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4bed7265f2
Faraday's ftide020_s is an IDE-AHB controller for SoC design. This patch add the u-boot driver (PIO) of ftide020 ATA (IDE) driver. IDE commands include read, info, and other functions has been implemented. Because this IDE controller support AHB interface only which is differ from other most IDE controller supports PCI interface. Some registers access is required during CMD/DATA I/O. Hence a configuration "CONFIG_IDE_AHB" is required to be defined according to the feature in cmd_ide.c. Signed-off-by: Macpaul Lin <macpaul@andestech.com>
367 lines
9.2 KiB
C
367 lines
9.2 KiB
C
/*
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* Faraday FTIDE020 ATA Controller (AHB)
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*
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* (C) Copyright 2011 Andes Technology
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* Greentime Hu <greentime@andestech.com>
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* Macpaul Lin <macpaul@andestech.com>
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* Kuo-Wei Chou <kwchou@andestech.com>
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*
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* See file CREDITS for list of people who contributed to this
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* project.
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*
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* This program is free software; you can redistribute it and/or
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* modify it under the terms of the GNU General Public License as
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* published by the Free Software Foundation; either version 2 of
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* the License, or (at your option) any later version.
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*
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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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*
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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, write to the Free Software
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* Foundation, Inc., 59 Temple Place, Suite 330, Boston,
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* MA 02111-1307 USA
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*
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*/
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/* ftide020.c - ide support functions for the FTIDE020_S controller */
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#include <config.h>
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#include <common.h>
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#include <ata.h>
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#include <ide.h>
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#include <asm/io.h>
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#include <api_public.h>
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#include "ftide020.h"
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/* base address */
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#define FTIDE_BASE CONFIG_SYS_ATA_BASE_ADDR
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/*
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* data address - The CMD and DATA use the same FIFO in FTIDE020_S
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* FTIDE_DATA = CONFIG_SYS_ATA_BASE_ADDR + CONFIG_SYS_ATA_DATA_OFFSET
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* = &ftide020->rw_fifo
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*/
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#define FTIDE_DATA (&ftide020->rw_fifo)
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/* command and data I/O macros */
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/* 0x0 - DATA FIFO */
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#define WRITE_DATA(x) outl((x), &ftide020->rw_fifo) /* 0x00 */
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#define READ_DATA() inl(&ftide020->rw_fifo) /* 0x00 */
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/* 0x04 - R: Status Reg, W: CMD_FIFO */
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#define WRITE_CMD(x) outl((x), &ftide020->cmd_fifo) /* 0x04 */
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#define READ_STATUS() inl(&ftide020->cmd_fifo) /* 0x04 */
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#define mdelay(n) ({unsigned long msec = (n); while (msec--) udelay(1000); })
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void ftide_set_device(int cx8, int dev)
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{
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static struct ftide020_s *ftide020 = (struct ftide020_s *) FTIDE_BASE;
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WRITE_CMD(SET_DEV_CMD | IDE_SET_CX8(cx8) | dev);
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}
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unsigned char ide_read_register(int dev, unsigned int port)
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{
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static struct ftide020_s *ftide020 = (struct ftide020_s *) FTIDE_BASE;
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ftide_set_device(0, dev);
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WRITE_CMD(READ_REG_CMD | IDE_REG_CS_READ(CONFIG_IDE_REG_CS) |
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IDE_REG_DA_WRITE(port));
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return READ_DATA() & 0xff;
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}
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void ide_write_register(int dev, unsigned int port, unsigned char val)
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{
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static struct ftide020_s *ftide020 = (struct ftide020_s *) FTIDE_BASE;
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ftide_set_device(0, dev);
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WRITE_CMD(WRITE_REG_CMD | IDE_REG_CS_WRITE(CONFIG_IDE_REG_CS) |
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IDE_REG_DA_WRITE(port) | val);
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}
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void ide_write_data(int dev, ulong *sect_buf, int words)
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{
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static struct ftide020_s *ftide020 = (struct ftide020_s *) FTIDE_BASE;
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ftide_set_device(0, dev);
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WRITE_CMD(WRITE_DATA_CMD | ((words << 2) - 1));
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/* block write */
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outsl(FTIDE_DATA, sect_buf, words);
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}
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void ide_read_data(int dev, ulong *sect_buf, int words)
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{
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static struct ftide020_s *ftide020 = (struct ftide020_s *) FTIDE_BASE;
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ftide_set_device(0, dev);
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WRITE_CMD(READ_DATA_CMD | ((words << 2) - 1));
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/* block read */
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insl(FTIDE_DATA, sect_buf, words);
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}
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void ftide_dfifo_ready(ulong *time)
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{
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static struct ftide020_s *ftide020 = (struct ftide020_s *) FTIDE_BASE;
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while (!(READ_STATUS() & STATUS_RFE)) {
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if (*time-- == 0)
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break;
