linux_old1/arch/arm/mach-tegra/pinmux-tegra20-tables.c

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/*
* linux/arch/arm/mach-tegra/pinmux-tegra20-tables.c
*
* Common pinmux configurations for Tegra20 SoCs
*
* Copyright (C) 2010 NVIDIA Corporation
*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation; either version 2 of the License, or
* (at your option) any later version.
*
* This program is distributed in the hope that it will be useful, but WITHOUT
* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
* FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
* more details.
*
* You should have received a copy of the GNU General Public License along
* with this program; if not, write to the Free Software Foundation, Inc.,
* 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA.
*/
#include <linux/kernel.h>
#include <linux/errno.h>
#include <linux/spinlock.h>
#include <linux/io.h>
#include <linux/init.h>
#include <linux/string.h>
#include <mach/iomap.h>
#include <mach/pinmux.h>
#include <mach/pinmux-tegra20.h>
#include <mach/suspend.h>
arm/tegra: pinmux: ioremap registers Use ioremap to obtain access to registers instead of using static mappings. This reduces the number of users of the static mappings, which will eventually allow them to be removed. Note that on Tegra30, the number of register "banks" will decrease to 2, and the packing of specific bits into registers will change significantly. That's why this change adds the "*_bank" fields to the pingroup tables, rather than implementing some more hard-coded scheme. Also, completely remove the implementation of suspend/resume; Tegra doesn't yet support suspend/resume, and the implementation is complex for the general pinmux driver: * Not all registers are used within each bank, so we probably shouldn't just iterate over every register in the bank, and save/restore it, since that would mean touching undefined registers. * Registers are shared between pingroups, so we can't simply iterate over each pingroup, and save/restore the registers it uses. It'd probably be best have probe() calculate a bitmask of actually-used registers for each bank, and have suspend/resume iterate over those bitmaps. Oh, and Real Soon Now, I should be looking into converting this driver to the new pinmux/pinctrl subsystem, so I didn't want to put too much work into the current incarnation. v2: s/space/bank/ to match comments on reg_* fields in pinmux.h. Re-order bank/reg parameters to pg_readl/pg_writel. Signed-off-by: Stephen Warren <swarren@nvidia.com> Signed-off-by: Olof Johansson <olof@lixom.net>
2011-10-12 23:54:27 +08:00
#define TRISTATE_REG_A 0x14
