u-boot/arch/powerpc/cpu/mpc85xx/mpc8536_serdes.c
Kumar Gala af0250652a powerpc/85xx: Rework MPC8536 SERDES is_serdes_configured support
Move serdes init until after we are in ram so we can keep track of a
global static protocal map for the particular serdes config we are in.
This makes is_serdes_configured() much simplier and not constantly
reading registers to determine if a given device is enabled based on the
protocol.

Signed-off-by: Kumar Gala <galak@kernel.crashing.org>
2010-07-21 00:40:16 -05:00

249 lines
7.6 KiB
C

/*
* Copyright 2008,2010 Freescale Semiconductor, Inc.
* Dave Liu <daveliu@freescale.com>
*
* 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 <config.h>
#include <common.h>
#include <asm/io.h>
#include <asm/immap_85xx.h>
#include <asm/fsl_serdes.h>
/* PORDEVSR register */
#define GUTS_PORDEVSR_OFFS 0xc
#define GUTS_PORDEVSR_SERDES2_IO_SEL 0x38000000
#define GUTS_PORDEVSR_SERDES2_IO_SEL_SHIFT 27
/* SerDes CR0 register */
#define FSL_SRDSCR0_OFFS 0x0
#define FSL_SRDSCR0_TXEQA_MASK 0x00007000
#define FSL_SRDSCR0_TXEQA_SGMII 0x00004000
#define FSL_SRDSCR0_TXEQA_SATA 0x00001000
#define FSL_SRDSCR0_TXEQE_MASK 0x00000700
#define FSL_SRDSCR0_TXEQE_SGMII 0x00000400
#define FSL_SRDSCR0_TXEQE_SATA 0x00000100
/* SerDes CR1 register */
#define FSL_SRDSCR1_OFFS 0x4
#define FSL_SRDSCR1_LANEA_MASK 0x80200000
#define FSL_SRDSCR1_LANEA_OFF 0x80200000
#define FSL_SRDSCR1_LANEE_MASK 0x08020000
#define FSL_SRDSCR1_LANEE_OFF 0x08020000
/* SerDes CR2 register */
#define FSL_SRDSCR2_OFFS 0x8
#define FSL_SRDSCR2_EICA_MASK 0x00001f00
#define FSL_SRDSCR2_EICA_SGMII 0x00000400
#define FSL_SRDSCR2_EICA_SATA 0x00001400
#define FSL_SRDSCR2_EICE_MASK 0x0000001f
#define FSL_SRDSCR2_EICE_SGMII 0x00000004
#define FSL_SRDSCR2_EICE_SATA 0x00000014
/* SerDes CR3 register */
#define FSL_SRDSCR3_OFFS 0xc
#define FSL_SRDSCR3_LANEA_MASK 0x3f000700
#define FSL_SRDSCR3_LANEA_SGMII 0x00000000
#define FSL_SRDSCR3_LANEA_SATA 0x15000500
#define FSL_SRDSCR3_LANEE_MASK 0x003f0007
#define FSL_SRDSCR3_LANEE_SGMII 0x00000000
#define FSL_SRDSCR3_LANEE_SATA 0x00150005
#define SRDS1_MAX_LANES 8
#define SRDS2_MAX_LANES 2
static u32 serdes1_prtcl_map, serdes2_prtcl_map;
static u8 serdes1_cfg_tbl[][SRDS1_MAX_LANES] = {
[0x2] = {PCIE1, PCIE1, PCIE1, PCIE1, NONE, NONE, NONE, NONE},
[0x3] = {PCIE1, PCIE1, PCIE1, PCIE1, PCIE1, PCIE1, PCIE1, PCIE1},
[0x5] = {PCIE1, PCIE1, PCIE1, PCIE1, PCIE2, PCIE2, PCIE2, PCIE2},
