📄 bcm1250cpci_init.s
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/* ********************************************************************* * SB1250 Board Support Package * * Board-specific initialization File: BCM1250CPCI_INIT.S * * This module contains the assembly-language part of the init * code for this board support package. The routine * "board_earlyinit" lives here. * * Author: Mitch Lichtenberg * ********************************************************************* * * Copyright 2000,2001,2002,2003 * Broadcom Corporation. All rights reserved. * * This software is furnished under license and may be used and * copied only in accordance with the following terms and * conditions. Subject to these conditions, you may download, * copy, install, use, modify and distribute modified or unmodified * copies of this software in source and/or binary form. No title * or ownership is transferred hereby. * * 1) Any source code used, modified or distributed must reproduce * and retain this copyright notice and list of conditions * as they appear in the source file. * * 2) No right is granted to use any trade name, trademark, or * logo of Broadcom Corporation. The "Broadcom Corporation" * name may not be used to endorse or promote products derived * from this software without the prior written permission of * Broadcom Corporation. * * 3) THIS SOFTWARE IS PROVIDED "AS-IS" AND ANY EXPRESS OR * IMPLIED WARRANTIES, INCLUDING BUT NOT LIMITED TO, ANY IMPLIED * WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR * PURPOSE, OR NON-INFRINGEMENT ARE DISCLAIMED. IN NO EVENT * SHALL BROADCOM BE LIABLE FOR ANY DAMAGES WHATSOEVER, AND IN * PARTICULAR, BROADCOM SHALL NOT BE LIABLE FOR DIRECT, INDIRECT, * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES * (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE * GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR * BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY * OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR * TORT (INCLUDING NEGLIGENCE OR OTHERWISE), EVEN IF ADVISED OF * THE POSSIBILITY OF SUCH DAMAGE. ********************************************************************* */#include "sbmips.h"#include "sb1250_genbus.h"#include "sb1250_regs.h"#include "sb1250_scd.h"#include "bsp_config.h"#include "cpu_config.h"#include "mipsmacros.h"#include "bcm1250cpci.h"#include "sb1250_draminit.h" .text/* ********************************************************************* * Macros ********************************************************************* *//* * Define this to send the LED messages to the serial port instead * of to the LEDs. *//* #define _SERIAL_PORT_LEDS_ */#ifdef _SERIAL_PORT_LEDS_#include "sb1250_uart.h" /* need this for serial defs */#endif/* ********************************************************************* * BOARD_EARLYINIT() * * Initialize board registers. This is the earliest * time the BSP gets control. This routine cannot assume that * memory is operational, and therefore all code in this routine * must run from registers only. The $ra register must not * be modified, as it contains the return address. * * This routine will be called from uncached space, before * the caches are