefFreqList[0], NewFreq);
-                Divider = i;
-            }
-        }
-    }
-
-    if (pConfiguredFrequencyKHz != NULL)
-    {
-        *pConfiguredFrequencyKHz = (CurrentFreq >> Divider);
-    }
-
-    // set the clk divider to zero
-    if (Divider == 0)
-    {
-        Error = SdioSetSlotClockRate(hSdio, NvDdkSdioClkDivider_DIV_BASE);
-    }
-    else
-    {
-        Error = SdioSetSlotClockRate(hSdio, (NvDdkSdioClkDivider)(1 <<(Divider - 1)));
-    }
-
-    hSdio->ConfiguredFrequency = CurrentFreq;
-    return Error;
-}
-
-NvError NvDdkSdioSetBlocksize(NvDdkSdioDeviceHandle hSdio, NvU32 Blocksize)
-{
-    NvU32 val = 0;
-
-    NV_ASSERT(hSdio);
-
-    if (Blocksize > hSdio->MaxBlockLength)
-    {
-         return NvError_SdioBadBlockSize;
-    }
-
-    val = SDMMC_REGR(hSdio->pSdioVirtualAddress, BLOCK_SIZE_BLOCK_COUNT);
-    if ((Blocksize >= 1) && (Blocksize < 4096))
-    {
-        val =
-            NV_FLD_SET_DRF_NUM(SDMMC, BLOCK_SIZE_BLOCK_COUNT, XFER_BLOCK_SIZE_12,
-                                                    NV_FALSE, val);
-    }
-    else
-    {
-        NV_ASSERT(Blocksize && (Blocksize < 8192));
-        // Transfer Block Size 12th bit. This bit is added to support 4Kb Data block transfer
-        val =
-            NV_FLD_SET_DRF_NUM(SDMMC, BLOCK_SIZE_BLOCK_COUNT, XFER_BLOCK_SIZE_12,
-                                                    NV_TRUE, val);
-    }
-    val = NV_FLD_SET_DRF_NUM(SDMMC, BLOCK_SIZE_BLOCK_COUNT, XFER_BLOCK_SIZE_11_0,
-                                                   Blocksize, val);
-    SDMMC_REGW(hSdio->pSdioVirtualAddress, BLOCK_SIZE_BLOCK_COUNT, val);
-
-    // read back the block size
-    val = SDMMC_REGR(hSdio->pSdioVirtualAddress, BLOCK_SIZE_BLOCK_COUNT);
-    val = NV_DRF_VAL(SDMMC, BLOCK_SIZE_BLOCK_COUNT, XFER_BLOCK_SIZE_11_0, val);
-    if (val != Blocksize)
-    {
-        return NvError_SdioBadBlockSize;
-    }
-
-    return NvSuccess;
-}
-
-NvBool SdioIsReset(NvDdkSdioDeviceHandle hSdio)
-{
-    NvU32 val = 0;
-    NvU32 Timeout = 0;
-
-    while ((!val) && (Timeout != SW_RESET_TIMEOUT_CTRL_CLOCK_CONTROL_USEC))
-    {
-        val = SDMMC_REGR(hSdio->pSdioVirtualAddress,
-                        SW_RESET_TIMEOUT_CTRL_CLOCK_CONTROL);
-        val = NV_DRF_VAL(SDMMC, SW_RESET_TIMEOUT_CTRL_CLOCK_CONTROL,
-                         SW_RESET_FOR_ALL, val);
-        NvOsWaitUS(SW_RESET_TIMEOUT_CTRL_CLOCK_CONTROL_STEP_USEC);
-        Timeout += SW_RESET_TIMEOUT_CTRL_CLOCK_CONTROL_STEP_USEC;
-    }
-
-    return (!val);
-}
-
-NvBool SdioEnableInternalClock(NvDdkSdioDeviceHandle hSdio)
-{
-    NvU32 val = 0;
-    NvU32 Timeout = 0;
-
-    val = SDMMC_REGR(hSdio->pSdioVirtualAddress,
-                    SW_RESET_TIMEOUT_CTRL_CLOCK_CONTROL);
-    val = NV_FLD_SET_DRF_DEF(SDMMC, SW_RESET_TIMEOUT_CTRL_CLOCK_CONTROL,
-                             INTERNAL_CLOCK_EN, OSCILLATE, val);
-    SDMMC_REGW(hSdio->pSdioVirtualAddress, SW_RESET_TIMEOUT_CTRL_CLOCK_CONTROL, val);
-
-    while (Timeout != SDMMC_INTERNAL_CLOCK_TIMEOUT_USEC)
-    {
-        val = SDMMC_REGR(hSdio->pSdioVirtualAddress,
-                        SW_RESET_TIMEOUT_CTRL_CLOCK_CONTROL);
-        val = NV_DRF_VAL(SDMMC, SW_RESET_TIMEOUT_CTRL_CLOCK_CONTROL,
-                         INTERNAL_CLOCK_STABLE, val);
-        if (val)
-        {
-            break;
-        }
-        NvOsWaitUS(SDMMC_INTERNAL_CLOCK_TIMEOUT_STEP_USEC);
-        Timeout += SDMMC_INTERNAL_CLOCK_TIMEOUT_STEP_USEC;
-    }
-
-    return (val);
-}
-
-NvError SdioEnableCardClock(NvDdkSdioDeviceHandle hSdio, NvBool IsEnable)
-{
-    NvU32 val = 0;
-    NvU32 Timeout = 0;
-    NvU32 IsControllerBusy = 0;
-
-    NV_ASSERT(hSdio);
-
-    NvOsIntrMutexLock(hSdio->SdioThreadSafetyMutex);
-    if (IsEnable)
-    {
-        val = SDMMC_REGR(hSdio->pSdioVirtualAddress, SW_RESET_TIMEOUT_CTRL_CLOCK_CONTROL);
-        val = NV_FLD_SET_DRF_DEF(SDMMC, SW_RESET_TIMEOUT_CTRL_CLOCK_CONTROL,
-                                 SD_CLOCK_EN, ENABLE, val);
-        if (!hSdio->IsSdControllerVersion2)
-        {
-            NvOsWaitUS(10);
-        }
-        SDMMC_REGW(hSdio->pSdioVirtualAddress,
-                  SW_RESET_TIMEOUT_CTRL_CLOCK_CONTROL, val);
-
-        while (Timeout != SDMMC_INTERNAL_CLOCK_TIMEOUT_USEC)
-        {
-            val = SDMMC_REGR(hSdio->pSdioVirtualAddress,
-                                        SW_RESET_TIMEOUT_CTRL_CLOCK_CONTROL);
-            val = NV_DRF_VAL(SDMMC, SW_RESET_TIMEOUT_CTRL_CLOCK_CONTROL,
-                                                        INTERNAL_CLOCK_STABLE, val);
-            if (val)
-            {
-                break;
-            }
-            NvOsWaitUS(SDMMC_INTERNAL_CLOCK_TIMEOUT_STEP_USEC);
