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-rw-r--r--src/soc/intel/skylake/include/soc/gpio.h1
-rw-r--r--src/soc/intel/skylake/include/soc/gpio_fsp.h512
2 files changed, 0 insertions, 513 deletions
diff --git a/src/soc/intel/skylake/include/soc/gpio.h b/src/soc/intel/skylake/include/soc/gpio.h
index 56fd52e091..84d2a70c9e 100644
--- a/src/soc/intel/skylake/include/soc/gpio.h
+++ b/src/soc/intel/skylake/include/soc/gpio.h
@@ -26,7 +26,6 @@
#ifndef __ACPI__
#include <stdint.h>
#include <stddef.h>
-#include <soc/gpio_fsp.h>
typedef uint32_t gpio_t;
diff --git a/src/soc/intel/skylake/include/soc/gpio_fsp.h b/src/soc/intel/skylake/include/soc/gpio_fsp.h
deleted file mode 100644
index cedbf82cb1..0000000000
--- a/src/soc/intel/skylake/include/soc/gpio_fsp.h
+++ /dev/null
@@ -1,512 +0,0 @@
-/*
- * This file is part of the coreboot project.
- *
- * Copyright (C) 2014 Google Inc.
- * Copyright (C) 2015 Intel 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; version 2 of the License.
- *
- * 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.
- */
-
-#ifndef _SOC_GPIO_FSP_H_
-#define _SOC_GPIO_FSP_H_
-
-#include <stdint.h>
-
-/*
- * GPP_Ax to GPP_Gx;
- * where x=24 [between GPIO Community A to F]
- * = 7 [only for GPIO Community G]
- */
-#define MAX_GPIO_NUMBER 151 /* zero based */
-#define GPIO_LIST_END 0xffffffff
-
-/*
- * Skylake LP GPIO PIN to Pad Mapping
- */
-#define GPIO_LP_GROUP_A 0x0
-#define GPIO_LP_GROUP_B 0x1
-#define GPIO_LP_GROUP_C 0x2
-#define GPIO_LP_GROUP_D 0x3
-#define GPIO_LP_GROUP_E 0x4
-#define GPIO_LP_GROUP_F 0x5
-#define GPIO_LP_GROUP_G 0x6
-
-#define GPIO_LP_GROUP_GPP_A 0x0200
-#define GPIO_LP_GROUP_GPP_B 0x0201
-#define GPIO_LP_GROUP_GPP_C 0x0202
-#define GPIO_LP_GROUP_GPP_D 0x0203
-#define GPIO_LP_GROUP_GPP_E 0x0204
-#define GPIO_LP_GROUP_GPP_F 0x0205
-#define GPIO_LP_GROUP_GPP_G 0x0206
-
-#define GPIO_GROUP_SHIFT 16
-#define MAX_GPIO_PIN_PER_GROUP 24
-
-/* GPIO TX STATE */
-#define B_PCH_GPIO_TX_STATE 0x0001
-#define N_PCH_GPIO_TX_STATE 0
-
-/* Interrupt number */
-#define B_PCH_GPIO_INTSEL 0x7F
-#define N_PCH_GPIO_INTSEL 0
-
-/* Structure for storing information about registers offset, community,
- * maximal pad number, smi status and smi enable for available groups
- */
-typedef struct {
- u32 community;
- u32 padcfgoffset;
- u32 padpergroup;
- u32 smistsoffset;
- u32 smienoffset;
-} GPIO_GROUP_INFO;
-
-/*
- * GPIO Community 0 Registers are for GPP_A and GPP_B groups
- */
-#define R_PCH_PCR_GPIO_GPP_A_PADCFG_OFFSET 0x400
-#define R_PCH_PCR_GPIO_GPP_B_PADCFG_OFFSET 0x4C0
-#define R_PCH_PCR_GPIO_GPP_A_SMI_STS 0x0180
-#define R_PCH_PCR_GPIO_GPP_B_SMI_STS 0x0184
-#define R_PCH_PCR_GPIO_GPP_A_SMI_EN 0x01A0
-#define R_PCH_PCR_GPIO_GPP_B_SMI_EN 0x01A4
-
-/*
- * GPIO Community 1 Registers are for GPP_C, GPP_D, GPP_E groups
- */
-#define R_PCH_PCR_GPIO_GPP_C_PADCFG_OFFSET 0x400
-#define R_PCH_PCR_GPIO_GPP_D_PADCFG_OFFSET 0x4C0
-#define R_PCH_PCR_GPIO_GPP_E_PADCFG_OFFSET 0x580
