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/*
* (C) Copyright 2004-05; Tundra Semiconductor Corp.
*
* Added automatic detect of SDC settings
* Copyright (c) 2005 Freescale Semiconductor, Inc.
* Maintainer tie-fei.zang@freescale.com
*
* SPDX-License-Identifier: GPL-2.0+
*/
/*
* FILENAME: asm_init.s
*
* Originator: Alex Bounine
*
* DESCRIPTION:
* Initialization code for the Tundra Tsi108 bridge chip
*
*/
#include <config.h>
#include <version.h>
#include <ppc_asm.tmpl>
#include <ppc_defs.h>
#include <asm/processor.h>
#include <tsi108.h>
/*
* Build Configuration Options
*/
/* #define DISABLE_PBM disables usage of PB Master */
/* #define SDC_HARDCODED_INIT config SDRAM controller with hardcoded values */
/* #define SDC_AUTOPRECH_EN enable SDRAM auto precharge */
/*
* Hardcoded SDC settings
*/
#ifdef SDC_HARDCODED_INIT
/* Micron MT9HTF6472AY-40EA1 : Unbuffered, 512MB, 400, CL3, Single Rank */
#define VAL_SD_REFRESH (0x61A)
#define VAL_SD_TIMING (0x0308336b)
#define VAL_SD_D0_CTRL (0x07100021) /* auto-precharge disabled */
#define VAL_SD_D0_BAR (0x0FE00000) /* 512MB @ 0x00000000 */
#define VAL_SD_D1_CTRL (0x07100021) /* auto-precharge disabled */
#define VAL_SD_D1_BAR (0x0FE00200) /* 512MB @ 0x20000000 */
#endif /* SDC_HARDCODED_INIT */
/*
CPU Configuration:
CPU Address and Data Parity enables.
#define CPU_AP
#define CPU_DP
*/
/*
* Macros
* !!! Attention !!! Macros LOAD_PTR, LOAD_U32 and LOAD_MEM defined below are
* expected to work correctly for the CSR space within 32KB range.
*
* LOAD_PTR and LOAD_U32 - load specified register with a 32 bit constant.
* These macros are absolutely identical except their names. This difference
* is provided intentionally for better readable code.
*/
#define LOAD_PTR(reg,const32) \
addis reg,r0,const32@h; ori reg,reg,const32@l
#define LOAD_U32(reg,const32) \
addis reg,r0,const32@h; ori reg,reg,const32@l
/* LOADMEM initializes a register with the contents of a specified 32-bit
* memory location, usually a CSR value.
*/
#define LOAD_MEM(reg,addr32) \
addis reg,r0,addr32@ha; lwz reg,addr32@l(reg)
#ifndef SDC_HARDCODED_INIT
sdc_clk_sync:
/* MHz: 0,0,183,100,133,167,200,233 */
.long 0, 0, 6, 10, 8, 6, 5, 4 /* nSec */
#endif
/*
* board_asm_init() - early initialization function. Coded to be portable to
* dual-CPU configuration.
* Checks CPU number and performs board HW initialization if called for CPU0.
* Registers used: r3,r4,r5,r6,r19,r29
*
* NOTE: For dual-CPU configuration only CPU0 is allowed to configure Tsi108
* and the rest of the board. Current implementation demonstrates two
* possible ways to identify CPU number:
* - for MPC74xx platform: uses MSSCR0[ID] bit as defined in UM.
* - for PPC750FX/GX boards: uses WHO_AM_I bit reported by Tsi108.
