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/*
 * (C) Copyright 2000-2008
 * Wolfgang Denk, DENX Software Engineering, wd@denx.de.
 *
 * See file CREDITS for list of people who contributed to this
 * project.
 *
 * This program is free software; you can redistribute it and/or
 * modify it under the terms of the GNU General Public License as
 * published by the Free Software Foundation; either version 2 of
 * the License, or (at your option) any later version.
 *
 * This program is distributed in the hope that it will be useful,
 * but WITHOUT ANY WARRANTY; without even the implied warranty of
 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
 * GNU General Public License for more details.
 *
 * You should have received a copy of the GNU General Public License
 * along with this program; if not, write to the Free Software
 * Foundation, Inc., 59 Temple Place, Suite 330, Boston,
 * MA 02111-1307 USA
 */

#include <common.h>
#include <mpc8xx.h>
#ifdef CONFIG_PS2MULT
#include <ps2mult.h>
#endif

extern flash_info_t flash_info[];	/* FLASH chips info */

DECLARE_GLOBAL_DATA_PTR;

static long int dram_size (long int, long int *, long int);

#define	_NOT_USED_	0xFFFFFFFF

/* UPM initialization table for SDRAM: 40, 50, 66 MHz CLKOUT @ CAS latency 2, tWR=2 */
const uint sdram_table[] =
{
	/*
	 * Single Read. (Offset 0 in UPMA RAM)
	 */
	0x1F0DFC04, 0xEEAFBC04, 0x11AF7C04, 0xEFBAFC00,
	0x1FF5FC47, /* last */
	/*
	 * SDRAM Initialization (offset 5 in UPMA RAM)
	 *
	 * This is no UPM entry point. The following definition uses
	 * the remaining space to establish an initialization
	 * sequence, which is executed by a RUN command.
	 *
	 */
		    0x1FF5FC34, 0xEFEABC34, 0x1FB57C35, /* last */
	/*
	 * Burst Read. (Offset 8 in UPMA RAM)
	 */
	0x1F0DFC04, 0xEEAFBC04, 0x10AF7C04, 0xF0AFFC00,
	0xF0AFFC00, 0xF1AFFC00, 0xEFBAFC00, 0x1FF5FC47, /* last */
	_NOT_USED_, _NOT_USED_, _NOT_USED_, _NOT_USED_,
	_NOT_USED_, _NOT_USED_, _NOT_USED_, _NOT_USED_,
	/*
	 * Single Write. (Offset 18 in UPMA RAM)
	 */
	0x1F0DFC04, 0xEEABBC00, 0x11B77C04, 0xEFFAFC44,
	0x1FF5FC47, /* last */
		    _NOT_USED_, _NOT_USED_, _NOT_USED_,
	/*
	 * Burst Write. (Offset 20 in UPMA RAM)
	 */
	0x1F0DFC04, 0xEEABBC00, 0x10A77C00, 0xF0AFFC00,
	0xF0AFFC00, 0xF0AFFC04, 0xE1BAFC44, 0x1FF5FC47, /* last */
	_NOT_USED_, _NOT_USED_, _NOT_USED_, _NOT_USED_,
	_NOT_USED_, _NOT_USED_, _NOT_USED_, _NOT_USED_,
	/*
	 * Refresh  (Offset 30 in UPMA RAM)
	 */
	0x1FFD7C84, 0xFFFFFC04, 0xFFFFFC04, 0xFFFFFC04,
	0xFFFFFC84, 0xFFFFFC07, /* last */
				_NOT_USED_, _NOT_USED_,
	_NOT_USED_, _NOT_USED_, _NOT_USED_, _NOT_USED_,
	/*
	 * Exception. (Offset 3c in UPMA RAM)
	 */
	0xFFFFFC07, /* last */
		    _NOT_USED_, _NOT_USED_, _NOT_USED_,
};

/* ------------------------------------------------------------------------- */


/*
 * Check Board Identity:
 *
 * Test TQ ID string (TQM8xx...)
 * If present, check for "L" type (no second DRAM bank),
 * otherwise "L" type is assumed as default.
 *
 * Set board_type to 'L' for "L" type, 'M' for "M" type, 0 else.
 */

int checkboard (void)
{
	char *s = getenv ("serial#");

	puts ("Board: ");

	if (!s || strncmp (s, "TQM8", 4)) {
		puts ("### No HW ID - assuming TQM8xxL\n");
		return (0);
	}