-#define R_PCH_PCR_GPIO_GPP_C_SMI_STS 0x0180
-#define R_PCH_PCR_GPIO_GPP_D_SMI_STS 0x0184
-#define R_PCH_PCR_GPIO_GPP_E_SMI_STS 0x0188
-#define R_PCH_PCR_GPIO_GPP_C_SMI_EN 0x01A0
-#define R_PCH_PCR_GPIO_GPP_D_SMI_EN 0x01A4
-#define R_PCH_PCR_GPIO_GPP_E_SMI_EN 0x01A8
-
-/*
- * GPIO Community 3 Registers are for GPP_F and GPP_G groups
- */
-#define R_PCH_PCR_GPIO_GPP_F_PADCFG_OFFSET 0x400
-#define R_PCH_PCR_GPIO_GPP_G_PADCFG_OFFSET 0x4C0
-
-/*
- * GPIO Community 2 Registers are for GPP_DSW
- */
-#define R_PCH_PCR_GPIO_GPD_PADCFG_OFFSET 0x400
-
-#define READ 0
-#define WRITE 1
-
-/* If in GPIO_GROUP_INFO structure certain register doesn't exist
- * it will have value equal to NO_REGISTER_PROPERTY
- */
-#define NO_REGISTER_PROPERTY (~0u)
-
-#define V_PCH_GPIO_GPP_A_PAD_MAX 24
-#define V_PCH_GPIO_GPP_B_PAD_MAX 24
-#define V_PCH_GPIO_GPP_C_PAD_MAX 24
-#define V_PCH_GPIO_GPP_D_PAD_MAX 24
-#define V_PCH_GPIO_GPP_E_PAD_MAX 24
-#define V_PCH_GPIO_GPP_F_PAD_MAX 24
-#define V_PCH_GPIO_GPP_G_PAD_MAX 8
-#define V_PCH_GPIO_GPD_PAD_MAX 12
-
-#define GPIO_GET_GROUP_INDEX(group) (group & 0xFF)
-#define GPIO_GET_GROUP_INDEX_FROM_PAD(pad) (\
- GPIO_GET_GROUP_INDEX((pad >> 16)))
-#define GPIO_GET_PAD_NUMBER(pad) (pad & 0xFFFF)
-
-/* Number of pins used by SerialIo controllers */
-#define PCH_SERIAL_IO_PINS_PER_UART_CONTROLLER 4
-#define PCH_SERIAL_IO_PINS_PER_UART_CONTROLLER_NO_FLOW_CTRL 2
-
-/* Below defines are based on GPIO_CONFIG structure fields */
-#define GPIO_CONF_PAD_MODE_MASK 0xF
-#define GPIO_CONF_PAD_MODE_BIT_POS 0
-
-/* GPIO Pad Mode */
-#define B_PCH_GPIO_PAD_MODE (0x1000 | 0x800 | 0x400)
-#define N_PCH_GPIO_PAD_MODE 10
-
-/* For any GpioPad usage in code use GPIO_PAD type*/
-typedef u32 GPIO_PAD;
-
-/* For any GpioGroup usage in code use GPIO_GROUP type */
-typedef u32 GPIO_GROUP;
-
-/*
- * GPIO configuration structure used for pin programming.
- * Structure contains fields that can be used to configure pad.
- */
-typedef struct {
- /*
- Pad Mode
- Pad can be set as GPIO or one of its native functions.
- When in native mode setting Direction, OutputState, Interrupt is unnecessary.
- Refer to definition of GPIO_PAD_MODE.
- Refer to EDS for each native mode according to the pad.
- */
- u32 PadMode : 4;
- /*
- Host Software Pad Ownership
- Set pad to ACPI mode or GPIO Driver Mode.
- Refer to definition of GPIO_HOSTSW_OWN.
- */
- u32 HostSoftPadOwn : 2;
- /*
- GPIO Direction
- Can choose between In, In with inversion Out, both In and Out, both In with inversion and out or d
- isabling both.
- Refer to definition of GPIO_DIRECTION for supported settings.
- */
- u32 Direction : 5;
- /*
- Output State
- Set Pad output value.
- Refer to definition of GPIO_OUTPUT_STATE for supported settings.
- This setting takes place when output is enabled.
- */
- u32 OutputState : 2;
- /*
- GPIO Interrupt Configuration
- Set Pad to cause one of interrupts (IOxAPIC/SCI/SMI/NMI). This setting is applicable only if GPIO
- A is in input mode.
