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+/*----------------------------------------------------------------------+
+ *
+ * This source code has been made available to you by IBM on an AS-IS
+ * basis. Anyone receiving this source is licensed under IBM
+ * copyrights to use it in any way he or she deems fit, including
+ * copying it, modifying it, compiling it, and redistributing it either
+ * with or without modifications. No license under IBM patents or
+ * patent applications is to be implied by the copyright license.
+ *
+ * Any user of this software should understand that IBM cannot provide
+ * technical support for this software and will not be responsible for
+ * any consequences resulting from the use of this software.
+ *
+ * Any person who transfers this source code or any derivative work
+ * must include the IBM copyright notice, this paragraph, and the
+ * preceding two paragraphs in the transferred software.
+ *
+ * COPYRIGHT I B M CORPORATION 1995
+ * LICENSED MATERIAL - PROGRAM PROPERTY OF I B M
+ *-----------------------------------------------------------------------
+ */
+
+#include <config.h>
+#include <ppc4xx.h>
+#include "config.h"
+
+#define _LINUX_CONFIG_H 1 /* avoid reading Linux autoconf.h file */
+#define FPGA_BRDC 0xF0300004
+
+#include <ppc_asm.tmpl>
+#include <ppc_defs.h>
+
+#include <asm/cache.h>
+#include <asm/mmu.h>
+
+#include "exbitgen.h"
+
+/* IIC declarations (This is an extract from 405gp_i2c.h, which also contains some */
+/* c-code declarations and consequently can't be included here). */
+/* (Possibly to be solved somehow else). */
+/*--------------------------------------------------------------------- */
+#define I2C_REGISTERS_BASE_ADDRESS 0xEF600500
+#define IIC_MDBUF (I2C_REGISTERS_BASE_ADDRESS+IICMDBUF)
+#define IIC_SDBUF (I2C_REGISTERS_BASE_ADDRESS+IICSDBUF)
+#define IIC_LMADR (I2C_REGISTERS_BASE_ADDRESS+IICLMADR)
+#define IIC_HMADR (I2C_REGISTERS_BASE_ADDRESS+IICHMADR)
+#define IIC_CNTL (I2C_REGISTERS_BASE_ADDRESS+IICCNTL)
+#define IIC_MDCNTL (I2C_REGISTERS_BASE_ADDRESS+IICMDCNTL)
+#define IIC_STS (I2C_REGISTERS_BASE_ADDRESS+IICSTS)
+#define IIC_EXTSTS (I2C_REGISTERS_BASE_ADDRESS+IICEXTSTS)
+#define IIC_LSADR (I2C_REGISTERS_BASE_ADDRESS+IICLSADR)
+#define IIC_HSADR (I2C_REGISTERS_BASE_ADDRESS+IICHSADR)
+#define IIC_CLKDIV (I2C_REGISTERS_BASE_ADDRESS+IICCLKDIV)
+#define IIC_INTRMSK (I2C_REGISTERS_BASE_ADDRESS+IICINTRMSK)
+#define IIC_XFRCNT (I2C_REGISTERS_BASE_ADDRESS+IICXFRCNT)
+#define IIC_XTCNTLSS (I2C_REGISTERS_BASE_ADDRESS+IICXTCNTLSS)
+#define IIC_DIRECTCNTL (I2C_REGISTERS_BASE_ADDRESS+IICDIRECTCNTL)
+
+/* MDCNTL Register Bit definition */
+#define IIC_MDCNTL_HSCL 0x01
+#define IIC_MDCNTL_EUBS 0x02
+#define IIC_MDCNTL_FMDB 0x40
+#define IIC_MDCNTL_FSDB 0x80
+
+/* CNTL Register Bit definition */
+#define IIC_CNTL_PT 0x01
+#define IIC_CNTL_READ 0x02
+#define IIC_CNTL_CHT 0x04
+
+/* STS Register Bit definition */
+#define IIC_STS_PT 0X01
+#define IIC_STS_ERR 0X04
+#define IIC_STS_MDBS 0X20
+
+/* EXTSTS Register Bit definition */
+#define IIC_EXTSTS_XFRA 0X01
+#define IIC_EXTSTS_ICT 0X02
+#define IIC_EXTSTS_LA 0X04
+
+/* LED codes used for inditing progress and errors during read of DIMM SPD. */
+/*--------------------------------------------------------------------- */
+#define LED_SDRAM_CODE_1 0xef
+#define LED_SDRAM_CODE_2 0xee
+#define LED_SDRAM_CODE_3 0xed
+#define LED_SDRAM_CODE_4 0xec
+#define LED_SDRAM_CODE_5 0xeb
+#define LED_SDRAM_CODE_6 0xea
+#define LED_SDRAM_CODE_7 0xe9
+#define LED_SDRAM_CODE_8 0xe8
+#define LED_SDRAM_CODE_9 0xe7
+#define LED_SDRAM_CODE_10 0xe6
+#define LED_SDRAM_CODE_11 0xe5
+#define LED_SDRAM_CODE_12 0xe4
+#define LED_SDRAM_CODE_13 0xe3
+#define LED_SDRAM_CODE_14 0xe2
+#define LED_SDRAM_CODE_15 0xe1
+#define LED_SDRAM_CODE_16 0xe0
+
+
+#define TIMEBASE_10PS (1000000000 / CONFIG_SYS_CLK_FREQ) * 100
+
+#define FLASH_8bit_AP 0x9B015480
+#define FLASH_8bit_CR 0xFFF18000 /* 1MB(min), 8bit, R/W */
+
+#define FLASH_32bit_AP 0x9B015480
+#define FLASH_32bit_CR 0xFFE3C000 /* 2MB, 32bit, R/W */
+
+
+#define WDCR_EBC(reg,val) addi r4,0,reg;\
+ mtdcr ebccfga,r4;\
+ addis r4,0,val@h;\
+ ori r4,r4,val@l;\
+ mtdcr ebccfgd,r4
+
+/*---------------------------------------------------------------------
+ * Function: ext_bus_cntlr_init
+ * Description: Initializes the External Bus Controller for the external
+ * peripherals. IMPORTANT: For pass1 this code must run from
+ * cache since you can not reliably change a peripheral banks
+ * timing register (pbxap) while running code from that bank.