*/
.globl board_asm_init
board_asm_init:
mflr r19 /* Save LR to be able return later. */
bl icache_enable /* Enable icache to reduce reads from flash. */
/* Initialize pointer to Tsi108 register space */
LOAD_PTR(r29,CONFIG_SYS_TSI108_CSR_RST_BASE)/* r29 - pointer to tsi108 CSR space */
ori r4,r29,TSI108_PB_REG_OFFSET
/* Check Processor Version Number */
mfspr r3, PVR
rlwinm r3,r3,16,16,23 /* get ((Processor Version Number) & 0xFF00) */
cmpli 0,0,r3,0x8000 /* MPC74xx */
bne cont_brd_init
/*
* For MPC744x/5x enable extended BATs[4-7]
* Sri: Set HIGH_BAT_EN and XBSEN, and SPD =1
* to disable prefetch
*/
mfspr r5, HID0
oris r5, r5, 0x0080 /* Set HID0[HIGH_BAT_EN] bit #8 */
ori r5, r5, 0x0380 /* Set SPD,XBSEN,SGE bits #22,23,24 */
mtspr HID0, r5
isync
sync
/* Adding code to disable external interventions in MPX bus mode */
mfspr r3, 1014
oris r3, r3, 0x0100 /* Set the EIDIS bit in MSSCR0: bit 7 */
mtspr 1014, r3
isync
sync
/* Sri: code to enable FP unit */
mfmsr r3
ori r3, r3, 0x2000
mtmsr r3
isync
sync
/* def CONFIG_DUAL_CPU
* For MPC74xx processor, use MSSCR0[ID] bit to identify CPU number.
*/
#if(1)
mfspr r3,1014 /* read MSSCR0 */
rlwinm. r3,r3,27,31,31 /* get processor ID number */
mtspr SPRN_PIR,r3 /* Save CPU ID */
sync
bne init_done
b do_tsi108_init
cont_brd_init:
/* An alternative method of checking the processor number (in addition
* to configuration using MSSCR0[ID] bit on MPC74xx).
* Good for IBM PPC750FX/GX.
*/
lwz r3,PB_BUS_MS_SELECT(r4) /* read PB_ID register */
rlwinm. r3,r3,24,31,31 /* get processor ID number */
bne init_done
#else
cont_brd_init:
#endif /* CONFIG_DUAL_CPU */
/* Initialize Tsi108 chip */
do_tsi108_init:
/*
* Adjust HLP/Flash parameters. By default after reset the HLP port is
* set to support slow devices. Better performance can be achived when
* an optimal parameters are used for specific EPROM device.
* NOTE: This should be performed ASAP for the emulation platform
* because it has 5MHz HLP clocking.
*/
#ifdef CONFIG_TSI108EMU
ori r4,r29,TSI108_HLP_REG_OFFSET
LOAD_U32(r5,0x434422c0)
stw r5,0x08(r4) /* set HLP B0_CTRL0 */
sync
LOAD_U32(r5,0xd0012000)
stw r5,0x0c(r4) /* set HLP B0_CTRL1 */
sync
#endif
/* Initialize PB interface. */
ori r4,r29,TSI108_PB_REG_OFFSET
#if (CONFIG_SYS_TSI108_CSR_BASE != CONFIG_SYS_TSI108_CSR_RST_BASE)
/* Relocate (if required) Tsi108 registers. Set new value for
* PB_REG_BAR:
* Note we are in the 32-bit address mode.