-            Timeout += SDMMC_INTERNAL_CLOCK_TIMEOUT_STEP_USEC;
-        }
-    }
-    else
-    {
-         // check if controller is bsuy
-        IsControllerBusy = SdioIsControllerBusy(hSdio, NV_TRUE);
-        if (IsControllerBusy)
-        {
-            NvOsIntrMutexUnlock(hSdio->SdioThreadSafetyMutex);
-            return NvError_SdioControllerBusy;
-        }
-
-        val = SDMMC_REGR(hSdio->pSdioVirtualAddress,
-                        SW_RESET_TIMEOUT_CTRL_CLOCK_CONTROL);
-        val = NV_FLD_SET_DRF_DEF(SDMMC, SW_RESET_TIMEOUT_CTRL_CLOCK_CONTROL, SD_CLOCK_EN,
-                                 DISABLE, val);
-        if (!hSdio->IsSdControllerVersion2)
-        {
-            NvOsWaitUS(10);
-        }
-        SDMMC_REGW(hSdio->pSdioVirtualAddress, SW_RESET_TIMEOUT_CTRL_CLOCK_CONTROL, val);
-    }
-    NvOsIntrMutexUnlock(hSdio->SdioThreadSafetyMutex);
-    return NvSuccess;
-}
-
-NvError SdioConfigureCardClock(NvDdkSdioDeviceHandle hSdio, NvBool IsEnable)
-{
-    NV_ASSERT(hSdio);
-
-    if (!hSdio->IsSdControllerVersion2)
-    {
-        SdioEnableCardClock(hSdio, IsEnable);
-    }
-    return NvSuccess;
-}
-
-NvError SdioEnableBusPower(NvDdkSdioDeviceHandle hSdio)
-{
-    NvU32 val = 0;
-
-    val = SDMMC_REGR(hSdio->pSdioVirtualAddress, POWER_CONTROL_HOST);
-    val = NV_FLD_SET_DRF_DEF(SDMMC, POWER_CONTROL_HOST, SD_BUS_POWER, POWER_ON, val);
-    SDMMC_REGW(hSdio->pSdioVirtualAddress, POWER_CONTROL_HOST, val);
-
-    return NvSuccess;
-}
-
-NvError
-    SdioSetDataTimeout(
-        NvDdkSdioDeviceHandle hSdio,
-        SdioDataTimeout SdioDataToCounter)
-{
-    NvU32 val = 0;
-
-    val = SDMMC_REGR(hSdio->pSdioVirtualAddress, SW_RESET_TIMEOUT_CTRL_CLOCK_CONTROL);
-    val |= NV_DRF_NUM(SDMMC, SW_RESET_TIMEOUT_CTRL_CLOCK_CONTROL,
-                      DATA_TIMEOUT_COUNTER_VALUE, SdioDataToCounter);
-    SDMMC_REGW(hSdio->pSdioVirtualAddress, SW_RESET_TIMEOUT_CTRL_CLOCK_CONTROL, val);
-
-    return NvSuccess;
-}
-
-static NvU32
-SdioIsControllerBusy(
-    NvDdkSdioDeviceHandle hSdio,
-    NvBool IsDataCommand)
-{
-    volatile NvU32 val = 0;
-    NvU32 IsControllerBusy = 0;
-    NvU32 timeout = 0;
-
-
-    while (timeout <= SW_CONTROLLER_BUSY_TIMEOUT_USEC)
-    {
-        val = SDMMC_REGR(hSdio->pSdioVirtualAddress, PRESENT_STATE);
-
-        // check if CMD line is busy
-        IsControllerBusy = NV_DRF_VAL(SDMMC, PRESENT_STATE, CMD_INHIBIT_CMD, val);
-        if (!IsControllerBusy)
-        {
-            if (IsDataCommand)
-            {
-                 // check if DAT line is busy
-                IsControllerBusy = (NV_DRF_VAL(SDMMC, PRESENT_STATE, CMD_INHIBIT_DAT, val));
-                if (!IsControllerBusy)
-                {
-                    // check if DAT line is busy
-                    IsControllerBusy = NV_DRF_VAL(SDMMC, PRESENT_STATE, DAT_LINE_ACTIVE, val);
-                    if (!IsControllerBusy)
-                    {
-                        break;
-                    }
-                }
-            }
-            else
-            {
-                break;
-            }
-        }
-
-        NvOsWaitUS(SW_CONTROLLER_BUSY_TIMEOUT_STEP_USEC);
-        timeout += SW_CONTROLLER_BUSY_TIMEOUT_STEP_USEC;
-    }
-    return IsControllerBusy;
-}
-
-void
-    NvDdkSdioAbort(
-    NvDdkSdioDeviceHandle hSdio,
-    SdioRequestType RequestType,
-    NvU32 FunctionNumber)
-{
-    NvU32 val;
-
-     hSdio->RequestType = RequestType;
-
-    // enable the stop at block gap
-    val = SDMMC_REGR(hSdio->pSdioVirtualAddress, POWER_CONTROL_HOST);
-    val = NV_FLD_SET_DRF_DEF(SDMMC, POWER_CONTROL_HOST,
-                                STOP_AT_BLOCK_GAP_REQUEST, TRANSFER, val);
-    SDMMC_REGW(hSdio->pSdioVirtualAddress, POWER_CONTROL_HOST, val);
-}
-
-static void PrivSdioAbort(NvDdkSdioDeviceHandle hSdio)
-{
-    NvDdkSdioCommand pCommand;
-    NvError Error = NvSuccess;
-    NvU32 status = 0;
-
-    // Issue CMD12
-
-    // For memory cards send command 12 for abort and for i/o cards send command 52 for abort
-    if (hSdio->RequestType == NVDDK_SDIO_MEMORY_ABORT_REQUEST)
-    {
-        pCommand.CmdArgument = 0;
-        pCommand.CommandCode = 12;
-        pCommand.ResponseType = NvDdkSdioRespType_R1b;
-    }
-    else
-    {
-        pCommand.CmdArgument = 0x80000C01;
-        pCommand.CommandCode = 52;
-        pCommand.ResponseType = NvDdkSdioRespType_R5;
-    }
-
-    pCommand.CommandType = NvDdkSdioCommandType_Abort;
-    pCommand.IsDataCommand = NV_FALSE;
-
-    Error = NvDdkSdioSendCommand(hSdio, &pCommand, &status);
-    if (Error != NvSuccess)
-    {
-        NV_DEBUG_PRINTF(("PrivSdioAbort: Failed to send command abort command \n"));
-    }
-    else
-    {
-        Error = NvOsSemaphoreWaitTimeout(hSdio->PrivSdioSema,