#define PIN_MUX_CTL_REG_A 0x80
#define PULLUPDOWN_REG_A 0xa0
#define PINGROUP_REG_A 0x868
#define DRIVE_PINGROUP(pg_name, r) \
[TEGRA_DRIVE_PINGROUP_ ## pg_name] = { \
.name = #pg_name, \
arm/tegra: pinmux: ioremap registers Use ioremap to obtain access to registers instead of using static mappings. This reduces the number of users of the static mappings, which will eventually allow them to be removed. Note that on Tegra30, the number of register "banks" will decrease to 2, and the packing of specific bits into registers will change significantly. That's why this change adds the "*_bank" fields to the pingroup tables, rather than implementing some more hard-coded scheme. Also, completely remove the implementation of suspend/resume; Tegra doesn't yet support suspend/resume, and the implementation is complex for the general pinmux driver: * Not all registers are used within each bank, so we probably shouldn't just iterate over every register in the bank, and save/restore it, since that would mean touching undefined registers. * Registers are shared between pingroups, so we can't simply iterate over each pingroup, and save/restore the registers it uses. It'd probably be best have probe() calculate a bitmask of actually-used registers for each bank, and have suspend/resume iterate over those bitmaps. Oh, and Real Soon Now, I should be looking into converting this driver to the new pinmux/pinctrl subsystem, so I didn't want to put too much work into the current incarnation. v2: s/space/bank/ to match comments on reg_* fields in pinmux.h. Re-order bank/reg parameters to pg_readl/pg_writel. Signed-off-by: Stephen Warren <swarren@nvidia.com> Signed-off-by: Olof Johansson <olof@lixom.net>
2011-10-12 23:54:27 +08:00
.reg_bank = 3, \
.reg = ((r) - PINGROUP_REG_A) \
}
static const struct tegra_drive_pingroup_desc tegra_soc_drive_pingroups[TEGRA_MAX_DRIVE_PINGROUP] = {
DRIVE_PINGROUP(AO1, 0x868),
DRIVE_PINGROUP(AO2, 0x86c),
DRIVE_PINGROUP(AT1, 0x870),
DRIVE_PINGROUP(AT2, 0x874),
DRIVE_PINGROUP(CDEV1, 0x878),
DRIVE_PINGROUP(CDEV2, 0x87c),
DRIVE_PINGROUP(CSUS, 0x880),
DRIVE_PINGROUP(DAP1, 0x884),
DRIVE_PINGROUP(DAP2, 0x888),
DRIVE_PINGROUP(DAP3, 0x88c),
DRIVE_PINGROUP(DAP4, 0x890),
DRIVE_PINGROUP(DBG, 0x894),
DRIVE_PINGROUP(LCD1, 0x898),
DRIVE_PINGROUP(LCD2, 0x89c),
DRIVE_PINGROUP(SDMMC2, 0x8a0),
DRIVE_PINGROUP(SDMMC3, 0x8a4),
DRIVE_PINGROUP(SPI, 0x8a8),
DRIVE_PINGROUP(UAA, 0x8ac),
DRIVE_PINGROUP(UAB, 0x8b0),
DRIVE_PINGROUP(UART2, 0x8b4),
DRIVE_PINGROUP(UART3, 0x8b8),
DRIVE_PINGROUP(VI1, 0x8bc),
DRIVE_PINGROUP(VI2, 0x8c0),
DRIVE_PINGROUP(XM2A, 0x8c4),
DRIVE_PINGROUP(XM2C, 0x8c8),
