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4a94e36819
This commit brings all the changes made by running gdb/copyright.py as per GDB's Start of New Year Procedure. For the avoidance of doubt, all changes in this commits were performed by the script.
803 lines
22 KiB
C
803 lines
22 KiB
C
/* Common Flash Memory Interface (CFI) model.
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http://www.spansion.com/Support/AppNotes/CFI_Spec_AN_03.pdf
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http://www.spansion.com/Support/AppNotes/cfi_100_20011201.pdf
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Copyright (C) 2010-2022 Free Software Foundation, Inc.
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Contributed by Analog Devices, Inc.
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This file is part of simulators.
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This program is free software; you can redistribute it and/or modify
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it under the terms of the GNU General Public License as published by
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the Free Software Foundation; either version 3 of the License, or
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(at your option) any later version.
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This program is distributed in the hope that it will be useful,
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but WITHOUT ANY WARRANTY; without even the implied warranty of
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MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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GNU General Public License for more details.
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You should have received a copy of the GNU General Public License
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along with this program. If not, see <http://www.gnu.org/licenses/>. */
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/* TODO: support vendor query tables. */
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/* This must come before any other includes. */
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#include "defs.h"
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#include <errno.h>
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#include <fcntl.h>
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#include <math.h>
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#include <stdbool.h>
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#include <unistd.h>
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#ifdef HAVE_SYS_MMAN_H
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#include <sys/mman.h>
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#endif
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#include "sim-main.h"
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#include "hw-base.h"
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#include "hw-main.h"
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#include "dv-cfi.h"
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/* Flashes are simple state machines, so here we cover all the
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different states a device might be in at any particular time. */
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enum cfi_state
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{
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CFI_STATE_READ,
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CFI_STATE_READ_ID,
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CFI_STATE_CFI_QUERY,
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CFI_STATE_PROTECT,
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CFI_STATE_STATUS,
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CFI_STATE_ERASE,
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CFI_STATE_WRITE,
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CFI_STATE_WRITE_BUFFER,
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CFI_STATE_WRITE_BUFFER_CONFIRM,
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};
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/* This is the structure that all CFI conforming devices must provided
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when asked for it. This allows a single driver to dynamically support
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different flash geometries without having to hardcode specs.
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If you want to start mucking about here, you should just grab the
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CFI spec and review that (see top of this file for URIs). */
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struct cfi_query
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{
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/* This is always 'Q' 'R' 'Y'. */
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unsigned char qry[3];
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/* Primary vendor ID. */
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unsigned char p_id[2];
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/* Primary query table address. */
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unsigned char p_adr[2];
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/* Alternate vendor ID. */
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unsigned char a_id[2];
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/* Alternate query table address. */
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unsigned char a_adr[2];
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union
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{
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/* Voltage levels. */
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unsigned char voltages[4];
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struct
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{
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/* Normal min voltage level. */
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unsigned char vcc_min;
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/* Normal max voltage level. */
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unsigned char vcc_max;
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/* Programming min volage level. */
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unsigned char vpp_min;