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udelay(100);
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}
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}
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extern ulong ide_bus_offset[CONFIG_SYS_IDE_MAXBUS];
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/* Reset_IDE_controller */
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static void reset_ide_controller(void)
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{
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static struct ftide020_s *ftide020 = (struct ftide020_s *) FTIDE_BASE;
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unsigned int val;
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val = inl(&ftide020->cr);
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val |= CONTROL_RST;
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outl(val, &ftide020->cr);
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/* wait until reset OK, this is poor HW design */
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mdelay(50);
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val &= ~(CONTROL_RST);
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outl(val, &ftide020->cr);
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mdelay(50);
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val |= CONTROL_SRST;
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outl(val, &ftide020->cr);
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/* wait until reset OK, this is poor HW design */
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mdelay(50);
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val &= ~(CONTROL_SRST);
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outl(val, &ftide020->cr);
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/* IORDY enable for PIO, for 2 device */
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val |= (CONTROL_IRE0 | CONTROL_IRE1);
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outl(val, &ftide020->cr);
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}
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/* IDE clock frequence */
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uint ftide_clock_freq(void)
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{
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/*
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* todo: To aquire dynamic system frequency is dependend on the power
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* management unit which the ftide020 is connected to. In current,
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* there are only few PMU supports in u-boot.
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* So this function is wait for future enhancement.
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*/
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return 100;
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}
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/* Calculate Timing Registers */
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static unsigned int timing_cal(u16 t0, u16 t1, u16 t2, u16 t4)
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{
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unsigned int val, ahb_ns = 8;
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u8 TEOC, T1, T2, T4;
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T1 = (u8) (t1 / ahb_ns);
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if ((T1 * ahb_ns) == t1)
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T1--;
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T2 = (u8) (t2 / ahb_ns);
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if ((T2 * ahb_ns) == t2)
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T2--;
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T4 = (u8) (t4 / ahb_ns);
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if ((T4 * ahb_ns) == t4)
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T4--;
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TEOC = (u8) (t0 / ahb_ns);
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if ((TEOC * ahb_ns) == t0)
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TEOC--;
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TEOC = ((TEOC > (T1 + T2 + T4)) ? (TEOC - (T1 + T2 + T4)) : 0);
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/*
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* Here the fields in data timing registers in PIO mode
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* is accessed the same way as command timing registers.
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*/
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val = DT_REG_PIO_T1(T1) |
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DT_REG_PIO_T2(T2) |
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DT_REG_PIO_T4(T4) |
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DT_REG_PIO_TEOC(TEOC);
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return val;
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}
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/* Set Timing Register */
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static unsigned int set_mode_timing(u8 dev, u8 id, u8 mode)
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{
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static struct ftide020_s *ftide020 = (struct ftide020_s *) FTIDE_BASE;
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u16 t0, t1, t2, t4;
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u8 tcyc, tcvs, tmli, tenv, tack, trp;
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unsigned int val, sysclk = 8;
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if (id >= TATOL_TIMING)
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return 0;
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sysclk = ftide_clock_freq();
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switch (id) {
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case CMD_TIMING:
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if (mode < REG_MODE) {
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t0 = REG_ACCESS_TIMING[REG_T0][mode];
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t1 = REG_ACCESS_TIMING[REG_T1][mode];
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t2 = REG_ACCESS_TIMING[REG_T2][mode];
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t4 = REG_ACCESS_TIMING[REG_T4][mode];
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val = timing_cal(t0, t1, t2, t4);
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outl(val, (dev ? &ftide020->ctrd1 : &ftide020->ctrd0));
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return 1;
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} else
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return 0;
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case PIO_TIMING:
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if (mode < PIO_MODE) {
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t0 = PIO_ACCESS_TIMING[PIO_T0][mode];
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t1 = PIO_ACCESS_TIMING[PIO_T1][mode];
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t2 = PIO_ACCESS_TIMING[PIO_T2][mode];
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t4 = PIO_ACCESS_TIMING[PIO_T4][mode];
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val = timing_cal(t0, t1, t2, t4);
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outl(val, (dev ? &ftide020->dtrd1 : &ftide020->dtrd0));
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return 1;
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} else
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return 0;
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case DMA_TIMING:
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if (mode < UDMA_MODE) {
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/*
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* 0.999 is ceiling
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* for tcyc, tcvs, tmli, tenv, trp, tack
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*/