DRIVE_PINGROUP(XM2D, 0x8cc),
DRIVE_PINGROUP(XM2CLK, 0x8d0),
DRIVE_PINGROUP(MEMCOMP, 0x8d4),
DRIVE_PINGROUP(SDIO1, 0x8e0),
DRIVE_PINGROUP(CRT, 0x8ec),
DRIVE_PINGROUP(DDC, 0x8f0),
DRIVE_PINGROUP(GMA, 0x8f4),
DRIVE_PINGROUP(GMB, 0x8f8),
DRIVE_PINGROUP(GMC, 0x8fc),
DRIVE_PINGROUP(GMD, 0x900),
DRIVE_PINGROUP(GME, 0x904),
DRIVE_PINGROUP(OWR, 0x908),
DRIVE_PINGROUP(UAD, 0x90c),
};
#define PINGROUP(pg_name, vdd, f0, f1, f2, f3, f_safe, \
tri_r, tri_b, mux_r, mux_b, pupd_r, pupd_b) \
[TEGRA_PINGROUP_ ## pg_name] = { \
.name = #pg_name, \
.vddio = TEGRA_VDDIO_ ## vdd, \
.funcs = { \
TEGRA_MUX_ ## f0, \
TEGRA_MUX_ ## f1, \
TEGRA_MUX_ ## f2, \
TEGRA_MUX_ ## f3, \
}, \
.func_safe = TEGRA_MUX_ ## f_safe, \
arm/tegra: pinmux: ioremap registers Use ioremap to obtain access to registers instead of using static mappings. This reduces the number of users of the static mappings, which will eventually allow them to be removed. Note that on Tegra30, the number of register "banks" will decrease to 2, and the packing of specific bits into registers will change significantly. That's why this change adds the "*_bank" fields to the pingroup tables, rather than implementing some more hard-coded scheme. Also, completely remove the implementation of suspend/resume; Tegra doesn't yet support suspend/resume, and the implementation is complex for the general pinmux driver: * Not all registers are used within each bank, so we probably shouldn't just iterate over every register in the bank, and save/restore it, since that would mean touching undefined registers. * Registers are shared between pingroups, so we can't simply iterate over each pingroup, and save/restore the registers it uses. It'd probably be best have probe() calculate a bitmask of actually-used registers for each bank, and have suspend/resume iterate over those bitmaps. Oh, and Real Soon Now, I should be looking into converting this driver to the new pinmux/pinctrl subsystem, so I didn't want to put too much work into the current incarnation. v2: s/space/bank/ to match comments on reg_* fields in pinmux.h. Re-order bank/reg parameters to pg_readl/pg_writel. Signed-off-by: Stephen Warren <swarren@nvidia.com> Signed-off-by: Olof Johansson <olof@lixom.net>
2011-10-12 23:54:27 +08:00
.tri_bank = 0, \
.tri_reg = ((tri_r) - TRISTATE_REG_A), \
.tri_bit = tri_b, \