	if ((*(s + 6) == 'L')) {	/* a TQM8xxL type */
		gd->board_type = 'L';
	}

	if ((*(s + 6) == 'M')) {	/* a TQM8xxM type */
		gd->board_type = 'M';
	}

	if ((*(s + 6) == 'D')) {	/* a TQM885D type */
		gd->board_type = 'D';
	}

	for (; *s; ++s) {
		if (*s == ' ')
			break;
		putc (*s);
	}
#ifdef CONFIG_VIRTLAB2
	puts (" (Virtlab2)");
#endif
	putc ('\n');

	return (0);
}

/* ------------------------------------------------------------------------- */

phys_size_t initdram (int board_type)
{
	volatile immap_t *immap = (immap_t *) CFG_IMMR;
	volatile memctl8xx_t *memctl = &immap->im_memctl;
	long int size8, size9, size10;
	long int size_b0 = 0;
	long int size_b1 = 0;

	upmconfig (UPMA, (uint *) sdram_table,
			   sizeof (sdram_table) / sizeof (uint));

	/*
	 * Preliminary prescaler for refresh (depends on number of
	 * banks): This value is selected for four cycles every 62.4 us
	 * with two SDRAM banks or four cycles every 31.2 us with one
	 * bank. It will be adjusted after memory sizing.
	 */
	memctl->memc_mptpr = CFG_MPTPR_2BK_8K;

	/*
	 * The following value is used as an address (i.e. opcode) for
	 * the LOAD MODE REGISTER COMMAND during SDRAM initialisation. If
	 * the port size is 32bit the SDRAM does NOT "see" the lower two
	 * address lines, i.e. mar=0x00000088 -> opcode=0x00000022 for
	 * MICRON SDRAMs:
	 * ->    0 00 010 0 010
	 *       |  |   | |   +- Burst Length = 4
	 *       |  |   | +----- Burst Type   = Sequential
	 *       |  |   +------- CAS Latency  = 2
	 *       |  +----------- Operating Mode = Standard
	 *       +-------------- Write Burst Mode = Programmed Burst Length
	 */
	memctl->memc_mar = 0x00000088;

	/*
	 * Map controller banks 2 and 3 to the SDRAM banks 2 and 3 at
	 * preliminary addresses - these have to be modified after the
	 * SDRAM size has been determined.
	 */
	memctl->memc_or2 = CFG_OR2_PRELIM;
	memctl->memc_br2 = CFG_BR2_PRELIM;

#ifndef	CONFIG_CAN_DRIVER
	if ((board_type != 'L') &&
	    (board_type != 'M') &&
	    (board_type != 'D') ) {	/* only one SDRAM bank on L, M and D modules */
		memctl->memc_or3 = CFG_OR3_PRELIM;
		memctl->memc_br3 = CFG_BR3_PRELIM;
	}
#endif							/* CONFIG_CAN_DRIVER */

	memctl->memc_mamr = CFG_MAMR_8COL & (~(MAMR_PTAE));	/* no refresh yet */

	udelay (200);

	/* perform SDRAM initializsation sequence */

	memctl->memc_mcr = 0x80004105;	/* SDRAM bank 0 */
	udelay (1);
	memctl->memc_mcr = 0x80004230;	/* SDRAM bank 0 - execute twice */
	udelay (1);

#ifndef	CONFIG_CAN_DRIVER
	if ((board_type != 'L') &&
	    (board_type != 'M') &&
	    (board_type != 'D') ) {	/* only one SDRAM bank on L, M and D modules */
		memctl->memc_mcr = 0x80006105;	/* SDRAM bank 1 */
		udelay (1);
		memctl->memc_mcr = 0x80006230;	/* SDRAM bank 1 - execute twice */
		udelay (1);
	}
#endif							/* CONFIG_CAN_DRIVER */

	memctl->memc_mamr |= MAMR_PTAE;	/* enable refresh */

	udelay (1000);

	/*
	 * Check Bank 0 Memory Size for re-configuration
	 *
	 * try 8 column mode
	 */
	size8 = dram_size (CFG_MAMR_8COL, SDRAM_BASE2_PRELIM, SDRAM_MAX_SIZE);
	debug ("SDRAM Bank 0 in 8 column mode: %ld MB\n", size8 >> 20);

	udelay (1000);

	/*
	 * try 9 column mode
	 */
	size9 = dram_size (CFG_MAMR_9COL, SDRAM_BASE2_PRELIM, SDRAM_MAX_SIZE);
	debug ("SDRAM Bank 0 in 9 column mode: %ld MB\n", size9 >> 20);

	udelay(1000);