*/
LOAD_U32(r5,(CONFIG_SYS_TSI108_CSR_BASE | 0x01)) /* PB_REG_BAR: BA + EN */
stw r5,PB_REG_BAR(r4)
andis. r29,r5,0xFFFF
sync
ori r4,r29,TSI108_PB_REG_OFFSET
#endif
/* Set PB Slave configuration register */
LOAD_U32(r5,0x00002481) /* PB_SCR: TEA enabled,AACK delay = 1 */
lwz r3, PB_RSR(r4) /* get PB bus mode */
xori r3,r3,0x0001 /* mask PB_BMODE: r3 -> (0 = 60X, 1 = MPX) */
rlwimi r5,r3,14,17,17 /* for MPX: set DTI_MODE bit */
stw r5,PB_SCR(r4)
sync
/* Configure PB Arbiter */
lwz r5,PB_ARB_CTRL(r4) /* Read PB Arbiter Control Register */
li r3, 0x00F0 /* ARB_PIPELINE_DEP mask */
#ifdef DISABLE_PBM
ori r3,r3,0x1000 /* add PBM_EN to clear (enabled by default) */
#endif
andc r5,r5,r3 /* Clear the masked bit fields */
ori r5,r5,0x0001 /* Set pipeline depth */
stw r5,PB_ARB_CTRL(r4)
#if (0) /* currently using the default settings for PBM after reset */
LOAD_U32(r5,0x) /* value for PB_MCR */
stw r5,PB_MCR(r4)
sync
LOAD_U32(r5,0x) /* value for PB_MCMD */
stw r5,PB_MCMD(r4)
sync
#endif
/* Disable or enable PVT based on processor bus frequency
* 1. Read CG_PWRUP_STATUS register field bits 18,17,16
* 2. See if the value is < or > 133mhz (18:16 = 100)
* 3. If > enable PVT
*/
LOAD_U32(r3,0xC0002234)
lwz r3,0(r3)
rlwinm r3,r3,16,29,31
cmpi 0,0,r3,0x0004
bgt sdc_init
#ifndef CONFIG_TSI108EMU
/* FIXME: Disable PB calibration control for any real Tsi108 board */
li r5,0x0101 /* disable calibration control */
stw r5,PB_PVT_CTRL2(r4)
sync
#endif
/* Initialize SDRAM controller. */
sdc_init:
#ifndef SDC_HARDCODED_INIT
/* get SDC clock prior doing sdram controller autoconfig */
ori r4,r29,TSI108_CLK_REG_OFFSET /* r4 - ptr to CG registers */
lwz r3, CG_PWRUP_STATUS(r4) /* get CG configuration */
rlwinm r3,r3,12,29,31 /* r3 - SD clk */
lis r5,sdc_clk_sync@h
ori r5,r5,sdc_clk_sync@l
/* Sri: At this point check if r3 = 001. If yes,
* the memory frequency should be same as the
* MPX bus frequency
*/
cmpi 0,0,r3,0x0001
bne get_nsec
lwz r6, CG_PWRUP_STATUS(r4)
rlwinm r6,r6,16,29,31
mr r3,r6
get_nsec:
rlwinm r3,r3,2,0,31
lwzx r9,r5,r3 /* get SD clk rate in nSec */
/* ATTN: r9 will be used by SPD routine */
#endif /* !SDC_HARDCODED_INIT */
ori r4,r29,TSI108_SD_REG_OFFSET /* r4 - ptr to SDRAM registers */
/* Initialize SDRAM controller. SDRAM Size = 512MB, One DIMM. */
LOAD_U32(r5,0x00)
stw r5,SD_INT_ENABLE(r4) /* Ensure that interrupts are disabled */
#ifdef ENABLE_SDRAM_ECC
li r5, 0x01
#endif /* ENABLE_SDRAM_ECC */
stw r5,SD_ECC_CTRL(r4) /* Enable/Disable ECC */
sync
#ifdef SDC_HARDCODED_INIT /* config sdram controller with hardcoded values */