arm/tegra: pinmux: ioremap registers Use ioremap to obtain access to registers instead of using static mappings. This reduces the number of users of the static mappings, which will eventually allow them to be removed. Note that on Tegra30, the number of register "banks" will decrease to 2, and the packing of specific bits into registers will change significantly. That's why this change adds the "*_bank" fields to the pingroup tables, rather than implementing some more hard-coded scheme. Also, completely remove the implementation of suspend/resume; Tegra doesn't yet support suspend/resume, and the implementation is complex for the general pinmux driver: * Not all registers are used within each bank, so we probably shouldn't just iterate over every register in the bank, and save/restore it, since that would mean touching undefined registers. * Registers are shared between pingroups, so we can't simply iterate over each pingroup, and save/restore the registers it uses. It'd probably be best have probe() calculate a bitmask of actually-used registers for each bank, and have suspend/resume iterate over those bitmaps. Oh, and Real Soon Now, I should be looking into converting this driver to the new pinmux/pinctrl subsystem, so I didn't want to put too much work into the current incarnation. v2: s/space/bank/ to match comments on reg_* fields in pinmux.h. Re-order bank/reg parameters to pg_readl/pg_writel. Signed-off-by: Stephen Warren <swarren@nvidia.com> Signed-off-by: Olof Johansson <olof@lixom.net>
2011-10-12 23:54:27 +08:00
.mux_bank = 1, \
.mux_reg = ((mux_r) - PIN_MUX_CTL_REG_A), \
.mux_bit = mux_b, \
arm/tegra: pinmux: ioremap registers Use ioremap to obtain access to registers instead of using static mappings. This reduces the number of users of the static mappings, which will eventually allow them to be removed. Note that on Tegra30, the number of register "banks" will decrease to 2, and the packing of specific bits into registers will change significantly. That's why this change adds the "*_bank" fields to the pingroup tables, rather than implementing some more hard-coded scheme. Also, completely remove the implementation of suspend/resume; Tegra doesn't yet support suspend/resume, and the implementation is complex for the general pinmux driver: * Not all registers are used within each bank, so we probably shouldn't just iterate over every register in the bank, and save/restore it, since that would mean touching undefined registers. * Registers are shared between pingroups, so we can't simply iterate over each pingroup, and save/restore the registers it uses. It'd probably be best have probe() calculate a bitmask of actually-used registers for each bank, and have suspend/resume iterate over those bitmaps. Oh, and Real Soon Now, I should be looking into converting this driver to the new pinmux/pinctrl subsystem, so I didn't want to put too much work into the current incarnation. v2: s/space/bank/ to match comments on reg_* fields in pinmux.h. Re-order bank/reg parameters to pg_readl/pg_writel. Signed-off-by: Stephen Warren <swarren@nvidia.com> Signed-off-by: Olof Johansson <olof@lixom.net>