+ * For ex., since we are running from ROM on bank 0, we can NOT
+ * execute the code that modifies bank 0 timings from ROM, so
+ * we run it from cache.
+ * Bank 0 - Boot flash
+ * Bank 1-4 - application flash
+ * Bank 5 - CPLD
+ * Bank 6 - not used
+ * Bank 7 - Heathrow chip
+ *---------------------------------------------------------------------
+ */
+ .globl ext_bus_cntlr_init
+ext_bus_cntlr_init:
+ mflr r4 /* save link register */
+ bl ..getAddr
+..getAddr:
+ mflr r3 /* get address of ..getAddr */
+ mtlr r4 /* restore link register */
+ addi r4,0,14 /* set ctr to 10; used to prefetch */
+ mtctr r4 /* 10 cache lines to fit this function */
+ /* in cache (gives us 8x10=80 instrctns) */
+..ebcloop:
+ icbt r0,r3 /* prefetch cache line for addr in r3 */
+ addi r3,r3,32 /* move to next cache line */
+ bdnz ..ebcloop /* continue for 10 cache lines */
+
+ mflr r31 /* save link register */
+
+ /*-----------------------------------------------------------
+ * Delay to ensure all accesses to ROM are complete before changing
+ * bank 0 timings. 200usec should be enough.
+ * 200,000,000 (cycles/sec) X .000200 (sec) = 0x9C40 cycles
+ *-----------------------------------------------------------
+ */
+
+ addis r3,0,0x0
+ ori r3,r3,0xA000 /* ensure 200usec have passed since reset */
+ mtctr r3
+..spinlp:
+ bdnz ..spinlp /* spin loop */
+
+ /*---------------------------------------------------------------
+ * Memory Bank 0 (Boot Flash) initialization
+ *---------------------------------------------------------------
+ */
+ WDCR_EBC(pb0ap, FLASH_32bit_AP)
+ WDCR_EBC(pb0cr, 0xffe38000)
+/*pnc WDCR_EBC(pb0cr, FLASH_32bit_CR) */
+
+ /*---------------------------------------------------------------
+ * Memory Bank 5 (CPLD) initialization
+ *---------------------------------------------------------------
+ */
+ WDCR_EBC(pb5ap, 0x01010040)
+/*jsa recommendation: WDCR_EBC(pb5ap, 0x00010040) */
+ WDCR_EBC(pb5cr, 0x10038000)
+
+ /*--------------------------------------------------------------- */
+ /* Memory Bank 6 (not used) initialization */
+ /*--------------------------------------------------------------- */
+ WDCR_EBC(pb6cr, 0x00000000)
+
+ /* Read HW ID to determine whether old H2 board or new generic CPU board */
+ addis r3, 0, HW_ID_ADDR@h
+ ori r3, r3, HW_ID_ADDR@l
+ lbz r3,0x0000(r3)
+ cmpi 0, r3, 1 /* if (HW_ID==1) */
+ beq setup_h2evalboard /* then jump */
+ cmpi 0, r3, 2 /* if (HW_ID==2) */
+ beq setup_genieboard /* then jump */
+ cmpi 0, r3, 3 /* if (HW_ID==3) */
+ beq setup_genieboard /* then jump */
+
+setup_genieboard:
+ /*--------------------------------------------------------------- */
+ /* Memory Bank 1 (Application Flash) initialization for generic CPU board */
+ /*--------------------------------------------------------------- */
+/* WDCR_EBC(pb1ap, 0x7b015480) /###* T.B.M. */
+/* WDCR_EBC(pb1ap, 0x7F8FFE80) /###* T.B.M. */
+ WDCR_EBC(pb1ap, 0x9b015480) /* hlb-20020207: burst 8 bit 6 cycles */
+
+/* WDCR_EBC(pb1cr, 0x20098000) /###* 16 MB */
+ WDCR_EBC(pb1cr, 0x200B8000) /* 32 MB */
+
+ /*--------------------------------------------------------------- */
+ /* Memory Bank 4 (Onboard FPGA) initialization for generic CPU board */
+ /*--------------------------------------------------------------- */
+ WDCR_EBC(pb4ap, 0x01010000) /* */
+ WDCR_EBC(pb4cr, 0x1021c000) /* */
+
+ /*--------------------------------------------------------------- */
+ /* Memory Bank 7 (Heathrow chip on Reference board) initialization */