/* First read the CG_PWRUP_STATUS register to get the
* memory speed from bits 22,21,20
*/
LOAD_U32(r3,0xC0002234)
lwz r3,0(r3)
rlwinm r3,r3,12,29,31
/* Now first check for 166, then 200, or default */
cmpi 0,0,r3,0x0005
bne check_for_200mhz
/* set values for 166 Mhz memory speed
* Set refresh rate and timing parameters
*/
LOAD_U32(r5,0x00000515)
stw r5,SD_REFRESH(r4)
LOAD_U32(r5,0x03073368)
stw r5,SD_TIMING(r4)
sync
/* Initialize DIMM0 control and BAR registers */
LOAD_U32(r5,VAL_SD_D0_CTRL) /* auto-precharge disabled */
#ifdef SDC_AUTOPRECH_EN
oris r5,r5,0x0001 /* set auto precharge EN bit */
#endif
stw r5,SD_D0_CTRL(r4)
LOAD_U32(r5,VAL_SD_D0_BAR)
stw r5,SD_D0_BAR(r4)
sync
/* Initialize DIMM1 control and BAR registers
* (same as dimm 0, next 512MB, disabled)
*/
LOAD_U32(r5,VAL_SD_D1_CTRL) /* auto-precharge disabled */
#ifdef SDC_AUTOPRECH_EN
oris r5,r5,0x0001 /* set auto precharge EN bit */
#endif
stw r5,SD_D1_CTRL(r4)
LOAD_U32(r5,VAL_SD_D1_BAR)
stw r5,SD_D1_BAR(r4)
sync
b sdc_init_done
check_for_200mhz:
cmpi 0,0,r3,0x0006
bne set_default_values
/* set values for 200Mhz memory speed
* Set refresh rate and timing parameters
*/
LOAD_U32(r5,0x0000061a)
stw r5,SD_REFRESH(r4)
LOAD_U32(r5,0x03083348)
stw r5,SD_TIMING(r4)
sync
/* Initialize DIMM0 control and BAR registers */
LOAD_U32(r5,VAL_SD_D0_CTRL) /* auto-precharge disabled */
#ifdef SDC_AUTOPRECH_EN
oris r5,r5,0x0001 /* set auto precharge EN bit */
#endif
stw r5,SD_D0_CTRL(r4)
LOAD_U32(r5,VAL_SD_D0_BAR)
stw r5,SD_D0_BAR(r4)
sync
/* Initialize DIMM1 control and BAR registers
* (same as dimm 0, next 512MB, disabled)
*/
LOAD_U32(r5,VAL_SD_D1_CTRL) /* auto-precharge disabled */
#ifdef SDC_AUTOPRECH_EN
oris r5,r5,0x0001 /* set auto precharge EN bit */
#endif
stw r5,SD_D1_CTRL(r4)
LOAD_U32(r5,VAL_SD_D1_BAR)
stw r5,SD_D1_BAR(r4)
sync
b sdc_init_done
set_default_values:
/* Set refresh rate and timing parameters */
LOAD_U32(r5,VAL_SD_REFRESH)
stw r5,SD_REFRESH(r4)
LOAD_U32(r5,VAL_SD_TIMING)
stw r5,SD_TIMING(r4)
sync
/* Initialize DIMM0 control and BAR registers */
LOAD_U32(r5,VAL_SD_D0_CTRL) /* auto-precharge disabled */
#ifdef SDC_AUTOPRECH_EN
oris r5,r5,0x0001 /* set auto precharge EN bit */
#endif
stw r5,SD_D0_CTRL(r4)
LOAD_U32(r5,VAL_SD_D0_BAR)
stw r5,SD_D0_BAR(r4)
sync
/* Initialize DIMM1 control and BAR registers
* (same as dimm 0, next 512MB, disabled)
*/
LOAD_U32(r5,VAL_SD_D1_CTRL) /* auto-precharge disabled */
#ifdef SDC_AUTOPRECH_EN
oris r5,r5,0x0001 /* set auto precharge EN bit */
#endif