- If GPIO is set to cause an SCI then also Gpe is enabled for this pad.
- Refer to definition of GPIO_INT_CONFIG for supported settings.
- */
- u32 InterruptConfig : 8;
- /*
- GPIO Power Configuration.
- This setting controls Pad Reset Configuration and Power Rail Type.
- Refer to definition of GPIO_RESET_CONFIG for supported settings.
- */
- u32 PowerConfig : 4;
- /*
- GPIO Electrical Configuration
- This setting controls pads termination and voltage tolerance.
- Refer to definition of GPIO_ELECTRICAL_CONFIG for supported settings.
- */
- u32 ElectricalConfig : 7;
- /*
- GPIO Lock Configuration
- This setting controls pads lock.
- Refer to definition of GPIO_LOCK_CONFIG for supported settings.
- */
- u32 LockConfig : 3;
- /*
- Additional GPIO configuration
- Refer to definition of GPIO_OTHER_CONFIG for supported settings.
- */
- u32 OtherSettings : 2;
- u32 RsvdBits : 27;
-} GPIO_CONFIG;
-
-typedef struct {
- GPIO_PAD GpioPad;
- GPIO_CONFIG GpioConfig;
-} GPIO_INIT_CONFIG;
-
-typedef enum {
- GpioHardwareDefault = 0x0
-} GPIO_HARDWARE_DEFAULT;
-
-/* GPIO Pad Mode */
-typedef enum {
- GpioPadModeGpio = 0x1,
- GpioPadModeNative1 = 0x3,
- GpioPadModeNative2 = 0x5,
- GpioPadModeNative3 = 0x7,
- GpioPadModeNative4 = 0x9,
-} GPIO_PAD_MODE;
-
-/* Host Software Pad Ownership modes */
-typedef enum {
- GpioHostOwnDefault = 0x0, /* Leave ownership value unmodified */
- GpioHostOwnAcpi = 0x1, /* Set HOST ownership to ACPI */
- GpioHostOwnGpio = 0x3 /* Set HOST ownership to GPIO */
-} GPIO_HOSTSW_OWN;
-
-/* GPIO Direction */
-typedef enum {
- GpioDirDefault = 0x0, /* Leave pad direction setting unmodified */
- GpioDirInOut = (0x1 | (0x1 << 3)), /* Set pad for both output and input */
- GpioDirInInvOut = (0x1 | (0x3 << 3)), /* Set pad for both output and input with inversion */
- GpioDirIn = (0x3 | (0x1 << 3)), /* Set pad for input only */
- GpioDirInInv = (0x3 | (0x3 << 3)), /* Set pad for input with inversion */
- GpioDirOut = 0x5, /* Set pad for output only */
- GpioDirNone = 0x7 /* Disable both output and input */
-} GPIO_DIRECTION;
-
-/* GPIO Output State */
-typedef enum {
- GpioOutDefault = 0x0,
- GpioOutLow = 0x1,
- GpioOutHigh = 0x3
-} GPIO_OUTPUT_STATE;
-
-/*
- * GPIO interrupt configuration
- * This setting is applicable only if GPIO is in input mode.
- * GPIO_INT_CONFIG allows to choose which interrupt is generted
- * (IOxAPIC/SCI/SMI/NMI) and how it is triggered (edge or level).
- * Field from GpioIntNmi to GpioIntApic can be OR'ed with GpioIntLevel to
- * GpioIntBothEdgecan to describe an interrupt e.g. GpioIntApic | GpioIntLevel
- * If GPIO is set to cause an SCI then also Gpe is enabled for this pad.
- * Not all GPIO are capable of generating an SMI or NMI interrupt
- */
-typedef enum {
- GpioIntDefault = 0x0, /* Leave value of interrupt routing unmodified */
- GpioIntDis = 0x1, /* Disable IOxAPIC/SCI/SMI/NMI interrupt generation */
- GpioIntNmi = 0x3, /* Enable NMI interrupt only */
- GpioIntSmi = 0x5, /* Enable SMI interrupt only */
- GpioIntSci = 0x9, /* Enable SCI interrupt only */
- GpioIntApic = 0x11, /* Enable IOxAPIC interrupt only */
- GpioIntLevel = (0x1 << 5), /* Set interrupt as level triggered */
- GpioIntEdge = (0x3 << 5), /* Set interrupt as edge triggered */
- GpioIntLvlEdgDis = (0x5 << 5), /* Disable interrupt trigger */
- GpioIntBothEdge = (0x7 << 5) /* Set interrupt as both edge triggered */
-} GPIO_INT_CONFIG;
-
-/*
- * GPIO Power Configuration
- * GPIO_RESET_CONFIG allows to set GPIO Reset (used to reset the specified
- * Pad Register fields).