[0x7] = {PCIE1, PCIE1, PCIE1, PCIE1, PCIE2, PCIE2, PCIE3, PCIE3},
};
static u8 serdes2_cfg_tbl[][SRDS2_MAX_LANES] = {
[0x1] = {SATA1, SATA2},
[0x3] = {SATA1, NONE},
[0x4] = {SGMII_TSEC1, SGMII_TSEC3},
[0x6] = {SGMII_TSEC1, NONE},
};
int is_serdes_configured(enum srds_prtcl device)
{
int ret = (1 << device) & serdes1_prtcl_map;
if (ret)
return ret;
return (1 << device) & serdes2_prtcl_map;
}
void fsl_serdes_init(void)
{
void *guts = (void *)(CONFIG_SYS_MPC85xx_GUTS_ADDR);
void *sd = (void *)CONFIG_SYS_MPC85xx_SERDES2_ADDR;
u32 pordevsr = in_be32(guts + GUTS_PORDEVSR_OFFS);
u32 srds1_io_sel, srds2_io_sel;
u32 tmp;
int lane;
srds1_io_sel = (pordevsr & MPC85xx_PORDEVSR_IO_SEL) >>
MPC85xx_PORDEVSR_IO_SEL_SHIFT;
/* parse the SRDS2_IO_SEL of PORDEVSR */
srds2_io_sel = (pordevsr & GUTS_PORDEVSR_SERDES2_IO_SEL)
>> GUTS_PORDEVSR_SERDES2_IO_SEL_SHIFT;
debug("PORDEVSR[SRDS1_IO_SEL] = %x\n", srds1_io_sel);
debug("PORDEVSR[SRDS2_IO_SEL] = %x\n", srds2_io_sel);
switch (srds2_io_sel) {
case 1: /* Lane A - SATA1, Lane E - SATA2 */
/* CR 0 */
tmp = in_be32(sd + FSL_SRDSCR0_OFFS);
tmp &= ~FSL_SRDSCR0_TXEQA_MASK;
tmp |= FSL_SRDSCR0_TXEQA_SATA;
tmp &= ~FSL_SRDSCR0_TXEQE_MASK;
tmp |= FSL_SRDSCR0_TXEQE_SATA;
out_be32(sd + FSL_SRDSCR0_OFFS, tmp);
/* CR 1 */
tmp = in_be32(sd + FSL_SRDSCR1_OFFS);
tmp &= ~FSL_SRDSCR1_LANEA_MASK;
tmp &= ~FSL_SRDSCR1_LANEE_MASK;
out_be32(sd + FSL_SRDSCR1_OFFS, tmp);
/* CR 2 */
tmp = in_be32(sd + FSL_SRDSCR2_OFFS);
tmp &= ~FSL_SRDSCR2_EICA_MASK;
tmp |= FSL_SRDSCR2_EICA_SATA;
tmp &= ~FSL_SRDSCR2_EICE_MASK;
tmp |= FSL_SRDSCR2_EICE_SATA;
out_be32(sd + FSL_SRDSCR2_OFFS, tmp);
/* CR 3 */
tmp = in_be32(sd + FSL_SRDSCR3_OFFS);
tmp &= ~FSL_SRDSCR3_LANEA_MASK;
tmp |= FSL_SRDSCR3_LANEA_SATA;
tmp &= ~FSL_SRDSCR3_LANEE_MASK;
tmp |= FSL_SRDSCR3_LANEE_SATA;
out_be32(sd + FSL_SRDSCR3_OFFS, tmp);
break;
case 3: /* Lane A - SATA1, Lane E - disabled */
/* CR 0 */
tmp = in_be32(sd + FSL_SRDSCR0_OFFS);
tmp &= ~FSL_SRDSCR0_TXEQA_MASK;
tmp |= FSL_SRDSCR0_TXEQA_SATA;
out_be32(sd + FSL_SRDSCR0_OFFS, tmp);
/* CR 1 */
tmp = in_be32(sd + FSL_SRDSCR1_OFFS);
tmp &= ~FSL_SRDSCR1_LANEE_MASK;
tmp |= FSL_SRDSCR1_LANEE_OFF;
out_be32(sd + FSL_SRDSCR1_OFFS, tmp);
/* CR 2 */
tmp = in_be32(sd + FSL_SRDSCR2_OFFS);
tmp &= ~FSL_SRDSCR2_EICA_MASK;
tmp |= FSL_SRDSCR2_EICA_SATA;
out_be32(sd + FSL_SRDSCR2_OFFS, tmp);
/* CR 3 */
tmp = in_be32(sd + FSL_SRDSCR3_OFFS);
tmp &= ~FSL_SRDSCR3_LANEA_MASK;
tmp |= FSL_SRDSCR3_LANEA_SATA;
