mirror of https://gitee.com/openkylin/linux.git
649 lines
15 KiB
C
649 lines
15 KiB
C
/***************************************************************************/
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/*
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* linux/arch/m68knommu/platform/532x/config.c
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*
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* Copyright (C) 1999-2002, Greg Ungerer (gerg@snapgear.com)
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* Copyright (C) 2000, Lineo (www.lineo.com)
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* Yaroslav Vinogradov yaroslav.vinogradov@freescale.com
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* Copyright Freescale Semiconductor, Inc 2006
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* Copyright (c) 2006, emlix, Sebastian Hess <sh@emlix.com>
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*
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* This program is free software; you can redistribute it and/or modify
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* it under the terms of the GNU General Public License as published by
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* the Free Software Foundation; either version 2 of the License, or
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* (at your option) any later version.
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*/
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/***************************************************************************/
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#include <linux/kernel.h>
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#include <linux/param.h>
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#include <linux/init.h>
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#include <linux/io.h>
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#include <linux/spi/spi.h>
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#include <linux/gpio.h>
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#include <asm/machdep.h>
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#include <asm/coldfire.h>
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#include <asm/mcfsim.h>
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#include <asm/mcfuart.h>
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#include <asm/mcfdma.h>
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#include <asm/mcfwdebug.h>
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#include <asm/mcfqspi.h>
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/***************************************************************************/
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static struct mcf_platform_uart m532x_uart_platform[] = {
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{
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.mapbase = MCFUART_BASE1,
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.irq = MCFINT_VECBASE + MCFINT_UART0,
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},
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{
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.mapbase = MCFUART_BASE2,
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.irq = MCFINT_VECBASE + MCFINT_UART1,
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},
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{
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.mapbase = MCFUART_BASE3,
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.irq = MCFINT_VECBASE + MCFINT_UART2,
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},
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{ },
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};
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static struct platform_device m532x_uart = {
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.name = "mcfuart",
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.id = 0,
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.dev.platform_data = m532x_uart_platform,
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};
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static struct resource m532x_fec_resources[] = {
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{
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.start = 0xfc030000,
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.end = 0xfc0307ff,
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.flags = IORESOURCE_MEM,
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},
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{
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.start = 64 + 36,
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.end = 64 + 36,
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.flags = IORESOURCE_IRQ,
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},
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{
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.start = 64 + 40,
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.end = 64 + 40,
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.flags = IORESOURCE_IRQ,
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},
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{
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.start = 64 + 42,
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.end = 64 + 42,
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.flags = IORESOURCE_IRQ,
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},
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};
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static struct platform_device m532x_fec = {
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.name = "fec",
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.id = 0,
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.num_resources = ARRAY_SIZE(m532x_fec_resources),
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.resource = m532x_fec_resources,
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};
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#if defined(CONFIG_SPI_COLDFIRE_QSPI) || defined(CONFIG_SPI_COLDFIRE_QSPI_MODULE)
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static struct resource m532x_qspi_resources[] = {
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{
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.start = MCFQSPI_IOBASE,
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.end = MCFQSPI_IOBASE + MCFQSPI_IOSIZE - 1,
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.flags = IORESOURCE_MEM,
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},
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{
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.start = MCFINT_VECBASE + MCFINT_QSPI,
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.end = MCFINT_VECBASE + MCFINT_QSPI,
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.flags = IORESOURCE_IRQ,
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},
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};
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#define MCFQSPI_CS0 84
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#define MCFQSPI_CS1 85
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#define MCFQSPI_CS2 86
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static int m532x_cs_setup(struct mcfqspi_cs_control *cs_control)
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{
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int status;
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status = gpio_request(MCFQSPI_CS0, "MCFQSPI_CS0");
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if (status) {
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pr_debug("gpio_request for MCFQSPI_CS0 failed\n");
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goto fail0;
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}
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status = gpio_direction_output(MCFQSPI_CS0, 1);
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if (status) {
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pr_debug("gpio_direction_output for MCFQSPI_CS0 failed\n");
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goto fail1;
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}
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status = gpio_request(MCFQSPI_CS1, "MCFQSPI_CS1");
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if (status) {
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pr_debug("gpio_request for MCFQSPI_CS1 failed\n");
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goto fail1;
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}
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status = gpio_direction_output(MCFQSPI_CS1, 1);
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if (status) {
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pr_debug("gpio_direction_output for MCFQSPI_CS1 failed\n");
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goto fail2;
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}
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status = gpio_request(MCFQSPI_CS2, "MCFQSPI_CS2");
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if (status) {
