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cca6cb8ad7
Bare-metal toolchains don't define __linux__, so aic7xxx build with bare-metal toolchain is broken. This driver codebase used to be partially shared with FreeBSD, but these days there is no point in keeping the compatibility around. So let's just drop FreeBSD related code and get rid of __linux__ checking in order to fix the build using bare-metal toolchains. Signed-off-by: Sam Protsenko <semen.protsenko@linaro.org> Signed-off-by: Martin K. Petersen <martin.petersen@oracle.com>
319 lines
9.4 KiB
C
319 lines
9.4 KiB
C
/*
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* Interface for the 93C66/56/46/26/06 serial eeprom parts.
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*
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* Copyright (c) 1995, 1996 Daniel M. Eischen
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* All rights reserved.
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*
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* Redistribution and use in source and binary forms, with or without
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* modification, are permitted provided that the following conditions
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* are met:
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* 1. Redistributions of source code must retain the above copyright
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* notice, this list of conditions, and the following disclaimer,
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* without modification.
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* 2. The name of the author may not be used to endorse or promote products
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* derived from this software without specific prior written permission.
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*
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* Alternatively, this software may be distributed under the terms of the
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* GNU General Public License ("GPL").
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*
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* THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND
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* ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
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* IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
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* ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE FOR
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* ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
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* DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
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* OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
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* HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
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* LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
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* OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
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* SUCH DAMAGE.
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*
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* $Id: //depot/aic7xxx/aic7xxx/aic7xxx_93cx6.c#19 $
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*/
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/*
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* The instruction set of the 93C66/56/46/26/06 chips are as follows:
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*
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* Start OP *
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* Function Bit Code Address** Data Description
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* -------------------------------------------------------------------
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* READ 1 10 A5 - A0 Reads data stored in memory,
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* starting at specified address
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* EWEN 1 00 11XXXX Write enable must precede
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* all programming modes
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* ERASE 1 11 A5 - A0 Erase register A5A4A3A2A1A0
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* WRITE 1 01 A5 - A0 D15 - D0 Writes register
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* ERAL 1 00 10XXXX Erase all registers
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* WRAL 1 00 01XXXX D15 - D0 Writes to all registers
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* EWDS 1 00 00XXXX Disables all programming
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* instructions
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* *Note: A value of X for address is a don't care condition.
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* **Note: There are 8 address bits for the 93C56/66 chips unlike
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* the 93C46/26/06 chips which have 6 address bits.
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*
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* The 93C46 has a four wire interface: clock, chip select, data in, and
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* data out. In order to perform one of the above functions, you need
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* to enable the chip select for a clock period (typically a minimum of
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* 1 usec, with the clock high and low a minimum of 750 and 250 nsec
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* respectively). While the chip select remains high, you can clock in
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* the instructions (above) starting with the start bit, followed by the
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* OP code, Address, and Data (if needed). For the READ instruction, the
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* requested 16-bit register contents is read from the data out line but
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* is preceded by an initial zero (leading 0, followed by 16-bits, MSB
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* first). The clock cycling from low to high initiates the next data
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* bit to be sent from the chip.
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*/
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#include "aic7xxx_osm.h"
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#include "aic7xxx_inline.h"
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#include "aic7xxx_93cx6.h"
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/*
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* Right now, we only have to read the SEEPROM. But we make it easier to
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* add other 93Cx6 functions.
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*/
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struct seeprom_cmd {
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uint8_t len;
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uint8_t bits[11];
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};
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/* Short opcodes for the c46 */
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static const struct seeprom_cmd seeprom_ewen = {9, {1, 0, 0, 1, 1, 0, 0, 0, 0}};
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static const struct seeprom_cmd seeprom_ewds = {9, {1, 0, 0, 0, 0, 0, 0, 0, 0}};
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/* Long opcodes for the C56/C66 */
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static const struct seeprom_cmd seeprom_long_ewen = {11, {1, 0, 0, 1, 1, 0, 0, 0, 0}};
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static const struct seeprom_cmd seeprom_long_ewds = {11, {1, 0, 0, 0, 0, 0, 0, 0, 0}};
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/* Common opcodes */
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static const struct seeprom_cmd seeprom_write = {3, {1, 0, 1}};
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static const struct seeprom_cmd seeprom_read = {3, {1, 1, 0}};
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/*
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* Wait for the SEERDY to go high; about 800 ns.