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/* Programming max volage level. */
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unsigned char vpp_max;
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};
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};
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union
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{
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/* Operational timeouts. */
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unsigned char timeouts[8];
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struct
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{
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/* Typical timeout for writing a single "unit". */
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unsigned char timeout_typ_unit_write;
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/* Typical timeout for writing a single "buffer". */
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unsigned char timeout_typ_buf_write;
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/* Typical timeout for erasing a block. */
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unsigned char timeout_typ_block_erase;
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/* Typical timeout for erasing the chip. */
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unsigned char timeout_typ_chip_erase;
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/* Max timeout for writing a single "unit". */
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unsigned char timeout_max_unit_write;
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/* Max timeout for writing a single "buffer". */
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unsigned char timeout_max_buf_write;
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/* Max timeout for erasing a block. */
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unsigned char timeout_max_block_erase;
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/* Max timeout for erasing the chip. */
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unsigned char timeout_max_chip_erase;
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};
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};
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/* Flash size is 2^dev_size bytes. */
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unsigned char dev_size;
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/* Flash device interface description. */
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unsigned char iface_desc[2];
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/* Max length of a single buffer write is 2^max_buf_write_len bytes. */
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unsigned char max_buf_write_len[2];
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/* Number of erase regions. */
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unsigned char num_erase_regions;
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/* The erase regions would now be an array after this point, but since
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it is dynamic, we'll provide that from "struct cfi" when requested. */
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/*unsigned char erase_region_info;*/
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};
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/* Flashes may have regions with different erase sizes. There is one
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structure per erase region. */
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struct cfi_erase_region
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{
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unsigned blocks;
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unsigned size;
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unsigned start;
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unsigned end;
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};
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struct cfi;
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/* Flashes are accessed via commands -- you write a certain number to
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a special address to change the flash state and access info other
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than the data. Diff companies have implemented their own command
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set. This structure abstracts the different command sets so that
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we can support multiple ones with just a single sim driver. */
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struct cfi_cmdset
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{
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unsigned id;
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void (*setup) (struct hw *me, struct cfi *cfi);
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bool (*write) (struct hw *me, struct cfi *cfi, const void *source,
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unsigned offset, unsigned value, unsigned nr_bytes);
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bool (*read) (struct hw *me, struct cfi *cfi, void *dest,
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unsigned offset, unsigned shifted_offset, unsigned nr_bytes);
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};
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/* The per-flash state. Much of this comes from the device tree which
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people declare themselves. See top of attach_cfi_regs() for more
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info. */
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struct cfi
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{
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unsigned width, dev_size, status;
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enum cfi_state state;
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unsigned char *data, *mmap;
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struct cfi_query query;
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const struct cfi_cmdset *cmdset;
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unsigned char *erase_region_info;
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struct cfi_erase_region *erase_regions;