-                                                            NVDDK_SDMMC_ABORT_TIMEOUT_MSEC);
-        if (Error != NvSuccess)
-        {
-            NV_DEBUG_PRINTF(("PrivSdioAbort: abort command timeout, Non Recoverable error \n"));
-            //Reset the controller
-            NvRmModuleReset(hSdio->hRm, NVRM_MODULE_ID(NvRmModuleID_Sdio, hSdio->Instance));
-        }
-    }
-
-}
-
-void PrivSdioReset(NvDdkSdioDeviceHandle hSdio)
-{
-    NvU32 val = 0;
-    NvU32 Timeout = 0;
-
-    // issue soft reset for both command and dat lines
-   val = SDMMC_REGR(hSdio->pSdioVirtualAddress,
-                    SW_RESET_TIMEOUT_CTRL_CLOCK_CONTROL);
-    val = NV_FLD_SET_DRF_DEF(SDMMC, SW_RESET_TIMEOUT_CTRL_CLOCK_CONTROL,
-                    SW_RESET_FOR_CMD_LINE, RESETED, val);
-    val = NV_FLD_SET_DRF_DEF(SDMMC, SW_RESET_TIMEOUT_CTRL_CLOCK_CONTROL,
-                        SW_RESET_FOR_DAT_LINE, RESETED, val);
-    SDMMC_REGW(hSdio->pSdioVirtualAddress,
-                      SW_RESET_TIMEOUT_CTRL_CLOCK_CONTROL, val);
-
-    // For AP15 we need to wait for sometime for the information to synchronize
-    if (!hSdio->IsSdControllerVersion2)
-    {
-        NvOsWaitUS(SDMMC_SOFT_RESET_DELAY_USEC);
-    }
-    else
-    {
-        while ((!val) && (Timeout != SW_RESET_TIMEOUT_CTRL_CLOCK_CONTROL_USEC))
-        {
-            val = SDMMC_REGR(hSdio->pSdioVirtualAddress,
-                            SW_RESET_TIMEOUT_CTRL_CLOCK_CONTROL);
-            val = NV_DRF_VAL(SDMMC, SW_RESET_TIMEOUT_CTRL_CLOCK_CONTROL,
-                     SW_RESET_FOR_CMD_LINE, val);
-            if (val)
-            {
-                val = NV_DRF_VAL(SDMMC, SW_RESET_TIMEOUT_CTRL_CLOCK_CONTROL,
-                     SW_RESET_FOR_DAT_LINE, val);
-            }
-            NvOsWaitUS(SW_RESET_TIMEOUT_CTRL_CLOCK_CONTROL_STEP_USEC);
-            Timeout += SW_RESET_TIMEOUT_CTRL_CLOCK_CONTROL_STEP_USEC;
-        }
-        if (Timeout == SW_RESET_TIMEOUT_CTRL_CLOCK_CONTROL_USEC)
-        {
-            SD_PRINT(("SDIO_DDK COMD and DAT line reset failed\n"));
-        }
-    }
-}
-
-void ConfigureInterrupts(NvDdkSdioDeviceHandle hSdio, NvU32 IntrEnableMask, NvU32 IntrDisableMask, NvU32 IntrStatusEnableMask)
-{
-    NvU32 val = 0;
-
-    NvOsIntrMutexLock(hSdio->SdioThreadSafetyMutex);
-
-    val = SDMMC_REGR(hSdio->pSdioVirtualAddress, INTERRUPT_STATUS_ENABLE);
-    val |= IntrEnableMask;
-    val &= ~IntrDisableMask;
-
-    SDMMC_REGW(hSdio->pSdioVirtualAddress, INTERRUPT_STATUS_ENABLE, (val |IntrStatusEnableMask));
-
-    #if !NV_OAL
-    val = SDMMC_REGR(hSdio->pSdioVirtualAddress, INTERRUPT_SIGNAL_ENABLE);
-    val |= IntrEnableMask;
-    val &= ~IntrDisableMask;
-
-    SDMMC_REGW(hSdio->pSdioVirtualAddress, INTERRUPT_SIGNAL_ENABLE, val);
-    #endif
-
-    NvOsIntrMutexUnlock(hSdio->SdioThreadSafetyMutex);
-
-}
-
-void
-    NvDdkSdioEnableIoMode(
-        NvDdkSdioDeviceHandle hSdio,
-        NvBool IsAcceptCardEvents)
-{
-    NvU32 val = 0;
-
-    NV_ASSERT(hSdio);
-    if (IsAcceptCardEvents == NV_TRUE)
-    {
-        ConfigureInterrupts(hSdio, NvDdkSdioCommandStatus_Card, 0, 0);
-        if (hSdio->IsSdControllerVersion2)
-        {
-            // enable the interrupt at block gap
-            val = SDMMC_REGR(hSdio->pSdioVirtualAddress, POWER_CONTROL_HOST);
-            val = NV_FLD_SET_DRF_DEF(SDMMC, POWER_CONTROL_HOST,
-                                        INTERRUPT_AT_BLOCK_GAP, ENABLE, val);
-            SDMMC_REGW(hSdio->pSdioVirtualAddress, POWER_CONTROL_HOST, val);
-        }
-    }
-    else
-    {
-        ConfigureInterrupts(hSdio, 0, NvDdkSdioCommandStatus_Card, 0);
-        if (hSdio->IsSdControllerVersion2)
-        {
-            // disable the interrupt at block gap
-            val = SDMMC_REGR(hSdio->pSdioVirtualAddress, POWER_CONTROL_HOST);
-            val = NV_FLD_SET_DRF_DEF(SDMMC, POWER_CONTROL_HOST,
-                                        INTERRUPT_AT_BLOCK_GAP, DISABLE, val);
-            SDMMC_REGW(hSdio->pSdioVirtualAddress, POWER_CONTROL_HOST, val);
-        }
-    }
-    hSdio->IsAcceptCardEvents = IsAcceptCardEvents;
-}
-
-void NvDdkSdioSuspend(NvDdkSdioDeviceHandle hSdio, NvBool SwitchOffSDDevice)
-{
-    NvRmFreqKHz pConfiguredFrequencyKHz = 0;
-    NvRmFreqKHz  SdioCurrentFreqKHz = 0;
-    NvU32 val = 0;
-
-
-    // switch off the voltage to the sd device
-    if (SwitchOffSDDevice == NV_TRUE)
-    {
-        NvOdmSdioSuspend(hSdio->SdioOdmHandle);
-    }
-
-    if (!hSdio->ISControllerSuspended)
-    {
-        if (hSdio->IsSdControllerVersion2)
-        {
-                // remove the card clock
-            SdioEnableCardClock(hSdio, NV_FALSE);
-
-            // Disable SDMMC_CLK bit in VENDOR_CLOCK_CONTROL register