+ /*--------------------------------------------------------------- */
+ WDCR_EBC(pb7ap, 0x200ffe80) /* No Ready, many wait states (let reflections die out) */
+ WDCR_EBC(pb7cr, 0X4001A000)
+
+ bl setup_continue
+
+
+setup_h2evalboard:
+ /*--------------------------------------------------------------- */
+ /* Memory Bank 1 (Application Flash) initialization */
+ /*--------------------------------------------------------------- */
+ WDCR_EBC(pb1ap, 0x7b015480) /* T.B.M. */
+/*3010 WDCR_EBC(pb1ap, 0x7F8FFE80) /###* T.B.M. */
+ WDCR_EBC(pb1cr, 0x20058000)
+
+ /*--------------------------------------------------------------- */
+ /* Memory Bank 2 (Application Flash) initialization */
+ /*--------------------------------------------------------------- */
+ WDCR_EBC(pb2ap, 0x7b015480) /* T.B.M. */
+/*3010 WDCR_EBC(pb2ap, 0x7F8FFE80) /###* T.B.M. */
+ WDCR_EBC(pb2cr, 0x20458000)
+
+ /*--------------------------------------------------------------- */
+ /* Memory Bank 3 (Application Flash) initialization */
+ /*--------------------------------------------------------------- */
+ WDCR_EBC(pb3ap, 0x7b015480) /* T.B.M. */
+/*3010 WDCR_EBC(pb3ap, 0x7F8FFE80) /###* T.B.M. */
+ WDCR_EBC(pb3cr, 0x20858000)
+
+ /*--------------------------------------------------------------- */
+ /* Memory Bank 4 (Application Flash) initialization */
+ /*--------------------------------------------------------------- */
+ WDCR_EBC(pb4ap, 0x7b015480) /* T.B.M. */
+/*3010 WDCR_EBC(pb4ap, 0x7F8FFE80) /###* T.B.M. */
+ WDCR_EBC(pb4cr, 0x20C58000)
+
+ /*--------------------------------------------------------------- */
+ /* Memory Bank 7 (Heathrow chip) initialization */
+ /*--------------------------------------------------------------- */
+ WDCR_EBC(pb7ap, 0x02000280) /* No Ready, 4 wait states */
+ WDCR_EBC(pb7cr, 0X4001A000)
+
+setup_continue:
+
+
+ mtlr r31 /* restore lr */
+ nop /* pass2 DCR errata #8 */
+ blr
+
+/*--------------------------------------------------------------------- */
+/* Function: sdram_init */
+/* Description: Configures SDRAM memory banks. */
+/*--------------------------------------------------------------------- */
+ .globl sdram_init
+
+sdram_init:
+#if CFG_MONITOR_BASE < CFG_FLASH_BASE
+ blr
+#else
+ mflr r31
+
+ /* output SDRAM code on LEDs */
+ addi r4, 0, LED_SDRAM_CODE_1
+ addis r5, 0, 0x1000
+ ori r5, r5, 0x0001
+ stb r4,0(r5)
+ eieio
+
+ /* Read contents of spd */
+ /*--------------------- */
+ bl read_spd
+
+ /*----------------------------------------------------------- */
+ /* */
+ /* */
+ /* Update SDRAM timing register */
+ /* */
+ /* */
+ /*----------------------------------------------------------- */
+
+ /* Read PLL feedback divider and calculate clock period of local bus in */
+ /* granularity of 10 ps. Save clock period in r30 */
+ /*-------------------------------------------------------------- */
+ mfdcr r4, pllmd
+ addi r9, 0, 25
+ srw r4, r4, r9
+ andi. r4, r4, 0x07
+ addis r5, 0, TIMEBASE_10PS@h
+ ori r5, r5, TIMEBASE_10PS@l
+ divwu r30, r5, r4
+
+ /* Determine CASL */
+ /*--------------- */
+ bl find_casl /* Returns CASL in r3 */
+
+ /* Calc trp_clocks = (trp * 100 + (clk - 1)) / clk */
+ /* (trp read from byte 27 in granularity of 1 ns) */
+ /*------------------------------------------------ */
+ mulli r16, r16, 100
+ add r16, r16, r30
+ addi r6, 0, 1
+ subf r16, r6, r16
+ divwu r16, r16, r30
+
+ /* Calc trcd_clocks = (trcd * 100 + (clk - 1) ) / clk */
+ /* (trcd read from byte 29 in granularity of 1 ns) */