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};
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/* Helpful strings which are used with HW_TRACE. */
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static const char * const state_names[] =
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{
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"READ", "READ_ID", "CFI_QUERY", "PROTECT", "STATUS", "ERASE", "WRITE",
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"WRITE_BUFFER", "WRITE_BUFFER_CONFIRM",
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};
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/* Erase the block specified by the offset into the given CFI flash. */
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static void
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cfi_erase_block (struct hw *me, struct cfi *cfi, unsigned offset)
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{
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unsigned i;
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struct cfi_erase_region *region;
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/* If no erase regions, then we can only do whole chip erase. */
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/* XXX: Is this within spec ? Or must there always be at least one ? */
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if (!cfi->query.num_erase_regions)
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memset (cfi->data, 0xff, cfi->dev_size);
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for (i = 0; i < cfi->query.num_erase_regions; ++i)
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{
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region = &cfi->erase_regions[i];
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if (offset >= region->end)
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continue;
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/* XXX: Does spec require the erase addr to be erase block aligned ?
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Maybe this is check is overly cautious ... */
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offset &= ~(region->size - 1);
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memset (cfi->data + offset, 0xff, region->size);
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break;
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}
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}
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/* Depending on the bus width, addresses might be bit shifted. This
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helps us normalize everything without cluttering up the rest of
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the code. */
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static unsigned
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cfi_unshift_addr (struct cfi *cfi, unsigned addr)
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{
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switch (cfi->width)
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{
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case 4: addr >>= 1; /* fallthrough. */
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case 2: addr >>= 1;
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}
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return addr;
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}
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/* CFI requires all values to be little endian in its structure, so
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this helper writes a 16bit value into a little endian byte buffer. */
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static void
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cfi_encode_16bit (unsigned char *data, unsigned num)
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{
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data[0] = num;
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data[1] = num >> 8;
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}
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/* The functions required to implement the Intel command set. */
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static bool
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cmdset_intel_write (struct hw *me, struct cfi *cfi, const void *source,
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unsigned offset, unsigned value, unsigned nr_bytes)
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{
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switch (cfi->state)
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{
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case CFI_STATE_READ:
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case CFI_STATE_READ_ID:
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switch (value)
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{
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case INTEL_CMD_ERASE_BLOCK:
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cfi->state = CFI_STATE_ERASE;
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break;
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case INTEL_CMD_WRITE:
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case INTEL_CMD_WRITE_ALT:
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cfi->state = CFI_STATE_WRITE;
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break;
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case INTEL_CMD_STATUS_CLEAR:
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cfi->status = INTEL_SR_DWS;
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break;
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case INTEL_CMD_LOCK_SETUP:
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cfi->state = CFI_STATE_PROTECT;
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break;
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default:
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return false;
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}
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break;
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case CFI_STATE_ERASE:
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if (value == INTEL_CMD_ERASE_CONFIRM)
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{
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cfi_erase_block (me, cfi, offset);
