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- /*
- * Copyright (c) 2012 Intel Corporation. All rights reserved.
- * Copyright (c) 2006 - 2012 QLogic Corporation. All rights reserved.
- * Copyright (c) 2003, 2004, 2005, 2006 PathScale, Inc. All rights reserved.
- *
- * This software is available to you under a choice of one of two
- * licenses. You may choose to be licensed under the terms of the GNU
- * General Public License (GPL) Version 2, available from the file
- * COPYING in the main directory of this source tree, or the
- * OpenIB.org BSD license below:
- *
- * Redistribution and use in source and binary forms, with or
- * without modification, are permitted provided that the following
- * conditions are met:
- *
- * - Redistributions of source code must retain the above
- * copyright notice, this list of conditions and the following
- * disclaimer.
- *
- * - Redistributions in binary form must reproduce the above
- * copyright notice, this list of conditions and the following
- * disclaimer in the documentation and/or other materials
- * provided with the distribution.
- *
- * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND,
- * EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
- * MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND
- * NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS
- * BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN
- * ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN
- * CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
- * SOFTWARE.
- */
- #include <linux/delay.h>
- #include <linux/pci.h>
- #include <linux/vmalloc.h>
- #include "qib.h"
- /*
- * QLogic_IB "Two Wire Serial Interface" driver.
- * Originally written for a not-quite-i2c serial eeprom, which is
- * still used on some supported boards. Later boards have added a
- * variety of other uses, most board-specific, so the bit-boffing
- * part has been split off to this file, while the other parts
- * have been moved to chip-specific files.
- *
- * We have also dropped all pretense of fully generic (e.g. pretend
- * we don't know whether '1' is the higher voltage) interface, as
- * the restrictions of the generic i2c interface (e.g. no access from
- * driver itself) make it unsuitable for this use.
- */
- #define READ_CMD 1
- #define WRITE_CMD 0
- /**
- * i2c_wait_for_writes - wait for a write
- * @dd: the qlogic_ib device
- *
- * We use this instead of udelay directly, so we can make sure
- * that previous register writes have been flushed all the way
- * to the chip. Since we are delaying anyway, the cost doesn't
- * hurt, and makes the bit twiddling more regular
- */
- static void i2c_wait_for_writes(struct qib_devdata *dd)
- {
- /*
- * implicit read of EXTStatus is as good as explicit
- * read of scratch, if all we want to do is flush
- * writes.
- */
- dd->f_gpio_mod(dd, 0, 0, 0);
- rmb(); /* inlined, so prevent compiler reordering */
- }
- /*
- * QSFP modules are allowed to hold SCL low for 500uSec. Allow twice that
- * for "almost compliant" modules
- */
- #define SCL_WAIT_USEC 1000
- /* BUF_WAIT is time bus must be free between STOP or ACK and to next START.
- * Should be 20, but some chips need more.
- */
- #define TWSI_BUF_WAIT_USEC 60
- static void scl_out(struct qib_devdata *dd, u8 bit)
- {
- u32 mask;
- udelay(1);
- mask = 1UL << dd->gpio_scl_num;
- /* SCL is meant to be bare-drain, so never set "OUT", just DIR */
- dd->f_gpio_mod(dd, 0, bit ? 0 : mask, mask);
- /*
- * Allow for slow slaves by simple
- * delay for falling edge, sampling on rise.
