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32cde0b514
When booting with device-tree, retrieve GPMC settings for ONENAND from the device-tree blob. This will allow us to remove all static settings stored in the gpmc-nand.c in the future once the migration to device-tree is complete. The user must now specify the ONENAND device width in the device-tree binding so that the GPMC can be programmed correctly. Therefore, update the device-tree binding documentation for ONENAND devices connected to the GPMC to reflect this. Please note that this does not include GPMC timings for ONENAND. The timings are being calculated at runtime. There is some legacy code that only enables read wait monitoring for non-OMAP3 devices. There are no known OMAP3 device issues that prevent this feature being enabled and so when booting with device-tree use the wait-monitoring settings described in the device-tree blob. Signed-off-by: Jon Hunter <jon-hunter@ti.com> Tested-by: Ezequiel Garcia <ezequiel.garcia@free-electrons.com>
395 lines
9.4 KiB
C
395 lines
9.4 KiB
C
/*
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* linux/arch/arm/mach-omap2/gpmc-onenand.c
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*
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* Copyright (C) 2006 - 2009 Nokia Corporation
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* Contacts: Juha Yrjola
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* Tony Lindgren
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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 version 2 as
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* published by the Free Software Foundation.
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*/
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#include <linux/string.h>
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#include <linux/kernel.h>
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#include <linux/platform_device.h>
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#include <linux/mtd/onenand_regs.h>
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#include <linux/io.h>
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#include <linux/platform_data/mtd-onenand-omap2.h>
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#include <linux/err.h>
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#include <asm/mach/flash.h>
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#include "gpmc.h"
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#include "soc.h"
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#include "gpmc-onenand.h"
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#define ONENAND_IO_SIZE SZ_128K
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#define ONENAND_FLAG_SYNCREAD (1 << 0)
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#define ONENAND_FLAG_SYNCWRITE (1 << 1)
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#define ONENAND_FLAG_HF (1 << 2)
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#define ONENAND_FLAG_VHF (1 << 3)
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static unsigned onenand_flags;
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static unsigned latency;
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static struct omap_onenand_platform_data *gpmc_onenand_data;
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static struct resource gpmc_onenand_resource = {
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.flags = IORESOURCE_MEM,
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};
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static struct platform_device gpmc_onenand_device = {
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.name = "omap2-onenand",
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.id = -1,
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.num_resources = 1,
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.resource = &gpmc_onenand_resource,
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};
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static struct gpmc_settings onenand_async = {
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.device_width = GPMC_DEVWIDTH_16BIT,
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.mux_add_data = GPMC_MUX_AD,
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};
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static struct gpmc_settings onenand_sync = {
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.burst_read = true,
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.burst_wrap = true,
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.burst_len = GPMC_BURST_16,
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.device_width = GPMC_DEVWIDTH_16BIT,
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.mux_add_data = GPMC_MUX_AD,
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.wait_pin = 0,
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};
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static void omap2_onenand_calc_async_timings(struct gpmc_timings *t)
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{
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struct gpmc_device_timings dev_t;
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const int t_cer = 15;
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const int t_avdp = 12;
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const int t_aavdh = 7;
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const int t_ce = 76;
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const int t_aa = 76;
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const int t_oe = 20;
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const int t_cez = 20; /* max of t_cez, t_oez */
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const int t_wpl = 40;
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const int t_wph = 30;
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memset(&dev_t, 0, sizeof(dev_t));
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dev_t.t_avdp_r = max_t(int, t_avdp, t_cer) * 1000;
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dev_t.t_avdp_w = dev_t.t_avdp_r;
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dev_t.t_aavdh = t_aavdh * 1000;
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dev_t.t_aa = t_aa * 1000;
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dev_t.t_ce = t_ce * 1000;
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dev_t.t_oe = t_oe * 1000;
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dev_t.t_cez_r = t_cez * 1000;
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dev_t.t_cez_w = dev_t.t_cez_r;
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dev_t.t_wpl = t_wpl * 1000;
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dev_t.t_wph = t_wph * 1000;
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gpmc_calc_timings(t, &onenand_async, &dev_t);
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}
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static void omap2_onenand_set_async_mode(void __iomem *onenand_base)
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{
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u32 reg;
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/* Ensure sync read and sync write are disabled */
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reg = readw(onenand_base + ONENAND_REG_SYS_CFG1);
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reg &= ~ONENAND_SYS_CFG1_SYNC_READ & ~ONENAND_SYS_CFG1_SYNC_WRITE;
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writew(reg, onenand_base + ONENAND_REG_SYS_CFG1);
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}
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static void set_onenand_cfg(void __iomem *onenand_base)
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{
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u32 reg;
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reg = readw(onenand_base + ONENAND_REG_SYS_CFG1);
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reg &= ~((0x7 << ONENAND_SYS_CFG1_BRL_SHIFT) | (0x7 << 9));
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reg |= (latency << ONENAND_SYS_CFG1_BRL_SHIFT) |
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ONENAND_SYS_CFG1_BL_16;
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if (onenand_flags & ONENAND_FLAG_SYNCREAD)
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reg |= ONENAND_SYS_CFG1_SYNC_READ;
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else
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reg &= ~ONENAND_SYS_CFG1_SYNC_READ;
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if (onenand_flags & ONENAND_FLAG_SYNCWRITE)
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reg |= ONENAND_SYS_CFG1_SYNC_WRITE;
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else
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reg &= ~ONENAND_SYS_CFG1_SYNC_WRITE;
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if (onenand_flags & ONENAND_FLAG_HF)
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reg |= ONENAND_SYS_CFG1_HF;
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else