#if defined(CFG_MAMR_10COL)
	/*
	 * try 10 column mode
	 */
	size10 = dram_size (CFG_MAMR_10COL, SDRAM_BASE2_PRELIM, SDRAM_MAX_SIZE);
	debug ("SDRAM Bank 0 in 10 column mode: %ld MB\n", size10 >> 20);
#else
	size10 = 0;
#endif /* CFG_MAMR_10COL */

	if ((size8 < size10) && (size9 < size10)) {
		size_b0 = size10;
	} else if ((size8 < size9) && (size10 < size9)) {
		size_b0 = size9;
		memctl->memc_mamr = CFG_MAMR_9COL;
		udelay (500);
	} else {
		size_b0 = size8;
		memctl->memc_mamr = CFG_MAMR_8COL;
		udelay (500);
	}
	debug ("SDRAM Bank 0: %ld MB\n", size_b0 >> 20);

#ifndef	CONFIG_CAN_DRIVER
	if ((board_type != 'L') &&
	    (board_type != 'M') &&
	    (board_type != 'D') ) {	/* only one SDRAM bank on L, M and D modules */
		/*
		 * Check Bank 1 Memory Size
		 * use current column settings
		 * [9 column SDRAM may also be used in 8 column mode,
		 *  but then only half the real size will be used.]
		 */
		size_b1 = dram_size (memctl->memc_mamr, (long int *)SDRAM_BASE3_PRELIM,
				     SDRAM_MAX_SIZE);
		debug ("SDRAM Bank 1: %ld MB\n", size_b1 >> 20);
	} else {
		size_b1 = 0;
	}
#endif	/* CONFIG_CAN_DRIVER */

	udelay (1000);

	/*
	 * Adjust refresh rate depending on SDRAM type, both banks
	 * For types > 128 MBit leave it at the current (fast) rate
	 */
	if ((size_b0 < 0x02000000) && (size_b1 < 0x02000000)) {
		/* reduce to 15.6 us (62.4 us / quad) */
		memctl->memc_mptpr = CFG_MPTPR_2BK_4K;
		udelay (1000);
	}

	/*
	 * Final mapping: map bigger bank first
	 */
	if (size_b1 > size_b0) {	/* SDRAM Bank 1 is bigger - map first   */

		memctl->memc_or3 = ((-size_b1) & 0xFFFF0000) | CFG_OR_TIMING_SDRAM;
		memctl->memc_br3 = (CFG_SDRAM_BASE & BR_BA_MSK) | BR_MS_UPMA | BR_V;

		if (size_b0 > 0) {
			/*
			 * Position Bank 0 immediately above Bank 1
			 */
			memctl->memc_or2 = ((-size_b0) & 0xFFFF0000) | CFG_OR_TIMING_SDRAM;
			memctl->memc_br2 = ((CFG_SDRAM_BASE & BR_BA_MSK) | BR_MS_UPMA | BR_V)
					   + size_b1;
		} else {
			unsigned long reg;

			/*
			 * No bank 0
			 *
			 * invalidate bank
			 */
			memctl->memc_br2 = 0;

			/* adjust refresh rate depending on SDRAM type, one bank */
			reg = memctl->memc_mptpr;
			reg >>= 1;			/* reduce to CFG_MPTPR_1BK_8K / _4K */
			memctl->memc_mptpr = reg;
		}

	} else {					/* SDRAM Bank 0 is bigger - map first   */

		memctl->memc_or2 = ((-size_b0) & 0xFFFF0000) | CFG_OR_TIMING_SDRAM;
		memctl->memc_br2 =
				(CFG_SDRAM_BASE & BR_BA_MSK) | BR_MS_UPMA | BR_V;

		if (size_b1 > 0) {
			/*
			 * Position Bank 1 immediately above Bank 0
			 */
			memctl->memc_or3 =
					((-size_b1) & 0xFFFF0000) | CFG_OR_TIMING_SDRAM;
			memctl->memc_br3 =
					((CFG_SDRAM_BASE & BR_BA_MSK) | BR_MS_UPMA | BR_V)
					+ size_b0;
		} else {
			unsigned long reg;

#ifndef	CONFIG_CAN_DRIVER
			/*
			 * No bank 1
			 *
			 * invalidate bank
			 */
			memctl->memc_br3 = 0;
#endif							/* CONFIG_CAN_DRIVER */

			/* adjust refresh rate depending on SDRAM type, one bank */
			reg = memctl->memc_mptpr;
			reg >>= 1;			/* reduce to CFG_MPTPR_1BK_8K / _4K */
			memctl->memc_mptpr = reg;
		}
	}

	udelay (10000);

#ifdef	CONFIG_CAN_DRIVER
	/* UPM initialization for CAN @ CLKOUT <= 66 MHz */

	/* Initialize OR3 / BR3 */
	memctl->memc_or3 = CFG_OR3_CAN;
	memctl->memc_br3 = CFG_BR3_CAN;