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pr_debug("gpio_request for MCFQSPI_CS2 failed\n");
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goto fail2;
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}
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status = gpio_direction_output(MCFQSPI_CS2, 1);
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if (status) {
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pr_debug("gpio_direction_output for MCFQSPI_CS2 failed\n");
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goto fail3;
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}
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return 0;
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fail3:
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gpio_free(MCFQSPI_CS2);
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fail2:
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gpio_free(MCFQSPI_CS1);
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fail1:
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gpio_free(MCFQSPI_CS0);
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fail0:
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return status;
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}
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static void m532x_cs_teardown(struct mcfqspi_cs_control *cs_control)
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{
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gpio_free(MCFQSPI_CS2);
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gpio_free(MCFQSPI_CS1);
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gpio_free(MCFQSPI_CS0);
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}
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static void m532x_cs_select(struct mcfqspi_cs_control *cs_control,
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u8 chip_select, bool cs_high)
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{
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gpio_set_value(MCFQSPI_CS0 + chip_select, cs_high);
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}
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static void m532x_cs_deselect(struct mcfqspi_cs_control *cs_control,
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u8 chip_select, bool cs_high)
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{
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gpio_set_value(MCFQSPI_CS0 + chip_select, !cs_high);
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}
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static struct mcfqspi_cs_control m532x_cs_control = {
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.setup = m532x_cs_setup,
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.teardown = m532x_cs_teardown,
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.select = m532x_cs_select,
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.deselect = m532x_cs_deselect,
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};
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static struct mcfqspi_platform_data m532x_qspi_data = {
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.bus_num = 0,
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.num_chipselect = 3,
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.cs_control = &m532x_cs_control,
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};
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static struct platform_device m532x_qspi = {
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.name = "mcfqspi",
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.id = 0,
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.num_resources = ARRAY_SIZE(m532x_qspi_resources),
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.resource = m532x_qspi_resources,
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.dev.platform_data = &m532x_qspi_data,
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};
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static void __init m532x_qspi_init(void)
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{
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/* setup QSPS pins for QSPI with gpio CS control */
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writew(0x01f0, MCF_GPIO_PAR_QSPI);
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}
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#endif /* defined(CONFIG_SPI_COLDFIRE_QSPI) || defined(CONFIG_SPI_COLDFIRE_QSPI_MODULE) */
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static struct platform_device *m532x_devices[] __initdata = {
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&m532x_uart,
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&m532x_fec,
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#if defined(CONFIG_SPI_COLDFIRE_QSPI) || defined(CONFIG_SPI_COLDFIRE_QSPI_MODULE)
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&m532x_qspi,
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#endif
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};
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/***************************************************************************/
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static void __init m532x_uart_init_line(int line, int irq)
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{
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if (line == 0) {
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/* GPIO initialization */
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MCF_GPIO_PAR_UART |= 0x000F;
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} else if (line == 1) {
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/* GPIO initialization */
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MCF_GPIO_PAR_UART |= 0x0FF0;
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}
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}
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static void __init m532x_uarts_init(void)
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{
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const int nrlines = ARRAY_SIZE(m532x_uart_platform);
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int line;
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for (line = 0; (line < nrlines); line++)
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m532x_uart_init_line(line, m532x_uart_platform[line].irq);
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}
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/***************************************************************************/
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static void __init m532x_fec_init(void)
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{
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/* Set multi-function pins to ethernet mode for fec0 */
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MCF_GPIO_PAR_FECI2C |= (MCF_GPIO_PAR_FECI2C_PAR_MDC_EMDC |
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MCF_GPIO_PAR_FECI2C_PAR_MDIO_EMDIO);
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MCF_GPIO_PAR_FEC = (MCF_GPIO_PAR_FEC_PAR_FEC_7W_FEC |
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MCF_GPIO_PAR_FEC_PAR_FEC_MII_FEC);
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}
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/***************************************************************************/
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static void m532x_cpu_reset(void)
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{
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local_irq_disable();
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__raw_writeb(MCF_RCR_SWRESET, MCF_RCR);
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}
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/***************************************************************************/
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void __init config_BSP(char *commandp, int size)
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{
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#if !defined(CONFIG_BOOTPARAM)
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/* Copy command line from FLASH to local buffer... */
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memcpy(commandp, (char *) 0x4000, 4);
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if(strncmp(commandp, "kcl ", 4) == 0){
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memcpy(commandp, (char *) 0x4004, size);
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commandp[size-1] = 0;
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} else {
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memset(commandp, 0, size);
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}
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#endif
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#ifdef CONFIG_BDM_DISABLE
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/*
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* Disable the BDM clocking. This also turns off most of the rest of
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* the BDM device. This is good for EMC reasons. This option is not
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* incompatible with the memory protection option.