initialized. If you want to make * subroutine calls from here, you must use the CALLKSEG1 macro. * * Among other things, this is where the GPIO registers get * programmed to make on-board LEDs function, or other startup * that has to be done before anything will work. * * Input parameters: * nothing * * Return value: * nothing ********************************************************************* */LEAF(board_earlyinit) # # Configure the GPIOs # li t0,PHYS_TO_K1(A_GPIO_DIRECTION) li t1,GPIO_OUTPUT_MASK sd t1,0(t0) li t0,PHYS_TO_K1(A_GPIO_INT_TYPE) li t1,GPIO_INTERRUPT_MASK sd t1,0(t0) # # Configure the alternate boot ROM # li t0,PHYS_TO_K1(A_IO_EXT_CS_BASE(ALT_BOOTROM_CS)) li t1,ALT_BOOTROM_PHYS >> S_IO_ADDRBASE sd t1,R_IO_EXT_START_ADDR(t0) li t1,ALT_BOOTROM_SIZE-1 sd t1,R_IO_EXT_MULT_SIZE(t0) li t1,ALT_BOOTROM_TIMING0 sd t1,R_IO_EXT_TIME_CFG0(t0) li t1,ALT_BOOTROM_TIMING1 sd t1,R_IO_EXT_TIME_CFG1(t0) li t1,ALT_BOOTROM_CONFIG sd t1,R_IO_EXT_CFG(t0) # # Configure the LEDs # li t0,PHYS_TO_K1(A_IO_EXT_CS_BASE(LEDS_CS)) li t1,LEDS_PHYS >> S_IO_ADDRBASE sd t1,R_IO_EXT_START_ADDR(t0) li t1,LEDS_SIZE-1 /* Needs to be 1 smaller, se UM for details */ sd t1,R_IO_EXT_MULT_SIZE(t0) li t1,LEDS_TIMING0 sd t1,R_IO_EXT_TIME_CFG0(t0) li t1,LEDS_TIMING1 sd t1,R_IO_EXT_TIME_CFG1(t0) li t1,LEDS_CONFIG sd t1,R_IO_EXT_CFG(t0) # # Configure the IDE interface # li t0,PHYS_TO_K1(A_IO_EXT_CS_BASE(IDE_CS)) li t1,IDE_PHYS >> S_IO_ADDRBASE sd t1,R_IO_EXT_START_ADDR(t0) li t1,IDE_SIZE-1 sd t1,R_IO_EXT_MULT_SIZE(t0) li t1,IDE_TIMING0 sd t1,R_IO_EXT_TIME_CFG0(t0) li t1,IDE_TIMING1 sd t1,R_IO_EXT_TIME_CFG1(t0) li t1,IDE_CONFIG sd t1,R_IO_EXT_CFG(t0) # # Configure the USB controllers # li t0,PHYS_TO_K1(A_IO_EXT_CS_BASE(USBCTL_CS)) li t1,USBCTL_PHYS >> S_IO_ADDRBASE sd t1,R_IO_EXT_START_ADDR(t0) li t1,USBCTL_SIZE-1 /* Needs to be 1 smaller, se UM for details */ sd t1,R_IO_EXT_MULT_SIZE(t0) li t1,USBCTL_TIMING0 sd t1,R_IO_EXT_TIME_CFG0(t0) li t1,USBCTL_TIMING1 sd t1,R_IO_EXT_TIME_CFG1(t0) li t1,USBCTL_CONFIG sd t1,R_IO_EXT_CFG(t0) # # Configure the PCMCIA # li t0,PHYS_TO_K1(A_IO_EXT_CS_BASE(PCMCIA_CS)) li t1,PCMCIA_PHYS >> S_IO_ADDRBASE sd t1,R_IO_EXT_START_ADDR(t0) li t1,PCMCIA_SIZE-1 sd t1,R_IO_EXT_MULT_SIZE(t0) li t1,PCMCIA_TIMING0 sd t1,R_IO_EXT_TIME_CFG0(t0) li t1,PCMCIA_TIMING1 sd t1,R_IO_EXT_TIME_CFG1(t0) li t1,PCMCIA_CONFIG sd t1,R_IO_EXT_CFG(t0) # # Configure the CompactPCI CPLD # li t0,PHYS_TO_K1(A_IO_EXT_CS_BASE(CPCICPLD_CS)) li t1,CPCICPLD_PHYS >> S_IO_ADDRBASE sd t1,R_IO_EXT_START_ADDR(t0) li t1,CPCICPLD_SIZE-1 /* Needs to be 1 smaller, se UM for details */ sd t1,R_IO_EXT_MULT_SIZE(t0) li t1,CPCICPLD_TIMING0 sd t1,R_IO_EXT_TIME_CFG0(t0) li t1,CPCICPLD_TIMING1 sd t1,R_IO_EXT_TIME_CFG1(t0) li t1,CPCICPLD_CONFIG sd t1,R_IO_EXT_CFG(t0) j raEND(board_earlyinit)/* ********************************************************************* * BOARD_DRAMINFO * * Return the address of the DRAM information table * * Input parameters: * nothing * * Return value: * v0 - DRAM info table, return 0 to use default table ********************************************************************* */LEAF(board_draminfo) # # This board has soldered-down memory. # la v0,dramtab j radramtab: /* * DDR SDRAMs * * Channel