	/* Initialize MBMR */
	memctl->memc_mbmr = MBMR_GPL_B4DIS;	/* GPL_B4 ouput line Disable */

	/* Initialize UPMB for CAN: single read */
	memctl->memc_mdr = 0xFFFFCC04;
	memctl->memc_mcr = 0x0100 | UPMB;

	memctl->memc_mdr = 0x0FFFD004;
	memctl->memc_mcr = 0x0101 | UPMB;

	memctl->memc_mdr = 0x0FFFC000;
	memctl->memc_mcr = 0x0102 | UPMB;

	memctl->memc_mdr = 0x3FFFC004;
	memctl->memc_mcr = 0x0103 | UPMB;

	memctl->memc_mdr = 0xFFFFDC07;
	memctl->memc_mcr = 0x0104 | UPMB;

	/* Initialize UPMB for CAN: single write */
	memctl->memc_mdr = 0xFFFCCC04;
	memctl->memc_mcr = 0x0118 | UPMB;

	memctl->memc_mdr = 0xCFFCDC04;
	memctl->memc_mcr = 0x0119 | UPMB;

	memctl->memc_mdr = 0x3FFCC000;
	memctl->memc_mcr = 0x011A | UPMB;

	memctl->memc_mdr = 0xFFFCC004;
	memctl->memc_mcr = 0x011B | UPMB;

	memctl->memc_mdr = 0xFFFDC405;
	memctl->memc_mcr = 0x011C | UPMB;
#endif							/* CONFIG_CAN_DRIVER */

#ifdef	CONFIG_ISP1362_USB
	/* Initialize OR5 / BR5 */
	memctl->memc_or5 = CFG_OR5_ISP1362;
	memctl->memc_br5 = CFG_BR5_ISP1362;
#endif							/* CONFIG_ISP1362_USB */


	return (size_b0 + size_b1);
}

/* ------------------------------------------------------------------------- */

/*
 * Check memory range for valid RAM. A simple memory test determines
 * the actually available RAM size between addresses `base' and
 * `base + maxsize'. Some (not all) hardware errors are detected:
 * - short between address lines
 * - short between data lines
 */

static long int dram_size (long int mamr_value, long int *base, long int maxsize)
{
	volatile immap_t *immap = (immap_t *) CFG_IMMR;
	volatile memctl8xx_t *memctl = &immap->im_memctl;

	memctl->memc_mamr = mamr_value;

	return (get_ram_size(base, maxsize));
}

/* ------------------------------------------------------------------------- */

#ifdef CONFIG_PS2MULT

#ifdef CONFIG_HMI10
#define BASE_BAUD ( 1843200 / 16 )
struct serial_state rs_table[] = {
	{ BASE_BAUD, 4,  (void*)0xec140000 },
	{ BASE_BAUD, 2,  (void*)0xec150000 },
	{ BASE_BAUD, 6,  (void*)0xec160000 },
	{ BASE_BAUD, 10, (void*)0xec170000 },
};

#ifdef CONFIG_BOARD_EARLY_INIT_R
int board_early_init_r (void)
{
	ps2mult_early_init();
	return (0);
}
#endif
#endif /* CONFIG_HMI10 */

#endif /* CONFIG_PS2MULT */


#ifdef CONFIG_MISC_INIT_R
int misc_init_r (void)
{
	volatile immap_t     *immap  = (immap_t *)CFG_IMMR;
	volatile memctl8xx_t *memctl = &immap->im_memctl;

#ifdef	CFG_OR_TIMING_FLASH_AT_50MHZ
	int scy, trlx, flash_or_timing, clk_diff;

	scy = (CFG_OR_TIMING_FLASH_AT_50MHZ & OR_SCY_MSK) >> 4;
	if (CFG_OR_TIMING_FLASH_AT_50MHZ & OR_TRLX) {
		trlx = OR_TRLX;
		scy *= 2;
	} else
		trlx = 0;

		/*
		 * We assume that each 10MHz of bus clock require 1-clk SCY
		 * adjustment.
		 */
	clk_diff = (gd->bus_clk / 1000000) - 50;

		/*
		 * We need proper rounding here. This is what the "+5" and "-5"
		 * are here for.
		 */
	if (clk_diff >= 0)
		scy += (clk_diff + 5) / 10;
	else
		scy += (clk_diff - 5) / 10;