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*/
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wdebug(MCFDEBUG_CSR, MCFDEBUG_CSR_PSTCLK);
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#endif
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}
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/***************************************************************************/
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static int __init init_BSP(void)
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{
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m532x_uarts_init();
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m532x_fec_init();
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#if defined(CONFIG_SPI_COLDFIRE_QSPI) || defined(CONFIG_SPI_COLDFIRE_QSPI_MODULE)
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m532x_qspi_init();
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#endif
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platform_add_devices(m532x_devices, ARRAY_SIZE(m532x_devices));
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return 0;
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}
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arch_initcall(init_BSP);
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/***************************************************************************/
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/* Board initialization */
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/***************************************************************************/
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/*
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* PLL min/max specifications
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*/
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#define MAX_FVCO 500000 /* KHz */
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#define MAX_FSYS 80000 /* KHz */
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#define MIN_FSYS 58333 /* KHz */
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#define FREF 16000 /* KHz */
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#define MAX_MFD 135 /* Multiplier */
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#define MIN_MFD 88 /* Multiplier */
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#define BUSDIV 6 /* Divider */
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/*
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* Low Power Divider specifications
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*/
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#define MIN_LPD (1 << 0) /* Divider (not encoded) */
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#define MAX_LPD (1 << 15) /* Divider (not encoded) */
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#define DEFAULT_LPD (1 << 1) /* Divider (not encoded) */
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#define SYS_CLK_KHZ 80000
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#define SYSTEM_PERIOD 12.5
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/*
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* SDRAM Timing Parameters
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*/
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#define SDRAM_BL 8 /* # of beats in a burst */
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#define SDRAM_TWR 2 /* in clocks */
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#define SDRAM_CASL 2.5 /* CASL in clocks */
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#define SDRAM_TRCD 2 /* in clocks */
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#define SDRAM_TRP 2 /* in clocks */
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#define SDRAM_TRFC 7 /* in clocks */
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#define SDRAM_TREFI 7800 /* in ns */
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#define EXT_SRAM_ADDRESS (0xC0000000)
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#define FLASH_ADDRESS (0x00000000)
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#define SDRAM_ADDRESS (0x40000000)
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#define NAND_FLASH_ADDRESS (0xD0000000)
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int sys_clk_khz = 0;
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int sys_clk_mhz = 0;
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void wtm_init(void);
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void scm_init(void);
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void gpio_init(void);
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void fbcs_init(void);
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void sdramc_init(void);
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int clock_pll (int fsys, int flags);
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int clock_limp (int);
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int clock_exit_limp (void);
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int get_sys_clock (void);
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asmlinkage void __init sysinit(void)
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{
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sys_clk_khz = clock_pll(0, 0);
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sys_clk_mhz = sys_clk_khz/1000;
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wtm_init();