interleaving is allowed. */ DRAM_GLOBALS(CFG_DRAM_INTERLEAVE) /* * 128MB on MC 0 (JEDEC SDRAM) * Samsung K4H561638B - 16Mx16 chips * * Minimum tMEMCLK: 8.0ns (125Mhz max freq) * * CS0 Geometry: 13 rows, 9 columns, 2 bankbits * * 64khz refresh, CAS Latency 2.5 * Timing (ns): tCK=7.50 tRAS=45 tRP=20.00 tRRD=15.0 tRCD=20.0 tRFC=auto tRC=auto * * Clock Config: Default */ DRAM_CHAN_CFG(MC_CHAN0, DRT10(8,0), JEDEC, CASCHECK, BLKSIZE32, CFG_DRAM_CSINTERLEAVE, CFG_DRAM_ECC, 0) DRAM_CS_GEOM(MC_CS0, 13, 9, 2) DRAM_CS_TIMING(DRT10(7,5), JEDEC_RFSH_64khz, JEDEC_CASLAT_25, 0, 45, DRT4(20,0), DRT4(15,0), DRT4(20,0), 0, 0) /* * 128MB on MC 1 (JEDEC SDRAM) * Samsung K4H561638B - 16Mx16 chips * * Minimum tMEMCLK: 8.0ns (125Mhz max freq) * * CS0 Geometry: 13 rows, 9 columns, 2 bankbits * * 64khz refresh, CAS Latency 2.5 * Timing (ns): tCK=7.50 tRAS=45 tRP=20.00 tRRD=15.0 tRCD=20.0 tRFC=auto tRC=auto * * Clock Config: Default */ DRAM_CHAN_CFG(MC_CHAN1, DRT10(8,0), JEDEC, CASCHECK, BLKSIZE32, CFG_DRAM_CSINTERLEAVE, CFG_DRAM_ECC, 0) DRAM_CS_GEOM(MC_CS0, 13, 9, 2) DRAM_CS_TIMING(DRT10(7,5), JEDEC_RFSH_64khz, JEDEC_CASLAT_25, 0, 45, DRT4(20,0), DRT4(15,0), DRT4(20,0), 0, 0) DRAM_EOTEND(board_draminfo)/* ********************************************************************* * BOARD_UARTA_TXCHAR * * Transmit a single character via UART A * * Input parameters: * a0 - character to transmit (low-order 8 bits) * * Return value: * nothing * * Registers used: * t0,t1 ********************************************************************* */#ifdef _SERIAL_PORT_LEDS_LEAF(board_uarta_txchar) # Wait until there is space in the transmit buffer1: li t0,PHYS_TO_K1(A_DUART_STATUS_A) ld t1,(t0) # Get status bits and t1,M_DUART_TX_RDY # test for ready beq t1,0,1b # keep going till ready # Okay, now send the character. li t0,PHYS_TO_K1(A_DUART_TX_HOLD_A) sd a0,(t0) # done! j raEND(board_uarta_txchar)#endif/* ********************************************************************* * BOARD_SETLEDS(x) * * Set LEDs for boot-time progress indication. Not used if * the board does not have progress LEDs. This routine * must not call any other routines, since it may be invoked * either from KSEG0 or KSEG1 and it may be invoked * whether or not the icache is operational. * * Input parameters: * a0 - LED value (8 bits per character, 4 characters) * * Return value: * nothing * * Registers used: * t0,t1,t2,t3 ********************************************************************* */#define LED_CHAR0 (32+8*3)#define LED_CHAR1 (32+8*2)#define LED_CHAR2 (32+8*1)#define LED_CHAR3 (32+8*0)LEAF(board_setleds)#ifdef _SERIAL_PORT_LEDS_ /* * Sending to serial port */ move t3,ra move t2,a0 li a0,'[' bal board_uarta_txchar move a0,t2 rol a0,8 bal board_uarta_txchar rol a0,8 bal board_uarta_txchar rol a0,8 bal board_uarta_txchar rol a0,8 bal board_uarta_txchar li a0,']' bal board_uarta_txchar move ra,t3 j ra#else /* * Sending to LEDs */ li t0,PHYS_TO_K1(LEDS_PHYS) rol a0,a0,8 and t1,a0,0xFF sb t1,LED_CHAR0(t0) rol a0,a0,8 and t1,a0,0xFF sb t1,LED_CHAR1(t0) rol a0,a0,8 and t1,a0,0xFF sb t1,LED_CHAR2(t0) rol a0,a0,8 and t1,a0,0xFF sb t1,LED_CHAR3(t0) j ra#endifEND(board_setleds)⌨️ 快捷键说明
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