- */
-typedef enum {
- GpioResetDefault = 0x0, /* Leave value of pad reset unmodified */
- GpioResetPwrGood = 0x1, /* Powergood reset */
- GpioResetDeep = 0x3, /* Deep GPIO Reset */
- GpioResetNormal = 0x5, /* GPIO Reset */
- GpioResetResume = 0x7 /* Resume Reset */
-} GPIO_RESET_CONFIG;
-
-/*
- * GPIO Electrical Configuration
- * Set GPIO termination and Pad Tolerance (applicable only for some pads)
- * Field from GpioTermDefault to GpioTermNative can be OR'ed with
- * GpioTolerance1v8.
- */
-typedef enum {
- GpioTermDefault = 0x0, /* Leave termination setting unmodified */
- GpioTermNone = 0x1, /* none */
- GpioTermWpd5K = 0x5, /* 5kOhm weak pull-down */
- GpioTermWpd20K = 0x9, /* 20kOhm weak pull-down */
- GpioTermWpu1K = 0x13, /* 1kOhm weak pull-up */
- GpioTermWpu2K = 0x17, /* 2kOhm weak pull-up */
- GpioTermWpu5K = 0x15, /* 5kOhm weak pull-up */
- GpioTermWpu20K = 0x19, /* 20kOhm weak pull-up */
- GpioTermWpu1K2K = 0x1B, /* 1kOhm & 2kOhm weak pull-up */
- GpioTermNative = 0x1F, /* Native function for pads termination */
- GpioNoTolerance1v8 = (0x1 << 5), /* Disable 1.8V pad tolerance */
- GpioTolerance1v8 = (0x3 << 5) /* Enable 1.8V pad tolerance */
-} GPIO_ELECTRICAL_CONFIG;
-
-/*
- * GPIO LockConfiguration
- * Set GPIO configuration lock and output state lock
- * GpioLockPadConfig and GpioLockOutputState can be OR'ed
- */
-typedef enum {
- GpioLockDefault = 0x0, /* Leave lock setting unmodified */
- GpioPadConfigLock = 0x3, /* Lock Pad Configuration */
- GpioOutputStateLock = 0x5 /* Lock GPIO pad output value */
-} GPIO_LOCK_CONFIG;
-
-/*
- * Other GPIO Configuration GPIO_OTHER_CONFIG is used for less often
- * settings and for future extensions Supported settings:
- * - RX raw override to '1' - allows to override input value to '1'
- * This is applicable only if in input mode (both in GPIO and native usage)
- * The override takes place at the internal pad state directly from buffer
- * and before the RXINV.
- */
-typedef enum {
- GpioRxRaw1Default = 0x0, /* Use default input override value */
- GpioRxRaw1Dis = 0x1, /* Don't override input */
- GpioRxRaw1En = 0x3 /* Override input to '1' */
-} GPIO_OTHER_CONFIG;
-
-/*
- * LP GPIO pins: Use below for functions from PCH GPIO Lib which
- * require GpioPad as argument. Encoding used here
- * has all information required by library functions
- */
-#define GPIO_LP_GPP_A0 0x02000000
-#define GPIO_LP_GPP_A1 0x02000001
-#define GPIO_LP_GPP_A2 0x02000002
-#define GPIO_LP_GPP_A3 0x02000003
-#define GPIO_LP_GPP_A4 0x02000004
-#define GPIO_LP_GPP_A5 0x02000005
-#define GPIO_LP_GPP_A6 0x02000006
-#define GPIO_LP_GPP_A7 0x02000007
-#define GPIO_LP_GPP_A8 0x02000008
-#define GPIO_LP_GPP_A9 0x02000009
-#define GPIO_LP_GPP_A10 0x0200000A