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scm_init();
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gpio_init();
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fbcs_init();
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sdramc_init();
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}
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void wtm_init(void)
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{
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/* Disable watchdog timer */
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MCF_WTM_WCR = 0;
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}
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#define MCF_SCM_BCR_GBW (0x00000100)
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#define MCF_SCM_BCR_GBR (0x00000200)
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void scm_init(void)
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{
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/* All masters are trusted */
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MCF_SCM_MPR = 0x77777777;
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/* Allow supervisor/user, read/write, and trusted/untrusted
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access to all slaves */
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MCF_SCM_PACRA = 0;
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MCF_SCM_PACRB = 0;
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MCF_SCM_PACRC = 0;
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MCF_SCM_PACRD = 0;
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MCF_SCM_PACRE = 0;
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MCF_SCM_PACRF = 0;
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/* Enable bursts */
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MCF_SCM_BCR = (MCF_SCM_BCR_GBR | MCF_SCM_BCR_GBW);
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}
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void fbcs_init(void)
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{
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MCF_GPIO_PAR_CS = 0x0000003E;
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/* Latch chip select */
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MCF_FBCS1_CSAR = 0x10080000;
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MCF_FBCS1_CSCR = 0x002A3780;
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MCF_FBCS1_CSMR = (MCF_FBCS_CSMR_BAM_2M | MCF_FBCS_CSMR_V);
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/* Initialize latch to drive signals to inactive states */
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*((u16 *)(0x10080000)) = 0xFFFF;
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/* External SRAM */
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MCF_FBCS1_CSAR = EXT_SRAM_ADDRESS;
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MCF_FBCS1_CSCR = (MCF_FBCS_CSCR_PS_16
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| MCF_FBCS_CSCR_AA
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| MCF_FBCS_CSCR_SBM
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| MCF_FBCS_CSCR_WS(1));
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MCF_FBCS1_CSMR = (MCF_FBCS_CSMR_BAM_512K
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| MCF_FBCS_CSMR_V);
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/* Boot Flash connected to FBCS0 */
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MCF_FBCS0_CSAR = FLASH_ADDRESS;
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MCF_FBCS0_CSCR = (MCF_FBCS_CSCR_PS_16
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| MCF_FBCS_CSCR_BEM
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| MCF_FBCS_CSCR_AA
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| MCF_FBCS_CSCR_SBM
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| MCF_FBCS_CSCR_WS(7));
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MCF_FBCS0_CSMR = (MCF_FBCS_CSMR_BAM_32M
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| MCF_FBCS_CSMR_V);
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}
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void sdramc_init(void)
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{
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/*
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* Check to see if the SDRAM has already been initialized
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* by a run control tool
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*/
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if (!(MCF_SDRAMC_SDCR & MCF_SDRAMC_SDCR_REF)) {
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/* SDRAM chip select initialization */
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/* Initialize SDRAM chip select */
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MCF_SDRAMC_SDCS0 = (0
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| MCF_SDRAMC_SDCS_BA(SDRAM_ADDRESS)
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| MCF_SDRAMC_SDCS_CSSZ(MCF_SDRAMC_SDCS_CSSZ_32MBYTE));
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/*
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* Basic configuration and initialization
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*/
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MCF_SDRAMC_SDCFG1 = (0