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reg &= ~ONENAND_SYS_CFG1_HF;
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if (onenand_flags & ONENAND_FLAG_VHF)
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reg |= ONENAND_SYS_CFG1_VHF;
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else
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reg &= ~ONENAND_SYS_CFG1_VHF;
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writew(reg, onenand_base + ONENAND_REG_SYS_CFG1);
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}
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static int omap2_onenand_get_freq(struct omap_onenand_platform_data *cfg,
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void __iomem *onenand_base)
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{
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u16 ver = readw(onenand_base + ONENAND_REG_VERSION_ID);
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int freq;
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switch ((ver >> 4) & 0xf) {
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case 0:
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freq = 40;
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break;
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case 1:
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freq = 54;
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break;
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case 2:
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freq = 66;
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break;
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case 3:
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freq = 83;
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break;
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case 4:
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freq = 104;
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break;
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default:
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freq = 54;
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break;
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}
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return freq;
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}
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static void omap2_onenand_calc_sync_timings(struct gpmc_timings *t,
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unsigned int flags,
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int freq)
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{
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struct gpmc_device_timings dev_t;
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const int t_cer = 15;
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const int t_avdp = 12;
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const int t_cez = 20; /* max of t_cez, t_oez */
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const int t_wpl = 40;
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const int t_wph = 30;
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int min_gpmc_clk_period, t_ces, t_avds, t_avdh, t_ach, t_aavdh, t_rdyo;
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int div, gpmc_clk_ns;
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if (flags & ONENAND_SYNC_READ)
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onenand_flags = ONENAND_FLAG_SYNCREAD;
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else if (flags & ONENAND_SYNC_READWRITE)
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onenand_flags = ONENAND_FLAG_SYNCREAD | ONENAND_FLAG_SYNCWRITE;
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switch (freq) {
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case 104:
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min_gpmc_clk_period = 9600; /* 104 MHz */
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t_ces = 3;
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t_avds = 4;
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t_avdh = 2;
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t_ach = 3;
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t_aavdh = 6;
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t_rdyo = 6;
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break;
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case 83:
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min_gpmc_clk_period = 12000; /* 83 MHz */
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t_ces = 5;
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t_avds = 4;
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t_avdh = 2;
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t_ach = 6;
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t_aavdh = 6;
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t_rdyo = 9;
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break;
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case 66:
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min_gpmc_clk_period = 15000; /* 66 MHz */
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t_ces = 6;
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t_avds = 5;
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t_avdh = 2;
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t_ach = 6;
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t_aavdh = 6;
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t_rdyo = 11;
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break;
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default:
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min_gpmc_clk_period = 18500; /* 54 MHz */
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t_ces = 7;
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t_avds = 7;
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t_avdh = 7;
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t_ach = 9;
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t_aavdh = 7;
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t_rdyo = 15;
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onenand_flags &= ~ONENAND_FLAG_SYNCWRITE;
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break;
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}
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div = gpmc_calc_divider(min_gpmc_clk_period);
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gpmc_clk_ns = gpmc_ticks_to_ns(div);
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if (gpmc_clk_ns < 15) /* >66Mhz */
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onenand_flags |= ONENAND_FLAG_HF;
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else
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onenand_flags &= ~ONENAND_FLAG_HF;
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if (gpmc_clk_ns < 12) /* >83Mhz */
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onenand_flags |= ONENAND_FLAG_VHF;
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else
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onenand_flags &= ~ONENAND_FLAG_VHF;
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if (onenand_flags & ONENAND_FLAG_VHF)
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latency = 8;
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else if (onenand_flags & ONENAND_FLAG_HF)
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latency = 6;
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else if (gpmc_clk_ns >= 25) /* 40 MHz*/
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latency = 3;
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else
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latency = 4;
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/* Set synchronous read timings */
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memset(&dev_t, 0, sizeof(dev_t));
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if (onenand_flags & ONENAND_FLAG_SYNCREAD)
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onenand_sync.sync_read = true;
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if (onenand_flags & ONENAND_FLAG_SYNCWRITE) {
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onenand_sync.sync_write = true;
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onenand_sync.burst_write = true;
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} else {
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dev_t.t_avdp_w = max(t_avdp, t_cer) * 1000;
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dev_t.t_wpl = t_wpl * 1000;
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dev_t.t_wph = t_wph * 1000;
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dev_t.t_aavdh = t_aavdh * 1000;
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}
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dev_t.ce_xdelay = true;
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dev_t.avd_xdelay = true;
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dev_t.oe_xdelay = true;
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dev_t.we_xdelay = true;