2011-10-12 23:54:27 +08:00
.pupd_bank = 2, \
.pupd_reg = ((pupd_r) - PULLUPDOWN_REG_A), \
.pupd_bit = pupd_b, \
.lock_bit = -1, \
.od_bit = -1, \
.ioreset_bit = -1, \
.io_default = -1, \
}
static const struct tegra_pingroup_desc tegra_soc_pingroups[TEGRA_MAX_PINGROUP] = {
PINGROUP(ATA, NAND, IDE, NAND, GMI, RSVD, IDE, 0x14, 0, 0x80, 24, 0xA0, 0),
PINGROUP(ATB, NAND, IDE, NAND, GMI, SDIO4, IDE, 0x14, 1, 0x80, 16, 0xA0, 2),
PINGROUP(ATC, NAND, IDE, NAND, GMI, SDIO4, IDE, 0x14, 2, 0x80, 22, 0xA0, 4),
PINGROUP(ATD, NAND, IDE, NAND, GMI, SDIO4, IDE, 0x14, 3, 0x80, 20, 0xA0, 6),
PINGROUP(ATE, NAND, IDE, NAND, GMI, RSVD, IDE, 0x18, 25, 0x80, 12, 0xA0, 8),
PINGROUP(CDEV1, AUDIO, OSC, PLLA_OUT, PLLM_OUT1, AUDIO_SYNC, OSC, 0x14, 4, 0x88, 2, 0xA8, 0),
PINGROUP(CDEV2, AUDIO, OSC, AHB_CLK, APB_CLK, PLLP_OUT4, OSC, 0x14, 5, 0x88, 4, 0xA8, 2),
PINGROUP(CRTP, LCD, CRT, RSVD, RSVD, RSVD, RSVD, 0x20, 14, 0x98, 20, 0xA4, 24),
PINGROUP(CSUS, VI, PLLC_OUT1, PLLP_OUT2, PLLP_OUT3, VI_SENSOR_CLK, PLLC_OUT1, 0x14, 6, 0x88, 6, 0xAC, 24),
PINGROUP(DAP1, AUDIO, DAP1, RSVD, GMI, SDIO2, DAP1, 0x14, 7, 0x88, 20, 0xA0, 10),
PINGROUP(DAP2, AUDIO, DAP2, TWC, RSVD, GMI, DAP2, 0x14, 8, 0x88, 22, 0xA0, 12),
PINGROUP(DAP3, BB, DAP3, RSVD, RSVD, RSVD, DAP3, 0x14, 9, 0x88, 24, 0xA0, 14),
PINGROUP(DAP4, UART, DAP4, RSVD, GMI, RSVD, DAP4, 0x14, 10, 0x88, 26, 0xA0, 16),
PINGROUP(DDC, LCD, I2C2, RSVD, RSVD, RSVD, RSVD4, 0x18, 31, 0x88, 0, 0xB0, 28),
PINGROUP(DTA, VI, RSVD, SDIO2, VI, RSVD, RSVD4, 0x14, 11, 0x84, 20, 0xA0, 18),
PINGROUP(DTB, VI, RSVD, RSVD, VI, SPI1, RSVD1, 0x14, 12, 0x84, 22, 0xA0, 20),
PINGROUP(DTC, VI, RSVD, RSVD, VI, RSVD, RSVD1, 0x14, 13, 0x84, 26, 0xA0, 22),
PINGROUP(DTD, VI, RSVD, SDIO2, VI, RSVD, RSVD1, 0x14, 14, 0x84, 28, 0xA0, 24),
PINGROUP(DTE, VI, RSVD, RSVD, VI, SPI1, RSVD1, 0x14, 15, 0x84, 30, 0xA0, 26),
PINGROUP(DTF, VI, I2C3, RSVD, VI, RSVD, RSVD4, 0x20, 12, 0x98, 30, 0xA0, 28),
PINGROUP(GMA, NAND, UARTE, SPI3, GMI, SDIO4, SPI3, 0x14, 28, 0x84, 0, 0xB0, 20),
PINGROUP(GMB, NAND, IDE, NAND, GMI, GMI_INT, GMI, 0x18, 29, 0x88, 28, 0xB0, 22),
PINGROUP(GMC, NAND, UARTD, SPI4, GMI, SFLASH, SPI4, 0x14, 29, 0x84, 2, 0xB0, 24),
PINGROUP(GMD, NAND, RSVD, NAND, GMI, SFLASH, GMI, 0x18, 30, 0x88, 30, 0xB0, 26),
PINGROUP(GME, NAND, RSVD, DAP5, GMI, SDIO4, GMI, 0x18, 0, 0x8C, 0, 0xA8, 24),
PINGROUP(GPU, UART, PWM, UARTA, GMI, RSVD, RSVD4, 0x14, 16, 0x8C, 4, 0xA4, 20),
PINGROUP(GPU7, SYS, RTCK, RSVD, RSVD, RSVD, RTCK, 0x20, 11, 0x98, 28, 0xA4, 6),