+ /*--------------------------------------------------- */
+ mulli r17, r17, 100
+ add r17, r17, r30
+ addi r6, 0, 1
+ subf r17, r6, r17
+ divwu r17, r17, r30
+
+ /* Calc tras_clocks = (tras * 100 + (clk - 1) ) / clk */
+ /* (tras read from byte 30 in granularity of 1 ns) */
+ /*--------------------------------------------------- */
+ mulli r18, r18, 100
+ add r18, r18, r30
+ addi r6, 0, 1
+ subf r18, r6, r18
+ divwu r18, r18, r30
+
+ /* Calc trc_clocks = trp_clocks + tras_clocks */
+ /*------------------------------------------- */
+ add r18, r18, r16
+
+ /* CASL value */
+ /*----------- */
+ addi r9, 0, 23
+ slw r4, r3, r9
+
+ /* PTA = trp_clocks - 1 */
+ /*--------------------- */
+ addi r6, 0, 1
+ subf r5, r6, r16
+ addi r9, 0, 18
+ slw r5, r5, r9
+ or r4, r4, r5
+
+ /* CTP = trc_clocks - trp_clocks - trcd_clocks - 1 */
+ /*------------------------------------------------ */
+ addi r5, r18, 0
+ subf r5, r16, r5
+ subf r5, r17, r5
+ addi r6, 0, 1
+ subf r5, r6, r5
+ addi r9, 0, 16
+ slw r5, r5, r9
+ or r4, r4, r5
+
+ /* LDF = 1 */
+ /*-------- */
+ ori r4, r4, 0x4000
+
+ /* RFTA = trc_clocks - 4 */
+ /*---------------------- */
+ addi r6, 0, 4
+ subf r5, r6, r18
+ addi r9, 0, 2
+ slw r5, r5, r9
+ or r4, r4, r5
+
+ /* RCD = trcd_clocks - 1 */
+ /*---------------------- */
+ addi r6, 0, 1
+ subf r5, r6, r17
+ or r4, r4, r5
+
+ /*----------------------------------------------------------- */
+ /* Set SDTR1 */
+ /*----------------------------------------------------------- */
+ addi r5,0,mem_sdtr1
+ mtdcr memcfga,r5
+ mtdcr memcfgd,r4
+
+ /*----------------------------------------------------------- */
+ /* */
+ /* */
+ /* Update memory bank 0-3 configuration registers */
+ /* */
+ /* */
+ /*----------------------------------------------------------- */
+
+ /* Build contents of configuration register for bank 0 into r6 */
+ /*------------------------------------------------------------ */
+ bl find_mode /* returns addressing mode in r3 */
+ addi r29, r3, 0 /* save mode temporarily in r29 */
+ bl find_size_code /* returns size code in r3 */
+ addi r9, 0, 17 /* bit offset of size code in configuration register */
+ slw r3, r3, r9 /* */
+ addi r9, 0, 13 /* bit offset of addressing mode in configuration register */
+ slw r29, r29, r9 /* */
+ or r3, r29, r3 /* merge size code and addressing mode */
+ ori r6, r3, CFG_SDRAM_BASE + 1 /* insert base address and enable bank */
+
+ /* Calculate banksize r15 = (density << 22) / 2 */
+ /*--------------------------------------------- */
+ addi r9, 0, 21
+ slw r15, r15, r9
+
+ /* Set SDRAM bank 0 register and adjust r6 for next bank */
+ /*------------------------------------------------------ */
+ addi r7,0,mem_mb0cf
+ mtdcr memcfga,r7
+ mtdcr memcfgd,r6
+
+ add r6, r6, r15 /* add bank size to base address for next bank */
+
+ /* If two rows/banks then set SDRAM bank 1 register and adjust r6 for next bank */
+ /*---------------------------------------------------------------------------- */
+ cmpi 0, r12, 2
+ bne b1skip
+
+ addi r7,0,mem_mb1cf
+ mtdcr memcfga,r7
+ mtdcr memcfgd,r6
+
+ add r6, r6, r15 /* add bank size to base address for next bank */
+
+ /* Set SDRAM bank 2 register and adjust r6 for next bank */
+ /*------------------------------------------------------ */
+b1skip: addi r7,0,mem_mb2cf
+ mtdcr memcfga,r7
+ mtdcr memcfgd,r6
+
+ add r6, r6, r15 /* add bank size to base address for next bank */
+
+ /* If two rows/banks then set SDRAM bank 3 register */