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| MCF_SDRAMC_SDCFG1_SRD2RW((int)((SDRAM_CASL + 2) + 0.5 ))
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| MCF_SDRAMC_SDCFG1_SWT2RD(SDRAM_TWR + 1)
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| MCF_SDRAMC_SDCFG1_RDLAT((int)((SDRAM_CASL*2) + 2))
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| MCF_SDRAMC_SDCFG1_ACT2RW((int)((SDRAM_TRCD ) + 0.5))
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| MCF_SDRAMC_SDCFG1_PRE2ACT((int)((SDRAM_TRP ) + 0.5))
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| MCF_SDRAMC_SDCFG1_REF2ACT((int)(((SDRAM_TRFC) ) + 0.5))
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| MCF_SDRAMC_SDCFG1_WTLAT(3));
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MCF_SDRAMC_SDCFG2 = (0
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| MCF_SDRAMC_SDCFG2_BRD2PRE(SDRAM_BL/2 + 1)
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| MCF_SDRAMC_SDCFG2_BWT2RW(SDRAM_BL/2 + SDRAM_TWR)
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| MCF_SDRAMC_SDCFG2_BRD2WT((int)((SDRAM_CASL+SDRAM_BL/2-1.0)+0.5))
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| MCF_SDRAMC_SDCFG2_BL(SDRAM_BL-1));
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/*
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* Precharge and enable write to SDMR
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*/
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MCF_SDRAMC_SDCR = (0
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| MCF_SDRAMC_SDCR_MODE_EN
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| MCF_SDRAMC_SDCR_CKE
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| MCF_SDRAMC_SDCR_DDR
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| MCF_SDRAMC_SDCR_MUX(1)
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| MCF_SDRAMC_SDCR_RCNT((int)(((SDRAM_TREFI/(SYSTEM_PERIOD*64)) - 1) + 0.5))
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| MCF_SDRAMC_SDCR_PS_16
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| MCF_SDRAMC_SDCR_IPALL);
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/*
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* Write extended mode register
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*/
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MCF_SDRAMC_SDMR = (0
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| MCF_SDRAMC_SDMR_BNKAD_LEMR
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| MCF_SDRAMC_SDMR_AD(0x0)
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| MCF_SDRAMC_SDMR_CMD);
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/*
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* Write mode register and reset DLL
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*/
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MCF_SDRAMC_SDMR = (0
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| MCF_SDRAMC_SDMR_BNKAD_LMR
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| MCF_SDRAMC_SDMR_AD(0x163)
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| MCF_SDRAMC_SDMR_CMD);
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/*
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* Execute a PALL command
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*/
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MCF_SDRAMC_SDCR |= MCF_SDRAMC_SDCR_IPALL;
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/*
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* Perform two REF cycles
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*/
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MCF_SDRAMC_SDCR |= MCF_SDRAMC_SDCR_IREF;
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MCF_SDRAMC_SDCR |= MCF_SDRAMC_SDCR_IREF;
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/*
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* Write mode register and clear reset DLL
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*/
|
|
MCF_SDRAMC_SDMR = (0
|
|
| MCF_SDRAMC_SDMR_BNKAD_LMR
|
|
| MCF_SDRAMC_SDMR_AD(0x063)
|
|
| MCF_SDRAMC_SDMR_CMD);
|
|
|
|
/*
|
|
* Enable auto refresh and lock SDMR
|
|
*/
|
|
MCF_SDRAMC_SDCR &= ~MCF_SDRAMC_SDCR_MODE_EN;
|
|
MCF_SDRAMC_SDCR |= (0
|
|
| MCF_SDRAMC_SDCR_REF
|
|
| MCF_SDRAMC_SDCR_DQS_OE(0xC));
|
|
}
|
|
}
|
|
|
|
void gpio_init(void)
|
|
{
|
|
/* Enable UART0 pins */
|
|
MCF_GPIO_PAR_UART = ( 0
|
|
| MCF_GPIO_PAR_UART_PAR_URXD0
|
|
| MCF_GPIO_PAR_UART_PAR_UTXD0);
|
|
|
|
/* Initialize TIN3 as a GPIO output to enable the write
|
|
half of the latch */
|
|
MCF_GPIO_PAR_TIMER = 0x00;
|
|
__raw_writeb(0x08, MCFGPIO_PDDR_TIMER);
|
|
__raw_writeb(0x00, MCFGPIO_PCLRR_TIMER);
|
|
|
|
}
|
|
|
|
int clock_pll(int fsys, int flags)
|
|
{
|
|
int fref, temp, fout, mfd;
|
|
u32 i;
|
|
|
|
fref = FREF;
|
|
|
|
if (fsys == 0) {
|
|
/* Return current PLL output */
|
|
mfd = MCF_PLL_PFDR;
|
|
|
|
return (fref * mfd / (BUSDIV * 4));
|
|
}
|
|
|
|
/* Check bounds of requested system clock */
|
|
if (fsys > MAX_FSYS)
|
|
fsys = MAX_FSYS;
|
|
if (fsys < MIN_FSYS)
|
|
fsys = MIN_FSYS;
|
|
|
|
/* Multiplying by 100 when calculating the temp value,
|
|
and then dividing by 100 to calculate the mfd allows
|
|
for exact values without needing to include floating
|
|
point libraries. */
|
|
temp = 100 * fsys / fref;
|
|
mfd = 4 * BUSDIV * temp / 100;
|
|
|
|
/* Determine the output frequency for selected values */
|
|
fout = (fref * mfd / (BUSDIV * 4));
|
|
|
|
/*
|
|
* Check to see if the SDRAM has already been initialized.
