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gerrit.openfyde.cn / github.com / raspberrypi / raspberrypi-kernel / d5bbb5021ce8d9ff561c7469f5b4589ccb3bc4a6 / . / include / linux / nvram.h
blob: bb4ea8cc6ea624e56c83f555857156eb37083430 [file] [log] [blame]
Greg Kroah-Hartmanb2441312017-11-01 15:07:57 +0100[diff] [blame]1/* SPDX-License-Identifier: GPL-2.0 */
Linus Torvalds1da177e2005-04-16 15:20:36 -0700[diff] [blame]2#ifndef _LINUX_NVRAM_H
3#define _LINUX_NVRAM_H
4
Finn Thain1278cf62019-01-15 15:18:56 +1100[diff] [blame]5#include <linux/errno.h>
David Howells607ca462012-10-13 10:46:48 +0100[diff] [blame]6#include <uapi/linux/nvram.h>
Linus Torvalds1da177e2005-04-16 15:20:36 -0700[diff] [blame]7
Finn Thaind5bbb502019-01-15 15:18:56 +1100[diff] [blame^]8/**
9 * struct nvram_ops - NVRAM functionality made available to drivers
10 * @read: validate checksum (if any) then load a range of bytes from NVRAM
11 * @write: store a range of bytes to NVRAM then update checksum (if any)
12 * @read_byte: load a single byte from NVRAM
13 * @write_byte: store a single byte to NVRAM
14 * @get_size: return the fixed number of bytes in the NVRAM
15 *
16 * Architectures which provide an nvram ops struct need not implement all
17 * of these methods. If the NVRAM hardware can be accessed only one byte
18 * at a time then it may be sufficient to provide .read_byte and .write_byte.
19 * If the NVRAM has a checksum (and it is to be checked) the .read and
20 * .write methods can be used to implement that efficiently.
21 *
22 * Portable drivers may use the wrapper functions defined here.
23 * The nvram_read() and nvram_write() functions call the .read and .write
24 * methods when available and fall back on the .read_byte and .write_byte
25 * methods otherwise.
26 */
27
Finn Thaina084dbf2019-01-15 15:18:56 +1100[diff] [blame]28struct nvram_ops {
29 ssize_t (*get_size)(void);
Finn Thaind5bbb502019-01-15 15:18:56 +1100[diff] [blame^]30 unsigned char (*read_byte)(int);
31 void (*write_byte)(unsigned char, int);
Finn Thaina084dbf2019-01-15 15:18:56 +1100[diff] [blame]32 ssize_t (*read)(char *, size_t, loff_t *);
33 ssize_t (*write)(char *, size_t, loff_t *);
34};
35
36extern const struct nvram_ops arch_nvram_ops;
37
Finn Thain1278cf62019-01-15 15:18:56 +1100[diff] [blame]38static inline ssize_t nvram_get_size(void)
39{
Finn Thaina156c7b2019-01-15 15:18:56 +1100[diff] [blame]40#ifdef CONFIG_PPC
41#else
Finn Thaina084dbf2019-01-15 15:18:56 +1100[diff] [blame]42 if (arch_nvram_ops.get_size)
43 return arch_nvram_ops.get_size();
Finn Thaina156c7b2019-01-15 15:18:56 +1100[diff] [blame]44#endif
Finn Thain1278cf62019-01-15 15:18:56 +1100[diff] [blame]45 return -ENODEV;
46}
47
48static inline unsigned char nvram_read_byte(int addr)
49{
Finn Thaind5bbb502019-01-15 15:18:56 +1100[diff] [blame^]50#ifdef CONFIG_PPC
51#else
52 if (arch_nvram_ops.read_byte)
53 return arch_nvram_ops.read_byte(addr);
54#endif
Finn Thain1278cf62019-01-15 15:18:56 +1100[diff] [blame]55 return 0xFF;
56}
57
58static inline void nvram_write_byte(unsigned char val, int addr)
59{
Finn Thaind5bbb502019-01-15 15:18:56 +1100[diff] [blame^]60#ifdef CONFIG_PPC
61#else
62 if (arch_nvram_ops.write_byte)
63 arch_nvram_ops.write_byte(val, addr);
64#endif
Finn Thain1278cf62019-01-15 15:18:56 +1100[diff] [blame]65}
66
67static inline ssize_t nvram_read(char *buf, size_t count, loff_t *ppos)
68{
Finn Thaina084dbf2019-01-15 15:18:56 +1100[diff] [blame]69 if (arch_nvram_ops.read)
70 return arch_nvram_ops.read(buf, count, ppos);
Finn Thain1278cf62019-01-15 15:18:56 +1100[diff] [blame]71 return -ENODEV;
72}
73
74static inline ssize_t nvram_write(char *buf, size_t count, loff_t *ppos)
75{
Finn Thaina084dbf2019-01-15 15:18:56 +1100[diff] [blame]76 if (arch_nvram_ops.write)
77 return arch_nvram_ops.write(buf, count, ppos);
Finn Thain1278cf62019-01-15 15:18:56 +1100[diff] [blame]78 return -ENODEV;
79}
80
Linus Torvalds1da177e2005-04-16 15:20:36 -0700[diff] [blame]81#endif /* _LINUX_NVRAM_H */