+ /*------------------------------------------------ */
+ cmpi 0, r12, 2
+ bne b3skip
+
+ addi r7,0,mem_mb3cf
+ mtdcr memcfga,r7
+ mtdcr memcfgd,r6
+b3skip:
+
+ /*----------------------------------------------------------- */
+ /* Set RTR */
+ /*----------------------------------------------------------- */
+ cmpi 0, r30, 1600
+ bge rtr_1
+ addis r7, 0, 0x05F0 /* RTR value for 100Mhz */
+ bl rtr_2
+rtr_1: addis r7, 0, 0x03F8
+rtr_2: addi r4,0,mem_rtr
+ mtdcr memcfga,r4
+ mtdcr memcfgd,r7
+
+ /*----------------------------------------------------------- */
+ /* Delay to ensure 200usec have elapsed since reset. Assume worst */
+ /* case that the core is running 200Mhz: */
+ /* 200,000,000 (cycles/sec) X .000200 (sec) = 0x9C40 cycles */
+ /*----------------------------------------------------------- */
+ addis r3,0,0x0000
+ ori r3,r3,0xA000 /* ensure 200usec have passed since reset */
+ mtctr r3
+..spinlp2:
+ bdnz ..spinlp2 /* spin loop */
+
+ /*----------------------------------------------------------- */
+ /* Set memory controller options reg, MCOPT1. */
+ /* Set DC_EN to '1' and BRD_PRF to '01' for 16 byte PLB Burst */
+ /* read/prefetch. */
+ /*----------------------------------------------------------- */
+ addi r4,0,mem_mcopt1
+ mtdcr memcfga,r4
+ addis r4,0,0x80C0 /* set DC_EN=1 */
+ ori r4,r4,0x0000
+ mtdcr memcfgd,r4
+
+
+ /*----------------------------------------------------------- */
+ /* Delay to ensure 10msec have elapsed since reset. This is */
+ /* required for the MPC952 to stabalize. Assume worst */
+ /* case that the core is running 200Mhz: */
+ /* 200,000,000 (cycles/sec) X .010 (sec) = 0x1E8480 cycles */
+ /* This delay should occur before accessing SDRAM. */
+ /*----------------------------------------------------------- */
+ addis r3,0,0x001E
+ ori r3,r3,0x8480 /* ensure 10msec have passed since reset */
+ mtctr r3
+..spinlp3:
+ bdnz ..spinlp3 /* spin loop */
+
+ /* output SDRAM code on LEDs */
+ addi r4, 0, LED_SDRAM_CODE_16
+ addis r5, 0, 0x1000
+ ori r5, r5, 0x0001
+ stb r4,0(r5)
+ eieio
+
+ mtlr r31 /* restore lr */
+ blr
+
+/*--------------------------------------------------------------------- */
+/* Function: read_spd */
+/* Description: Reads contents of SPD and saves parameters to be used for */
+/* configuration in dedicated registers (see code below). */
+/*--------------------------------------------------------------------- */
+
+#define WRITE_I2C(reg,val) \
+ addi r3,0,val;\
+ addis r4, 0, 0xef60;\
+ ori r4, r4, 0x0500 + reg;\
+ stb r3, 0(r4);\
+ eieio
+
+#define READ_I2C(reg) \
+ addis r3, 0, 0xef60;\
+ ori r3, r3, 0x0500 + reg;\
+ lbz r3, 0x0000(r3);\
+ eieio
+
+read_spd:
+
+ mflr r5
+
+ /* Initialize i2c */
+ /*--------------- */
+ WRITE_I2C(IICLMADR, 0x00) /* clear lo master address */
+ WRITE_I2C(IICHMADR, 0x00) /* clear hi master address */
+ WRITE_I2C(IICLSADR, 0x00) /* clear lo slave address */
+ WRITE_I2C(IICHSADR, 0x00) /* clear hi slave address */
+ WRITE_I2C(IICSTS, 0x08) /* update status register */
+ WRITE_I2C(IICEXTSTS, 0x8f)
+ WRITE_I2C(IICCLKDIV, 0x05)
+ WRITE_I2C(IICINTRMSK, 0x00) /* no interrupts */
+ WRITE_I2C(IICXFRCNT, 0x00) /* clear transfer count */
+ WRITE_I2C(IICXTCNTLSS, 0xf0) /* clear extended control & stat */
+ WRITE_I2C(IICMDCNTL, IIC_MDCNTL_FSDB | IIC_MDCNTL_FMDB) /* mode control */
+ READ_I2C(IICMDCNTL)
+ ori r3, r3, IIC_MDCNTL_EUBS | IIC_MDCNTL_HSCL
+ WRITE_I2C(IICMDCNTL, r3) /* mode control */
+ WRITE_I2C(IICCNTL, 0x00) /* clear control reg */
