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thermosphere: shiny new tegra 210 gpio rewrite
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/*
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* Copyright (c) 2019-2020 Atmosphère-NX
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*
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* This program is free software; you can redistribute it and/or modify it
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* under the terms and conditions of the GNU General Public License,
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* version 2, as published by the Free Software Foundation.
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*
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* This program is distributed in the hope it will be useful, but WITHOUT
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* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
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* FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
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* more details.
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*
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* You should have received a copy of the GNU General Public License
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* along with this program. If not, see <http://www.gnu.org/licenses/>.
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*/
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#pragma once
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#include "../../../defines.hpp"
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namespace ams::hvisor::drivers::tegra::t210 {
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class Gpio final {
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private:
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static constexpr size_t numBanks = 8;
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static constexpr size_t portsPerBank = 4;
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struct Bank {
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u32 cnf[portsPerBank];
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u32 oe[portsPerBank];
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u32 out[portsPerBank];
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u32 in[portsPerBank];
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u32 int_sta[portsPerBank];
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u32 int_enb[portsPerBank];
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u32 int_lvl[portsPerBank];
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u32 int_clr[portsPerBank];
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u32 msk_cnf[portsPerBank];
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u32 msk_oe[portsPerBank];
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u32 msk_out[portsPerBank];
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u32 db_ctrl_p[portsPerBank];
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u32 msk_int_sta[portsPerBank];
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u32 msk_int_enb[portsPerBank];
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u32 msk_int_lvl[portsPerBank];
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u32 db_cnt_p[portsPerBank];
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};
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struct Registers {
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Bank bank[numBanks];
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};
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static_assert(std::is_standard_layout_v<Registers>);
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static_assert(std::is_trivial_v<Registers>);
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public:
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enum Port {
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PORT_A = 0,
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PORT_B = 1,
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PORT_C = 2,
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PORT_D = 3,
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PORT_E = 4,
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PORT_F = 5,
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PORT_G = 6,
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PORT_H = 7,
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PORT_I = 8,
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PORT_J = 9,
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PORT_K = 10,
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PORT_L = 11,
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PORT_M = 12,
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PORT_N = 13,
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PORT_O = 14,
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PORT_P = 15,
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PORT_Q = 16,
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PORT_R = 17,
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PORT_S = 18,
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PORT_T = 19,
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PORT_U = 20,
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PORT_V = 21,
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PORT_W = 22,
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PORT_X = 23,
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PORT_Y = 24,
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PORT_Z = 25,
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PORT_AA = 26,
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PORT_BB = 27,
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PORT_CC = 28,
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PORT_DD = 29,
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PORT_EE = 30,
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PORT_FF = 31,
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};
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enum class Mode {
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Sfio = 0,
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Gpio = 1,
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};
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enum class Direction {
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Tristate = 0, // Input
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Driven = 1, // Output
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Input = Tristate,
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Output = Driven,
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};
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enum class Level {
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Low = 0,
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High = 1,
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};
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private:
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// For msk_* fields
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static constexpr u32 MakeMaskedWriteValue(u32 pos, bool value)
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{
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return BIT(8 + pos) | ((value ? 1 : 0) << pos);
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}
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static constexpr u32 MakeMaskedWriteValueContiguous(u32 pos, size_t n, bool value)
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{
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u32 msk = MASK2(pos + n - 1, pos);
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return (msk << 8) | (value ? msk : 0);
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}
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private:
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struct Pin {
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Port port;
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u8 pos;
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};
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static_assert(std::is_standard_layout_v<Pin>);
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static_assert(std::is_trivial_v<Pin>);
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static_assert(sizeof(Pin) <= 8);
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public:
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static constexpr Pin uart3Tx = {PORT_D, 1};
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static constexpr Pin uart3Rx = {PORT_D, 2};
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static constexpr Pin uart3Rts = {PORT_D, 3};
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static constexpr Pin uart3Cts = {PORT_D, 4};
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static constexpr Pin uart2Tx = {PORT_G, 0};
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static constexpr Pin uart2Rx = {PORT_G, 1};
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static constexpr Pin uart2Rts = {PORT_G, 2};
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static constexpr Pin uart2Cts = {PORT_G, 3};
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static constexpr Pin uart4Tx = {PORT_I, 4};
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static constexpr Pin uart4Rx = {PORT_I, 5};
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static constexpr Pin uart4Rts = {PORT_I, 6};
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static constexpr Pin uart4Cts = {PORT_I, 7};
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static constexpr Pin uart1Tx = {PORT_U, 0};
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static constexpr Pin uart1Rx = {PORT_U, 1};
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static constexpr Pin uart1Rts = {PORT_U, 2};
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static constexpr Pin uart1Cts = {PORT_U, 3};
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static constexpr Pin volUp = {PORT_X, 6};
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static constexpr Pin volDown = {PORT_X, 7};
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static constexpr Pin microSdCardDetect = {PORT_Z, 1};
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static constexpr Pin microSdWriteProtect = {PORT_Z, 4};
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static constexpr Pin microSdSupplyEnable = {PORT_E, 4};
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static constexpr Pin lcdBlP5v = {PORT_I, 0};
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static constexpr Pin lcdBlN5v = {PORT_I, 1};
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static constexpr Pin lcdBlPwm = {PORT_V, 0};
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static constexpr Pin lcdBlEn = {PORT_V, 1};
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static constexpr Pin lcdBlRst = {PORT_V, 2};
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private:
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volatile Registers *m_regs = nullptr;
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public:
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void SetMode(Pin pin, Mode mode) const
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{
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m_regs->bank[pin.port / portsPerBank].msk_cnf[pin.port % portsPerBank] = MakeMaskedWriteValue(pin.pos, mode == Mode::Gpio);
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}
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void SetModeContiguous(Pin pin, size_t n, Mode mode) const
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{
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m_regs->bank[pin.port / portsPerBank].msk_cnf[pin.port % portsPerBank] = MakeMaskedWriteValueContiguous(pin.pos, n, mode == Mode::Gpio);
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}
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// Only valid for GPIO (not SFIO)
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void SetDirection(Pin pin, Direction direction) const
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{
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m_regs->bank[pin.port / portsPerBank].msk_oe[pin.port % portsPerBank] = MakeMaskedWriteValue(pin.pos, direction == Direction::Output);
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}
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// Only valid for GPIO (not SFIO)
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void SetDirectionContiguous(Pin pin, size_t n, Direction direction) const
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{
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m_regs->bank[pin.port / portsPerBank].msk_oe[pin.port % portsPerBank] = MakeMaskedWriteValueContiguous(pin.pos, n, direction == Direction::Output);
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}
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// Only valid for GPIO (not SFIO)
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void Write(Pin pin, Level level) const
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{
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m_regs->bank[pin.port / portsPerBank].msk_out[pin.port % portsPerBank] = MakeMaskedWriteValue(pin.pos, level == Level::High);
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}
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// Only valid for GPIO (not SFIO)
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Level Read(Pin pin) const
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{
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return static_cast<Level>((m_regs->bank[pin.port / portsPerBank].in[pin.port % portsPerBank] >> pin.pos) & 1);
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}
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void ConfigureUartPins(u32 id)
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{
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if (id > 3) {
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return;
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}
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constexpr Pin uartPins[] = {uart1Tx, uart2Tx, uart3Tx, uart4Tx};
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// Set SFIO to all the 4 contiguous pins (tx, rx, rts, cts)
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SetModeContiguous(uartPins[id], 4, Mode::Sfio);
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}
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};
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}
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