include/linux/amba/mmci.h - pub/scm/linux/kernel/git/broonie/spi - Git at Google

 /*
  *  include/linux/amba/mmci.h
  */
 #ifndef AMBA_MMCI_H
 #define AMBA_MMCI_H

 #include <linux/mmc/host.h>


 /*
  * These defines is places here due to access is needed from machine
  * configuration files. The ST Micro version does not have ROD and
  * reuse the voltage registers for direction settings.
  */
 #define MCI_ST_DATA2DIREN	(1 << 2)
 #define MCI_ST_CMDDIREN		(1 << 3)
 #define MCI_ST_DATA0DIREN	(1 << 4)
 #define MCI_ST_DATA31DIREN	(1 << 5)
 #define MCI_ST_FBCLKEN		(1 << 7)
 #define MCI_ST_DATA74DIREN	(1 << 8)

 /* Just some dummy forwarding */
 struct dma_chan;

 /**
  * struct mmci_platform_data - platform configuration for the MMCI
  * (also known as PL180) block.
  * @f_max: the maximum operational frequency for this host in this
  * platform configuration. When this is specified it takes precedence
  * over the module parameter for the same frequency.
  * @ocr_mask: available voltages on the 4 pins from the block, this
  * is ignored if a regulator is used, see the MMC_VDD_* masks in
  * mmc/host.h
  * @ios_handler: a callback function to act on specfic ios changes,
  * used for example to control a levelshifter
  * mask into a value to be binary (or set some other custom bits
  * in MMCIPWR) or:ed and written into the MMCIPWR register of the
  * block.  May also control external power based on the power_mode.
  * @status: if no GPIO read function was given to the block in
  * gpio_wp (below) this function will be called to determine
  * whether a card is present in the MMC slot or not
  * @gpio_wp: read this GPIO pin to see if the card is write protected
  * @gpio_cd: read this GPIO pin to detect card insertion
  * @cd_invert: true if the gpio_cd pin value is active low
  * @capabilities: the capabilities of the block as implemented in
  * this platform, signify anything MMC_CAP_* from mmc/host.h
  * @capabilities2: more capabilities, MMC_CAP2_* from mmc/host.h
  * @sigdir: a bit field indicating for what bits in the MMC bus the host
  * should enable signal direction indication.
  * @dma_filter: function used to select an appropriate RX and TX
  * DMA channel to be used for DMA, if and only if you're deploying the
  * generic DMA engine
  * @dma_rx_param: parameter passed to the DMA allocation
  * filter in order to select an appropriate RX channel. If
  * there is a bidirectional RX+TX channel, then just specify
  * this and leave dma_tx_param set to NULL
  * @dma_tx_param: parameter passed to the DMA allocation
  * filter in order to select an appropriate TX channel. If this
  * is NULL the driver will attempt to use the RX channel as a
  * bidirectional channel
  */
 struct mmci_platform_data {
 	unsigned int f_max;
 	unsigned int ocr_mask;
 	int (*ios_handler)(struct device *, struct mmc_ios *);
 	unsigned int (*status)(struct device *);
 	int	gpio_wp;
 	int	gpio_cd;
 	bool	cd_invert;
 	unsigned long capabilities;
 	unsigned long capabilities2;
 	u32 sigdir;
 	bool (*dma_filter)(struct dma_chan *chan, void *filter_param);
 	void *dma_rx_param;
 	void *dma_tx_param;
 };

 #endif
	/*
	* include/linux/amba/mmci.h
	*/
	#ifndef AMBA_MMCI_H
	#define AMBA_MMCI_H

	#include <linux/mmc/host.h>


	/*
	* These defines is places here due to access is needed from machine
	* configuration files. The ST Micro version does not have ROD and
	* reuse the voltage registers for direction settings.
	*/
	#define MCI_ST_DATA2DIREN (1 << 2)
	#define MCI_ST_CMDDIREN (1 << 3)
	#define MCI_ST_DATA0DIREN (1 << 4)
	#define MCI_ST_DATA31DIREN (1 << 5)
	#define MCI_ST_FBCLKEN (1 << 7)
	#define MCI_ST_DATA74DIREN (1 << 8)

	/* Just some dummy forwarding */
	struct dma_chan;

	/**
	* struct mmci_platform_data - platform configuration for the MMCI
	* (also known as PL180) block.
	* @f_max: the maximum operational frequency for this host in this
	* platform configuration. When this is specified it takes precedence
	* over the module parameter for the same frequency.
	* @ocr_mask: available voltages on the 4 pins from the block, this
	* is ignored if a regulator is used, see the MMC_VDD_* masks in
	* mmc/host.h
	* @ios_handler: a callback function to act on specfic ios changes,
	* used for example to control a levelshifter
	* mask into a value to be binary (or set some other custom bits
	* in MMCIPWR) or:ed and written into the MMCIPWR register of the
	* block. May also control external power based on the power_mode.
	* @status: if no GPIO read function was given to the block in
	* gpio_wp (below) this function will be called to determine
	* whether a card is present in the MMC slot or not
	* @gpio_wp: read this GPIO pin to see if the card is write protected
	* @gpio_cd: read this GPIO pin to detect card insertion
	* @cd_invert: true if the gpio_cd pin value is active low
	* @capabilities: the capabilities of the block as implemented in
	* this platform, signify anything MMC_CAP_* from mmc/host.h
	* @capabilities2: more capabilities, MMC_CAP2_* from mmc/host.h
	* @sigdir: a bit field indicating for what bits in the MMC bus the host
	* should enable signal direction indication.
	* @dma_filter: function used to select an appropriate RX and TX
	* DMA channel to be used for DMA, if and only if you're deploying the
	* generic DMA engine
	* @dma_rx_param: parameter passed to the DMA allocation
	* filter in order to select an appropriate RX channel. If
	* there is a bidirectional RX+TX channel, then just specify
	* this and leave dma_tx_param set to NULL
	* @dma_tx_param: parameter passed to the DMA allocation
	* filter in order to select an appropriate TX channel. If this
	* is NULL the driver will attempt to use the RX channel as a
	* bidirectional channel
	*/
	struct mmci_platform_data {
	unsigned int f_max;
	unsigned int ocr_mask;
	int (ios_handler)(struct device , struct mmc_ios *);
	unsigned int (status)(struct device );
	int gpio_wp;
	int gpio_cd;
	bool cd_invert;
	unsigned long capabilities;
	unsigned long capabilities2;
	u32 sigdir;
	bool (dma_filter)(struct dma_chan chan, void *filter_param);
	void *dma_rx_param;
	void *dma_tx_param;
	};

	#endif