linux_old1/drivers/mtd/devices/ms02-nv.h

102 lines
3.7 KiB
C

/* SPDX-License-Identifier: GPL-2.0-or-later */
/*
* Copyright (c) 2001, 2003 Maciej W. Rozycki
*
* DEC MS02-NV (54-20948-01) battery backed-up NVRAM module for
* DECstation/DECsystem 5000/2x0 and DECsystem 5900 and 5900/260
* systems.
*/
#include <linux/ioport.h>
#include <linux/mtd/mtd.h>
/*
* Addresses are decoded as follows:
*
* 0x000000 - 0x3fffff SRAM
* 0x400000 - 0x7fffff CSR
*
* Within the SRAM area the following ranges are forced by the system
* firmware:
*
* 0x000000 - 0x0003ff diagnostic area, destroyed upon a reboot
* 0x000400 - ENDofRAM storage area, available to operating systems
*
* but we can't really use the available area right from 0x000400 as
* the first word is used by the firmware as a status flag passed
* from an operating system. If anything but the valid data magic
* ID value is found, the firmware considers the SRAM clean, i.e.
* containing no valid data, and disables the battery resulting in
* data being erased as soon as power is switched off. So the choice
* for the start address of the user-available is 0x001000 which is
* nicely page aligned. The area between 0x000404 and 0x000fff may
* be used by the driver for own needs.
*
* The diagnostic area defines two status words to be read by an
* operating system, a magic ID to distinguish a MS02-NV board from
* anything else and a status information providing results of tests
* as well as the size of SRAM available, which can be 1MiB or 2MiB
* (that's what the firmware handles; no idea if 2MiB modules ever
* existed).
*
* The firmware only handles the MS02-NV board if installed in the
* last (15th) slot, so for any other location the status information
* stored in the SRAM cannot be relied upon. But from the hardware
* point of view there is no problem using up to 14 such boards in a
* system -- only the 1st slot needs to be filled with a DRAM module.
* The MS02-NV board is ECC-protected, like other MS02 memory boards.
*
* The state of the battery as provided by the CSR is reflected on
* the two onboard LEDs. When facing the battery side of the board,
* with the LEDs at the top left and the battery at the bottom right
* (i.e. looking from the back side of the system box), their meaning
* is as follows (the system has to be powered on):
*
* left LED battery disable status: lit = enabled
* right LED battery condition status: lit = OK
*/
/* MS02-NV iomem register offsets. */
#define MS02NV_CSR 0x400000 /* control & status register */
/* MS02-NV CSR status bits. */
#define MS02NV_CSR_BATT_OK 0x01 /* battery OK */
#define MS02NV_CSR_BATT_OFF 0x02 /* battery disabled */
/* MS02-NV memory offsets. */
#define MS02NV_DIAG 0x0003f8 /* diagnostic status */
#define MS02NV_MAGIC 0x0003fc /* MS02-NV magic ID */
#define MS02NV_VALID 0x000400 /* valid data magic ID */
#define MS02NV_RAM 0x001000 /* user-exposed RAM start */
/* MS02-NV diagnostic status bits. */
#define MS02NV_DIAG_TEST 0x01 /* SRAM test done (?) */
#define MS02NV_DIAG_RO 0x02 /* SRAM r/o test done */
#define MS02NV_DIAG_RW 0x04 /* SRAM r/w test done */
#define MS02NV_DIAG_FAIL 0x08 /* SRAM test failed */
#define MS02NV_DIAG_SIZE_MASK 0xf0 /* SRAM size mask */
#define MS02NV_DIAG_SIZE_SHIFT 0x10 /* SRAM size shift (left) */
/* MS02-NV general constants. */
#define MS02NV_ID 0x03021966 /* MS02-NV magic ID value */
#define MS02NV_VALID_ID 0xbd100248 /* valid data magic ID value */
#define MS02NV_SLOT_SIZE 0x800000 /* size of the address space
decoded by the module */
typedef volatile u32 ms02nv_uint;
struct ms02nv_private {
struct mtd_info *next;
struct {
struct resource *module;
struct resource *diag_ram;
struct resource *user_ram;
struct resource *csr;
} resource;
u_char *addr;
size_t size;
u_char *uaddr;
};