+
+ /* Wait until initialization completed */
+ /*------------------------------------ */
+ bl wait_i2c_transfer_done
+
+ WRITE_I2C(IICHMADR, 0x00) /* 7-bit addressing */
+ WRITE_I2C(IICLMADR, SDRAM_SPD_WRITE_ADDRESS)
+
+ /* Write 0 into buffer(start address) */
+ /*----------------------------------- */
+ WRITE_I2C(IICMDBUF, 0x00);
+
+ /* Wait a little */
+ /*-------------- */
+ addis r3,0,0x0000
+ ori r3,r3,0xA000
+ mtctr r3
+in02: bdnz in02
+
+ /* Issue write command */
+ /*-------------------- */
+ WRITE_I2C(IICCNTL, IIC_CNTL_PT)
+ bl wait_i2c_transfer_done
+
+ /* Read 128 bytes */
+ /*--------------- */
+ addi r7, 0, 0 /* byte counter in r7 */
+ addi r8, 0, 0 /* checksum in r8 */
+rdlp:
+ /* issue read command */
+ /*------------------- */
+ cmpi 0, r7, 127
+ blt rd01
+ WRITE_I2C(IICCNTL, IIC_CNTL_READ | IIC_CNTL_PT)
+ bl rd02
+rd01: WRITE_I2C(IICCNTL, IIC_CNTL_READ | IIC_CNTL_CHT | IIC_CNTL_PT)
+rd02: bl wait_i2c_transfer_done
+
+ /* Fetch byte from buffer */
+ /*----------------------- */
+ READ_I2C(IICMDBUF)
+
+ /* Retrieve parameters that are going to be used during configuration. */
+ /* Save them in dedicated registers. */
+ /*------------------------------------------------------------ */
+ cmpi 0, r7, 3 /* Save byte 3 in r10 */
+ bne rd10
+ addi r10, r3, 0
+rd10: cmpi 0, r7, 4 /* Save byte 4 in r11 */
+ bne rd11
+ addi r11, r3, 0
+rd11: cmpi 0, r7, 5 /* Save byte 5 in r12 */
+ bne rd12
+ addi r12, r3, 0
+rd12: cmpi 0, r7, 17 /* Save byte 17 in r13 */
+ bne rd13
+ addi r13, r3, 0
+rd13: cmpi 0, r7, 18 /* Save byte 18 in r14 */
+ bne rd14
+ addi r14, r3, 0
+rd14: cmpi 0, r7, 31 /* Save byte 31 in r15 */
+ bne rd15
+ addi r15, r3, 0
+rd15: cmpi 0, r7, 27 /* Save byte 27 in r16 */
+ bne rd16
+ addi r16, r3, 0
+rd16: cmpi 0, r7, 29 /* Save byte 29 in r17 */
+ bne rd17
+ addi r17, r3, 0
+rd17: cmpi 0, r7, 30 /* Save byte 30 in r18 */
+ bne rd18
+ addi r18, r3, 0
+rd18: cmpi 0, r7, 9 /* Save byte 9 in r19 */
+ bne rd19
+ addi r19, r3, 0
+rd19: cmpi 0, r7, 23 /* Save byte 23 in r20 */
+ bne rd20
+ addi r20, r3, 0
+rd20: cmpi 0, r7, 25 /* Save byte 25 in r21 */
+ bne rd21
+ addi r21, r3, 0
+rd21:
+
+ /* Calculate checksum of the first 63 bytes */
+ /*----------------------------------------- */
+ cmpi 0, r7, 63
+ bgt rd31
+ beq rd30
+ add r8, r8, r3
+ bl rd31
+
+ /* Verify checksum at byte 63 */
+ /*--------------------------- */
+rd30: andi. r8, r8, 0xff /* use only 8 bits */
+ cmp 0, r8, r3
+ beq rd31
+ addi r4, 0, LED_SDRAM_CODE_8
+ addis r5, 0, 0x1000
+ ori r5, r5, 0x0001
+ stb r4,0(r5)
+ eieio
+rderr: bl rderr
+
+rd31:
+
+ /* Increment byte counter and check whether all bytes have been read. */
+ /*------------------------------------------------------------------- */
+ addi r7, r7, 1
+ cmpi 0, r7, 127
+ bgt rd05
+ bl rdlp
+rd05:
+ mtlr r5 /* restore lr */
+ blr
+
+wait_i2c_transfer_done:
+ mflr r6
+wt01: READ_I2C(IICSTS)
+ andi. r4, r3, IIC_STS_PT
+ cmpi 0, r4, IIC_STS_PT
+ beq wt01
+ mtlr r6 /* restore lr */
+ blr
+
+/*--------------------------------------------------------------------- */
+/* Function: find_mode */
+/* Description: Determines addressing mode to be used dependent on */
+/* number of rows (r10 = byte 3 from SPD), number of columns (r11 = */
+/* byte 4 from SPD) and number of banks (r13 = byte 17 from SPD). */
+/* mode is returned in r3. */
+/* (It would be nicer having a table, pnc). */
+/*--------------------------------------------------------------------- */