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cfi->status &= ~(INTEL_SR_PS | INTEL_SR_ES);
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}
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else
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cfi->status |= INTEL_SR_PS | INTEL_SR_ES;
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cfi->state = CFI_STATE_STATUS;
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break;
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case CFI_STATE_PROTECT:
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switch (value)
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{
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case INTEL_CMD_LOCK_BLOCK:
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case INTEL_CMD_UNLOCK_BLOCK:
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case INTEL_CMD_LOCK_DOWN_BLOCK:
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/* XXX: Handle the command. */
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break;
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default:
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/* Kick out. */
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cfi->status |= INTEL_SR_PS | INTEL_SR_ES;
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break;
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}
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cfi->state = CFI_STATE_STATUS;
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break;
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default:
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return false;
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}
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return true;
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}
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static bool
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cmdset_intel_read (struct hw *me, struct cfi *cfi, void *dest,
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unsigned offset, unsigned shifted_offset, unsigned nr_bytes)
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{
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unsigned char *sdest = dest;
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switch (cfi->state)
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{
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case CFI_STATE_STATUS:
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case CFI_STATE_ERASE:
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*sdest = cfi->status;
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break;
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case CFI_STATE_READ_ID:
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switch (shifted_offset & 0x1ff)
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{
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case 0x00: /* Manufacturer Code. */
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cfi_encode_16bit (dest, INTEL_ID_MANU);
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break;
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case 0x01: /* Device ID Code. */
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/* XXX: Push to device tree ? */
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cfi_encode_16bit (dest, 0xad);
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break;
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case 0x02: /* Block lock state. */
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/* XXX: This is per-block ... */
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*sdest = 0x00;
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break;
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case 0x05: /* Read Configuration Register. */
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cfi_encode_16bit (dest, (1 << 15));
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break;
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default:
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return false;
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}
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break;
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default:
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return false;
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}
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return true;
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}
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static void
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cmdset_intel_setup (struct hw *me, struct cfi *cfi)
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{
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cfi->status = INTEL_SR_DWS;
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}
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static const struct cfi_cmdset cfi_cmdset_intel =
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{
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CFI_CMDSET_INTEL, cmdset_intel_setup, cmdset_intel_write, cmdset_intel_read,
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};
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/* All of the supported command sets get listed here. We then walk this
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array to see if the user requested command set is implemented. */
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static const struct cfi_cmdset * const cfi_cmdsets[] =
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{
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&cfi_cmdset_intel,
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};
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/* All writes to the flash address space come here. Using the state
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machine, we figure out what to do with this specific write. All
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common code sits here and if there is a request we can't process,
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we hand it off to the command set-specific write function. */
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static unsigned
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cfi_io_write_buffer (struct hw *me, const void *source, int space,
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address_word addr, unsigned nr_bytes)