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*/
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#define CLOCK_PULSE(sd, rdy) \
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while ((SEEPROM_STATUS_INB(sd) & rdy) == 0) { \
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; /* Do nothing */ \
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} \
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(void)SEEPROM_INB(sd); /* Clear clock */
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/*
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* Send a START condition and the given command
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*/
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static void
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send_seeprom_cmd(struct seeprom_descriptor *sd, const struct seeprom_cmd *cmd)
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{
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uint8_t temp;
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int i = 0;
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/* Send chip select for one clock cycle. */
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temp = sd->sd_MS ^ sd->sd_CS;
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SEEPROM_OUTB(sd, temp ^ sd->sd_CK);
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CLOCK_PULSE(sd, sd->sd_RDY);
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for (i = 0; i < cmd->len; i++) {
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if (cmd->bits[i] != 0)
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temp ^= sd->sd_DO;
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SEEPROM_OUTB(sd, temp);
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CLOCK_PULSE(sd, sd->sd_RDY);
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SEEPROM_OUTB(sd, temp ^ sd->sd_CK);
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CLOCK_PULSE(sd, sd->sd_RDY);
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if (cmd->bits[i] != 0)
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temp ^= sd->sd_DO;
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}
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}
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/*
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* Clear CS put the chip in the reset state, where it can wait for new commands.
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*/
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static void
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reset_seeprom(struct seeprom_descriptor *sd)
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{
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uint8_t temp;
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temp = sd->sd_MS;
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SEEPROM_OUTB(sd, temp);
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CLOCK_PULSE(sd, sd->sd_RDY);
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SEEPROM_OUTB(sd, temp ^ sd->sd_CK);
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CLOCK_PULSE(sd, sd->sd_RDY);
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SEEPROM_OUTB(sd, temp);
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CLOCK_PULSE(sd, sd->sd_RDY);
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}
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/*
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* Read the serial EEPROM and returns 1 if successful and 0 if
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* not successful.
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*/
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int
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ahc_read_seeprom(struct seeprom_descriptor *sd, uint16_t *buf,
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u_int start_addr, u_int count)
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{
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int i = 0;
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u_int k = 0;
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uint16_t v;
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uint8_t temp;
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/*
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* Read the requested registers of the seeprom. The loop
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* will range from 0 to count-1.
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*/
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for (k = start_addr; k < count + start_addr; k++) {
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/*
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* Now we're ready to send the read command followed by the
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* address of the 16-bit register we want to read.
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*/
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send_seeprom_cmd(sd, &seeprom_read);
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/* Send the 6 or 8 bit address (MSB first, LSB last). */
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temp = sd->sd_MS ^ sd->sd_CS;
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for (i = (sd->sd_chip - 1); i >= 0; i--) {
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if ((k & (1 << i)) != 0)
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temp ^= sd->sd_DO;
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SEEPROM_OUTB(sd, temp);
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CLOCK_PULSE(sd, sd->sd_RDY);
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SEEPROM_OUTB(sd, temp ^ sd->sd_CK);
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CLOCK_PULSE(sd, sd->sd_RDY);
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if ((k & (1 << i)) != 0)
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temp ^= sd->sd_DO;
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}
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/*
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* Now read the 16 bit register. An initial 0 precedes the
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* register contents which begins with bit 15 (MSB) and ends
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* with bit 0 (LSB). The initial 0 will be shifted off the
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* top of our word as we let the loop run from 0 to 16.
