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In the case of at24, the platform code registers a 'setup' callback with the at24_platform_data. When the at24 driver detects an EEPROM, it fills out the read and write functions of the memory_accessor and calls the setup callback passing the memory_accessor struct. The platform code can then use the read/write functions in the memory_accessor struct for reading and writing the EEPROM. Signed-off-by: Kevin Hilman <khilman@deeprootsystems.com> Cc: David Brownell <dbrownell@users.sourceforge.net> Cc: Jean Delvare <khali@linux-fr.org> Signed-off-by: Andrew Morton <akpm@linux-foundation.org> Signed-off-by: Linus Torvalds <torvalds@linux-foundation.org>
32 lines
1.1 KiB
C
32 lines
1.1 KiB
C
#ifndef _LINUX_AT24_H
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#define _LINUX_AT24_H
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#include <linux/types.h>
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#include <linux/memory.h>
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/*
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* As seen through Linux I2C, differences between the most common types of I2C
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* memory include:
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* - How much memory is available (usually specified in bit)?
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* - What write page size does it support?
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* - Special flags (16 bit addresses, read_only, world readable...)?
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*
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* If you set up a custom eeprom type, please double-check the parameters.
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* Especially page_size needs extra care, as you risk data loss if your value
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* is bigger than what the chip actually supports!
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*/
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struct at24_platform_data {
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u32 byte_len; /* size (sum of all addr) */
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u16 page_size; /* for writes */
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u8 flags;
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#define AT24_FLAG_ADDR16 0x80 /* address pointer is 16 bit */
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#define AT24_FLAG_READONLY 0x40 /* sysfs-entry will be read-only */
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#define AT24_FLAG_IRUGO 0x20 /* sysfs-entry will be world-readable */
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#define AT24_FLAG_TAKE8ADDR 0x10 /* take always 8 addresses (24c00) */
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void (*setup)(struct memory_accessor *, void *context);
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void *context;
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};
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#endif /* _LINUX_AT24_H */
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