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{
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struct cfi *cfi = hw_data (me);
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const unsigned char *ssource = source;
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enum cfi_state old_state;
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unsigned offset, shifted_offset, value;
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offset = addr & (cfi->dev_size - 1);
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shifted_offset = cfi_unshift_addr (cfi, offset);
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if (cfi->width != nr_bytes)
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{
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HW_TRACE ((me, "write 0x%08lx length %u does not match flash width %u",
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(unsigned long) addr, nr_bytes, cfi->width));
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return nr_bytes;
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}
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if (cfi->state == CFI_STATE_WRITE)
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{
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/* NOR flash can only go from 1 to 0. */
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unsigned i;
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HW_TRACE ((me, "program %#x length %u", offset, nr_bytes));
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for (i = 0; i < nr_bytes; ++i)
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cfi->data[offset + i] &= ssource[i];
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cfi->state = CFI_STATE_STATUS;
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return nr_bytes;
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}
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value = ssource[0];
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old_state = cfi->state;
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if (value == CFI_CMD_READ || value == CFI_CMD_RESET)
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{
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cfi->state = CFI_STATE_READ;
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goto done;
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}
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switch (cfi->state)
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{
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case CFI_STATE_READ:
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case CFI_STATE_READ_ID:
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if (value == CFI_CMD_CFI_QUERY)
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{
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if (shifted_offset == CFI_ADDR_CFI_QUERY_START)
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cfi->state = CFI_STATE_CFI_QUERY;
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goto done;
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}
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if (value == CFI_CMD_READ_ID)
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{
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cfi->state = CFI_STATE_READ_ID;
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goto done;
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}
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/* Fall through. */
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default:
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if (!cfi->cmdset->write (me, cfi, source, offset, value, nr_bytes))
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HW_TRACE ((me, "unhandled command %#x at %#x", value, offset));
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break;
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}
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done:
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HW_TRACE ((me, "write 0x%08lx command {%#x,%#x,%#x,%#x}; state %s -> %s",
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(unsigned long) addr, ssource[0],
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nr_bytes > 1 ? ssource[1] : 0,
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nr_bytes > 2 ? ssource[2] : 0,
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nr_bytes > 3 ? ssource[3] : 0,
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state_names[old_state], state_names[cfi->state]));
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return nr_bytes;
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}
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/* All reads to the flash address space come here. Using the state
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machine, we figure out what to return -- actual data stored in the
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flash, the CFI query structure, some status info, or something else ?
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Any requests that we can't handle are passed to the command set-
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specific read function. */
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static unsigned
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cfi_io_read_buffer (struct hw *me, void *dest, int space,
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address_word addr, unsigned nr_bytes)
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{
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struct cfi *cfi = hw_data (me);
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unsigned char *sdest = dest;
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unsigned offset, shifted_offset;
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offset = addr & (cfi->dev_size - 1);
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shifted_offset = cfi_unshift_addr (cfi, offset);
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/* XXX: Is this OK to enforce ? */
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#if 0
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if (cfi->state != CFI_STATE_READ && cfi->width != nr_bytes)
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{
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HW_TRACE ((me, "read 0x%08lx length %u does not match flash width %u",
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(unsigned long) addr, nr_bytes, cfi->width));