-#define GPIO_LP_GPP_A11 0x0200000B
-#define GPIO_LP_GPP_A12 0x0200000C
-#define GPIO_LP_GPP_A13 0x0200000D
-#define GPIO_LP_GPP_A14 0x0200000E
-#define GPIO_LP_GPP_A15 0x0200000F
-#define GPIO_LP_GPP_A16 0x02000010
-#define GPIO_LP_GPP_A17 0x02000011
-#define GPIO_LP_GPP_A18 0x02000012
-#define GPIO_LP_GPP_A19 0x02000013
-#define GPIO_LP_GPP_A20 0x02000014
-#define GPIO_LP_GPP_A21 0x02000015
-#define GPIO_LP_GPP_A22 0x02000016
-#define GPIO_LP_GPP_A23 0x02000017
-#define GPIO_LP_GPP_B0 0x02010000
-#define GPIO_LP_GPP_B1 0x02010001
-#define GPIO_LP_GPP_B2 0x02010002
-#define GPIO_LP_GPP_B3 0x02010003
-#define GPIO_LP_GPP_B4 0x02010004
-#define GPIO_LP_GPP_B5 0x02010005
-#define GPIO_LP_GPP_B6 0x02010006
-#define GPIO_LP_GPP_B7 0x02010007
-#define GPIO_LP_GPP_B8 0x02010008
-#define GPIO_LP_GPP_B9 0x02010009
-#define GPIO_LP_GPP_B10 0x0201000A
-#define GPIO_LP_GPP_B11 0x0201000B
-#define GPIO_LP_GPP_B12 0x0201000C
-#define GPIO_LP_GPP_B13 0x0201000D
-#define GPIO_LP_GPP_B14 0x0201000E
-#define GPIO_LP_GPP_B15 0x0201000F
-#define GPIO_LP_GPP_B16 0x02010010
-#define GPIO_LP_GPP_B17 0x02010011
-#define GPIO_LP_GPP_B18 0x02010012
-#define GPIO_LP_GPP_B19 0x02010013
-#define GPIO_LP_GPP_B20 0x02010014
-#define GPIO_LP_GPP_B21 0x02010015
-#define GPIO_LP_GPP_B22 0x02010016
-#define GPIO_LP_GPP_B23 0x02010017
-#define GPIO_LP_GPP_C0 0x02020000
-#define GPIO_LP_GPP_C1 0x02020001
-#define GPIO_LP_GPP_C2 0x02020002
-#define GPIO_LP_GPP_C3 0x02020003
-#define GPIO_LP_GPP_C4 0x02020004
-#define GPIO_LP_GPP_C5 0x02020005
-#define GPIO_LP_GPP_C6 0x02020006
-#define GPIO_LP_GPP_C7 0x02020007
-#define GPIO_LP_GPP_C8 0x02020008
-#define GPIO_LP_GPP_C9 0x02020009
-#define GPIO_LP_GPP_C10 0x0202000A
-#define GPIO_LP_GPP_C11 0x0202000B
-#define GPIO_LP_GPP_C12 0x0202000C
-#define GPIO_LP_GPP_C13 0x0202000D
-#define GPIO_LP_GPP_C14 0x0202000E
-#define GPIO_LP_GPP_C15 0x0202000F
-#define GPIO_LP_GPP_C16 0x02020010
-#define GPIO_LP_GPP_C17 0x02020011
-#define GPIO_LP_GPP_C18 0x02020012
-#define GPIO_LP_GPP_C19 0x02020013
-#define GPIO_LP_GPP_C20 0x02020014
-#define GPIO_LP_GPP_C21 0x02020015
-#define GPIO_LP_GPP_C22 0x02020016
-#define GPIO_LP_GPP_C23 0x02020017
-#define GPIO_LP_GPP_D0 0x02030000
-#define GPIO_LP_GPP_D1 0x02030001
-#define GPIO_LP_GPP_D2 0x02030002
-#define GPIO_LP_GPP_D3 0x02030003
-#define GPIO_LP_GPP_D4 0x02030004
-#define GPIO_LP_GPP_D5 0x02030005
-#define GPIO_LP_GPP_D6 0x02030006
-#define GPIO_LP_GPP_D7 0x02030007
-#define GPIO_LP_GPP_D8 0x02030008
-#define GPIO_LP_GPP_D9 0x02030009
-#define GPIO_LP_GPP_D10 0x0203000A
-#define GPIO_LP_GPP_D11 0x0203000B
-#define GPIO_LP_GPP_D12 0x0203000C
-#define GPIO_LP_GPP_D13 0x0203000D
-#define GPIO_LP_GPP_D14 0x0203000E
-#define GPIO_LP_GPP_D15 0x0203000F