-            val = SDMMC_REGR(hSdio->pSdioVirtualAddress, VENDOR_CLOCK_CNTRL);
-            val = NV_FLD_SET_DRF_DEF(SDMMC, VENDOR_CLOCK_CNTRL,
-                                        SDMMC_CLK, DISABLE, val);
-            SDMMC_REGW(hSdio->pSdioVirtualAddress, VENDOR_CLOCK_CNTRL, val);
-
-            // disable clock to sdio controller
-            NvRmPowerModuleClockControl(hSdio->hRm,
-                NVRM_MODULE_ID(NvRmModuleID_Sdio, hSdio->Instance),
-                hSdio->SdioRmPowerClientId,
-                NV_FALSE);
-        }
-        else
-        {
-            SdioCurrentFreqKHz = hSdio->ConfiguredFrequency;
-            // Reduce clock to the lowest frequency, to support IO card interrupt detection
-            // even when the sdio driver is suspended( provided system is not in LP0)
-            NV_ASSERT_SUCCESS(NvDdkSdioSetClockFrequency(
-                                        hSdio,
-                                        SDMMC_LOW_POWER_FREQ_KHZ,
-                                        &pConfiguredFrequencyKHz));
-            hSdio->ConfiguredFrequency = SdioCurrentFreqKHz;
-        }
-
-            /* Report RM to disable power */
-            NV_ASSERT_SUCCESS(NvRmPowerVoltageControl(hSdio->hRm,
-                    NVRM_MODULE_ID(NvRmModuleID_Sdio, hSdio->Instance),
-                    hSdio->SdioRmPowerClientId,
-                    NvRmVoltsOff,
-                    NvRmVoltsOff,
-                    NULL,
-                    0,
-                    NULL));
-        hSdio->ISControllerSuspended = NV_TRUE;
-    }
-}
-
-NvError
-NvDdkSdioResume(
-    NvDdkSdioDeviceHandle hSdio,
-    NvBool IsCardInserted,
-    NvBool SwitchOnSDDevice)
-{
-    NvError e = NvSuccess;
-    NvBool IsClkStable = NV_FALSE;
-    NvRmFreqKHz pConfiguredFrequencyKHz = 0;
-    NvRmPowerEvent Event = NvRmPowerEvent_NoEvent;
-    NvBool IsReset = NV_FALSE;
-    NvU32 val = 0;
-
-    // switch on the voltage to the sd device
-    if (SwitchOnSDDevice == NV_TRUE)
-    {
-        if (NV_TRUE != NvOdmSdioResume(hSdio->SdioOdmHandle))
-        {
-            NV_ASSERT(!"SdioOdm Resume Failed");
-        }
-    }
-
-     /* enable power */
-    NV_CHECK_ERROR_CLEANUP(NvRmPowerVoltageControl(hSdio->hRm,
-                                                   NVRM_MODULE_ID(NvRmModuleID_Sdio, hSdio->Instance),
-                                                   hSdio->SdioRmPowerClientId,
-                                                   NvRmVoltsUnspecified,
-                                                   NvRmVoltsUnspecified,
-                                                   NULL,
-                                                   0,
-                                                   NULL));
-
-    // now enable clock to sdio controller
-    NV_CHECK_ERROR_CLEANUP(NvRmPowerModuleClockControl(
-                                            hSdio->hRm,
-                                            NVRM_MODULE_ID(NvRmModuleID_Sdio, hSdio->Instance),
-                                            hSdio->SdioRmPowerClientId,
-                                            NV_TRUE));
-#if !NV_OAL
-    NV_CHECK_ERROR_CLEANUP(NvRmPowerGetEvent(
-        hSdio->hRm,
-        hSdio->SdioRmPowerClientId,
-        &Event ));
-#endif
-    if (IsCardInserted == NV_TRUE)
-    {
-        NvRmModuleReset(hSdio->hRm,
-                    NVRM_MODULE_ID(NvRmModuleID_Sdio, hSdio->Instance));
-        IsReset = SdioIsReset(hSdio);
-        if (IsReset == NV_FALSE)
-        {
-            goto fail;
-        }
-        hSdio->BusWidth = NvDdkSdioDataWidth_1Bit;
-    }
-
-    // enable internal clock to sdio
-    IsClkStable = SdioEnableInternalClock(hSdio);
-    if (IsClkStable == NV_FALSE)
-    {
-        goto fail;
-    }
-
-    if (hSdio->IsSdControllerVersion2)
-    {
-        // enable the card clock
-        NV_CHECK_ERROR_CLEANUP(SdioEnableCardClock(hSdio, NV_TRUE));
-
-        // Enable SDMMC_CLK bit in VENDOR_CLOCK_CONTROL register
-        val = SDMMC_REGR(hSdio->pSdioVirtualAddress, VENDOR_CLOCK_CNTRL);
-        val = NV_FLD_SET_DRF_DEF(SDMMC, VENDOR_CLOCK_CNTRL,
-                                    SDMMC_CLK, ENABLE, val);
-        SDMMC_REGW(hSdio->pSdioVirtualAddress, VENDOR_CLOCK_CNTRL, val);
-    }
-
-    if ((Event == NvRmPowerEvent_WakeLP0) || (IsCardInserted == NV_TRUE))
-    {
-        // After LP0 need to reinitialize following settings
-
-        // Restore current voltage setting
-        NV_CHECK_ERROR_CLEANUP(NvDdkSdioSetSDBusVoltage(hSdio, hSdio->BusVoltage));
-
-        // enable sd bus power
-        NV_CHECK_ERROR_CLEANUP(SdioEnableBusPower(hSdio));
-
-        // Initialize the block size again