PINGROUP(GPV, SD, PCIE, RSVD, RSVD, RSVD, PCIE, 0x14, 17, 0x8C, 2, 0xA0, 30),
PINGROUP(HDINT, LCD, HDMI, RSVD, RSVD, RSVD, HDMI, 0x1C, 23, 0x84, 4, 0xAC, 22),
PINGROUP(I2CP, SYS, I2C, RSVD, RSVD, RSVD, RSVD4, 0x14, 18, 0x88, 8, 0xA4, 2),
PINGROUP(IRRX, UART, UARTA, UARTB, GMI, SPI4, UARTB, 0x14, 20, 0x88, 18, 0xA8, 22),
PINGROUP(IRTX, UART, UARTA, UARTB, GMI, SPI4, UARTB, 0x14, 19, 0x88, 16, 0xA8, 20),
PINGROUP(KBCA, SYS, KBC, NAND, SDIO2, EMC_TEST0_DLL, KBC, 0x14, 22, 0x88, 10, 0xA4, 8),
PINGROUP(KBCB, SYS, KBC, NAND, SDIO2, MIO, KBC, 0x14, 21, 0x88, 12, 0xA4, 10),
PINGROUP(KBCC, SYS, KBC, NAND, TRACE, EMC_TEST1_DLL, KBC, 0x18, 26, 0x88, 14, 0xA4, 12),
PINGROUP(KBCD, SYS, KBC, NAND, SDIO2, MIO, KBC, 0x20, 10, 0x98, 26, 0xA4, 14),
PINGROUP(KBCE, SYS, KBC, NAND, OWR, RSVD, KBC, 0x14, 26, 0x80, 28, 0xB0, 2),
PINGROUP(KBCF, SYS, KBC, NAND, TRACE, MIO, KBC, 0x14, 27, 0x80, 26, 0xB0, 0),
PINGROUP(LCSN, LCD, DISPLAYA, DISPLAYB, SPI3, RSVD, RSVD4, 0x1C, 31, 0x90, 12, 0xAC, 20),
PINGROUP(LD0, LCD, DISPLAYA, DISPLAYB, XIO, RSVD, RSVD4, 0x1C, 0, 0x94, 0, 0xAC, 12),
PINGROUP(LD1, LCD, DISPLAYA, DISPLAYB, XIO, RSVD, RSVD4, 0x1C, 1, 0x94, 2, 0xAC, 12),
PINGROUP(LD10, LCD, DISPLAYA, DISPLAYB, XIO, RSVD, RSVD4, 0x1C, 10, 0x94, 20, 0xAC, 12),
PINGROUP(LD11, LCD, DISPLAYA, DISPLAYB, XIO, RSVD, RSVD4, 0x1C, 11, 0x94, 22, 0xAC, 12),
PINGROUP(LD12, LCD, DISPLAYA, DISPLAYB, XIO, RSVD, RSVD4, 0x1C, 12, 0x94, 24, 0xAC, 12),
PINGROUP(LD13, LCD, DISPLAYA, DISPLAYB, XIO, RSVD, RSVD4, 0x1C, 13, 0x94, 26, 0xAC, 12),
PINGROUP(LD14, LCD, DISPLAYA, DISPLAYB, XIO, RSVD, RSVD4, 0x1C, 14, 0x94, 28, 0xAC, 12),
PINGROUP(LD15, LCD, DISPLAYA, DISPLAYB, XIO, RSVD, RSVD4, 0x1C, 15, 0x94, 30, 0xAC, 12),
PINGROUP(LD16, LCD, DISPLAYA, DISPLAYB, XIO, RSVD, RSVD4, 0x1C, 16, 0x98, 0, 0xAC, 12),
PINGROUP(LD17, LCD, DISPLAYA, DISPLAYB, RSVD, RSVD, RSVD4, 0x1C, 17, 0x98, 2, 0xAC, 12),
PINGROUP(LD2, LCD, DISPLAYA, DISPLAYB, XIO, RSVD, RSVD4, 0x1C, 2, 0x94, 4, 0xAC, 12),
PINGROUP(LD3, LCD, DISPLAYA, DISPLAYB, XIO, RSVD, RSVD4, 0x1C, 3, 0x94, 6, 0xAC, 12),
PINGROUP(LD4, LCD, DISPLAYA, DISPLAYB, XIO, RSVD, RSVD4, 0x1C, 4, 0x94, 8, 0xAC, 12),
PINGROUP(LD5, LCD, DISPLAYA, DISPLAYB, XIO, RSVD, RSVD4, 0x1C, 5, 0x94, 10, 0xAC, 12),
PINGROUP(LD6, LCD, DISPLAYA, DISPLAYB, XIO, RSVD, RSVD4, 0x1C, 6, 0x94, 12, 0xAC, 12),
PINGROUP(LD7, LCD, DISPLAYA, DISPLAYB, XIO, RSVD, RSVD4, 0x1C, 7, 0x94, 14, 0xAC, 12),
PINGROUP(LD8, LCD, DISPLAYA, DISPLAYB, XIO, RSVD, RSVD4, 0x1C, 8, 0x94, 16, 0xAC, 12),
PINGROUP(LD9, LCD, DISPLAYA, DISPLAYB, XIO, RSVD, RSVD4, 0x1C, 9, 0x94, 18, 0xAC, 12),