-#define GPIO_LP_GPP_D16 0x02030010
-#define GPIO_LP_GPP_D17 0x02030011
-#define GPIO_LP_GPP_D18 0x02030012
-#define GPIO_LP_GPP_D19 0x02030013
-#define GPIO_LP_GPP_D20 0x02030014
-#define GPIO_LP_GPP_D21 0x02030015
-#define GPIO_LP_GPP_D22 0x02030016
-#define GPIO_LP_GPP_D23 0x02030017
-#define GPIO_LP_GPP_E0 0x02040000
-#define GPIO_LP_GPP_E1 0x02040001
-#define GPIO_LP_GPP_E2 0x02040002
-#define GPIO_LP_GPP_E3 0x02040003
-#define GPIO_LP_GPP_E4 0x02040004
-#define GPIO_LP_GPP_E5 0x02040005
-#define GPIO_LP_GPP_E6 0x02040006
-#define GPIO_LP_GPP_E7 0x02040007
-#define GPIO_LP_GPP_E8 0x02040008
-#define GPIO_LP_GPP_E9 0x02040009
-#define GPIO_LP_GPP_E10 0x0204000A
-#define GPIO_LP_GPP_E11 0x0204000B
-#define GPIO_LP_GPP_E12 0x0204000C
-#define GPIO_LP_GPP_E13 0x0204000D
-#define GPIO_LP_GPP_E14 0x0204000E
-#define GPIO_LP_GPP_E15 0x0204000F
-#define GPIO_LP_GPP_E16 0x02040010
-#define GPIO_LP_GPP_E17 0x02040011
-#define GPIO_LP_GPP_E18 0x02040012
-#define GPIO_LP_GPP_E19 0x02040013
-#define GPIO_LP_GPP_E20 0x02040014
-#define GPIO_LP_GPP_E21 0x02040015
-#define GPIO_LP_GPP_E22 0x02040016
-#define GPIO_LP_GPP_E23 0x02040017
-#define GPIO_LP_GPP_F0 0x02050000
-#define GPIO_LP_GPP_F1 0x02050001
-#define GPIO_LP_GPP_F2 0x02050002
-#define GPIO_LP_GPP_F3 0x02050003
-#define GPIO_LP_GPP_F4 0x02050004
-#define GPIO_LP_GPP_F5 0x02050005
-#define GPIO_LP_GPP_F6 0x02050006
-#define GPIO_LP_GPP_F7 0x02050007
-#define GPIO_LP_GPP_F8 0x02050008
-#define GPIO_LP_GPP_F9 0x02050009
-#define GPIO_LP_GPP_F10 0x0205000A
-#define GPIO_LP_GPP_F11 0x0205000B
-#define GPIO_LP_GPP_F12 0x0205000C
-#define GPIO_LP_GPP_F13 0x0205000D
-#define GPIO_LP_GPP_F14 0x0205000E
-#define GPIO_LP_GPP_F15 0x0205000F
-#define GPIO_LP_GPP_F16 0x02050010
-#define GPIO_LP_GPP_F17 0x02050011
-#define GPIO_LP_GPP_F18 0x02050012
-#define GPIO_LP_GPP_F19 0x02050013
-#define GPIO_LP_GPP_F20 0x02050014
-#define GPIO_LP_GPP_F21 0x02050015
-#define GPIO_LP_GPP_F22 0x02050016
-#define GPIO_LP_GPP_F23 0x02050017
-#define GPIO_LP_GPP_G0 0x02060000
-#define GPIO_LP_GPP_G1 0x02060001
-#define GPIO_LP_GPP_G2 0x02060002
-#define GPIO_LP_GPP_G3 0x02060003
-#define GPIO_LP_GPP_G4 0x02060004
-#define GPIO_LP_GPP_G5 0x02060005
-#define GPIO_LP_GPP_G6 0x02060006
-#define GPIO_LP_GPP_G7 0x02060007
-#define GPIO_LP_GPD0 0x02070000
-#define GPIO_LP_GPD1 0x02070001
-#define GPIO_LP_GPD2 0x02070002
-#define GPIO_LP_GPD3 0x02070003
-#define GPIO_LP_GPD4 0x02070004
-#define GPIO_LP_GPD5 0x02070005
-#define GPIO_LP_GPD6 0x02070006
-#define GPIO_LP_GPD7 0x02070007
-#define GPIO_LP_GPD8 0x02070008
-#define GPIO_LP_GPD9 0x02070009
-#define GPIO_LP_GPD10 0x0207000A
-#define GPIO_LP_GPD11 0x0207000B
-
-#define END_OF_GPIO_TABLE 0xFFFFFFFF
-#endif