stw r5,SD_D1_CTRL(r4)
LOAD_U32(r5,VAL_SD_D1_BAR)
stw r5,SD_D1_BAR(r4)
sync
#else /* !SDC_HARDCODED_INIT */
bl tsi108_sdram_spd /* automatically detect SDC settings */
#endif /* SDC_HARDCODED_INIT */
sdc_init_done:
#ifdef DISABLE_PBM
LOAD_U32(r5,0x00000030) /* PB_EN + OCN_EN */
#else
LOAD_U32(r5,0x00000230) /* PB_EN + OCN_EN + PB/OCN=80/20 */
#endif /* DISABLE_PBM */
#ifdef CONFIG_TSI108EMU
oris r5,r5,0x0010 /* set EMULATION_MODE bit */
#endif
stw r5,SD_CTRL(r4)
eieio
sync
/* Enable SDRAM access */
oris r5,r5,0x8000 /* start SDC: set SD_CTRL[ENABLE] bit */
stw r5,SD_CTRL(r4)
sync
wait_init_complete:
lwz r5,SD_STATUS(r4)
andi. r5,r5,0x0001
/* wait until SDRAM initialization is complete */
beq wait_init_complete
/* Map SDRAM into the processor bus address space */
ori r4,r29,TSI108_PB_REG_OFFSET
/* Setup BARs associated with direct path PB<->SDRAM */
/* PB_SDRAM_BAR1:
* provides a direct path to the main system memory (cacheable SDRAM)
*/
/* BA=0,Size=512MB, ENable, No Addr.Translation */
LOAD_U32(r5, 0x00000011)
stw r5,PB_SDRAM_BAR1(r4)
sync
/* Make sure that PB_SDRAM_BAR1 decoder is set
* (to allow following immediate read from SDRAM)
*/
lwz r5,PB_SDRAM_BAR1(r4)
sync
/* PB_SDRAM_BAR2:
* provides non-cacheable alias (via the direct path) to main
* system memory.
* Size = 512MB, ENable, Addr.Translation - ON,
* BA = 0x0_40000000, TA = 0x0_00000000
*/
LOAD_U32(r5, 0x40010011)
stw r5,PB_SDRAM_BAR2(r4)
sync
/* Make sure that PB_SDRAM_BAR2 decoder is set
* (to allow following immediate read from SDRAM)
*/
lwz r5,PB_SDRAM_BAR2(r4)
sync
init_done:
/* All done. Restore LR and return. */
mtlr r19
blr
#if (0)
/*
* init_cpu1
* This routine enables CPU1 on the dual-processor system.
* Now there is only one processor in the system
*/
.global enable_cpu1
enable_cpu1:
lis r3,Tsi108_Base@ha /* Get Grendel CSR Base Addr */
addi r3,r3,Tsi108_Base@l
lwz r3,0(r3) /* R3 = CSR Base Addr */
ori r4,r3,TSI108_PB_REG_OFFSET
lwz r3,PB_ARB_CTRL(r4) /* Read PB Arbiter Control Register */
ori r3,r3,0x0200 /* Set M1_EN bit */
stw r3,PB_ARB_CTRL(r4)
blr
#endif
/*
* enable_EI
* Enable CPU core external interrupt
*/
.global enable_EI
enable_EI:
mfmsr r3
ori r3,r3,0x8000 /* set EE bit */
mtmsr r3
blr
/*
* disable_EI
* Disable CPU core external interrupt
*/
.global disable_EI
disable_EI:
mfmsr r3
li r4,-32768 /* aka "li r4,0x8000" */
andc r3,r3,r4 /* clear EE bit */
mtmsr r3
blr
#ifdef ENABLE_SDRAM_ECC
/* enables SDRAM ECC */
.global enable_ECC
enable_ECC:
ori r4,r29,TSI108_SD_REG_OFFSET
lwz r3,SD_ECC_CTRL(r4) /* Read SDRAM ECC Control Register */