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dev_t.clk = min_gpmc_clk_period;
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dev_t.t_bacc = dev_t.clk;
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dev_t.t_ces = t_ces * 1000;
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dev_t.t_avds = t_avds * 1000;
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dev_t.t_avdh = t_avdh * 1000;
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dev_t.t_ach = t_ach * 1000;
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dev_t.cyc_iaa = (latency + 1);
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dev_t.t_cez_r = t_cez * 1000;
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dev_t.t_cez_w = dev_t.t_cez_r;
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dev_t.cyc_aavdh_oe = 1;
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dev_t.t_rdyo = t_rdyo * 1000 + min_gpmc_clk_period;
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gpmc_calc_timings(t, &onenand_sync, &dev_t);
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}
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static int omap2_onenand_setup_async(void __iomem *onenand_base)
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{
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struct gpmc_timings t;
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int ret;
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if (gpmc_onenand_data->of_node)
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gpmc_read_settings_dt(gpmc_onenand_data->of_node,
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&onenand_async);
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omap2_onenand_set_async_mode(onenand_base);
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omap2_onenand_calc_async_timings(&t);
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ret = gpmc_cs_program_settings(gpmc_onenand_data->cs, &onenand_async);
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if (ret < 0)
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return ret;
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ret = gpmc_cs_set_timings(gpmc_onenand_data->cs, &t);
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if (ret < 0)
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return ret;
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omap2_onenand_set_async_mode(onenand_base);
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return 0;
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}
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static int omap2_onenand_setup_sync(void __iomem *onenand_base, int *freq_ptr)
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{
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int ret, freq = *freq_ptr;
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struct gpmc_timings t;
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if (!freq) {
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/* Very first call freq is not known */
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freq = omap2_onenand_get_freq(gpmc_onenand_data, onenand_base);
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set_onenand_cfg(onenand_base);
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}
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if (gpmc_onenand_data->of_node) {
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gpmc_read_settings_dt(gpmc_onenand_data->of_node,
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&onenand_sync);
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} else {
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/*
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* FIXME: Appears to be legacy code from initial ONENAND commit.
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* Unclear what boards this is for and if this can be removed.
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*/
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if (!cpu_is_omap34xx())
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onenand_sync.wait_on_read = true;
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}
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omap2_onenand_calc_sync_timings(&t, gpmc_onenand_data->flags, freq);
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ret = gpmc_cs_program_settings(gpmc_onenand_data->cs, &onenand_sync);
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if (ret < 0)
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return ret;
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ret = gpmc_cs_set_timings(gpmc_onenand_data->cs, &t);
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if (ret < 0)
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return ret;
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set_onenand_cfg(onenand_base);
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*freq_ptr = freq;
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return 0;
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}
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static int gpmc_onenand_setup(void __iomem *onenand_base, int *freq_ptr)
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{
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struct device *dev = &gpmc_onenand_device.dev;
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unsigned l = ONENAND_SYNC_READ | ONENAND_SYNC_READWRITE;
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int ret;
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ret = omap2_onenand_setup_async(onenand_base);
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if (ret) {
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dev_err(dev, "unable to set to async mode\n");
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return ret;
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}
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if (!(gpmc_onenand_data->flags & l))
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return 0;
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ret = omap2_onenand_setup_sync(onenand_base, freq_ptr);
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if (ret)
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dev_err(dev, "unable to set to sync mode\n");
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return ret;
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}
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void gpmc_onenand_init(struct omap_onenand_platform_data *_onenand_data)
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{
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int err;
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struct device *dev = &gpmc_onenand_device.dev;
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gpmc_onenand_data = _onenand_data;
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gpmc_onenand_data->onenand_setup = gpmc_onenand_setup;
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gpmc_onenand_device.dev.platform_data = gpmc_onenand_data;
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if (cpu_is_omap24xx() &&
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(gpmc_onenand_data->flags & ONENAND_SYNC_READWRITE)) {
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dev_warn(dev, "OneNAND using only SYNC_READ on 24xx\n");
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gpmc_onenand_data->flags &= ~ONENAND_SYNC_READWRITE;
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gpmc_onenand_data->flags |= ONENAND_SYNC_READ;
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}
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if (cpu_is_omap34xx())
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gpmc_onenand_data->flags |= ONENAND_IN_OMAP34XX;
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else
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gpmc_onenand_data->flags &= ~ONENAND_IN_OMAP34XX;
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err = gpmc_cs_request(gpmc_onenand_data->cs, ONENAND_IO_SIZE,
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(unsigned long *)&gpmc_onenand_resource.start);
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if (err < 0) {
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dev_err(dev, "Cannot request GPMC CS %d, error %d\n",
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gpmc_onenand_data->cs, err);
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return;
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}
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gpmc_onenand_resource.end = gpmc_onenand_resource.start +
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ONENAND_IO_SIZE - 1;
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if (platform_device_register(&gpmc_onenand_device) < 0) {
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dev_err(dev, "Unable to register OneNAND device\n");
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gpmc_cs_free(gpmc_onenand_data->cs);
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return;
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}
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}
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