-        NV_CHECK_ERROR_CLEANUP(NvDdkSdioSetBlocksize(hSdio, SDMMC_DEFAULT_BLOCK_SIZE));
-
-        // set data timeout counter value
-        NV_CHECK_ERROR_CLEANUP(SdioSetDataTimeout(hSdio, SdioDataTimeout_COUNTER_128M));
-
-
-        ConfigureInterrupts(hSdio, SDIO_INTERRUPTS, ~SDIO_INTERRUPTS, 0);
-
-        NvDdkSdioEnableIoMode(hSdio, hSdio->IsAcceptCardEvents);
-
-        // Restore current data width
-        NV_ASSERT_SUCCESS(NvDdkSdioSetHostBusWidth(hSdio, hSdio->BusWidth));
-    }
-
-    NV_CHECK_ERROR_CLEANUP(NvDdkSdioSetClockFrequency(
-                                                    hSdio,
-                                                    hSdio->ConfiguredFrequency,
-                                                    &pConfiguredFrequencyKHz));
-
-    NV_CHECK_ERROR_CLEANUP(SdioConfigureCardClock(hSdio, NV_FALSE));
-
-    hSdio->ISControllerSuspended = NV_FALSE;
-    return NvSuccess;
-
-
-fail:
-    NV_DEBUG_PRINTF(("resume failed [%x]\n", e));
-    NV_ASSERT(!"Sdio DDK Resume Failed");
-
-    return e;
-}
-
-static void
-GpioInterruptHandler(void *arg)
-{
-#if !NV_OAL
-    NvBool IsCardInserted = NV_TRUE;
-    NvError e = NvSuccess;
-    NvDdkSdioDeviceHandle hSdio = (NvDdkSdioDeviceHandle)arg;
-
-    if (hSdio->CardEventsSema)
-    {
-        // Disable power to the slot if the card is not inserted
-        e = NvDdkSdioIsCardInserted(hSdio, &IsCardInserted);
-        if (e == NvSuccess)
-        {
-            if (IsCardInserted)
-            {
-                NvOdmSdioResume(hSdio->SdioOdmHandle);
-            }
-            else
-            {
-               NvOdmSdioSuspend(hSdio->SdioOdmHandle);
-            }
-        }
-        NvOsSemaphoreSignal(hSdio->CardEventsSema);
-    }
-    NvRmGpioInterruptDone(hSdio->GpioIntrHandle);
-#endif
-}
-
diff --git a/drivers/mmc/host/Kconfig b/drivers/mmc/host/Kconfig
index 4b93bc4a82f0..a87c6a1aa974 100644
--- a/drivers/mmc/host/Kconfig
+++ b/drivers/mmc/host/Kconfig
@@ -67,14 +67,6 @@ config MMC_SDHCI_TEGRA
 	  This enables the internal SDHCI-compatible interfaces in NVIDIA
 	  Tegra SoCs
 
-config MMC_TEGRA_SDIO
-	boolean "MMC support for SDIO interface on NVIDIA Tegra SoCs"
-	depends on ARCH_TEGRA_1x_SOC && MACH_TEGRA_GENERIC
-	help
-	  This enables the SDIO interface on NVIDIA Tegra SoCs
-
-
-
 config MMC_RICOH_MMC
 	tristate "Ricoh MMC Controller Disabler  (EXPERIMENTAL)"
 	depends on MMC_SDHCI_PCI
diff --git a/drivers/mmc/host/Makefile b/drivers/mmc/host/Makefile
index b95a3e450adc..2213463550ff 100644
--- a/drivers/mmc/host/Makefile
+++ b/drivers/mmc/host/Makefile
@@ -28,4 +28,4 @@ endif
 obj-$(CONFIG_MMC_S3C)   	+= s3cmci.o
 obj-$(CONFIG_MMC_SDRICOH_CS)	+= sdricoh_cs.o
 obj-$(CONFIG_MMC_TMIO)		+= tmio_mmc.o
-obj-$(CONFIG_MMC_TEGRA_SDIO)	+= tegra_sdio.o
+
diff --git a/drivers/mmc/host/tegra_sdio.c b/drivers/mmc/host/tegra_sdio.c
deleted file mode 100644
index 1503287880ec..000000000000
--- a/drivers/mmc/host/tegra_sdio.c
+++ /dev/null
@@ -1,578 +0,0 @@
-/*
- * drivers/mmc/host/tegra_sdio.c
- *
- * MMC host driver for NVIDIA Tegra SoCs using NvDdk and NvRm APIs
- *
- * Copyright (C) 2009 NVIDIA Corporation
- *
- * This program is free software; you can redistribute it and/or modify it
- * under the terms of the GNU General Public License as published by the
- * Free Software Foundation; either version 2 of the License, or (at your
- * option) any later version.
- *
- * This program is distributed in the hope that it will be useful, but WITHOUT
- * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
- * FITNESS FOR A PARTICULAR PURPOSE.  See the GNU General Public License for
- * more details.
- *
- * You should have received a copy of the GNU General Public License along
- * with this program; if not, write to the Free Software Foundation, Inc.,
- * 51 Franklin Street, Fifth Floor, Boston, MA  02110-1301, USA.
- */
-
-// #define DEBUG
-// #define VERBOSE_DEBUG
-
-/*
- *  TODO: 
- *  1. Revisit locking
- *  2. use zero-copy DMA instead of buffer copy.
- *  3. Detect card removal properly and handle the trasactions on the fly
- *  4. Don't know how to enable SD card irq.
- *  5. Some of the values like max clock, voltages supported and bit rates are
- *  hard coded. Need to get those from DDK.
- */
-
-
-#include <linux/platform_device.h>
-#include <linux/dma-mapping.h>
-#include <linux/workqueue.h>
-#include <linux/kthread.h>
-
-#include <linux/mmc/host.h>
-
-#include "mach/nvrm_linux.h"
-#include "nvddk_sdio.h"
-#include "nvos.h"
-#include "nvodm_sdio.h"
-
-#define DRIVER_DESC "Nvidia Tegra SDIO/SD driver"
-#define DRIVER_NAME "tegra_sdio"
-
-#ifdef VERBOSE_DEBUG
-#define DBG(f, x...) \
-	pr_info(DRIVER_NAME " [%s()]: " f, __func__,## x)
-#else
-#define DBG(f, x...) 