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return nr_bytes;
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}
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#endif
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HW_TRACE ((me, "%s read 0x%08lx length %u",
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state_names[cfi->state], (unsigned long) addr, nr_bytes));
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switch (cfi->state)
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{
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case CFI_STATE_READ:
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memcpy (dest, cfi->data + offset, nr_bytes);
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break;
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case CFI_STATE_CFI_QUERY:
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if (shifted_offset >= CFI_ADDR_CFI_QUERY_RESULT &&
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shifted_offset < CFI_ADDR_CFI_QUERY_RESULT + sizeof (cfi->query) +
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(cfi->query.num_erase_regions * 4))
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{
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unsigned char *qry;
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shifted_offset -= CFI_ADDR_CFI_QUERY_RESULT;
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if (shifted_offset >= sizeof (cfi->query))
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{
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qry = cfi->erase_region_info;
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shifted_offset -= sizeof (cfi->query);
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}
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else
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qry = (void *) &cfi->query;
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sdest[0] = qry[shifted_offset];
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memset (sdest + 1, 0, nr_bytes - 1);
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break;
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}
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default:
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if (!cfi->cmdset->read (me, cfi, dest, offset, shifted_offset, nr_bytes))
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HW_TRACE ((me, "unhandled state %s", state_names[cfi->state]));
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break;
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}
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return nr_bytes;
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}
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/* Clean up any state when this device is removed (e.g. when shutting
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down, or when reloading via gdb). */
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static void
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cfi_delete_callback (struct hw *me)
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{
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#ifdef HAVE_MMAP
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struct cfi *cfi = hw_data (me);
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if (cfi->mmap)
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munmap (cfi->mmap, cfi->dev_size);
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#endif
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}
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/* Helper function to easily add CFI erase regions to the existing set. */
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static void
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cfi_add_erase_region (struct hw *me, struct cfi *cfi,
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unsigned blocks, unsigned size)
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{
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unsigned num_regions = cfi->query.num_erase_regions;
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struct cfi_erase_region *region;
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unsigned char *qry_region;
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/* Store for our own usage. */
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region = &cfi->erase_regions[num_regions];
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region->blocks = blocks;
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region->size = size;
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if (num_regions == 0)
|
||
region->start = 0;
|
||
else
|
||
region->start = region[-1].end;
|
||
region->end = region->start + (blocks * size);
|
||
|
||
/* Regions are 4 bytes long. */
|
||
qry_region = cfi->erase_region_info + 4 * num_regions;
|
||
|
||
/* [0][1] = number erase blocks - 1 */
|
||
if (blocks > 0xffff + 1)
|
||
hw_abort (me, "erase blocks %u too big to fit into region info", blocks);
|
||
cfi_encode_16bit (&qry_region[0], blocks - 1);
|
||
|
||
/* [2][3] = block size / 256 bytes */
|
||
if (size > 0xffff * 256)
|
||
hw_abort (me, "erase size %u too big to fit into region info", size);
|
||
cfi_encode_16bit (&qry_region[2], size / 256);
|
||
|
||
/* Yet another region. */
|
||
cfi->query.num_erase_regions = num_regions + 1;
|
||
}
|
||
|
||
/* Device tree options:
|
||
Required:
|
||
.../reg <addr> <len>
|
||
.../cmdset <primary; integer> [alt; integer]
|
||
Optional:
|
||
.../size <device size (must be pow of 2)>
|
||
.../width <8|16|32>
|
||
.../write_size <integer (must be pow of 2)>
|
||
.../erase_regions <number blocks> <block size> \
|
||
[<number blocks> <block size> ...]
|
||
.../voltage <vcc min> <vcc max> <vpp min> <vpp max>
|
||
.../timeouts <typ unit write> <typ buf write> \
|
||
<typ block erase> <typ chip erase> \
|
||
<max unit write> <max buf write> \
|
||
<max block erase> <max chip erase>
|
||
.../file <file> [ro|rw]
|
||
Defaults:
|
||
size: <len> from "reg"
|
||
width: 8
|
||
write_size: 0 (not supported)
|
||
erase_region: 1 (can only erase whole chip)
|
||
voltage: 0.0V (for all)
|
||
timeouts: typ: 1µs, not supported, 1ms, not supported
|
||
max: 1µs, 1ms, 1ms, not supported
|
||
|
||
TODO: Verify user args are valid (e.g. voltage is 8 bits). */
|
||
static void
|
||
attach_cfi_regs (struct hw *me, struct cfi *cfi)
|
||
{
|
||
address_word attach_address;
|
||
int attach_space;