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*/
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v = 0;
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for (i = 16; i >= 0; i--) {
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SEEPROM_OUTB(sd, temp);
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CLOCK_PULSE(sd, sd->sd_RDY);
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v <<= 1;
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if (SEEPROM_DATA_INB(sd) & sd->sd_DI)
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v |= 1;
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SEEPROM_OUTB(sd, temp ^ sd->sd_CK);
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CLOCK_PULSE(sd, sd->sd_RDY);
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}
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buf[k - start_addr] = v;
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/* Reset the chip select for the next command cycle. */
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reset_seeprom(sd);
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}
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#ifdef AHC_DUMP_EEPROM
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printk("\nSerial EEPROM:\n\t");
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for (k = 0; k < count; k = k + 1) {
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if (((k % 8) == 0) && (k != 0)) {
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printk(KERN_CONT "\n\t");
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}
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printk(KERN_CONT " 0x%x", buf[k]);
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}
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printk(KERN_CONT "\n");
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#endif
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return (1);
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}
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/*
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* Write the serial EEPROM and return 1 if successful and 0 if
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* not successful.
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*/
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int
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ahc_write_seeprom(struct seeprom_descriptor *sd, uint16_t *buf,
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u_int start_addr, u_int count)
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{
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const struct seeprom_cmd *ewen, *ewds;
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uint16_t v;
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uint8_t temp;
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int i, k;
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/* Place the chip into write-enable mode */
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if (sd->sd_chip == C46) {
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ewen = &seeprom_ewen;
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ewds = &seeprom_ewds;
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} else if (sd->sd_chip == C56_66) {
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ewen = &seeprom_long_ewen;
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ewds = &seeprom_long_ewds;
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} else {
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printk("ahc_write_seeprom: unsupported seeprom type %d\n",
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sd->sd_chip);
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return (0);
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}
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send_seeprom_cmd(sd, ewen);
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reset_seeprom(sd);
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/* Write all requested data out to the seeprom. */
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temp = sd->sd_MS ^ sd->sd_CS;
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for (k = start_addr; k < count + start_addr; k++) {
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/* Send the write command */
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send_seeprom_cmd(sd, &seeprom_write);
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/* Send the 6 or 8 bit address (MSB first). */
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for (i = (sd->sd_chip - 1); i >= 0; i--) {
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if ((k & (1 << i)) != 0)
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temp ^= sd->sd_DO;
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SEEPROM_OUTB(sd, temp);
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CLOCK_PULSE(sd, sd->sd_RDY);
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SEEPROM_OUTB(sd, temp ^ sd->sd_CK);
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CLOCK_PULSE(sd, sd->sd_RDY);
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if ((k & (1 << i)) != 0)
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temp ^= sd->sd_DO;
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}
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/* Write the 16 bit value, MSB first */
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v = buf[k - start_addr];
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for (i = 15; i >= 0; i--) {
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if ((v & (1 << i)) != 0)
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temp ^= sd->sd_DO;
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SEEPROM_OUTB(sd, temp);
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CLOCK_PULSE(sd, sd->sd_RDY);
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SEEPROM_OUTB(sd, temp ^ sd->sd_CK);
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CLOCK_PULSE(sd, sd->sd_RDY);
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if ((v & (1 << i)) != 0)
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temp ^= sd->sd_DO;
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}
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/* Wait for the chip to complete the write */
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temp = sd->sd_MS;
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SEEPROM_OUTB(sd, temp);
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CLOCK_PULSE(sd, sd->sd_RDY);
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temp = sd->sd_MS ^ sd->sd_CS;
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do {
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SEEPROM_OUTB(sd, temp);
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CLOCK_PULSE(sd, sd->sd_RDY);
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SEEPROM_OUTB(sd, temp ^ sd->sd_CK);
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CLOCK_PULSE(sd, sd->sd_RDY);
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} while ((SEEPROM_DATA_INB(sd) & sd->sd_DI) == 0);
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reset_seeprom(sd);
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}
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/* Put the chip back into write-protect mode */
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send_seeprom_cmd(sd, ewds);
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reset_seeprom(sd);
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return (1);
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}
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int
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ahc_verify_cksum(struct seeprom_config *sc)
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{
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int i;
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int maxaddr;
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uint32_t checksum;
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uint16_t *scarray;
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maxaddr = (sizeof(*sc)/2) - 1;
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checksum = 0;
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scarray = (uint16_t *)sc;
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for (i = 0; i < maxaddr; i++)
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checksum = checksum + scarray[i];
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if (checksum == 0
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|| (checksum & 0xFFFF) != sc->checksum) {
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return (0);
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} else {
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return(1);
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}
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}
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