drivers/media/usb/dvb-usb/m920x.h - nest-cam/v366/kernel_backports - Git at Google

 #ifndef _DVB_USB_M920X_H_
 #define _DVB_USB_M920X_H_

 #define DVB_USB_LOG_PREFIX "m920x"
 #include "dvb-usb.h"

 #define deb(args...)   dprintk(dvb_usb_m920x_debug,0x01,args)

 #define M9206_CORE	0x22
 #define M9206_RC_STATE	0xff51
 #define M9206_RC_KEY	0xff52
 #define M9206_RC_INIT1	0xff54
 #define M9206_RC_INIT2	0xff55
 #define M9206_FW_GO	0xff69

 #define M9206_I2C	0x23
 #define M9206_FILTER	0x25
 #define M9206_FW	0x30

 #define M9206_MAX_FILTERS 8
 #define M9206_MAX_ADAPTERS 4

 /*
 sequences found in logs:
 [index value]
 0x80 write addr
 (0x00 out byte)*
 0x40 out byte

 0x80 write addr
 (0x00 out byte)*
 0x80 read addr
 (0x21 in byte)*
 0x60 in byte

 this sequence works:
 0x80 read addr
 (0x21 in byte)*
 0x60 in byte

 Guess at API of the I2C function:
 I2C operation is done one byte at a time with USB control messages.  The
 index the messages is sent to is made up of a set of flags that control
 the I2C bus state:
 0x80:  Send START condition.  After a START condition, one would normally
        always send the 7-bit slave I2C address as the 7 MSB, followed by
        the read/write bit as the LSB.
 0x40:  Send STOP condition.  This should be set on the last byte of an
        I2C transaction.
 0x20:  Read a byte from the slave.  As opposed to writing a byte to the
        slave.  The slave will normally not produce any data unless you
        set the R/W bit to 1 when sending the slave's address after the
        START condition.
 0x01:  Respond with ACK, as opposed to a NACK.  For a multi-byte read,
        the master should send an ACK, that is pull SDA low during the 9th
        clock cycle, after every byte but the last.  This flags only makes
        sense when bit 0x20 is set, indicating a read.

 What any other bits might mean, or how to get the slave's ACK/NACK
 response to a write, is unknown.
 */

 struct m920x_state {
 	u16 filters[M9206_MAX_ADAPTERS][M9206_MAX_FILTERS];
 	int filtering_enabled[M9206_MAX_ADAPTERS];
 	int rep_count;
 };

 /* Initialisation data for the m920x
  */

 struct m920x_inits {
 	u16 address;
 	u8  data;
 };

 #endif
	#ifndef _DVB_USB_M920X_H_
	#define _DVB_USB_M920X_H_

	#define DVB_USB_LOG_PREFIX "m920x"
	#include "dvb-usb.h"

	#define deb(args...) dprintk(dvb_usb_m920x_debug,0x01,args)

	#define M9206_CORE 0x22
	#define M9206_RC_STATE 0xff51
	#define M9206_RC_KEY 0xff52
	#define M9206_RC_INIT1 0xff54
	#define M9206_RC_INIT2 0xff55
	#define M9206_FW_GO 0xff69

	#define M9206_I2C 0x23
	#define M9206_FILTER 0x25
	#define M9206_FW 0x30

	#define M9206_MAX_FILTERS 8
	#define M9206_MAX_ADAPTERS 4

	/*
	sequences found in logs:
	[index value]
	0x80 write addr
	(0x00 out byte)*
	0x40 out byte

	0x80 write addr
	(0x00 out byte)*
	0x80 read addr
	(0x21 in byte)*
	0x60 in byte

	this sequence works:
	0x80 read addr
	(0x21 in byte)*
	0x60 in byte

	Guess at API of the I2C function:
	I2C operation is done one byte at a time with USB control messages. The
	index the messages is sent to is made up of a set of flags that control
	the I2C bus state:
	0x80: Send START condition. After a START condition, one would normally
	always send the 7-bit slave I2C address as the 7 MSB, followed by
	the read/write bit as the LSB.
	0x40: Send STOP condition. This should be set on the last byte of an
	I2C transaction.
	0x20: Read a byte from the slave. As opposed to writing a byte to the
	slave. The slave will normally not produce any data unless you
	set the R/W bit to 1 when sending the slave's address after the
	START condition.
	0x01: Respond with ACK, as opposed to a NACK. For a multi-byte read,
	the master should send an ACK, that is pull SDA low during the 9th
	clock cycle, after every byte but the last. This flags only makes
	sense when bit 0x20 is set, indicating a read.

	What any other bits might mean, or how to get the slave's ACK/NACK
	response to a write, is unknown.
	*/

	struct m920x_state {
	u16 filters[M9206_MAX_ADAPTERS][M9206_MAX_FILTERS];
	int filtering_enabled[M9206_MAX_ADAPTERS];
	int rep_count;
	};

	/* Initialisation data for the m920x
	*/

	struct m920x_inits {
	u16 address;
	u8 data;
	};

	#endif