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Atmosphere/stratosphere/boot/source/gpio/gpio_utils.cpp

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/*
* Copyright (c) 2018-2020 Atmosphère-NX
*
* This program is free software; you can redistribute it and/or modify it
* under the terms and conditions of the GNU General Public License,
* version 2, as published by the Free Software Foundation.
*
* This program is distributed in the hope 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, see <http://www.gnu.org/licenses/>.
*/
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#include <stratosphere/reg.hpp>
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#include "gpio_utils.hpp"
namespace ams::gpio {
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namespace {
/* Pull in GPIO map definitions. */
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#include "gpio_map.inc"
constexpr u32 PhysicalBase = 0x6000D000;
/* Globals. */
bool g_initialized_gpio_vaddr = false;
uintptr_t g_gpio_vaddr = 0;
/* Helpers. */
inline u32 GetPadDescriptor(u32 gpio_pad_name) {
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AMS_ABORT_UNLESS(gpio_pad_name < PadNameMax);
return Map[gpio_pad_name];
}
uintptr_t GetBaseAddress() {
if (!g_initialized_gpio_vaddr) {
g_gpio_vaddr = dd::GetIoMapping(PhysicalBase, os::MemoryPageSize);
g_initialized_gpio_vaddr = true;
}
return g_gpio_vaddr;
}
}
u32 Configure(u32 gpio_pad_name) {
uintptr_t gpio_base_vaddr = GetBaseAddress();
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/* Fetch this GPIO's pad descriptor */
const u32 gpio_pad_desc = GetPadDescriptor(gpio_pad_name);
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/* Discard invalid GPIOs */
if (gpio_pad_desc == InvalidPadName) {
return InvalidPadName;
}
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/* Convert the GPIO pad descriptor into its register offset */
u32 gpio_reg_offset = (((gpio_pad_desc << 0x03) & 0xFFFFFF00) | ((gpio_pad_desc >> 0x01) & 0x0C));
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/* Extract the bit and lock values from the GPIO pad descriptor */
u32 gpio_cnf_val = ((0x01 << ((gpio_pad_desc & 0x07) | 0x08)) | (0x01 << (gpio_pad_desc & 0x07)));
/* Write to the appropriate GPIO_CNF_x register (upper offset) */
reg::Write(gpio_base_vaddr + gpio_reg_offset + 0x80, gpio_cnf_val);
/* Do a dummy read from GPIO_CNF_x register (lower offset) */
gpio_cnf_val = reg::Read(gpio_base_vaddr + gpio_reg_offset + 0x00);
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return gpio_cnf_val;
}
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u32 SetDirection(u32 gpio_pad_name, GpioDirection dir) {
uintptr_t gpio_base_vaddr = GetBaseAddress();
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/* Fetch this GPIO's pad descriptor */
const u32 gpio_pad_desc = GetPadDescriptor(gpio_pad_name);
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/* Discard invalid GPIOs */
if (gpio_pad_desc == InvalidPadName) {
return InvalidPadName;
}
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/* Convert the GPIO pad descriptor into its register offset */
u32 gpio_reg_offset = (((gpio_pad_desc << 0x03) & 0xFFFFFF00) | ((gpio_pad_desc >> 0x01) & 0x0C));
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/* Set the direction bit and lock values */
u32 gpio_oe_val = ((0x01 << ((gpio_pad_desc & 0x07) | 0x08)) | (static_cast<u32>(dir) << (gpio_pad_desc & 0x07)));
/* Write to the appropriate GPIO_OE_x register (upper offset) */
reg::Write(gpio_base_vaddr + gpio_reg_offset + 0x90, gpio_oe_val);
/* Do a dummy read from GPIO_OE_x register (lower offset) */
gpio_oe_val = reg::Read(gpio_base_vaddr + gpio_reg_offset + 0x10);
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return gpio_oe_val;
}
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u32 SetValue(u32 gpio_pad_name, GpioValue val) {
uintptr_t gpio_base_vaddr = GetBaseAddress();
/* Fetch this GPIO's pad descriptor */
const u32 gpio_pad_desc = GetPadDescriptor(gpio_pad_name);
/* Discard invalid GPIOs */
if (gpio_pad_desc == InvalidPadName) {
return InvalidPadName;
}
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/* Convert the GPIO pad descriptor into its register offset */
u32 gpio_reg_offset = (((gpio_pad_desc << 0x03) & 0xFFFFFF00) | ((gpio_pad_desc >> 0x01) & 0x0C));
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/* Set the output bit and lock values */
u32 gpio_out_val = ((0x01 << ((gpio_pad_desc & 0x07) | 0x08)) | (static_cast<u32>(val) << (gpio_pad_desc & 0x07)));
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/* Write to the appropriate GPIO_OUT_x register (upper offset) */
reg::Write(gpio_base_vaddr + gpio_reg_offset + 0xA0, gpio_out_val);
/* Do a dummy read from GPIO_OUT_x register (lower offset) */
gpio_out_val = reg::Read(gpio_base_vaddr + gpio_reg_offset + 0x20);
return gpio_out_val;
}
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}