|
|
* If it has then the SDRAM needs to be put into self refresh
|
|
* mode before reprogramming the PLL.
|
|
*/
|
|
if (MCF_SDRAMC_SDCR & MCF_SDRAMC_SDCR_REF)
|
|
/* Put SDRAM into self refresh mode */
|
|
MCF_SDRAMC_SDCR &= ~MCF_SDRAMC_SDCR_CKE;
|
|
|
|
/*
|
|
* Initialize the PLL to generate the new system clock frequency.
|
|
* The device must be put into LIMP mode to reprogram the PLL.
|
|
*/
|
|
|
|
/* Enter LIMP mode */
|
|
clock_limp(DEFAULT_LPD);
|
|
|
|
/* Reprogram PLL for desired fsys */
|
|
MCF_PLL_PODR = (0
|
|
| MCF_PLL_PODR_CPUDIV(BUSDIV/3)
|
|
| MCF_PLL_PODR_BUSDIV(BUSDIV));
|
|
|
|
MCF_PLL_PFDR = mfd;
|
|
|
|
/* Exit LIMP mode */
|
|
clock_exit_limp();
|
|
|
|
/*
|
|
* Return the SDRAM to normal operation if it is in use.
|
|
*/
|
|
if (MCF_SDRAMC_SDCR & MCF_SDRAMC_SDCR_REF)
|
|
/* Exit self refresh mode */
|
|
MCF_SDRAMC_SDCR |= MCF_SDRAMC_SDCR_CKE;
|
|
|
|
/* Errata - workaround for SDRAM opeartion after exiting LIMP mode */
|
|
MCF_SDRAMC_LIMP_FIX = MCF_SDRAMC_REFRESH;
|
|
|
|
/* wait for DQS logic to relock */
|
|
for (i = 0; i < 0x200; i++)
|
|
;
|
|
|
|
return fout;
|
|
}
|
|
|
|
int clock_limp(int div)
|
|
{
|
|
u32 temp;
|
|
|
|
/* Check bounds of divider */
|
|
if (div < MIN_LPD)
|
|
div = MIN_LPD;
|
|
if (div > MAX_LPD)
|
|
div = MAX_LPD;
|
|
|
|
/* Save of the current value of the SSIDIV so we don't
|
|
overwrite the value*/
|
|
temp = (MCF_CCM_CDR & MCF_CCM_CDR_SSIDIV(0xF));
|
|
|
|
/* Apply the divider to the system clock */
|
|
MCF_CCM_CDR = ( 0
|
|
| MCF_CCM_CDR_LPDIV(div)
|
|
| MCF_CCM_CDR_SSIDIV(temp));
|
|
|
|
MCF_CCM_MISCCR |= MCF_CCM_MISCCR_LIMP;
|
|
|
|
return (FREF/(3*(1 << div)));
|
|
}
|
|
|
|
int clock_exit_limp(void)
|
|
{
|
|
int fout;
|
|
|
|
/* Exit LIMP mode */
|
|
MCF_CCM_MISCCR = (MCF_CCM_MISCCR & ~ MCF_CCM_MISCCR_LIMP);
|
|
|
|
/* Wait for PLL to lock */
|
|
while (!(MCF_CCM_MISCCR & MCF_CCM_MISCCR_PLL_LOCK))
|
|
;
|
|
|
|
fout = get_sys_clock();
|
|
|
|
return fout;
|
|
}
|
|
|
|
int get_sys_clock(void)
|
|
{
|
|
int divider;
|
|
|
|
/* Test to see if device is in LIMP mode */
|
|
if (MCF_CCM_MISCCR & MCF_CCM_MISCCR_LIMP) {
|
|
divider = MCF_CCM_CDR & MCF_CCM_CDR_LPDIV(0xF);
|
|
return (FREF/(2 << divider));
|
|
}
|
|
else
|
|
return ((FREF * MCF_PLL_PFDR) / (BUSDIV * 4));
|
|
}
|