- */
- if (!bit)
- udelay(2);
- else {
- int rise_usec;
- for (rise_usec = SCL_WAIT_USEC; rise_usec > 0; rise_usec -= 2) {
- if (mask & dd->f_gpio_mod(dd, 0, 0, 0))
- break;
- udelay(2);
- }
- if (rise_usec <= 0)
- qib_dev_err(dd, "SCL interface stuck low > %d uSec\n",
- SCL_WAIT_USEC);
- }
- i2c_wait_for_writes(dd);
- }
- static void sda_out(struct qib_devdata *dd, u8 bit)
- {
- u32 mask;
- mask = 1UL << dd->gpio_sda_num;
- /* SDA is meant to be bare-drain, so never set "OUT", just DIR */
- dd->f_gpio_mod(dd, 0, bit ? 0 : mask, mask);
- i2c_wait_for_writes(dd);
- udelay(2);
- }
- static u8 sda_in(struct qib_devdata *dd, int wait)
- {
- int bnum;
- u32 read_val, mask;
- bnum = dd->gpio_sda_num;
- mask = (1UL << bnum);
- /* SDA is meant to be bare-drain, so never set "OUT", just DIR */
- dd->f_gpio_mod(dd, 0, 0, mask);
- read_val = dd->f_gpio_mod(dd, 0, 0, 0);
- if (wait)
- i2c_wait_for_writes(dd);
- return (read_val & mask) >> bnum;
- }
- /**
- * i2c_ackrcv - see if ack following write is true
- * @dd: the qlogic_ib device
- */
- static int i2c_ackrcv(struct qib_devdata *dd)
- {
- u8 ack_received;
- /* AT ENTRY SCL = LOW */
- /* change direction, ignore data */
- ack_received = sda_in(dd, 1);
- scl_out(dd, 1);
- ack_received = sda_in(dd, 1) == 0;
- scl_out(dd, 0);
- return ack_received;
- }
- static void stop_cmd(struct qib_devdata *dd);
- /**
- * rd_byte - read a byte, sending STOP on last, else ACK
- * @dd: the qlogic_ib device
- *
- * Returns byte shifted out of device
- */
- static int rd_byte(struct qib_devdata *dd, int last)
- {
- int bit_cntr, data;
- data = 0;
- for (bit_cntr = 7; bit_cntr >= 0; --bit_cntr) {
- data <<= 1;
- scl_out(dd, 1);
- data |= sda_in(dd, 0);
- scl_out(dd, 0);
- }
- if (last) {
- scl_out(dd, 1);
- stop_cmd(dd);
- } else {
- sda_out(dd, 0);
- scl_out(dd, 1);
- scl_out(dd, 0);
- sda_out(dd, 1);
- }
- return data;
- }
- /**
- * wr_byte - write a byte, one bit at a time
- * @dd: the qlogic_ib device
- * @data: the byte to write
- *
- * Returns 0 if we got the following ack, otherwise 1
- */
- static int wr_byte(struct qib_devdata *dd, u8 data)
- {
- int bit_cntr;
- u8 bit;
- for (bit_cntr = 7; bit_cntr >= 0; bit_cntr--) {
- bit = (data >> bit_cntr) & 1;
- sda_out(dd, bit);
- scl_out(dd, 1);
- scl_out(dd, 0);
- }
- return (!i2c_ackrcv(dd)) ? 1 : 0;
- }
- /*
- * issue TWSI start sequence:
- * (both clock/data high, clock high, data low while clock is high)
- */
- static void start_seq(struct qib_devdata *dd)
- {
- sda_out(dd, 1);
- scl_out(dd, 1);
- sda_out(dd, 0);
- udelay(1);
- scl_out(dd, 0);
- }
- /**
- * stop_seq - transmit the stop sequence
- * @dd: the qlogic_ib device
- *
- * (both clock/data low, clock high, data high while clock is high)
- */
- static void stop_seq(struct qib_devdata *dd)
- {
- scl_out(dd, 0);
- sda_out(dd, 0);
- scl_out(dd, 1);
- sda_out(dd, 1);
- }
- /**
- * stop_cmd - transmit the stop condition
- * @dd: the qlogic_ib device
- *
- * (both clock/data low, clock high, data high while clock is high)
- */
- static void stop_cmd(struct qib_devdata *dd)
- {
- stop_seq(dd);
- udelay(TWSI_BUF_WAIT_USEC);
- }
- /**
- * qib_twsi_reset - reset I2C communication
- * @dd: the qlogic_ib device
- */
- int qib_twsi_reset(struct qib_devdata *dd)
- {
- int clock_cycles_left = 9;
- int was_high = 0;
- u32 pins, mask;
- /* Both SCL and SDA should be high. If not, there
- * is something wrong.