-#endif
-
-#define USE_SPINLOCK 0
-
-#if USE_SPINLOCK
-#define LOCK_T		spinlock_t
-#define CREATELOCK(_l)	spin_lock_init(&(_l))
-#define DELETELOCK(_l)
-#define LOCK(_l)	spin_lock(&(_l))
-#define UNLOCK(_l)	spin_unlock(&(_l))
-#define ATOMIC(_l,_f)	spin_lock_irqsave(&(_l),(_f))
-#define UNATOMIC(_l,_f)	spin_unlock_irqrestore(&(_l),(_f))
-#else
-#define LOCK_T		struct mutex
-#define CREATELOCK(_l)	mutex_init(&(_l))
-#define DELETELOCK(_l) 
-#define LOCK(_l)	mutex_lock(&(_l))
-#define UNLOCK(_l)	mutex_unlock(&(_l))
-#define ATOMIC(_l,_f)	local_irq_save((_f))
-#define UNATOMIC(_l,_f)	local_irq_restore((_f))
-#endif
-
-struct tegra_sdio_host{
-	struct mmc_host			*mmc;
-	struct platform_device		*pdev;
-	LOCK_T				Lock;
-	NvU32				Instance;
-	NvDdkSdioSDBusVoltage		voltage;
-	struct work_struct		Workqueue;
-	struct mmc_request		*req;
-	NvBool				bCardPresent;
-	NvDdkSdioDeviceHandle		hDdk;
-	NvDdkSdioHostCapabilities	hostCaps;
-	NvDdkSdioInterfaceCapabilities	interfaceCaps;
-	NvOsSemaphoreHandle		hSem;
-	NvOsSemaphoreHandle		hCardSemaphore;
-	NvOdmSdioHandle			hSdioHandle;
-	struct task_struct		*cardDetectTask;
-	NvBool				bKillCardDetectThread;
-	unsigned int			clock;
-	unsigned int			bus_width;
-	NvU32				StartOffset;
-};
-
-#ifdef VERBOSE_DEBUG
-static void tegra_DumpPackets(struct mmc_data *data)
-{
-	void *addr = (void *)sg_virt(data->sg);
-	int i;
-
-	for (i=0; i< sg_dma_len(data->sg); i++) {
-		if (!(i%8))
-			printk("\n");
-		printk("%x ", ((unsigned char *)addr)[i]);
-	}
-	printk("\n");
-}
-#endif
-
-static int tegra_sdio_carddetect(void *arg)
-{
-	struct tegra_sdio_host *host = (struct tegra_sdio_host *)arg;
-	while (1) {
-		NvOsSemaphoreWait(host->hCardSemaphore);
-		if (host->bKillCardDetectThread)
-			break;
-		mmc_detect_change(host->mmc, 0);
-	}
-	return 0;
-}
-
-static inline NvDdkSdioRespType tegra_ConvertRespType(struct mmc_command *cmd)
-{
-	NvDdkSdioRespType resp = 0;
-
-	switch (mmc_resp_type(cmd)) {
-	case MMC_RSP_NONE:
-		resp = NvDdkSdioRespType_NoResp;
-		break;
-	case MMC_RSP_R1: /* MMC_RSP_R5 & MMC_RSP_R6 */
-		resp = NvDdkSdioRespType_R1;
-		break;
-	case MMC_RSP_R1B:
-		resp = NvDdkSdioRespType_R1b;
-		break;
-	case MMC_RSP_R2:
-		resp = NvDdkSdioRespType_R2;
-		break;
-	case MMC_RSP_R3:	/* Same as MMC_RSP_R4 */
-		resp = NvDdkSdioRespType_R3;
-		break;
-	default:
-		BUG_ON(1);
-	}
-	return resp;
-}
-
-
-static inline void tegra_GetRepsonse(struct tegra_sdio_host *host,
-	struct mmc_command *cmd)
-{
-	if (cmd->flags & MMC_RSP_136) {
-		int i;
-		NvU32 resp[4];
-		NvDdkSdioGetCommandResponse(host->hDdk, 0,
-			tegra_ConvertRespType(cmd), resp);
-
-		/* Re-format to the way the linux stack expects */
-		for (i = 0;i < 4;i++) {
-			cmd->resp[i] = resp[3-i] << 8;
-			if (i != 3)
-				cmd->resp[i] |= ((NvU8 *)resp)[(3-i) * 4 -1];
-		}
-	} else {
-		NvDdkSdioGetCommandResponse(host->hDdk, 0, 
-			tegra_ConvertRespType(cmd), 
-			(NvU32 *)(cmd->resp));
-	}
-	return;
-}
-
-//
-//  Work queue which does all the heavy lifting.
-//
-
-static void tegra_sdio_wq(struct work_struct *w)
-{
-	struct tegra_sdio_host *host = container_of(w, struct tegra_sdio_host, 
-		Workqueue);
-	struct mmc_request *req;
-	NvDdkSdioCommand cmd;
-	NvU32 status;
-	NvError err;
-
-	LOCK(host->Lock);
-
-	req = host->req;
-
-	NvOsMemset(&cmd, 0, sizeof(cmd));
-	cmd.CommandCode = req->cmd->opcode;
-	cmd.CommandType = NvDdkSdioCommandType_Normal;
-	cmd.CmdArgument = req->cmd->arg;
-	cmd.ResponseType = tegra_ConvertRespType(req->cmd);
-	if (req->data) {
-		struct mmc_data *data = req->data;
-		void *addr;
-		int sg_cnt;
-		int size;
-		NvBool cmd12Enable = NV_FALSE;
-
-		/* FIXME only works for block addressing cards! */
-		if (host->StartOffset)
-			cmd.CmdArgument += host->StartOffset >> 9;
-
-		BUG_ON(data->blksz * data->blocks > 524288);
-		BUG_ON(data->blksz > host->mmc->max_blk_size);
-		BUG_ON(data->blocks > 65535);
-
-		sg_cnt = dma_map_sg(mmc_dev(host->mmc), data->sg, data->sg_len,
-			DMA_BIDIRECTIONAL);
-		BUG_ON(sg_cnt != 1);
-
-		cmd.IsDataCommand = NV_TRUE;
-		cmd.BlockSize = data->blksz;
-		if (data->stop) {
-			/* only support CMD12 of all the stop commands.