|
||
unsigned attach_size;
|
||
reg_property_spec reg;
|
||
bool fd_writable;
|
||
int i, ret, fd;
|
||
signed_cell ival;
|
||
|
||
if (hw_find_property (me, "reg") == NULL)
|
||
hw_abort (me, "Missing \"reg\" property");
|
||
if (hw_find_property (me, "cmdset") == NULL)
|
||
hw_abort (me, "Missing \"cmdset\" property");
|
||
|
||
if (!hw_find_reg_array_property (me, "reg", 0, ®))
|
||
hw_abort (me, "\"reg\" property must contain three addr/size entries");
|
||
|
||
hw_unit_address_to_attach_address (hw_parent (me),
|
||
®.address,
|
||
&attach_space, &attach_address, me);
|
||
hw_unit_size_to_attach_size (hw_parent (me), ®.size, &attach_size, me);
|
||
|
||
hw_attach_address (hw_parent (me),
|
||
0, attach_space, attach_address, attach_size, me);
|
||
|
||
/* Extract the desired flash command set. */
|
||
ret = hw_find_integer_array_property (me, "cmdset", 0, &ival);
|
||
if (ret != 1 && ret != 2)
|
||
hw_abort (me, "\"cmdset\" property takes 1 or 2 entries");
|
||
cfi_encode_16bit (cfi->query.p_id, ival);
|
||
|
||
for (i = 0; i < ARRAY_SIZE (cfi_cmdsets); ++i)
|
||
if (cfi_cmdsets[i]->id == ival)
|
||
cfi->cmdset = cfi_cmdsets[i];
|
||
if (cfi->cmdset == NULL)
|
||
hw_abort (me, "cmdset %" PRIiTC " not supported", ival);
|
||
|
||
if (ret == 2)
|
||
{
|
||
hw_find_integer_array_property (me, "cmdset", 1, &ival);
|
||
cfi_encode_16bit (cfi->query.a_id, ival);
|
||
}
|
||
|
||
/* Extract the desired device size. */
|
||
if (hw_find_property (me, "size"))
|
||
cfi->dev_size = hw_find_integer_property (me, "size");
|
||
else
|
||
cfi->dev_size = attach_size;
|
||
cfi->query.dev_size = log2 (cfi->dev_size);
|
||
|
||
/* Extract the desired flash width. */
|
||
if (hw_find_property (me, "width"))
|
||
{
|
||
cfi->width = hw_find_integer_property (me, "width");
|
||
if (cfi->width != 8 && cfi->width != 16 && cfi->width != 32)
|
||
hw_abort (me, "\"width\" must be 8 or 16 or 32, not %u", cfi->width);
|
||
}
|
||
else
|
||
/* Default to 8 bit. */
|
||
cfi->width = 8;
|
||
/* Turn 8/16/32 into 1/2/4. */
|
||
cfi->width /= 8;
|
||
|
||
/* Extract optional write buffer size. */
|
||
if (hw_find_property (me, "write_size"))
|
||
{
|
||
ival = hw_find_integer_property (me, "write_size");
|
||
cfi_encode_16bit (cfi->query.max_buf_write_len, log2 (ival));
|
||
}
|
||
|
||
/* Extract optional erase regions. */
|
||
if (hw_find_property (me, "erase_regions"))
|
||
{
|
||
ret = hw_find_integer_array_property (me, "erase_regions", 0, &ival);
|
||
if (ret % 2)
|
||
hw_abort (me, "\"erase_regions\" must be specified in sets of 2");
|
||
|
||
cfi->erase_region_info = HW_NALLOC (me, unsigned char, ret / 2);
|
||
cfi->erase_regions = HW_NALLOC (me, struct cfi_erase_region, ret / 2);
|
||
|
||
for (i = 0; i < ret; i += 2)
|
||
{
|
||
unsigned blocks, size;
|
||
|
||
hw_find_integer_array_property (me, "erase_regions", i, &ival);
|
||
blocks = ival;
|
||
|
||
hw_find_integer_array_property (me, "erase_regions", i + 1, &ival);
|
||
size = ival;
|
||
|
||
cfi_add_erase_region (me, cfi, blocks, size);
|
||
}
|
||
}
|
||
|
||
/* Extract optional voltages. */
|
||
if (hw_find_property (me, "voltage"))
|
||
{
|
||
unsigned num = ARRAY_SIZE (cfi->query.voltages);
|
||
|
||
ret = hw_find_integer_array_property (me, "voltage", 0, &ival);
|
||
if (ret > num)
|
||
hw_abort (me, "\"voltage\" may have only %u arguments", num);
|
||
|
||
for (i = 0; i < ret; ++i)
|
||
{
|
||
hw_find_integer_array_property (me, "voltage", i, &ival);
|
||
cfi->query.voltages[i] = ival;
|
||
}
|
||
}
|
||
|
||
/* Extract optional timeouts. */
|
||
if (hw_find_property (me, "timeout"))
|
||
{
|
||
unsigned num = ARRAY_SIZE (cfi->query.timeouts);
|
||
|
||
ret = hw_find_integer_array_property (me, "timeout", 0, &ival);
|
||
if (ret > num)
|
||
hw_abort (me, "\"timeout\" may have only %u arguments", num);
|
||
|
||
for (i = 0; i < ret; ++i)
|
||
{
|
||
hw_find_integer_array_property (me, "timeout", i, &ival);
|
||
cfi->query.timeouts[i] = ival;
|
||
}
|
||
}
|
||
|
||
/* Extract optional file. */
|
||
fd = -1;
|
||
fd_writable = false;
|
||
if (hw_find_property (me, "file"))
|
||
{
|
||
const char *file;
|
||
|
||
ret = hw_find_string_array_property (me, "file", 0, &file);
|
||
if (ret > 2)
|
||
hw_abort (me, "\"file\" may take only one argument");
|
||
if (ret == 2)
|
||
{
|
||
const char *writable;
|
||
|
||
hw_find_string_array_property (me, "file", 1, &writable);
|
||
fd_writable = !strcmp (writable, "rw");
|
||
}
|
||
|
||
fd = open (file, fd_writable ? O_RDWR : O_RDONLY);
|
||
if (fd < 0)
|
||
hw_abort (me, "unable to read file `%s': %s", file, strerror (errno));
|
||
}
|
||
|
||
/* Figure out where our initial flash data is coming from. */
|
||
if (fd != -1 && fd_writable)
|
||
{
|
||
#if defined (HAVE_MMAP) && defined (HAVE_POSIX_FALLOCATE)
|
||
posix_fallocate (fd, 0, cfi->dev_size);
|
||
|
||
cfi->mmap = mmap (NULL, cfi->dev_size,
|
||
PROT_READ | (fd_writable ? PROT_WRITE : 0),
|
||
MAP_SHARED, fd, 0);
|
||
|
||
if (cfi->mmap == MAP_FAILED)
|
||
cfi->mmap = NULL;
|
||
else
|
||
cfi->data = cfi->mmap;
|
||
#else
|
||
sim_io_eprintf (hw_system (me),
|
||
"cfi: sorry, file write support requires mmap()\n");
|
||
#endif
|
||
}
|
||
if (!cfi->data)
|
||
{
|
||
size_t read_len;
|
||
|
||
cfi->data = HW_NALLOC (me, unsigned char, cfi->dev_size);
|
||
|
||
if (fd != -1)
|
||
{
|
||
/* Use stdio to avoid EINTR issues with read(). */
|
||
FILE *fp = fdopen (fd, "r");
|
||
|
||
if (fp)
|
||
read_len = fread (cfi->data, 1, cfi->dev_size, fp);
|
||
else
|
||
read_len = 0;
|
||
|
||
/* Don't need to fclose() with fdopen("r"). */
|
||
}
|
||
else
|
||
read_len = 0;
|
||
|
||
memset (cfi->data, 0xff, cfi->dev_size - read_len);
|
||
}
|
||
|
||
close (fd);
|
||
}
|
||
|
||
/* Once we've been declared in the device tree, this is the main
|
||
entry point. So allocate state, attach memory addresses, and
|
||
all that fun stuff. */
|
||
static void
|
||
cfi_finish (struct hw *me)
|
||
{
|
||
struct cfi *cfi;
|
||
|
||
cfi = HW_ZALLOC (me, struct cfi);
|
||
|
||
set_hw_data (me, cfi);
|
||
set_hw_io_read_buffer (me, cfi_io_read_buffer);
|
||
set_hw_io_write_buffer (me, cfi_io_write_buffer);
|
||
set_hw_delete (me, cfi_delete_callback);
|
||
|
||
attach_cfi_regs (me, cfi);
|
||
|
||
/* Initialize the CFI. */
|
||
cfi->state = CFI_STATE_READ;
|
||
memcpy (cfi->query.qry, "QRY", 3);
|
||
cfi->cmdset->setup (me, cfi);
|
||
}
|
||
|
||
/* Every device is required to declare this. */
|
||
const struct hw_descriptor dv_cfi_descriptor[] =
|
||
{
|
||
{"cfi", cfi_finish,},
|
||
{NULL, NULL},
|
||
};
|