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tcyc = (u8) (((UDMA_ACCESS_TIMING[UDMA_TCYC][mode] \
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* sysclk) + 9990) / 10000);
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tcvs = (u8) (((UDMA_ACCESS_TIMING[UDMA_TCVS][mode] \
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* sysclk) + 9990) / 10000);
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tmli = (u8) (((UDMA_ACCESS_TIMING[UDMA_TMLI][mode] \
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* sysclk) + 9990) / 10000);
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tenv = (u8) (((UDMA_ACCESS_TIMING[UDMA_TENV][mode] \
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* sysclk) + 9990) / 10000);
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trp = (u8) (((UDMA_ACCESS_TIMING[UDMA_TRP][mode] \
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* sysclk) + 9990) / 10000);
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tack = (u8) (((UDMA_ACCESS_TIMING[UDMA_TACK][mode] \
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* sysclk) + 9990) / 10000);
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val = DT_REG_UDMA_TENV((tenv > 0) ? (tenv - 1) : 0) |
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DT_REG_UDMA_TMLI((tmli > 0) ? (tmli - 1) : 0) |
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DT_REG_UDMA_TCYC((tcyc > 0) ? (tcyc - 1) : 0) |
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DT_REG_UDMA_TACK((tack > 0) ? (tack - 1) : 0) |
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DT_REG_UDMA_TCVS((tcvs > 0) ? (tcvs - 1) : 0) |
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DT_REG_UDMA_TRP((trp > 0) ? (trp - 1) : 0);
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outl(val, (dev ? &ftide020->dtrd1 : &ftide020->dtrd0));
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return 1;
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} else
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return 0;
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default:
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return 0;
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}
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}
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static void ftide_read_hwrev(void)
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{
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static struct ftide020_s *ftide020 = (struct ftide020_s *) FTIDE_BASE;
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unsigned int rev;
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rev = inl(&ftide020->revision);
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}
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static int ftide_controller_probe(void)
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{
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static struct ftide020_s *ftide020 = (struct ftide020_s *) FTIDE_BASE;
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unsigned int bak;
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bak = inl(&ftide020->ctrd1);
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/* probing by using shorter setup time */
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outl(CONFIG_CTRD1_PROBE_T1, &ftide020->ctrd1);
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if ((inl(&ftide020->ctrd1) & 0xff) != CONFIG_CTRD1_PROBE_T1) {
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outl(bak, &ftide020->ctrd1);
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return 0;
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}
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/* probing by using longer setup time */
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outl(CONFIG_CTRD1_PROBE_T2, &ftide020->ctrd1);
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if ((inl(&ftide020->ctrd1) & 0xff) != CONFIG_CTRD1_PROBE_T2) {
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outl(bak, &ftide020->ctrd1);
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return 0;
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}
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outl(bak, &ftide020->ctrd1);
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return 1;
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}
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/* ide_preinit() was migrated from linux driver ide_probe_for_ftide() */
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int ide_preinit(void)
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{
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static struct ftide020_s *ftide020 = (struct ftide020_s *) FTIDE_BASE;
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int status;
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unsigned int val;
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int i;
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status = 1;
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for (i = 0; i < CONFIG_SYS_IDE_MAXBUS; i++)
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ide_bus_offset[i] = -ATA_STATUS;
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/* auto-detect IDE controller */
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if (ftide_controller_probe()) {
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printf("Faraday %s driver version %s\n", FTIDE_IP_NAME,
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FTIDE_DRIVER_VERSION);
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} else {
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printf("Faraday ATA controller not found.\n");
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return API_ENODEV;
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}
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/* check HW IP revision */
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ftide_read_hwrev();
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/* set FIFO threshold */
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outl(((WRITE_FIFO - RX_THRESH) << 16) | RX_THRESH, &ftide020->dmatirr);
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/* set Device_0 PIO_4 timing */
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set_mode_timing(0, CMD_TIMING, REG_MODE4);
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set_mode_timing(0, PIO_TIMING, PIO_MODE4);
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/* set Device_1 PIO_4 timing */
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set_mode_timing(1, CMD_TIMING, REG_MODE4);
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set_mode_timing(1, PIO_TIMING, PIO_MODE4);
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/* from E-bios */
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/* little endian */
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outl(0x0, &ftide020->cr);
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mdelay(10);
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outl(0x0fff0fff, &ftide020->ahbtr);
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mdelay(10);
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/* Enable controller Interrupt */
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val = inl(&ftide020->cr);
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/* Enable: IDE IRQ, IDE Terminate ERROR IRQ, AHB Timeout error IRQ */
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val |= (CONTROL_IIE | CONTROL_TERIE | CONTROL_AERIE);
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outl(val, &ftide020->cr);
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status = 0;
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return status;
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}
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void ide_set_reset(int flag)
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{
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debug("ide_set_reset()\n");
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reset_ide_controller();
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return;
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}
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