-			 * This seems to work!
-			 */
-			if (data->stop->opcode == 12 && !data->stop->arg) {
-				cmd12Enable = NV_TRUE;
-			} else {
-				BUG_ON(1);
-			}
-		}
-
-		size = data->blocks * data->blksz;
-		addr = (void *)sg_virt(data->sg);
-		
-		if (data->flags & MMC_DATA_READ)
-			err = NvDdkSdioRead(host->hDdk, size, addr, &cmd, 
-				cmd12Enable, &status);
-		else
-			err = NvDdkSdioWrite(host->hDdk, size, addr, &cmd,
-				cmd12Enable, &status);
-
-		if (err == NvSuccess && status == NvDdkSdioError_None) {
-			req->cmd->error = 0;
-			req->data->error = 0;
-			data->bytes_xfered = data->blksz * data->blocks;
-
-		} else {
-			/* FIXME set the appropriate error code */
-			DBG("Controller reported error 0x%x API error 0x%x\n",
-				status, err);
-			data->bytes_xfered = 0;
-			req->cmd->error = -EIO;
-			req->data->error = -EIO;
-		}
-
-		dma_unmap_sg(mmc_dev(host->mmc), data->sg,
-			data->sg_len, DMA_BIDIRECTIONAL);
-
-		tegra_GetRepsonse(host, req->cmd);
-
-	} else {
-		cmd.IsDataCommand = NV_FALSE;
-		cmd.BlockSize = 512;
-		err = NvDdkSdioSendCommand(host->hDdk, &cmd, &status);
-		if (err == NvSuccess) {
-			if (status == NvDdkSdioError_None)
-				req->cmd->error = 0;
-			else
-				req->cmd->error = -EINVAL;
-		} else
-			DBG("DDK failed controller status = 0x%x\n", status);
-
-		tegra_GetRepsonse(host, req->cmd);
-	}
-
-	UNLOCK(host->Lock);
- 
-	host->req = NULL;
-	mmc_request_done(host->mmc, req);
-	return;
-}
-
-//
-//  MMC callbacks
-//
-
-static void tegra_sdio_request(struct mmc_host *mmc, struct mmc_request *req)
-{
-	struct tegra_sdio_host *host;
-
-	host = mmc_priv(mmc);
-
-	LOCK(host->Lock);
-
-	host->req = req;
-	if (!host->bCardPresent) {
-		host->req->cmd->error = -ENOMEDIUM;
-	}
-
-	schedule_work(&host->Workqueue);
-	UNLOCK(host->Lock);
-}
-
-static int tegra_sdio_get_ro(struct mmc_host *mmc)
-{
-	struct tegra_sdio_host *host;
-	NvBool bIsWriteProtected = NV_FALSE;
-	NvError err;
-
-	host = mmc_priv(mmc);
-	err = NvDdkSdioIsWriteProtected(host->hDdk, s_hGpioGlobal, 
-		&bIsWriteProtected);
-	if (err != NvSuccess) {
-		pr_err(DRIVER_NAME "IsWriteProtected error(%d)\n", err);
-		if (err == NvError_SdioCardNotPresent) {
-			return 0;
-		} else {
-			return -ENOSYS;
-		}
-	}
-	return (bIsWriteProtected == NV_TRUE) ? 1 : 0;
-}
-
-
-static void tegra_sdio_set_ios(struct mmc_host *mmc, struct mmc_ios *ios)
-{
-	struct tegra_sdio_host *host;
-	NvError err;
-
-	host = mmc_priv(mmc);
- 
-	/* 
-	 * We first get the MMC_POWER_OFF, then MMC_POWER_UP and 
-	 * then the stack swtiches to the MMC_POWER_ON mode.
-	 */
-	if (ios->power_mode == MMC_POWER_OFF) {
-		/* How do we power off the controller and the io? */
-	}
-
-	/* Set the clock. FIXME DDK doesn't allow the clock to be set to 0 */
-	if (ios->clock) {
-		if (ios->clock != host->clock) {
-			NvU32 configuredFreq;
-			err = NvDdkSdioSetClockFrequency(host->hDdk,
-				ios->clock/1000, &configuredFreq);
-			BUG_ON(err!=NvSuccess);
-			DBG("SDIO clock set to (%dKHz) req (%dKHz) err (%d)\n", 
-				configuredFreq, ios->clock/1000, err);
-			host->clock = ios->clock;
-		}
-	}
-
-	/* Set the bus width */
-	if (host->bus_width != ios->bus_width) {
-		NvDdkSdioDataWidth width;
-		if (ios->bus_width == MMC_BUS_WIDTH_8) {
-			width = NvDdkSdioDataWidth_8Bit;
-		} else if (ios->bus_width == MMC_BUS_WIDTH_4) {
-			width = NvDdkSdioDataWidth_4Bit;
-		} else if (ios->bus_width == MMC_BUS_WIDTH_1) {
-			width = NvDdkSdioDataWidth_1Bit;
-		} else {
-			/* Got wrong parameters */
-			width = 0;
-			BUG_ON(1);
-		}
-		NvDdkSdioSetHostBusWidth(host->hDdk, width);
-		host->bus_width = ios->bus_width;
-	}
-
-	/* timming - is there any difference between SD high speed and mmc high
-	 * speed? */
-	if (ios->timing == MMC_TIMING_SD_HS || ios->timing == MMC_TIMING_SD_HS)
-		NvDdkSdioHighSpeedEnable(host->hDdk);
-	else 
-		NvDdkSdioHighSpeedDisable(host->hDdk);
-
-	return;
-}
-
-static int tegra_sdio_cardpresent(struct mmc_host *mmc)
-{
-	struct tegra_sdio_host *host;
-	NvBool bIsCardPResent;
-
-	host = mmc_priv(mmc);
-	NvDdkSdioIsCardInserted(host->hDdk, &bIsCardPResent);
-
-	DBG("Sdio slot %s:%s\n", mmc_hostname(mmc),
-		((bIsCardPResent == NV_TRUE) ? "full" : "empty"));
-
-	return (bIsCardPResent == NV_TRUE) ? 1 : 0;
-}
-
-static void tegra_sdio_enable_sdio_irq(struct mmc_host *mmc, int enable)
-{
-	/* FIXME what should we do here? */
-	return;
-}
-