- */
- mask = (1UL << dd->gpio_scl_num) | (1UL << dd->gpio_sda_num);
- /*
- * Force pins to desired innocuous state.
- * This is the default power-on state with out=0 and dir=0,
- * So tri-stated and should be floating high (barring HW problems)
- */
- dd->f_gpio_mod(dd, 0, 0, mask);
- /*
- * Clock nine times to get all listeners into a sane state.
- * If SDA does not go high at any point, we are wedged.
- * One vendor recommends then issuing START followed by STOP.
- * we cannot use our "normal" functions to do that, because
- * if SCL drops between them, another vendor's part will
- * wedge, dropping SDA and keeping it low forever, at the end of
- * the next transaction (even if it was not the device addressed).
- * So our START and STOP take place with SCL held high.
- */
- while (clock_cycles_left--) {
- scl_out(dd, 0);
- scl_out(dd, 1);
- /* Note if SDA is high, but keep clocking to sync slave */
- was_high |= sda_in(dd, 0);
- }
- if (was_high) {
- /*
- * We saw a high, which we hope means the slave is sync'd.
- * Issue START, STOP, pause for T_BUF.
- */
- pins = dd->f_gpio_mod(dd, 0, 0, 0);
- if ((pins & mask) != mask)
- qib_dev_err(dd, "GPIO pins not at rest: %d\n",
- pins & mask);
- /* Drop SDA to issue START */
- udelay(1); /* Guarantee .6 uSec setup */
- sda_out(dd, 0);
- udelay(1); /* Guarantee .6 uSec hold */
- /* At this point, SCL is high, SDA low. Raise SDA for STOP */
- sda_out(dd, 1);
- udelay(TWSI_BUF_WAIT_USEC);
- }
- return !was_high;
- }
- #define QIB_TWSI_START 0x100
- #define QIB_TWSI_STOP 0x200
- /* Write byte to TWSI, optionally prefixed with START or suffixed with
- * STOP.
- * returns 0 if OK (ACK received), else != 0
- */
- static int qib_twsi_wr(struct qib_devdata *dd, int data, int flags)
- {
- int ret = 1;
- if (flags & QIB_TWSI_START)
- start_seq(dd);
- ret = wr_byte(dd, data); /* Leaves SCL low (from i2c_ackrcv()) */
- if (flags & QIB_TWSI_STOP)
- stop_cmd(dd);
- return ret;
- }
- /* Added functionality for IBA7220-based cards */
- #define QIB_TEMP_DEV 0x98
- /*
- * qib_twsi_blk_rd
- * Formerly called qib_eeprom_internal_read, and only used for eeprom,
- * but now the general interface for data transfer from twsi devices.
- * One vestige of its former role is that it recognizes a device
- * QIB_TWSI_NO_DEV and does the correct operation for the legacy part,
- * which responded to all TWSI device codes, interpreting them as
- * address within device. On all other devices found on board handled by
- * this driver, the device is followed by a one-byte "address" which selects
- * the "register" or "offset" within the device from which data should
- * be read.
- */
- int qib_twsi_blk_rd(struct qib_devdata *dd, int dev, int addr,
- void *buffer, int len)
- {
- int ret;
- u8 *bp = buffer;
- ret = 1;
- if (dev == QIB_TWSI_NO_DEV) {
- /* legacy not-really-I2C */
- addr = (addr << 1) | READ_CMD;
- ret = qib_twsi_wr(dd, addr, QIB_TWSI_START);
- } else {
- /* Actual I2C */
- ret = qib_twsi_wr(dd, dev | WRITE_CMD, QIB_TWSI_START);
- if (ret) {
- stop_cmd(dd);
- ret = 1;
- goto bail;
- }
- /*
- * SFF spec claims we do _not_ stop after the addr
- * but simply issue a start with the "read" dev-addr.