ori r3,r3,0x0001 /* Set ECC_EN bit */
stw r3,SD_ECC_CTRL(r4)
blr
/*
* clear_ECC_err
* Clears all pending SDRAM ECC errors
* (normally after SDRAM scrubbing/initialization)
*/
.global clear_ECC_err
clear_ECC_err:
ori r4,r29,TSI108_SD_REG_OFFSET
ori r3,r0,0x0030 /* ECC_UE_INT + ECC_CE_INT bits */
stw r3,SD_INT_STATUS(r4)
blr
#endif /* ENABLE_SDRAM_ECC */
#ifndef SDC_HARDCODED_INIT
/* SDRAM SPD Support */
#define SD_I2C_CTRL1 (0x400)
#define SD_I2C_CTRL2 (0x404)
#define SD_I2C_RD_DATA (0x408)
#define SD_I2C_WR_DATA (0x40C)
/*
* SDRAM SPD Support Macros
*/
#define SPD_DIMM0 (0x00000100)
#define SPD_DIMM1 (0x00000200) /* SPD_DIMM1 was 0x00000000 */
#define SPD_RDIMM (0x01)
#define SPD_UDIMM (0x02)
#define SPD_CAS_3 0x8
#define SPD_CAS_4 0x10
#define SPD_CAS_5 0x20
#define ERR_NO_DIMM_FOUND (0xdb0)
#define ERR_TRAS_FAIL (0xdb1)
#define ERR_TRCD_FAIL (0xdb2)
#define ERR_TRP_FAIL (0xdb3)
#define ERR_TWR_FAIL (0xdb4)
#define ERR_UNKNOWN_PART (0xdb5)
#define ERR_NRANK_INVALID (0xdb6)
#define ERR_DIMM_SIZE (0xdb7)
#define ERR_ADDR_MODE (0xdb8)
#define ERR_RFRSH_RATE (0xdb9)
#define ERR_DIMM_TYPE (0xdba)
#define ERR_CL_VALUE (0xdbb)
#define ERR_TRFC_FAIL (0xdbc)
/* READ_SPD requirements:
* byte - byte address in SPD device (0 - 255)
* r3 = will return data read from I2C Byte location
* r4 - unchanged (SDC base addr)
* r5 - clobbered in routine (I2C status)
* r10 - number of DDR slot where first SPD device is detected
*/
#define READ_SPD(byte_num) \
addis r3, 0, byte_num@l; \
or r3, r3, r10; \
ori r3, r3, 0x0A; \
stw r3, SD_I2C_CTRL1(r4); \
li r3, I2C_CNTRL2_START; \
stw r3, SD_I2C_CTRL2(r4); \
eieio; \
sync; \
li r3, 0x100; \
1:; \
addic. r3, r3, -1; \
bne 1b; \
2:; \
lwz r5, SD_I2C_CTRL2(r4); \
rlwinm. r3,r5,0,23,23; \
bne 2b; \
rlwinm. r3,r5,0,3,3; \
lwz r3,SD_I2C_RD_DATA(r4)
#define SPD_MIN_RFRSH (0x80)
#define SPD_MAX_RFRSH (0x85)
refresh_rates: /* in nSec */
.long 15625 /* Normal (0x80) */
.long 3900 /* Reduced 0.25x (0x81) */
.long 7800 /* Reduced 0.5x (0x82) */
.long 31300 /* Extended 2x (0x83) */
.long 62500 /* Extended 4x (0x84) */
.long 125000 /* Extended 8x (0x85) */
/*
* tsi108_sdram_spd
*
* Inittializes SDRAM Controller using DDR2 DIMM Serial Presence Detect data
* Uses registers: r4 - SDC base address (not changed)
* r9 - SDC clocking period in nSec
* Changes registers: r3,r5,r6,r7,r8,r10,r11
*/
tsi108_sdram_spd:
li r10,SPD_DIMM0
xor r11,r11,r11 /* DIMM Base Address: starts from 0 */
do_first_dimm:
/* Program Refresh Rate Register */
