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/*
* Freescale SerDes initialization routine
*
* Copyright (C) 2007 Freescale Semicondutor, Inc.
* Copyright (C) 2008 MontaVista Software, Inc.
*
* Author: Li Yang <leoli@freescale.com>
*
* 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.
*/
#include <config.h>
#include <common.h>
#include <asm/io.h>
#include <asm/fsl_serdes.h>
/* SerDes registers */
#define FSL_SRDSCR0_OFFS 0x0
#define FSL_SRDSCR0_DPP_1V2 0x00008800
#define FSL_SRDSCR1_OFFS 0x4
#define FSL_SRDSCR1_PLLBW 0x00000040
#define FSL_SRDSCR2_OFFS 0x8
#define FSL_SRDSCR2_VDD_1V2 0x00800000
#define FSL_SRDSCR2_SEIC_MASK 0x00001c1c
#define FSL_SRDSCR2_SEIC_SATA 0x00001414
#define FSL_SRDSCR2_SEIC_PEX 0x00001010
#define FSL_SRDSCR2_SEIC_SGMII 0x00000101
#define FSL_SRDSCR3_OFFS 0xc
#define FSL_SRDSCR3_KFR_SATA 0x10100000
#define FSL_SRDSCR3_KPH_SATA 0x04040000
#define FSL_SRDSCR3_SDFM_SATA_PEX 0x01010000
#define FSL_SRDSCR3_SDTXL_SATA 0x00000505
#define FSL_SRDSCR4_OFFS 0x10
#define FSL_SRDSCR4_PROT_SATA 0x00000808
#define FSL_SRDSCR4_PROT_PEX 0x00000101
#define FSL_SRDSCR4_PROT_SGMII 0x00000505
#define FSL_SRDSCR4_PLANE_X2 0x01000000
#define FSL_SRDSRSTCTL_OFFS 0x20
#define FSL_SRDSRSTCTL_RST 0x80000000
#define FSL_SRDSRSTCTL_SATA_RESET 0xf
void fsl_setup_serdes(u32 offset, char proto, u32 rfcks, char vdd)
{
void *regs = (void *)CONFIG_SYS_IMMR + offset;
u32 tmp;
/* 1.0V corevdd */
if (vdd) {
/* DPPE/DPPA = 0 */
tmp = in_be32(regs + FSL_SRDSCR0_OFFS);
tmp &= ~FSL_SRDSCR0_DPP_1V2;
out_be32(regs + FSL_SRDSCR0_OFFS, tmp);
/* VDD = 0 */
tmp = in_be32(regs + FSL_SRDSCR2_OFFS);
tmp &= ~FSL_SRDSCR2_VDD_1V2;
out_be32(regs + FSL_SRDSCR2_OFFS, tmp);
}
/* protocol specific configuration */
switch (proto) {
case FSL_SERDES_PROTO_SATA:
/* Set and clear reset bits */
tmp = in_be32(regs + FSL_SRDSRSTCTL_OFFS);
tmp |= FSL_SRDSRSTCTL_SATA_RESET;
out_be32(regs + FSL_SRDSRSTCTL_OFFS, tmp);
udelay(1000);
tmp &= ~FSL_SRDSRSTCTL_SATA_RESET;
out_be32(regs + FSL_SRDSRSTCTL_OFFS, tmp);
/* Configure SRDSCR1 */
tmp = in_be32(regs + FSL_SRDSCR1_OFFS);
tmp &= ~FSL_SRDSCR1_PLLBW;
out_be32(regs + FSL_SRDSCR1_OFFS, tmp);
/* Configure SRDSCR2 */
tmp = in_be32(regs + FSL_SRDSCR2_OFFS);
tmp &= ~FSL_SRDSCR2_SEIC_MASK;
tmp |= FSL_SRDSCR2_SEIC_SATA;
out_be32(regs + FSL_SRDSCR2_OFFS, tmp);
/* Configure SRDSCR3 */
tmp = FSL_SRDSCR3_KFR_SATA | FSL_SRDSCR3_KPH_SATA |
FSL_SRDSCR3_SDFM_SATA_PEX |
FSL_SRDSCR3_SDTXL_SATA;
out_be32(regs + FSL_SRDSCR3_OFFS, tmp);
/* Configure SRDSCR4 */
tmp = rfcks | FSL_SRDSCR4_PROT_SATA;
out_be32(regs + FSL_SRDSCR4_OFFS, tmp);
break;
case FSL_SERDES_PROTO_PEX:
case FSL_SERDES_PROTO_PEX_X2:
/* Configure SRDSCR1 */
tmp = in_be32(regs + FSL_SRDSCR1_OFFS);
tmp |= FSL_SRDSCR1_PLLBW;
out_be32(regs + FSL_SRDSCR1_OFFS, tmp);
/* Configure SRDSCR2 */
tmp = in_be32(regs + FSL_SRDSCR2_OFFS);
tmp &= ~FSL_SRDSCR2_SEIC_MASK;
tmp |= FSL_SRDSCR2_SEIC_PEX;
out_be32(regs + FSL_SRDSCR2_OFFS, tmp);
/* Configure SRDSCR3 */
tmp = FSL_SRDSCR3_SDFM_SATA_PEX;
out_be32(regs + FSL_SRDSCR3_OFFS, tmp);
/* Configure SRDSCR4 */
tmp = rfcks | FSL_SRDSCR4_PROT_PEX;
if (proto == FSL_SERDES_PROTO_PEX_X2)
tmp |= FSL_SRDSCR4_PLANE_X2;
out_be32(regs + FSL_SRDSCR4_OFFS, tmp);
break;
case FSL_SERDES_PROTO_SGMII:
/* Configure SRDSCR1 */
tmp = in_be32(regs + FSL_SRDSCR1_OFFS);
tmp &= ~FSL_SRDSCR1_PLLBW;
out_be32(regs + FSL_SRDSCR1_OFFS, tmp);
/* Configure SRDSCR2 */
tmp = in_be32(regs + FSL_SRDSCR2_OFFS);
tmp &= ~FSL_SRDSCR2_SEIC_MASK;
tmp |= FSL_SRDSCR2_SEIC_SGMII;
out_be32(regs + FSL_SRDSCR2_OFFS, tmp);
/* Configure SRDSCR3 */
out_be32(regs + FSL_SRDSCR3_OFFS, 0);
/* Configure SRDSCR4 */
tmp = rfcks | FSL_SRDSCR4_PROT_SGMII;
out_be32(regs + FSL_SRDSCR4_OFFS, tmp);
break;
default:
return;
}
/* Do a software reset */
tmp = in_be32(regs + FSL_SRDSRSTCTL_OFFS);
tmp |= FSL_SRDSRSTCTL_RST;
out_be32(regs + FSL_SRDSRSTCTL_OFFS, tmp);
}