-static struct mmc_host_ops tegra_sdio_ops = 
-{
-	.request = tegra_sdio_request,
-	.set_ios = tegra_sdio_set_ios,
-	.get_ro = tegra_sdio_get_ro,
-	.get_cd = tegra_sdio_cardpresent,
-	.enable_sdio_irq = tegra_sdio_enable_sdio_irq,
-};
-
-static int
-tegra_sdio_probe(struct platform_device *pdev)
-{
-	struct tegra_sdio_host *host = NULL;
-	struct mmc_host *mmc = NULL;
-	int ret = -ENODEV;
-	NvError err;
-	struct tegra_sdio_pdata *pdata = pdev->dev.platform_data;
-
-	mmc = mmc_alloc_host(sizeof(struct tegra_sdio_host), &pdev->dev);
-	if (!mmc) {
-		ret = -ENOMEM;
-		goto fail;
-	}
-
-	dev_set_drvdata(&pdev->dev, host);
-
-	host = mmc_priv(mmc);
-	host->mmc = mmc;
-	host->pdev = pdev;
-	host->Instance = pdev->id;
-	host->voltage = NvDdkSdioSDBusVoltage_invalid;
-	CREATELOCK(host->Lock);
-	INIT_WORK(&host->Workqueue, tegra_sdio_wq);
-	host->hSdioHandle = NvOdmSdioOpen(pdev->id);
-	if (!host->hSdioHandle) {
-		goto fail;
-	}
-	NvDdkSdioGetCapabilities(s_hRmGlobal, &host->hostCaps,
-		&host->interfaceCaps, pdev->id);
-
-	/* Set SD/MMC configuration */
-	mmc->ops = &tegra_sdio_ops;
-	mmc->caps = 0;
-	if (host->interfaceCaps.MmcInterfaceWidth >= 4) {
-		mmc->caps |= MMC_CAP_4_BIT_DATA;
-		if (host->interfaceCaps.MmcInterfaceWidth == 8) {
-			mmc->caps |= MMC_CAP_8_BIT_DATA;
-		}
-	}
-
-	mmc->caps |= MMC_CAP_SDIO_IRQ;
-
-	/* Is there a caps bit to select if the controller supports high speed
-	 * mode or not? */
-	if (1) {
-		mmc->caps |= MMC_CAP_SD_HIGHSPEED;
-		mmc->caps |= MMC_CAP_MMC_HIGHSPEED;
-	}
-
-	/* Supports upto to 52M i.e compliant to high speed and EMMC and
-	 * SD specs */
-	mmc->f_max = 52000000;
-	mmc->f_min = 400000;
-	mmc->max_seg_size = 524288;
-	mmc->max_req_size = 524288;
-	mmc->max_phys_segs = 128;
-	mmc->max_hw_segs = 1;
-	mmc->max_blk_size = 512;
-	mmc->max_blk_count = 65535;
-	
-	mmc->ocr_avail = 0;
-	mmc->ocr_avail |= MMC_VDD_32_33|MMC_VDD_33_34;
-	
-	if ((NvOsSemaphoreCreate(&host->hCardSemaphore, 0) != NvSuccess)
-		|| (NvOsSemaphoreCreate(&host->hSem, 0) != NvSuccess)) {
-		goto fail;
-	}
-
-	host->bKillCardDetectThread = NV_FALSE;
-	host->cardDetectTask = kthread_create(tegra_sdio_carddetect, 
-		(void *)host, "sdio_card_detect/%d", pdev->id);
-	if (IS_ERR(host->cardDetectTask)) {
-		goto fail;
-	}
-	wake_up_process( host->cardDetectTask );
-
-	err = NvDdkSdioOpen(s_hRmGlobal, s_hGpioGlobal, &host->hDdk, 
-		&host->hSem, &host->hCardSemaphore, pdev->id);
-	if (err != NvSuccess) {
-		goto fail;
-	}
-	host->clock = 0;
-	host->bus_width = (unsigned int)-1;
-	if (pdata)
-		host->StartOffset = pdata->StartOffset;
-
-	ret = mmc_add_host(mmc);
-	if (ret) {
-		dev_err(&pdev->dev, "failed to add mmc host\n");
-		goto fail;
-	}
-
-	platform_set_drvdata(pdev, mmc);
-	dev_info(&pdev->dev, "Initialization done\n");
-
-	return 0;
-
-fail:
-	if (host) {
-		if (host->cardDetectTask) {
-			host->bKillCardDetectThread = NV_TRUE;
-			NvOsSemaphoreSignal(host->hCardSemaphore);
-			(void)kthread_stop( host->cardDetectTask );
-		}
-		if (host->hSem)
-			NvOsSemaphoreDestroy(host->hSem);
-		if (host->hCardSemaphore)
-			NvOsSemaphoreDestroy(host->hCardSemaphore);
-		if (host->hSdioHandle)
-			NvOdmSdioClose(host->hSdioHandle);
-		if (host->hDdk)
-			NvDdkSdioClose(host->hDdk);
-	}
-	if (mmc)
-		mmc_free_host(mmc);
-
-	return ret;
-}
-
-static int __devexit
-tegra_sdio_remove(struct platform_device *pdev)
-{
-	struct tegra_sdio_host *host = dev_get_drvdata(&pdev->dev);
-
-	if (!host) return 0;
-
-	host->bKillCardDetectThread = NV_TRUE;
-	NvOsSemaphoreSignal(host->hCardSemaphore);
-	(void)kthread_stop( host->cardDetectTask );
-
-	if (host->hDdk)
-		NvDdkSdioClose(host->hDdk);
-
-	if (host->hSdioHandle)
-		NvOdmSdioClose(host->hSdioHandle);
-
-	mmc_free_host(host->mmc);
-	dev_set_drvdata(&pdev->dev, NULL);
-	return 0;
-}
-
-static struct platform_driver tegra_sdio_driver = {
-	.probe = tegra_sdio_probe,
-	.remove = __devexit_p(tegra_sdio_remove),
-	.suspend = NULL,
-	.resume = NULL,
-	.driver = {
-		.name = "tegra-sdio",
-		.owner = THIS_MODULE,
-	},
-};
-
-static int __init tegra_sdio_init(void)
-{
-	return platform_driver_register(&tegra_sdio_driver);
-}
-
-static void __exit tegra_sdio_exit(void)
-{
-	platform_driver_unregister(&tegra_sdio_driver);
-}
-
-module_init(tegra_sdio_init);
-module_exit(tegra_sdio_exit);
-
-MODULE_LICENSE("GPL");
-MODULE_DESCRIPTION(DRIVER_DESC);
-
-- 
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