READ_SPD(12) /* get Refresh Rate */
beq check_next_slot
li r5, ERR_RFRSH_RATE
cmpi 0,0,r3,SPD_MIN_RFRSH
ble spd_fail
cmpi 0,0,r3,SPD_MAX_RFRSH
bgt spd_fail
addi r3,r3,-SPD_MIN_RFRSH
rlwinm r3,r3,2,0,31
lis r5,refresh_rates@h
ori r5,r5,refresh_rates@l
lwzx r5,r5,r3 /* get refresh rate in nSec */
divwu r5,r5,r9 /* calculate # of SDC clocks */
stw r5,SD_REFRESH(r4) /* Set refresh rate */
sync
/* Program SD Timing Register */
li r7, 0 /* clear r7 prior parameter collection */
READ_SPD(20) /* get DIMM type: Registered or Unbuffered */
beq spd_read_fail
li r5, ERR_DIMM_TYPE
cmpi 0,0,r3,SPD_UDIMM
beq do_cl
cmpi 0,0,r3,SPD_RDIMM
bne spd_fail
oris r7,r7,0x1000 /* set SD_TIMING[DIMM_TYPE] bit */
do_cl:
READ_SPD(18) /* Get CAS Latency */
beq spd_read_fail
li r5,ERR_CL_VALUE
andi. r6,r3,SPD_CAS_3
beq cl_4
li r6,3
b set_cl
cl_4:
andi. r6,r3,SPD_CAS_4
beq cl_5
li r6,4
b set_cl
cl_5:
andi. r6,r3,SPD_CAS_5
beq spd_fail
li r6,5
set_cl:
rlwimi r7,r6,24,5,7
READ_SPD(30) /* Get tRAS */
beq spd_read_fail
divwu r6,r3,r9
mullw r8,r6,r9
subf. r8,r8,r3
beq set_tras
addi r6,r6,1
set_tras:
li r5,ERR_TRAS_FAIL
cmpi 0,0,r6,0x0F /* max supported value */
bgt spd_fail
rlwimi r7,r6,16,12,15
READ_SPD(29) /* Get tRCD */
beq spd_read_fail
/* right shift tRCD by 2 bits as per DDR2 spec */
rlwinm r3,r3,30,2,31
divwu r6,r3,r9
mullw r8,r6,r9
subf. r8,r8,r3
beq set_trcd
addi r6,r6,1
set_trcd:
li r5,ERR_TRCD_FAIL
cmpi 0,0,r6,0x07 /* max supported value */
bgt spd_fail
rlwimi r7,r6,12,17,19
READ_SPD(27) /* Get tRP value */
beq spd_read_fail
rlwinm r3,r3,30,2,31 /* right shift tRP by 2 bits as per DDR2 spec */
divwu r6,r3,r9
mullw r8,r6,r9
subf. r8,r8,r3
beq set_trp
addi r6,r6,1
set_trp:
li r5,ERR_TRP_FAIL
cmpi 0,0,r6,0x07 /* max supported value */
bgt spd_fail
rlwimi r7,r6,8,21,23
READ_SPD(36) /* Get tWR value */
beq spd_read_fail
rlwinm r3,r3,30,2,31 /* right shift tWR by 2 bits as per DDR2 spec */
divwu r6,r3,r9
mullw r8,r6,r9
subf. r8,r8,r3
beq set_twr
addi r6,r6,1
set_twr:
addi r6,r6,-1 /* Tsi108 SDC always gives one extra clock */
li r5,ERR_TWR_FAIL
cmpi 0,0,r6,0x07 /* max supported value */
bgt spd_fail
rlwimi r7,r6,5,24,26
READ_SPD(42) /* Get tRFC */
beq spd_read_fail
li r5, ERR_TRFC_FAIL
/* Tsi108 spec: tRFC=(tRFC + 1)/2 */
addi r3,r3,1
rlwinm. r3,r3,31,1,31 /* divide by 2 */
beq spd_fail
divwu r6,r3,r9
mullw r8,r6,r9
subf. r8,r8,r3
beq set_trfc
addi r6,r6,1
set_trfc:
cmpi 0,0,r6,0x1F /* max supported value */
bgt spd_fail
rlwimi r7,r6,0,27,31
stw r7,SD_TIMING(r4)
sync
/*
* The following two registers are set on per-DIMM basis.