PINGROUP(LDC, LCD, DISPLAYA, DISPLAYB, RSVD, RSVD, RSVD4, 0x1C, 30, 0x90, 14, 0xAC, 20),
PINGROUP(LDI, LCD, DISPLAYA, DISPLAYB, RSVD, RSVD, RSVD4, 0x20, 6, 0x98, 16, 0xAC, 18),
PINGROUP(LHP0, LCD, DISPLAYA, DISPLAYB, RSVD, RSVD, RSVD4, 0x1C, 18, 0x98, 10, 0xAC, 16),
PINGROUP(LHP1, LCD, DISPLAYA, DISPLAYB, RSVD, RSVD, RSVD4, 0x1C, 19, 0x98, 4, 0xAC, 14),
PINGROUP(LHP2, LCD, DISPLAYA, DISPLAYB, RSVD, RSVD, RSVD4, 0x1C, 20, 0x98, 6, 0xAC, 14),
PINGROUP(LHS, LCD, DISPLAYA, DISPLAYB, XIO, RSVD, RSVD4, 0x20, 7, 0x90, 22, 0xAC, 22),
PINGROUP(LM0, LCD, DISPLAYA, DISPLAYB, SPI3, RSVD, RSVD4, 0x1C, 24, 0x90, 26, 0xAC, 22),
PINGROUP(LM1, LCD, DISPLAYA, DISPLAYB, RSVD, CRT, RSVD3, 0x1C, 25, 0x90, 28, 0xAC, 22),
PINGROUP(LPP, LCD, DISPLAYA, DISPLAYB, RSVD, RSVD, RSVD4, 0x20, 8, 0x98, 14, 0xAC, 18),
PINGROUP(LPW0, LCD, DISPLAYA, DISPLAYB, SPI3, HDMI, DISPLAYA, 0x20, 3, 0x90, 0, 0xAC, 20),
PINGROUP(LPW1, LCD, DISPLAYA, DISPLAYB, RSVD, RSVD, RSVD4, 0x20, 4, 0x90, 2, 0xAC, 20),
PINGROUP(LPW2, LCD, DISPLAYA, DISPLAYB, SPI3, HDMI, DISPLAYA, 0x20, 5, 0x90, 4, 0xAC, 20),
PINGROUP(LSC0, LCD, DISPLAYA, DISPLAYB, XIO, RSVD, RSVD4, 0x1C, 27, 0x90, 18, 0xAC, 22),
PINGROUP(LSC1, LCD, DISPLAYA, DISPLAYB, SPI3, HDMI, DISPLAYA, 0x1C, 28, 0x90, 20, 0xAC, 20),
PINGROUP(LSCK, LCD, DISPLAYA, DISPLAYB, SPI3, HDMI, DISPLAYA, 0x1C, 29, 0x90, 16, 0xAC, 20),
PINGROUP(LSDA, LCD, DISPLAYA, DISPLAYB, SPI3, HDMI, DISPLAYA, 0x20, 1, 0x90, 8, 0xAC, 20),
PINGROUP(LSDI, LCD, DISPLAYA, DISPLAYB, SPI3, RSVD, DISPLAYA, 0x20, 2, 0x90, 6, 0xAC, 20),
PINGROUP(LSPI, LCD, DISPLAYA, DISPLAYB, XIO, HDMI, DISPLAYA, 0x20, 0, 0x90, 10, 0xAC, 22),
PINGROUP(LVP0, LCD, DISPLAYA, DISPLAYB, RSVD, RSVD, RSVD4, 0x1C, 21, 0x90, 30, 0xAC, 22),
PINGROUP(LVP1, LCD, DISPLAYA, DISPLAYB, RSVD, RSVD, RSVD4, 0x1C, 22, 0x98, 8, 0xAC, 16),
PINGROUP(LVS, LCD, DISPLAYA, DISPLAYB, XIO, RSVD, RSVD4, 0x1C, 26, 0x90, 24, 0xAC, 22),
PINGROUP(OWC, SYS, OWR, RSVD, RSVD, RSVD, OWR, 0x14, 31, 0x84, 8, 0xB0, 30),
PINGROUP(PMC, SYS, PWR_ON, PWR_INTR, RSVD, RSVD, PWR_ON, 0x14, 23, 0x98, 18, -1, -1),
PINGROUP(PTA, NAND, I2C2, HDMI, GMI, RSVD, RSVD4, 0x14, 24, 0x98, 22, 0xA4, 4),
PINGROUP(RM, UART, I2C, RSVD, RSVD, RSVD, RSVD4, 0x14, 25, 0x80, 14, 0xA4, 0),
PINGROUP(SDB, SD, UARTA, PWM, SDIO3, SPI2, PWM, 0x20, 15, 0x8C, 10, -1, -1),
PINGROUP(SDC, SD, PWM, TWC, SDIO3, SPI3, TWC, 0x18, 1, 0x8C, 12, 0xAC, 28),
PINGROUP(SDD, SD, UARTA, PWM, SDIO3, SPI3, PWM, 0x18, 2, 0x8C, 14, 0xAC, 30),
PINGROUP(SDIO1, BB, SDIO1, RSVD, UARTE, UARTA, RSVD2, 0x14, 30, 0x80, 30, 0xB0, 18),
PINGROUP(SLXA, SD, PCIE, SPI4, SDIO3, SPI2, PCIE, 0x18, 3, 0x84, 6, 0xA4, 22),
PINGROUP(SLXC, SD, SPDIF, SPI4, SDIO3, SPI2, SPI4, 0x18, 5, 0x84, 10, 0xA4, 26),