		/*
		 * For bus frequencies above 50MHz, we want to use relaxed timing
		 * (OR_TRLX).
		 */
	if (gd->bus_clk >= 50000000)
		trlx = OR_TRLX;
	else
		trlx = 0;

	if (trlx)
		scy /= 2;

	if (scy > 0xf)
		scy = 0xf;
	if (scy < 1)
		scy = 1;

	flash_or_timing = (scy << 4) | trlx |
	                  (CFG_OR_TIMING_FLASH_AT_50MHZ & ~(OR_TRLX | OR_SCY_MSK));

	memctl->memc_or0 = flash_or_timing | (-flash_info[0].size & OR_AM_MSK);
#else
	memctl->memc_or0 = CFG_OR_TIMING_FLASH | (-flash_info[0].size & OR_AM_MSK);
#endif
	memctl->memc_br0 = (CFG_FLASH_BASE & BR_BA_MSK) | BR_MS_GPCM | BR_V;

	debug ("## BR0: 0x%08x    OR0: 0x%08x\n",
		memctl->memc_br0, memctl->memc_or0);

	if (flash_info[1].size) {
#ifdef	CFG_OR_TIMING_FLASH_AT_50MHZ
		memctl->memc_or1 = flash_or_timing |
				   (-flash_info[1].size & 0xFFFF8000);
#else
		memctl->memc_or1 = CFG_OR_TIMING_FLASH |
				   (-flash_info[1].size & 0xFFFF8000);
#endif
		memctl->memc_br1 = ((CFG_FLASH_BASE + flash_info[0].size) & BR_BA_MSK) |
				    BR_MS_GPCM | BR_V;

		debug ("## BR1: 0x%08x    OR1: 0x%08x\n",
			memctl->memc_br1, memctl->memc_or1);
	} else {
		memctl->memc_br1 = 0;		/* invalidate bank */

		debug ("## DISABLE BR1: 0x%08x    OR1: 0x%08x\n",
			memctl->memc_br1, memctl->memc_or1);
	}

# ifdef CONFIG_IDE_LED
	/* Configure PA15 as output port */
	immap->im_ioport.iop_padir |= 0x0001;
	immap->im_ioport.iop_paodr |= 0x0001;
	immap->im_ioport.iop_papar &= ~0x0001;
	immap->im_ioport.iop_padat &= ~0x0001;	/* turn it off */
# endif

#ifdef CONFIG_NSCU
	/* wake up ethernet module */
	immap->im_ioport.iop_pcpar &= ~0x0004; /* GPIO pin	*/
	immap->im_ioport.iop_pcdir |=  0x0004; /* output	*/
	immap->im_ioport.iop_pcso  &= ~0x0004; /* for clarity	*/
	immap->im_ioport.iop_pcdat |=  0x0004; /* enable	*/
#endif	/* CONFIG_NSCU */

	return (0);
}
#endif	/* CONFIG_MISC_INIT_R */


# ifdef CONFIG_IDE_LED
void ide_led (uchar led, uchar status)
{
	volatile immap_t *immap = (immap_t *) CFG_IMMR;

	/* We have one led for both pcmcia slots */
	if (status) {				/* led on */
		immap->im_ioport.iop_padat |= 0x0001;
	} else {
		immap->im_ioport.iop_padat &= ~0x0001;
	}
}
# endif

/* ---------------------------------------------------------------------------- */
/* TK885D specific initializaion						*/
/* ---------------------------------------------------------------------------- */
#ifdef CONFIG_TK885D
#include <miiphy.h>
int last_stage_init(void)
{
	const unsigned char phy[] = {CONFIG_FEC1_PHY, CONFIG_FEC2_PHY};
	unsigned short reg;
	int ret, i = 100;
	char *s;

	mii_init();
	/* Without this delay 0xff is read from the UART buffer later in
	 * abortboot() and autoboot is aborted */
	udelay(10000);
	while (tstc() && i--)
		(void)getc();

	/* Check if auto-negotiation is prohibited */
	s = getenv("phy_auto_nego");

	if (!s || !strcmp(s, "on"))
		/* Nothing to do - autonegotiation by default */
		return 0;

	for (i = 0; i < 2; i++) {
		ret = miiphy_read("FEC ETHERNET", phy[i], PHY_BMCR, &reg);
		if (ret) {
			printf("Cannot read BMCR on PHY %d\n", phy[i]);
			return 0;
		}
		/* Auto-negotiation off, hard set full duplex, 100Mbps */
		ret = miiphy_write("FEC ETHERNET", phy[i],
				   PHY_BMCR, (reg | PHY_BMCR_100MB |
					      PHY_BMCR_DPLX) & ~PHY_BMCR_AUTON);
		if (ret) {
			printf("Cannot write BMCR on PHY %d\n", phy[i]);
			return 0;
		}
	}

	return 0;
}

#endif

/* ------------------------------------------------------------------------- */