+find_mode:
+
+ mflr r5
+
+ cmpi 0, r10, 11
+ bne fm01
+ cmpi 0, r11, 9
+ bne fm01
+ cmpi 0, r13, 2
+ bne fm01
+ addi r3, 0, 1
+ bl fmfound
+
+fm01: cmpi 0, r10, 11
+ bne fm02
+ cmpi 0, r11, 10
+ bne fm02
+ cmpi 0, r13, 2
+ bne fm02
+ addi r3, 0, 1
+ bl fmfound
+
+fm02: cmpi 0, r10, 12
+ bne fm03
+ cmpi 0, r11, 9
+ bne fm03
+ cmpi 0, r13, 4
+ bne fm03
+ addi r3, 0, 2
+ bl fmfound
+
+fm03: cmpi 0, r10, 12
+ bne fm04
+ cmpi 0, r11, 10
+ bne fm04
+ cmpi 0, r13, 4
+ bne fm04
+ addi r3, 0, 2
+ bl fmfound
+
+fm04: cmpi 0, r10, 13
+ bne fm05
+ cmpi 0, r11, 9
+ bne fm05
+ cmpi 0, r13, 4
+ bne fm05
+ addi r3, 0, 3
+ bl fmfound
+
+fm05: cmpi 0, r10, 13
+ bne fm06
+ cmpi 0, r11, 10
+ bne fm06
+ cmpi 0, r13, 4
+ bne fm06
+ addi r3, 0, 3
+ bl fmfound
+
+fm06: cmpi 0, r10, 13
+ bne fm07
+ cmpi 0, r11, 11
+ bne fm07
+ cmpi 0, r13, 4
+ bne fm07
+ addi r3, 0, 3
+ bl fmfound
+
+fm07: cmpi 0, r10, 12
+ bne fm08
+ cmpi 0, r11, 8
+ bne fm08
+ cmpi 0, r13, 2
+ bne fm08
+ addi r3, 0, 4
+ bl fmfound
+
+fm08: cmpi 0, r10, 12
+ bne fm09
+ cmpi 0, r11, 8
+ bne fm09
+ cmpi 0, r13, 4
+ bne fm09
+ addi r3, 0, 4
+ bl fmfound
+
+fm09: cmpi 0, r10, 11
+ bne fm10
+ cmpi 0, r11, 8
+ bne fm10
+ cmpi 0, r13, 2
+ bne fm10
+ addi r3, 0, 5
+ bl fmfound
+
+fm10: cmpi 0, r10, 11
+ bne fm11
+ cmpi 0, r11, 8
+ bne fm11
+ cmpi 0, r13, 4
+ bne fm11
+ addi r3, 0, 5
+ bl fmfound
+
+fm11: cmpi 0, r10, 13
+ bne fm12
+ cmpi 0, r11, 8
+ bne fm12
+ cmpi 0, r13, 2
+ bne fm12
+ addi r3, 0, 6
+ bl fmfound
+
+fm12: cmpi 0, r10, 13
+ bne fm13
+ cmpi 0, r11, 8
+ bne fm13
+ cmpi 0, r13, 4
+ bne fm13
+ addi r3, 0, 6
+ bl fmfound
+
+fm13: cmpi 0, r10, 13
+ bne fm14
+ cmpi 0, r11, 9
+ bne fm14
+ cmpi 0, r13, 2
+ bne fm14
+ addi r3, 0, 7
+ bl fmfound
+
+fm14: cmpi 0, r10, 13
+ bne fm15
+ cmpi 0, r11, 10
+ bne fm15
+ cmpi 0, r13, 2
+ bne fm15
+ addi r3, 0, 7
+ bl fmfound
+
+fm15:
+ /* not found, error code to be issued on LEDs */
+ addi r7, 0, LED_SDRAM_CODE_2
+ addis r6, 0, 0x1000
+ ori r6, r6, 0x0001
+ stb r7,0(r6)
+ eieio
+fmerr: bl fmerr
+
+fmfound:addi r6, 0, 1
+ subf r3, r6, r3
+
+ mtlr r5 /* restore lr */
+ blr
+
+/*--------------------------------------------------------------------- */
+/* Function: find_size_code */
+/* Description: Determines size code to be used in configuring SDRAM controller */
+/* dependent on density (r15 = byte 31 from SPD) */
+/*--------------------------------------------------------------------- */
+find_size_code:
+
+ mflr r5
+
+ addi r3, r15, 0 /* density */
+ addi r7, 0, 0
+fs01: andi. r6, r3, 0x01
+ cmpi 0, r6, 1
+ beq fs04
+
+ addi r7, r7, 1
+ cmpi 0, r7, 7
+ bge fs02
+ addi r9, 0, 1
+ srw r3, r3, r9
+ bl fs01
+
+ /* not found, error code to be issued on LEDs */
+fs02: addi r4, 0, LED_SDRAM_CODE_3
+ addis r8, 0, 0x1000
+ ori r8, r8, 0x0001
+ stb r4,0(r8)
+ eieio
+fs03: bl fs03
+
+fs04: addi r3, r7, 0
+ cmpi 0, r3, 0
+ beq fs05
+ addi r6, 0, 1
+ subf r3, r6, r3
+fs05:
+ mtlr r5 /* restore lr */
+ blr
+
+/*--------------------------------------------------------------------- */
+/* Function: find_casl */
+/* Description: Determines CAS latency */
+/*--------------------------------------------------------------------- */
+find_casl:
+
+ mflr r5
+
+ andi. r14, r14, 0x7f /* r14 holds supported CAS latencies */
+ addi r3, 0, 0xff /* preset determined CASL */
+ addi r4, 0, 6 /* Start at bit 6 of supported CAS latencies */
+ addi r2, 0, 0 /* Start finding highest CAS latency */
+
+fc01: srw r6, r14, r4 /* */
+ andi. r6, r6, 0x01 /* */