PINGROUP(SLXD, SD, SPDIF, SPI4, SDIO3, SPI2, SPI4, 0x18, 6, 0x84, 12, 0xA4, 28),
PINGROUP(SLXK, SD, PCIE, SPI4, SDIO3, SPI2, PCIE, 0x18, 7, 0x84, 14, 0xA4, 30),
PINGROUP(SPDI, AUDIO, SPDIF, RSVD, I2C, SDIO2, RSVD2, 0x18, 8, 0x8C, 8, 0xA4, 16),
PINGROUP(SPDO, AUDIO, SPDIF, RSVD, I2C, SDIO2, RSVD2, 0x18, 9, 0x8C, 6, 0xA4, 18),
PINGROUP(SPIA, AUDIO, SPI1, SPI2, SPI3, GMI, GMI, 0x18, 10, 0x8C, 30, 0xA8, 4),
PINGROUP(SPIB, AUDIO, SPI1, SPI2, SPI3, GMI, GMI, 0x18, 11, 0x8C, 28, 0xA8, 6),
PINGROUP(SPIC, AUDIO, SPI1, SPI2, SPI3, GMI, GMI, 0x18, 12, 0x8C, 26, 0xA8, 8),
PINGROUP(SPID, AUDIO, SPI2, SPI1, SPI2_ALT, GMI, GMI, 0x18, 13, 0x8C, 24, 0xA8, 10),
PINGROUP(SPIE, AUDIO, SPI2, SPI1, SPI2_ALT, GMI, GMI, 0x18, 14, 0x8C, 22, 0xA8, 12),
PINGROUP(SPIF, AUDIO, SPI3, SPI1, SPI2, RSVD, RSVD4, 0x18, 15, 0x8C, 20, 0xA8, 14),
PINGROUP(SPIG, AUDIO, SPI3, SPI2, SPI2_ALT, I2C, SPI2_ALT, 0x18, 16, 0x8C, 18, 0xA8, 16),
PINGROUP(SPIH, AUDIO, SPI3, SPI2, SPI2_ALT, I2C, SPI2_ALT, 0x18, 17, 0x8C, 16, 0xA8, 18),
PINGROUP(UAA, BB, SPI3, MIPI_HS, UARTA, ULPI, MIPI_HS, 0x18, 18, 0x80, 0, 0xAC, 0),
PINGROUP(UAB, BB, SPI2, MIPI_HS, UARTA, ULPI, MIPI_HS, 0x18, 19, 0x80, 2, 0xAC, 2),
PINGROUP(UAC, BB, OWR, RSVD, RSVD, RSVD, RSVD4, 0x18, 20, 0x80, 4, 0xAC, 4),
PINGROUP(UAD, UART, IRDA, SPDIF, UARTA, SPI4, SPDIF, 0x18, 21, 0x80, 6, 0xAC, 6),
PINGROUP(UCA, UART, UARTC, RSVD, GMI, RSVD, RSVD4, 0x18, 22, 0x84, 16, 0xAC, 8),
PINGROUP(UCB, UART, UARTC, PWM, GMI, RSVD, RSVD4, 0x18, 23, 0x84, 18, 0xAC, 10),
PINGROUP(UDA, BB, SPI1, RSVD, UARTD, ULPI, RSVD2, 0x20, 13, 0x80, 8, 0xB0, 16),
/* these pin groups only have pullup and pull down control */
PINGROUP(CK32, SYS, RSVD, RSVD, RSVD, RSVD, RSVD, -1, -1, -1, -1, 0xB0, 14),
PINGROUP(DDRC, DDR, RSVD, RSVD, RSVD, RSVD, RSVD, -1, -1, -1, -1, 0xAC, 26),
PINGROUP(PMCA, SYS, RSVD, RSVD, RSVD, RSVD, RSVD, -1, -1, -1, -1, 0xB0, 4),
PINGROUP(PMCB, SYS, RSVD, RSVD, RSVD, RSVD, RSVD, -1, -1, -1, -1, 0xB0, 6),
PINGROUP(PMCC, SYS, RSVD, RSVD, RSVD, RSVD, RSVD, -1, -1, -1, -1, 0xB0, 8),
PINGROUP(PMCD, SYS, RSVD, RSVD, RSVD, RSVD, RSVD, -1, -1, -1, -1, 0xB0, 10),
PINGROUP(PMCE, SYS, RSVD, RSVD, RSVD, RSVD, RSVD, -1, -1, -1, -1, 0xB0, 12),
PINGROUP(XM2C, DDR, RSVD, RSVD, RSVD, RSVD, RSVD, -1, -1, -1, -1, 0xA8, 30),
PINGROUP(XM2D, DDR, RSVD, RSVD, RSVD, RSVD, RSVD, -1, -1, -1, -1, 0xA8, 28),
};
void __devinit tegra20_pinmux_init(const struct tegra_pingroup_desc **pg,
int *pg_max, const struct tegra_drive_pingroup_desc **pgdrive,
int *pgdrive_max)
{
*pg = tegra_soc_pingroups;
*pg_max = TEGRA_MAX_PINGROUP;
*pgdrive = tegra_soc_drive_pingroups;
*pgdrive_max = TEGRA_MAX_DRIVE_PINGROUP;
}