out_be32(sd + FSL_SRDSCR3_OFFS, tmp);
break;
case 4: /* Lane A - eTSEC1 SGMII, Lane E - eTSEC3 SGMII */
/* CR 0 */
tmp = in_be32(sd + FSL_SRDSCR0_OFFS);
tmp &= ~FSL_SRDSCR0_TXEQA_MASK;
tmp |= FSL_SRDSCR0_TXEQA_SGMII;
tmp &= ~FSL_SRDSCR0_TXEQE_MASK;
tmp |= FSL_SRDSCR0_TXEQE_SGMII;
out_be32(sd + FSL_SRDSCR0_OFFS, tmp);
/* CR 1 */
tmp = in_be32(sd + FSL_SRDSCR1_OFFS);
tmp &= ~FSL_SRDSCR1_LANEA_MASK;
tmp &= ~FSL_SRDSCR1_LANEE_MASK;
out_be32(sd + FSL_SRDSCR1_OFFS, tmp);
/* CR 2 */
tmp = in_be32(sd + FSL_SRDSCR2_OFFS);
tmp &= ~FSL_SRDSCR2_EICA_MASK;
tmp |= FSL_SRDSCR2_EICA_SGMII;
tmp &= ~FSL_SRDSCR2_EICE_MASK;
tmp |= FSL_SRDSCR2_EICE_SGMII;
out_be32(sd + FSL_SRDSCR2_OFFS, tmp);
/* CR 3 */
tmp = in_be32(sd + FSL_SRDSCR3_OFFS);
tmp &= ~FSL_SRDSCR3_LANEA_MASK;
tmp |= FSL_SRDSCR3_LANEA_SGMII;
tmp &= ~FSL_SRDSCR3_LANEE_MASK;
tmp |= FSL_SRDSCR3_LANEE_SGMII;
out_be32(sd + FSL_SRDSCR3_OFFS, tmp);
break;
case 6: /* Lane A - eTSEC1 SGMII, Lane E - disabled */
/* CR 0 */
tmp = in_be32(sd + FSL_SRDSCR0_OFFS);
tmp &= ~FSL_SRDSCR0_TXEQA_MASK;
tmp |= FSL_SRDSCR0_TXEQA_SGMII;
out_be32(sd + FSL_SRDSCR0_OFFS, tmp);
/* CR 1 */
tmp = in_be32(sd + FSL_SRDSCR1_OFFS);
tmp &= ~FSL_SRDSCR1_LANEE_MASK;
tmp |= FSL_SRDSCR1_LANEE_OFF;
out_be32(sd + FSL_SRDSCR1_OFFS, tmp);
/* CR 2 */
tmp = in_be32(sd + FSL_SRDSCR2_OFFS);
tmp &= ~FSL_SRDSCR2_EICA_MASK;
tmp |= FSL_SRDSCR2_EICA_SGMII;
out_be32(sd + FSL_SRDSCR2_OFFS, tmp);
/* CR 3 */
tmp = in_be32(sd + FSL_SRDSCR3_OFFS);
tmp &= ~FSL_SRDSCR3_LANEA_MASK;
tmp |= FSL_SRDSCR3_LANEA_SGMII;
out_be32(sd + FSL_SRDSCR3_OFFS, tmp);
break;
case 7: /* Lane A - disabled, Lane E - disabled */
/* CR 1 */
tmp = in_be32(sd + FSL_SRDSCR1_OFFS);
tmp &= ~FSL_SRDSCR1_LANEA_MASK;
tmp |= FSL_SRDSCR1_LANEA_OFF;
tmp &= ~FSL_SRDSCR1_LANEE_MASK;
tmp |= FSL_SRDSCR1_LANEE_OFF;
out_be32(sd + FSL_SRDSCR1_OFFS, tmp);
break;
default:
break;
}
if (srds1_io_sel > ARRAY_SIZE(serdes1_cfg_tbl)) {
printf("Invalid PORDEVSR[SRDS1_IO_SEL] = %d\n", srds1_io_sel);
return;
}
for (lane = 0; lane < SRDS1_MAX_LANES; lane++) {
enum srds_prtcl lane_prtcl = serdes1_cfg_tbl[srds1_io_sel][lane];
serdes1_prtcl_map |= (1 << lane_prtcl);
}
if (srds2_io_sel > ARRAY_SIZE(serdes2_cfg_tbl)) {
printf("Invalid PORDEVSR[SRDS2_IO_SEL] = %d\n", srds2_io_sel);
return;
}
for (lane = 0; lane < SRDS2_MAX_LANES; lane++) {
enum srds_prtcl lane_prtcl = serdes2_cfg_tbl[srds2_io_sel][lane];
serdes2_prtcl_map |= (1 << lane_prtcl);
}
}