- * Since we are implicitely waiting for ACK here,
- * we need t_buf (nominally 20uSec) before that start,
- * and cannot rely on the delay built in to the STOP
- */
- ret = qib_twsi_wr(dd, addr, 0);
- udelay(TWSI_BUF_WAIT_USEC);
- if (ret) {
- qib_dev_err(dd,
- "Failed to write interface read addr %02X\n",
- addr);
- ret = 1;
- goto bail;
- }
- ret = qib_twsi_wr(dd, dev | READ_CMD, QIB_TWSI_START);
- }
- if (ret) {
- stop_cmd(dd);
- ret = 1;
- goto bail;
- }
- /*
- * block devices keeps clocking data out as long as we ack,
- * automatically incrementing the address. Some have "pages"
- * whose boundaries will not be crossed, but the handling
- * of these is left to the caller, who is in a better
- * position to know.
- */
- while (len-- > 0) {
- /*
- * Get and store data, sending ACK if length remaining,
- * else STOP
- */
- *bp++ = rd_byte(dd, !len);
- }
- ret = 0;
- bail:
- return ret;
- }
- /*
- * qib_twsi_blk_wr
- * Formerly called qib_eeprom_internal_write, and only used for eeprom,
- * but now the general interface for data transfer to twsi devices.
- * One vestige of its former role is that it recognizes a device
- * QIB_TWSI_NO_DEV and does the correct operation for the legacy part,
- * which responded to all TWSI device codes, interpreting them as
- * address within device. On all other devices found on board handled by
- * this driver, the device is followed by a one-byte "address" which selects
- * the "register" or "offset" within the device to which data should
- * be written.
- */
- int qib_twsi_blk_wr(struct qib_devdata *dd, int dev, int addr,
- const void *buffer, int len)
- {
- int sub_len;
- const u8 *bp = buffer;
- int max_wait_time, i;
- int ret = 1;
- while (len > 0) {
- if (dev == QIB_TWSI_NO_DEV) {
- if (qib_twsi_wr(dd, (addr << 1) | WRITE_CMD,
- QIB_TWSI_START)) {
- goto failed_write;
- }
- } else {
- /* Real I2C */
- if (qib_twsi_wr(dd, dev | WRITE_CMD, QIB_TWSI_START))
- goto failed_write;
- ret = qib_twsi_wr(dd, addr, 0);
- if (ret) {
- qib_dev_err(dd,
- "Failed to write interface write addr %02X\n",
- addr);
- goto failed_write;
- }
- }
- sub_len = min(len, 4);
- addr += sub_len;
- len -= sub_len;
- for (i = 0; i < sub_len; i++)
- if (qib_twsi_wr(dd, *bp++, 0))
- goto failed_write;
- stop_cmd(dd);
- /*
- * Wait for write complete by waiting for a successful
- * read (the chip replies with a zero after the write
- * cmd completes, and before it writes to the eeprom.
- * The startcmd for the read will fail the ack until
- * the writes have completed. We do this inline to avoid
- * the debug prints that are in the real read routine
- * if the startcmd fails.
- * We also use the proper device address, so it doesn't matter
- * whether we have real eeprom_dev. Legacy likes any address.
- */
- max_wait_time = 100;
- while (qib_twsi_wr(dd, dev | READ_CMD, QIB_TWSI_START)) {
- stop_cmd(dd);
- if (!--max_wait_time)
- goto failed_write;
- }
- /* now read (and ignore) the resulting byte */
- rd_byte(dd, 1);
- }
- ret = 0;
- goto bail;
- failed_write:
- stop_cmd(dd);
- ret = 1;
- bail:
- return ret;
- }
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