* The SD_REFRESH and SD_TIMING settings are common for both DIMMS
*/
do_each_dimm:
/* Program SDRAM DIMM Control Register */
li r7, 0 /* clear r7 prior parameter collection */
READ_SPD(13) /* Get Primary SDRAM Width */
beq spd_read_fail
cmpi 0,0,r3,4 /* Check for 4-bit SDRAM */
beq do_nbank
oris r7,r7,0x0010 /* Set MEM_WIDTH bit */
do_nbank:
READ_SPD(17) /* Get Number of banks on SDRAM device */
beq spd_read_fail
/* Grendel only distinguish betw. 4 or 8-bank memory parts */
li r5,ERR_UNKNOWN_PART /* non-supported memory part */
cmpi 0,0,r3,4
beq do_nrank
cmpi 0,0,r3,8
bne spd_fail
ori r7,r7,0x1000
do_nrank:
READ_SPD(5) /* Get # of Ranks */
beq spd_read_fail
li r5,ERR_NRANK_INVALID
andi. r6,r3,0x7 /* Use bits [2..0] only */
beq do_addr_mode
cmpi 0,0,r6,1
bgt spd_fail
rlwimi r7,r6,8,23,23
do_addr_mode:
READ_SPD(4) /* Get # of Column Addresses */
beq spd_read_fail
li r5, ERR_ADDR_MODE
andi. r3,r3,0x0f /* cut off reserved bits */
cmpi 0,0,r3,8
ble spd_fail
cmpi 0,0,r3,15
bgt spd_fail
addi r6,r3,-8 /* calculate ADDR_MODE parameter */
rlwimi r7,r6,4,24,27 /* set ADDR_MODE field */
set_dimm_ctrl:
#ifdef SDC_AUTOPRECH_EN
oris r7,r7,0x0001 /* set auto precharge EN bit */
#endif
ori r7,r7,1 /* set ENABLE bit */
cmpi 0,0,r10,SPD_DIMM0
bne 1f
stw r7,SD_D0_CTRL(r4)
sync
b set_dimm_bar
1:
stw r7,SD_D1_CTRL(r4)
sync
/* Program SDRAM DIMMx Base Address Register */
set_dimm_bar:
READ_SPD(5) /* get # of Ranks */
beq spd_read_fail
andi. r7,r3,0x7
addi r7,r7,1
READ_SPD(31) /* Read DIMM rank density */
beq spd_read_fail
rlwinm r5,r3,27,29,31
rlwinm r6,r3,3,24,28
or r5,r6,r5 /* r5 = Normalized Rank Density byte */
lis r8, 0x0080 /* 128MB >> 4 */
mullw r8,r8,r5 /* r8 = (rank_size >> 4) */
mullw r8,r8,r7 /* r8 = (DIMM_size >> 4) */
neg r7,r8
rlwinm r7,r7,28,4,31
or r7,r7,r11 /* set ADDR field */
rlwinm r8,r8,12,20,31
add r11,r11,r8 /* set Base Addr for next DIMM */
cmpi 0,0,r10,SPD_DIMM0
bne set_dimm1_size
stw r7,SD_D0_BAR(r4)
sync
li r10,SPD_DIMM1
READ_SPD(0)
bne do_each_dimm
b spd_done
set_dimm1_size:
stw r7,SD_D1_BAR(r4)
sync
spd_done:
blr
check_next_slot:
cmpi 0,0,r10,SPD_DIMM1
beq spd_read_fail
li r10,SPD_DIMM1
b do_first_dimm
spd_read_fail:
ori r3,r0,0xdead
b err_hung
spd_fail:
li r3,0x0bad
sync
err_hung: /* hang here for debugging */
nop
nop
b err_hung
#endif /* !SDC_HARDCODED_INIT */