+ cmpi 0, r6, 1 /* Check bit for current latency */
+ bne fc06 /* If not supported, go to next */
+
+ cmpi 0, r2, 2 /* Check if third-highest latency */
+ bge fc04 /* If so, go calculate with another format */
+
+ cmpi 0, r2, 0 /* Check if highest latency */
+ bgt fc02 /* */
+ addi r7, r19, 0 /* SDRAM cycle time for highest CAS latenty */
+
+ bl fc03
+fc02:
+ addi r7, r20, 0 /* SDRAM cycle time for next-highest CAS latenty */
+fc03:
+ addi r8, r7, 0
+ addi r9, 0, 4
+ srw r7, r7, r9
+ andi. r7, r7, 0x0f
+ mulli r7, r7, 100
+ andi. r8, r8, 0x0f
+ mulli r8, r8, 10
+ add r7, r7, r8
+ cmp 0, r7, r30
+ bgt fc05
+ addi r3, r2, 0
+ bl fc05
+fc04:
+ addi r7, r21, 0 /* SDRAM cycle time for third-highest CAS latenty */
+ addi r8, r7, 0
+ addi r9, 0, 2
+ srw r7, r7, r9
+ andi. r7, r7, 0x3f
+ mulli r7, r7, 100
+ andi. r8, r8, 0x03
+ mulli r8, r8, 25
+ add r7, r7, r8
+
+ cmp 0, r7, r30
+ bgt fc05
+ addi r3, r2, 0
+
+fc05: addi r2, r2, 1 /* next latency */
+ cmpi 0, r2, 3
+ bge fc07
+fc06: addi r6, 0, 1
+ subf r4, r6, r4
+ cmpi 0, r4, 0
+ bne fc01
+
+fc07:
+
+ mtlr r5 /* restore lr */
+ blr
+#endif
+
+
+/* Peripheral Bank 1 Access Parameters */
+/* 0 BME = 1 ; burstmode enabled */
+/* " 1:8" TWT=00110110 ;Transfer wait (details below) */
+/* 1:5 FWT=00110 ; first wait = 6 cycles */
+/* 6:8 BWT=110 ; burst wait = 6 cycles */
+/* 9:11 000 ; reserved */
+/* 12:13 CSN=00 ; chip select on timing = 0 */
+/* 14:15 OEN=01 ; output enable */
+/* 16:17 WBN=01 ; write byte enable on timing 1 cycle */
+/* 18:19 WBF=01 ; write byte enable off timing 1 cycle */
+/* 20:22 TH=010 ; transfer hold = 2 cycles */
+/* 23 RE=0 ; ready enable = disabled */
+/* 24 SOR=1 ; sample on ready = same PerClk */
+/* 25 BEM=0 ; byte enable mode = only for write cycles */
+/* 26 PEN=0 ; parity enable = disable */
+/* 27:31 00000 ;reserved */
+/* */
+/* 1 + 00110 + 110 + 000 + 00 + 01 + 01 + 01 + 010 + 0 + 1 + 0 + 0 + 00000 = 0x9b015480 */
+/* */
+/* */
+/* Code for BDI probe: */
+/* */
+/* WDCR 18 0x00000011 ;Select PB1AP */
+/* WDCR 19 0x1b015480 ;PB1AP: Flash */
+/* */
+/* Peripheral Bank 0 Access Parameters */
+/* 0:11 BAS=0x200 ; base address select = 0x200 * 0x100000 (1MB) = */
+/* 12:14 BS=100 ; bank size = 16MB (100) / 32MB (101) */
+/* 15:16 BU=11 ; bank usage = read/write */
+/* 17:18 BW=00 ; bus width = 8-bit */
+/* 19:31 ; reserved */
+/* */
+/* 0x200 + 100 + 11 + 00 + 0 0000 0000 0000 = 0x20098000 */
+/* WDCR 18 0x00000001 ;Select PB1CR */
+/* WDCR 19 0x20098000 ;PB1CR: 1MB at 0x00100000, r/w, 8bit */
+
+/* For CPLD */
+/* 0 + 00000 + 010 + 000 + 00 + 01 + 00 + 00 + 000 + 0 + 0 + 1 + 0 + 00000 */
+/* WDCR_EBC(pb5ap, 0x01010040) */
+/*jsa recommendation: WDCR_EBC(pb5ap, 0x00010040) */
+/* WDCR_EBC(pb5cr, 0X10018000) */
+/* Access parms */
+/* 100 3 8 0 0 0 */
+/* 0x100 + 001 + 11 + 00 + 0 0000 0000 0000 = 0x10038000 */
+/* Address : 0x10000000 */
+/* Size: 2 MB */
+/* Usage: read/write */
+/* Width: 32 bit */
+
+/* For Genie onboard fpga 32 bit interface */
+/* 0 1 0 1 0 0 0 0 */
+/* 0 + 00000 + 010 + 000 + 00 + 01 + 00 + 00 + 000 + 0 + 0 + 0 + 0 + 00000 */
+/* 0x01010000 */
+/* Access parms */
+/* 102 1 c 0 0 0 */
+/* 0x102 + 000 + 11 + 10 + 0 0000 0000 0000 = 0x1021c000 */
+/* Address : 0x10200000 */
+/* Size: 2 MB */
+/* Usage: read/write */
+/* Width: 32 bit */
+
+/* Walnut fpga pb7ap */
+/* 0 1 8 1 5 2 8 0 */
+/* 0 + 00000 + 011 + 000 + 00 + 01 + 01 + 01 + 001 + 0 + 1 + 0 + 0 + 00000 */
+/* Walnut fpga pb7cr */
+/* 0xF0318000 */
+/* */